Mercurial > repos > rnateam > rcas

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/rcas.xml	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,228 @@
+<?xml version="1.0" encoding="UTF-8"?>
+<tool id="rcas" name="RNA Centric Annotation System" version="1.1.1">
+    <requirements>
+        <requirement type="package" version="1.1.1">bioconductor-rcas</requirement>
+    </requirements>
+    <stdio>
+        <regex match="Execution halted" source="both" level="fatal" description="Execution halted." />
+        <exit_code range="1:" />
+    </stdio>
+    <command><![CDATA[Rscript '$script_file'
+
+            &&
+            mv *RCAS.report.html RCAS.report.html
+
+
+            #if $run_anot == "TRUE":
+                &&
+                mv Figure*summarizeQueryRegions.data.tsv summarizeQueryRegions.data.tsv &&
+                mv Figure*query_gene_types.data.tsv query_gene_types.data.tsv &&
+                mv Figure*transcriptBoundaryCoverage.fiveprime.data.tsv transcriptBoundaryCoverage.fiveprime.data.tsv &&
+                mv Figure*transcriptBoundaryCoverage.threeprime.data.tsv transcriptBoundaryCoverage.threeprime.data.tsv &&
+                mv Figure*exonIntronBoundaryCoverage.fiveprime.data.tsv exonIntronBoundaryCoverage.fiveprime.data.tsv &&
+                mv Figure*exonIntronBoundaryCoverage.threeprime.data.tsv exonIntronBoundaryCoverage.threeprime.data.tsv &&
+                mv Figure*coverageprofilelist.data.tsv coverageprofilelist.data.tsv &&
+                mv Table*getTargetedGenesTable.data.tsv getTargetedGenesTable.data.tsv
+            #end if
+
+
+            #if $run_GOrich == "TRUE":
+                &&
+                mv Table*goBP.data.tsv goBP.data.tsv &&
+                mv Table*goMF.data.tsv goMF.data.tsv &&
+                mv Table*goCC.data.tsv goCC.data.tsv
+            #end if
+
+
+            #if $choice.run_PATHrich == "TRUE":
+                &&
+                mv Table*GSEA.data.tsv GSEA.data.tsv
+            #end if
+
+
+            #if $run_motif == "TRUE":
+                &&
+                mv Table*motif_analysis_table.data.tsv motif_analysis_table.data.tsv
+            #end if]]></command>
+    <configfiles>
+        <configfile name="script_file">library("RCAS")
+
+           runReport(queryFilePath = '${input_BED}',
+
+           gffFilePath = '${input_GTF}',
+
+           #if $choice.run_PATHrich == "TRUE":
+                msigdbFilePath = '${choice.input_human_msigdb_gmt}',
+           #end if
+
+           annotationSummary = ${run_anot},
+
+           goAnalysis = ${run_GOrich},
+
+           msigdbAnalysis = ${choice.run_PATHrich},
+
+           motifAnalysis = ${run_motif},
+
+           genomeVersion = '${genomeVersion}',
+
+           outDir = getwd(),
+
+           printProcessedTables = TRUE,
+
+           sampleN = '${downsampling}',
+
+           selfContained = TRUE)</configfile>
+    </configfiles>
+    <inputs>
+        <param name="genomeVersion" type="select" label="Genome Version">
+            <option value="hg19" selected="true">hg19</option>
+            <option value="dm3">dm3</option>
+            <option value="ce10">ce10</option>
+            <option value="mm9">mm9</option>
+        </param>
+        <param name="input_BED" type="data" format="BED" label="Target regions in BED format" help="The coordinates should be in accord with Genome Version." />
+        <param name="input_GTF" type="data" format="GTF" label="Reference annotation in ENSEMBL GTF format" />
+        <param name="run_anot" label="Run annotation." type="boolean" falsevalue="FALSE" truevalue="TRUE" checked="True" help="Use this option if you want to run annotation." />
+        <param name="run_GOrich" label="Run GO term enrichment" type="boolean" falsevalue="FALSE" truevalue="TRUE" checked="False" help="Use this option if you want to run GO term enrichment (supported genome versions: hg19, mm9, dm3)." />
+        <conditional name="choice">
+            <param name="run_PATHrich" type="select" label="Run gene set enrichment" help="Use this option if you want to run gene set enrichment.">
+                <option value="FALSE" selected="True">No</option>
+                <option value="TRUE">Yes</option>
+            </param>
+            <when value="TRUE">
+                <param name="input_human_msigdb_gmt" type="data" format="tabular" label="Human Molecular Signatures Database (MSigDB)" help="The database is usesd for gene set enrichment (supported genome versions: hg19, mm9, dm3). For non-human species, the human MSigDB will be automatically converted accordingly." />
+            </when>
+            <when value="FALSE" />
+        </conditional>
+        <param name="run_motif" label="Run motif search" type="boolean" falsevalue="FALSE" truevalue="TRUE" checked="False" help="Use this option if you want to run motif search." />
+        <param name="downsampling" label="Downsampling (N)" type="text" value="0" help="Randomly sample query regions down to (N)" />
+    </inputs>
+    <outputs>
+        <data name="report" format="html" from_work_dir="RCAS.report.html" label="${tool.name} on ${on_string}: dynamic HTML" />
+        <data name="summarizeQueryRegions" format="tsv" from_work_dir="summarizeQueryRegions.data.tsv" label="${tool.name} on ${on_string}: Query regions summary">
+            <filter>run_anot == True</filter>
+        </data>
+        <data name="query_gene_types" format="tsv" from_work_dir="query_gene_types.data.tsv" label="${tool.name} on ${on_string}: Query gene types">
+            <filter>run_anot == True</filter>
+        </data>
+        <data name="transcriptBoundaryCoverage.fiveprime" format="tsv" from_work_dir="transcriptBoundaryCoverage.fiveprime.data.tsv" label="${tool.name} on ${on_string}: Transcript boundary coverage (5')">
+            <filter>run_anot == True</filter>
+        </data>
+        <data name="transcriptBoundaryCoverage.threeprime" format="tsv" from_work_dir="transcriptBoundaryCoverage.threeprime.data.tsv" label="${tool.name} on ${on_string}: Transcript boundary coverage (3')">
+            <filter>run_anot == True</filter>
+        </data>
+        <data name="exonIntronBoundaryCoverage.fiveprime" format="tsv" from_work_dir="exonIntronBoundaryCoverage.fiveprime.data.tsv" label="${tool.name} on ${on_string}: Exon-intron boundary coverage (5')">
+            <filter>run_anot == True</filter>
+        </data>
+        <data name="exonIntronBoundaryCoverage.threeprime" format="tsv" from_work_dir="exonIntronBoundaryCoverage.threeprime.data.tsv" label="${tool.name} on ${on_string}: Exon-intron boundary coverage (3')">
+            <filter>run_anot == True</filter>
+        </data>
+        <data name="coverageprofilelist" format="tsv" from_work_dir="coverageprofilelist.data.tsv" label="${tool.name} on ${on_string}: Coverage profile list">
+            <filter>run_anot == True</filter>
+        </data>
+        <data name="getTargetedGenesTable" format="tsv" from_work_dir="getTargetedGenesTable.data.tsv" label="${tool.name} on ${on_string}: Targeted genes">
+            <filter>run_anot == True</filter>
+        </data>
+        <data name="goCC" format="tsv" from_work_dir="goCC.data.tsv" label="${tool.name} on ${on_string}: GO term enrichment (cellular compartments)">
+            <filter>run_GOrich == True</filter>
+        </data>
+        <data name="goBP" format="tsv" from_work_dir="goBP.data.tsv" label="${tool.name} on ${on_string}: GO term enrichment (biological processes)">
+            <filter>run_GOrich == True</filter>
+        </data>
+        <data name="goMF" format="tsv" from_work_dir="goMF.data.tsv" label="${tool.name} on ${on_string}: GO term enrichment (molecular functions)">
+            <filter>run_GOrich == True</filter>
+        </data>
+        <data name="GSEA" format="tsv" from_work_dir="GSEA.data.tsv" label="${tool.name} on ${on_string}: Gene set enrichment analysis">
+            <filter>choice['run_PATHrich'] == "TRUE"</filter>
+        </data>
+        <data name="motif" format="tsv" from_work_dir="motif_analysis_table.data.tsv" label="${tool.name} on ${on_string}: Motif">
+            <filter>run_motif == True</filter>
+        </data>
+    </outputs>
+    <tests>
+        <test>
+            <param name="input_BED" value="input.TIA1.bed" />
+            <param name="input_GTF" value="input.Homo_sapiens.GRCh37-chr1-f10k.75.gtf" />
+            <param name="input_human_msigdb_gmt" value="input.msigdb_test.gmt" />
+            <param name="run_anot" value="TRUE" />
+            <param name="run_GOrich" value="TRUE" />
+            <param name="run_PATHrich" value="TRUE" />
+            <param name="run_motif" value="TRUE" />
+            <param name="genomeVersion" value="hg19" />
+            <output name="report" file="output.TIA1.bed.RCAS.report.html" ftype="html" compare="sim_size" />
+            <output name="summarizeQueryRegions" file="summarizeQueryRegions.data.tsv" ftype="tsv" />
+            <output name="query_gene_types" file="query_gene_types.data.tsv" ftype="tsv" />
+            <output name="transcriptBoundaryCoverage.fiveprime" file="transcriptBoundaryCoverage.fiveprime.data.tsv" ftype="tsv" />
+            <output name="transcriptBoundaryCoverage.threeprime" file="transcriptBoundaryCoverage.threeprime.data.tsv" ftype="tsv" />
+            <output name="exonIntronBoundaryCoverage.fiveprime" file="exonIntronBoundaryCoverage.fiveprime.data.tsv" ftype="tsv" />
+            <output name="exonIntronBoundaryCoverage.threeprime" file="exonIntronBoundaryCoverage.threeprime.data.tsv" ftype="tsv" />
+            <output name="coverageprofilelist" file="coverageprofilelist.data.tsv" ftype="tsv" />
+            <output name="getTargetedGenesTable" file="getTargetedGenesTable.data.tsv" ftype="tsv" />
+            <output name="goCC" file="goCC.data.tsv" ftype="tsv" compare="sim_size"/>
+            <output name="goBP" file="goBP.data.tsv" ftype="tsv" compare="sim_size"/>
+            <output name="goMF" file="goMF.data.tsv" ftype="tsv" compare="sim_size"/>
+            <output name="GSEA" file="GSEA.data.tsv" ftype="tsv" />
+            <output name="motif" file="motif_analysis_table.data.tsv" ftype="tsv" compare="sim_size" />
+        </test>
+    </tests>
+    <help><![CDATA[.. class:: infomark
+
+**Purpose**
+
+RNA Centric Annotation System (RCAS) automatically generates
+dynamic annotations for custom input files
+that contain transcriptomic target regions.
+RCAS automatically summarizes annotated features
+that overlap with targets in the BED file,
+and perform enrichment analysis of
+Gene Ontology (GO) terms, gene set and motifs.
+
+-----
+
+.. class:: infomark
+
+**Inputs**
+
+1. A target region file in BED format
+2. A reference annotation file in GTF format
+3. A Human Molecular Signatures Database (MSigDB) (only needed for gene set enrichment)
+
+-----
+
+.. class:: infomark
+
+**Outputs**
+
+The outputs consist of a dynamic HTML file and
+a dozen of tabular files.
+The dynamic HTML file is composed of the interactive tables and figures,
+which can be downloaded and viewed with a web browser.
+
+The tabular files correspond to the respective figures in the HTML file,
+which are the results
+of different RCAS analysis, as following:
+
+1. Annotation summary for query regions
+
+  * Query regions summary
+  * Query gene types
+  * Transcript boundary coverage (5')
+  * Transcript boundary coverage (3')
+  * Exon-intron boundary coverage (5')
+  * Exon-intron boundary coverage (3')
+  * Coverage profile list
+  * Targeted genes
+
+2. GO term analysis results
+
+  * GO term enrichment (cellular compartments)
+  * GO term enrichment (biological processes)
+  * GO term enrichment (molecular functions)
+
+3. Gene set enrichment analysis results
+
+4. Motif analysis results]]></help>
+    <citations>
+        <citation type="doi">10.1093/nar/gkx120</citation>
+    </citations>
+</tool>
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/readme.rst	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,16 @@
+Important notes
+----------------
+
+- the dependencies of the tool are handled by the conda dependency resolver
+
+- to install the dependencies, the galaxy administrator needs to configure to ensure the conda channels - bioconda, r, conda-forge, defaults
+
+- by default, the conda installation includes hg19
+
+- to enable analysis for mm9, ce10, dm3, the administrator needs to separately install the relevant packages from the channel bioconda
+    - bioconductor-bsgenome.dmelanogaster.ucsc.dm3
+    - bioconductor-bsgenome.celegans.ucsc.ce10
+    - bioconductor-bsgenome.mmusculus.ucsc.mm9
+    - bioconductor-org.mm.eg.db
+    - bioconductor-org.ce.eg.db
+    - bioconductor-org.dm.eg.db
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/GSEA.data.tsv	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,11 @@
+treatment	expectedInTreatment	BH	bonferroni	foldEnrichment
+KEGG GLYCOLYSIS GLUCONEOGENESIS	0	0	1	1	NA
+KEGG CITRATE CYCLE TCA CYCLE	0	0	1	1	NA
+KEGG PENTOSE PHOSPHATE PATHWAY	0	0	1	1	NA
+KEGG PENTOSE AND GLUCURONATE INTERCONVERSIONS	0	0	1	1	NA
+KEGG FRUCTOSE AND MANNOSE METABOLISM	0	0	1	1	NA
+KEGG GALACTOSE METABOLISM	0	0	1	1	NA
+KEGG ASCORBATE AND ALDARATE METABOLISM	0	0	1	1	NA
+KEGG FATTY ACID METABOLISM	0	0	1	1	NA
+KEGG STEROID BIOSYNTHESIS	0	0	1	1	NA
+KEGG PRIMARY BILE ACID BIOSYNTHESIS	0	0	1	1	NA
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/coverageprofilelist.data.tsv	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,701 @@
+bins	meanCoverage	standardError	feature
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/getTargetedGenesTable.data.tsv	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,89 @@
+tx_name	transcripts	exons	promoters	fiveUTRs	introns	cds	threeUTRs
+1	ENST00000378609	5	4	0	1	1	1	3
+2	ENST00000327044	2	1	0	0	1	0	1
+3	ENST00000347370	2	2	0	0	0	0	2
+4	ENST00000378536	2	2	0	0	0	0	2
+5	ENST00000450390	2	2	0	0	0	0	2
+6	ENST00000477976	2	1	0	0	1	0	0
+7	ENST00000263741	1	1	0	0	0	0	1
+8	ENST00000291386	1	1	0	0	0	0	1
+9	ENST00000306256	1	1	0	0	0	1	0
+10	ENST00000308647	1	1	0	0	0	1	0
+11	ENST00000323275	1	0	0	0	1	0	0
+12	ENST00000360001	1	1	0	0	0	0	1
+13	ENST00000378512	1	1	0	0	0	1	0
+14	ENST00000378513	1	0	0	0	1	0	0
+15	ENST00000378518	1	0	0	0	1	0	0
+16	ENST00000378567	1	0	0	0	1	0	0
+17	ENST00000378726	1	1	0	0	0	0	0
+18	ENST00000400809	1	0	0	0	1	0	0
+19	ENST00000400920	1	0	1	1	1	0	0
+20	ENST00000400921	1	0	0	1	1	0	0
+21	ENST00000408952	1	0	0	1	1	0	0
+22	ENST00000411962	1	0	0	0	1	0	0
+23	ENST00000418865	1	1	0	0	0	0	0
+24	ENST00000419704	1	0	0	0	1	0	0
+25	ENST00000421495	1	0	0	1	1	0	0
+26	ENST00000429572	1	1	0	0	0	0	0
+27	ENST00000430786	1	0	0	0	1	0	1
+28	ENST00000434686	1	0	0	1	1	0	0
+29	ENST00000434694	1	0	0	0	1	0	0
+30	ENST00000435064	1	0	0	0	1	0	0
+31	ENST00000439272	1	0	0	1	1	0	0
+32	ENST00000443438	1	1	0	0	0	1	0
+33	ENST00000450926	1	0	0	0	1	0	0
+34	ENST00000458452	1	0	0	0	1	0	1
+35	ENST00000461106	1	0	0	0	1	0	0
+36	ENST00000461465	1	0	0	1	1	0	0
+37	ENST00000461893	1	1	0	0	0	0	0
+38	ENST00000465727	1	1	0	0	0	0	1
+39	ENST00000466651	1	0	0	0	1	0	0
+40	ENST00000468310	1	0	0	0	1	0	0
+41	ENST00000469113	1	1	0	0	1	0	0
+42	ENST00000470596	1	0	0	1	1	0	0
+43	ENST00000471354	1	1	0	0	0	0	0
+44	ENST00000471930	1	1	0	0	0	0	0
+45	ENST00000472194	1	1	0	0	0	0	0
+46	ENST00000472614	1	0	0	0	1	0	0
+47	ENST00000474481	1	1	0	0	0	0	0
+48	ENST00000478938	1	1	0	0	0	0	0
+49	ENST00000481140	1	0	0	0	1	0	0
+50	ENST00000481223	1	1	0	0	0	0	1
+51	ENST00000482365	1	1	0	0	0	0	0
+52	ENST00000482621	1	0	0	0	1	0	1
+53	ENST00000482686	1	0	1	1	1	0	0
+54	ENST00000483767	1	1	0	0	0	0	0
+55	ENST00000485748	1	1	0	0	0	0	0
+56	ENST00000486681	1	0	1	1	1	0	0
+57	ENST00000487214	1	0	0	0	1	0	0
+58	ENST00000488042	1	0	0	0	1	0	0
+59	ENST00000488340	1	0	0	0	1	0	0
+60	ENST00000488353	1	1	0	0	0	1	0
+61	ENST00000494748	1	1	0	0	0	0	0
+62	ENST00000495347	1	0	0	1	1	0	0
+63	ENST00000496007	1	1	0	0	0	0	0
+64	ENST00000496325	1	0	0	1	1	0	0
+65	ENST00000496353	1	1	0	0	0	0	0
+66	ENST00000498173	1	1	0	0	0	0	0
+67	ENST00000505849	1	1	0	0	1	0	0
+68	ENST00000525603	1	0	0	0	1	0	0
+69	ENST00000526113	1	0	0	0	1	0	0
+70	ENST00000526332	1	0	0	0	1	0	0
+71	ENST00000526797	1	0	0	0	1	0	1
+72	ENST00000526904	1	0	0	0	1	0	0
+73	ENST00000527098	1	0	0	0	1	0	1
+74	ENST00000527719	1	0	0	0	1	0	0
+75	ENST00000528879	1	0	0	0	1	0	0
+76	ENST00000530031	1	0	0	0	1	0	0
+77	ENST00000531377	1	0	0	0	1	0	0
+78	ENST00000532772	1	0	0	0	1	0	0
+79	ENST00000540437	1	0	0	0	1	0	0
+80	ENST00000545578	1	0	0	0	1	0	0
+81	ENST00000605895	1	1	0	0	0	1	0
+82	ENST00000378733	0	0	1	0	0	0	0
+83	ENST00000425828	0	0	1	0	0	0	0
+84	ENST00000444968	0	0	1	0	0	0	0
+85	ENST00000462432	0	0	1	0	0	0	0
+86	ENST00000480479	0	0	1	0	0	0	0
+87	ENST00000480646	0	0	1	0	0	0	0
+88	ENST00000492998	0	0	1	0	0	0	0
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/goBP.data.tsv	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,33 @@
+Term	Significant	Expected	bonferroni	bh	foldEnrichment
+GO:0006139	nucleobase-containing compound metabolic...	6	4.2	1	0.596363636363636	1.43
+GO:0006725	cellular aromatic compound metabolic pro...	6	4.2	1	0.596363636363636	1.43
+GO:0046483	heterocycle metabolic process	6	4.2	1	0.596363636363636	1.43
+GO:1901360	organic cyclic compound metabolic proces...	6	4.2	1	0.596363636363636	1.43
+GO:0019538	protein metabolic process	6	4.4	1	0.596363636363636	1.36
+GO:0050794	regulation of cellular process	8	6	1	0.596363636363636	1.33
+GO:0044260	cellular macromolecule metabolic process	7	5.4	1	0.596363636363636	1.3
+GO:0034641	cellular nitrogen compound metabolic pro...	6	4.6	1	0.596363636363636	1.3
+GO:0050789	regulation of biological process	8	6.2	1	0.596363636363636	1.29
+GO:0065007	biological regulation	8	6.2	1	0.596363636363636	1.29
+GO:0009059	macromolecule biosynthetic process	5	4	1	0.596363636363636	1.25
+GO:0031323	regulation of cellular metabolic process	5	4	1	0.596363636363636	1.25
+GO:0034645	cellular macromolecule biosynthetic proc...	5	4	1	0.596363636363636	1.25
+GO:0044710	single-organism metabolic process	5	4	1	0.596363636363636	1.25
+GO:0080090	regulation of primary metabolic process	5	4	1	0.596363636363636	1.25
+GO:0043170	macromolecule metabolic process	7	5.8	1	0.596363636363636	1.21
+GO:0006807	nitrogen compound metabolic process	6	5	1	0.596363636363636	1.2
+GO:0050896	response to stimulus	6	5	1	0.596363636363636	1.2
+GO:0044271	cellular nitrogen compound biosynthetic ...	5	4.2	1	0.596363636363636	1.19
+GO:0051716	cellular response to stimulus	5	4.2	1	0.596363636363636	1.19
+GO:0044237	cellular metabolic process	8	6.8	1	0.596363636363636	1.18
+GO:0019222	regulation of metabolic process	5	4.4	1	0.653913043478261	1.14
+GO:0009987	cellular process	10	9.2	1	0.596363636363636	1.09
+GO:0008152	metabolic process	8	7.6	1	0.687407407407407	1.05
+GO:0009058	biosynthetic process	5	4.8	1	0.687407407407407	1.04
+GO:0044249	cellular biosynthetic process	5	4.8	1	0.687407407407407	1.04
+GO:1901576	organic substance biosynthetic process	5	4.8	1	0.687407407407407	1.04
+GO:0044238	primary metabolic process	7	7	1	0.728275862068966	1
+GO:0071704	organic substance metabolic process	7	7	1	0.728275862068966	1
+GO:0008150	biological_process	10	10	1	1	1
+GO:0044699	single-organism process	8	8.2	1	0.774193548387097	0.98
+GO:0044763	single-organism cellular process	8	8.2	1	0.774193548387097	0.98
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/goCC.data.tsv	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,18 @@
+Term	Significant	Expected	bonferroni	bh	foldEnrichment
+GO:0044446	intracellular organelle part	10	3.97	0.001054	0.000935	2.52
+GO:0044422	organelle part	10	4.15	0.00187	0.000935	2.41
+GO:0043231	intracellular membrane-bounded organelle	11	6.13	0.01156	0.00385333333333333	1.79
+GO:0043227	membrane-bounded organelle	11	6.49	0.02448	0.00612	1.69
+GO:0043229	intracellular organelle	11	6.85	0.04896	0.009792	1.61
+GO:0005737	cytoplasm	10	6.31	0.21097	0.0234411111111111	1.58
+GO:0043226	organelle	11	7.21	0.09401	0.0156683333333333	1.53
+GO:0005622	intracellular	11	7.57	0.17408	0.02176	1.45
+GO:0044424	intracellular part	11	7.57	0.17408	0.02176	1.45
+GO:0044444	cytoplasmic part	6	4.33	1	0.2988175	1.39
+GO:0005623	cell	11	9.2	1	0.176042727272727	1.2
+GO:0044464	cell part	11	9.2	1	0.176042727272727	1.2
+GO:0005575	cellular_component	11	11	1	1	1
+GO:0016020	membrane	6	6.31	1	0.927794615384615	0.95
+GO:0044425	membrane part	4	5.23	1	1	0.76
+GO:0016021	integral component of membrane	2	4.33	1	1	0.46
+GO:0031224	intrinsic component of membrane	2	4.33	1	1	0.46
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/goMF.data.tsv	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,5 @@
+Term	Significant	Expected	bonferroni	bh	foldEnrichment
+GO:0005515	protein binding	10	7.13	0.164	0.164	1.4
+GO:0005488	binding	11	9.78	0.944	0.472	1.12
+GO:0003674	molecular_function	11	11	1	1	1
+GO:0043167	ion binding	5	5.09	1	0.872	0.98
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/input.Homo_sapiens.GRCh37-chr1-f10k.75.gtf	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,10000 @@
+#!genome-build GRCh37.p13
+#!genome-version GRCh37
+#!genome-date 2009-02
+#!genome-build-accession NCBI:GCA_000001405.14
+#!genebuild-last-updated 2013-09
+1	pseudogene	gene	11869	14412	.	+	.	gene_id "ENSG00000223972"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene";
+1	processed_transcript	transcript	11869	14409	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000456328"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-002"; transcript_source "havana";
+1	processed_transcript	exon	11869	12227	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000456328"; exon_number "1"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-002"; transcript_source "havana"; exon_id "ENSE00002234944";
+1	processed_transcript	exon	12613	12721	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000456328"; exon_number "2"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-002"; transcript_source "havana"; exon_id "ENSE00003582793";
+1	processed_transcript	exon	13221	14409	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000456328"; exon_number "3"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-002"; transcript_source "havana"; exon_id "ENSE00002312635";
+1	transcribed_unprocessed_pseudogene	transcript	11872	14412	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000515242"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-201"; transcript_source "ensembl";
+1	transcribed_unprocessed_pseudogene	exon	11872	12227	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000515242"; exon_number "1"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-201"; transcript_source "ensembl"; exon_id "ENSE00002234632";
+1	transcribed_unprocessed_pseudogene	exon	12613	12721	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000515242"; exon_number "2"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-201"; transcript_source "ensembl"; exon_id "ENSE00003608237";
+1	transcribed_unprocessed_pseudogene	exon	13225	14412	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000515242"; exon_number "3"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-201"; transcript_source "ensembl"; exon_id "ENSE00002306041";
+1	transcribed_unprocessed_pseudogene	transcript	11874	14409	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000518655"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-202"; transcript_source "ensembl";
+1	transcribed_unprocessed_pseudogene	exon	11874	12227	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000518655"; exon_number "1"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-202"; transcript_source "ensembl"; exon_id "ENSE00002269724";
+1	transcribed_unprocessed_pseudogene	exon	12595	12721	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000518655"; exon_number "2"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-202"; transcript_source "ensembl"; exon_id "ENSE00002270865";
+1	transcribed_unprocessed_pseudogene	exon	13403	13655	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000518655"; exon_number "3"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-202"; transcript_source "ensembl"; exon_id "ENSE00002216795";
+1	transcribed_unprocessed_pseudogene	exon	13661	14409	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000518655"; exon_number "4"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-202"; transcript_source "ensembl"; exon_id "ENSE00002303382";
+1	transcribed_unprocessed_pseudogene	transcript	12010	13670	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000450305"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-001"; transcript_source "havana";
+1	transcribed_unprocessed_pseudogene	exon	12010	12057	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000450305"; exon_number "1"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-001"; transcript_source "havana"; exon_id "ENSE00001948541";
+1	transcribed_unprocessed_pseudogene	exon	12179	12227	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000450305"; exon_number "2"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-001"; transcript_source "havana"; exon_id "ENSE00001671638";
+1	transcribed_unprocessed_pseudogene	exon	12613	12697	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000450305"; exon_number "3"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-001"; transcript_source "havana"; exon_id "ENSE00001758273";
+1	transcribed_unprocessed_pseudogene	exon	12975	13052	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000450305"; exon_number "4"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-001"; transcript_source "havana"; exon_id "ENSE00001799933";
+1	transcribed_unprocessed_pseudogene	exon	13221	13374	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000450305"; exon_number "5"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-001"; transcript_source "havana"; exon_id "ENSE00001746346";
+1	transcribed_unprocessed_pseudogene	exon	13453	13670	.	+	.	gene_id "ENSG00000223972"; transcript_id "ENST00000450305"; exon_number "6"; gene_name "DDX11L1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "DDX11L1-001"; transcript_source "havana"; exon_id "ENSE00001863096";
+1	pseudogene	gene	14363	29806	.	-	.	gene_id "ENSG00000227232"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	14363	29370	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000438504"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-202"; transcript_source "ensembl";
+1	unprocessed_pseudogene	exon	29321	29370	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000438504"; exon_number "1"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-202"; transcript_source "ensembl"; exon_id "ENSE00001718035";
+1	unprocessed_pseudogene	exon	24738	24891	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000438504"; exon_number "2"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-202"; transcript_source "ensembl"; exon_id "ENSE00003624050";
+1	unprocessed_pseudogene	exon	18268	18379	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000438504"; exon_number "3"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-202"; transcript_source "ensembl"; exon_id "ENSE00001642865";
+1	unprocessed_pseudogene	exon	17915	18061	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000438504"; exon_number "4"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-202"; transcript_source "ensembl"; exon_id "ENSE00003638984";
+1	unprocessed_pseudogene	exon	17602	17742	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000438504"; exon_number "5"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-202"; transcript_source "ensembl"; exon_id "ENSE00001699689";
+1	unprocessed_pseudogene	exon	17233	17364	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000438504"; exon_number "6"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-202"; transcript_source "ensembl"; exon_id "ENSE00001656010";
+1	unprocessed_pseudogene	exon	16854	17055	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000438504"; exon_number "7"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-202"; transcript_source "ensembl"; exon_id "ENSE00001760358";
+1	unprocessed_pseudogene	exon	16607	16765	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000438504"; exon_number "8"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-202"; transcript_source "ensembl"; exon_id "ENSE00003618297";
+1	unprocessed_pseudogene	exon	15904	15947	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000438504"; exon_number "9"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-202"; transcript_source "ensembl"; exon_id "ENSE00001375216";
+1	unprocessed_pseudogene	exon	15796	15901	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000438504"; exon_number "10"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-202"; transcript_source "ensembl"; exon_id "ENSE00001388009";
+1	unprocessed_pseudogene	exon	14970	15038	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000438504"; exon_number "11"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-202"; transcript_source "ensembl"; exon_id "ENSE00003497546";
+1	unprocessed_pseudogene	exon	14363	14829	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000438504"; exon_number "12"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-202"; transcript_source "ensembl"; exon_id "ENSE00003511598";
+1	unprocessed_pseudogene	transcript	14363	24886	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000541675"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-204"; transcript_source "ensembl";
+1	unprocessed_pseudogene	exon	24734	24886	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000541675"; exon_number "1"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-204"; transcript_source "ensembl"; exon_id "ENSE00002254515";
+1	unprocessed_pseudogene	exon	18268	18369	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000541675"; exon_number "2"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-204"; transcript_source "ensembl"; exon_id "ENSE00002303227";
+1	unprocessed_pseudogene	exon	17915	18061	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000541675"; exon_number "3"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-204"; transcript_source "ensembl"; exon_id "ENSE00003638984";
+1	unprocessed_pseudogene	exon	17606	17742	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000541675"; exon_number "4"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-204"; transcript_source "ensembl"; exon_id "ENSE00003629019";
+1	unprocessed_pseudogene	exon	17498	17504	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000541675"; exon_number "5"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-204"; transcript_source "ensembl"; exon_id "ENSE00002285713";
+1	unprocessed_pseudogene	exon	17233	17364	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000541675"; exon_number "6"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-204"; transcript_source "ensembl"; exon_id "ENSE00001656010";
+1	unprocessed_pseudogene	exon	16854	17055	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000541675"; exon_number "7"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-204"; transcript_source "ensembl"; exon_id "ENSE00001760358";
+1	unprocessed_pseudogene	exon	14970	15038	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000541675"; exon_number "8"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-204"; transcript_source "ensembl"; exon_id "ENSE00003497546";
+1	unprocessed_pseudogene	exon	14363	14829	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000541675"; exon_number "9"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-204"; transcript_source "ensembl"; exon_id "ENSE00003511598";
+1	unprocessed_pseudogene	transcript	14363	29370	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000423562"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-201"; transcript_source "ensembl";
+1	unprocessed_pseudogene	exon	29321	29370	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000423562"; exon_number "1"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-201"; transcript_source "ensembl"; exon_id "ENSE00001718035";
+1	unprocessed_pseudogene	exon	24738	24891	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000423562"; exon_number "2"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-201"; transcript_source "ensembl"; exon_id "ENSE00003603734";
+1	unprocessed_pseudogene	exon	17915	18061	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000423562"; exon_number "3"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-201"; transcript_source "ensembl"; exon_id "ENSE00003513603";
+1	unprocessed_pseudogene	exon	17606	17742	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000423562"; exon_number "4"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-201"; transcript_source "ensembl"; exon_id "ENSE00003565315";
+1	unprocessed_pseudogene	exon	17233	17368	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000423562"; exon_number "5"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-201"; transcript_source "ensembl"; exon_id "ENSE00003685767";
+1	unprocessed_pseudogene	exon	16858	17055	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000423562"; exon_number "6"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-201"; transcript_source "ensembl"; exon_id "ENSE00003553898";
+1	unprocessed_pseudogene	exon	16607	16765	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000423562"; exon_number "7"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-201"; transcript_source "ensembl"; exon_id "ENSE00003621279";
+1	unprocessed_pseudogene	exon	15796	15947	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000423562"; exon_number "8"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-201"; transcript_source "ensembl"; exon_id "ENSE00002030414";
+1	unprocessed_pseudogene	exon	14970	15038	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000423562"; exon_number "9"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-201"; transcript_source "ensembl"; exon_id "ENSE00003591210";
+1	unprocessed_pseudogene	exon	14363	14829	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000423562"; exon_number "10"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-201"; transcript_source "ensembl"; exon_id "ENSE00003693168";
+1	unprocessed_pseudogene	transcript	14404	29570	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000488147"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	29534	29570	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000488147"; exon_number "1"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-001"; transcript_source "havana"; exon_id "ENSE00001890219";
+1	unprocessed_pseudogene	exon	24738	24891	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000488147"; exon_number "2"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-001"; transcript_source "havana"; exon_id "ENSE00003507205";
+1	unprocessed_pseudogene	exon	18268	18366	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000488147"; exon_number "3"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-001"; transcript_source "havana"; exon_id "ENSE00003477500";
+1	unprocessed_pseudogene	exon	17915	18061	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000488147"; exon_number "4"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-001"; transcript_source "havana"; exon_id "ENSE00003565697";
+1	unprocessed_pseudogene	exon	17606	17742	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000488147"; exon_number "5"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-001"; transcript_source "havana"; exon_id "ENSE00003475637";
+1	unprocessed_pseudogene	exon	17233	17368	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000488147"; exon_number "6"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-001"; transcript_source "havana"; exon_id "ENSE00003502542";
+1	unprocessed_pseudogene	exon	16858	17055	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000488147"; exon_number "7"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-001"; transcript_source "havana"; exon_id "ENSE00003553898";
+1	unprocessed_pseudogene	exon	16607	16765	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000488147"; exon_number "8"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-001"; transcript_source "havana"; exon_id "ENSE00003621279";
+1	unprocessed_pseudogene	exon	15796	15947	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000488147"; exon_number "9"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-001"; transcript_source "havana"; exon_id "ENSE00002030414";
+1	unprocessed_pseudogene	exon	15005	15038	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000488147"; exon_number "10"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-001"; transcript_source "havana"; exon_id "ENSE00001935574";
+1	unprocessed_pseudogene	exon	14404	14501	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000488147"; exon_number "11"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-001"; transcript_source "havana"; exon_id "ENSE00001843071";
+1	unprocessed_pseudogene	transcript	14411	29806	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl";
+1	unprocessed_pseudogene	exon	29534	29806	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; exon_number "1"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl"; exon_id "ENSE00001378845";
+1	unprocessed_pseudogene	exon	24737	24891	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; exon_number "2"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl"; exon_id "ENSE00002317443";
+1	unprocessed_pseudogene	exon	18268	18366	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; exon_number "3"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl"; exon_id "ENSE00003682243";
+1	unprocessed_pseudogene	exon	17915	18061	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; exon_number "4"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl"; exon_id "ENSE00003638984";
+1	unprocessed_pseudogene	exon	17602	17742	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; exon_number "5"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl"; exon_id "ENSE00001699689";
+1	unprocessed_pseudogene	exon	17233	17364	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; exon_number "6"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl"; exon_id "ENSE00001656010";
+1	unprocessed_pseudogene	exon	16858	17055	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; exon_number "7"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl"; exon_id "ENSE00003632482";
+1	unprocessed_pseudogene	exon	16748	16765	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; exon_number "8"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl"; exon_id "ENSE00002275850";
+1	unprocessed_pseudogene	exon	16607	16745	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; exon_number "9"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl"; exon_id "ENSE00002241734";
+1	unprocessed_pseudogene	exon	15904	15947	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; exon_number "10"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl"; exon_id "ENSE00001375216";
+1	unprocessed_pseudogene	exon	15796	15901	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; exon_number "11"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl"; exon_id "ENSE00001388009";
+1	unprocessed_pseudogene	exon	15000	15038	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; exon_number "12"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl"; exon_id "ENSE00002215305";
+1	unprocessed_pseudogene	exon	14411	14502	.	-	.	gene_id "ENSG00000227232"; transcript_id "ENST00000538476"; exon_number "13"; gene_name "WASH7P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "WASH7P-203"; transcript_source "ensembl"; exon_id "ENSE00002295553";
+1	lincRNA	gene	29554	31109	.	+	.	gene_id "ENSG00000243485"; gene_name "MIR1302-10"; gene_source "ensembl_havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	29554	31097	.	+	.	gene_id "ENSG00000243485"; transcript_id "ENST00000473358"; gene_name "MIR1302-10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "MIR1302-10-001"; transcript_source "havana";
+1	lincRNA	exon	29554	30039	.	+	.	gene_id "ENSG00000243485"; transcript_id "ENST00000473358"; exon_number "1"; gene_name "MIR1302-10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "MIR1302-10-001"; transcript_source "havana"; exon_id "ENSE00001947070";
+1	lincRNA	exon	30564	30667	.	+	.	gene_id "ENSG00000243485"; transcript_id "ENST00000473358"; exon_number "2"; gene_name "MIR1302-10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "MIR1302-10-001"; transcript_source "havana"; exon_id "ENSE00001922571";
+1	lincRNA	exon	30976	31097	.	+	.	gene_id "ENSG00000243485"; transcript_id "ENST00000473358"; exon_number "3"; gene_name "MIR1302-10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "MIR1302-10-001"; transcript_source "havana"; exon_id "ENSE00001827679";
+1	lincRNA	transcript	30267	31109	.	+	.	gene_id "ENSG00000243485"; transcript_id "ENST00000469289"; gene_name "MIR1302-10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "MIR1302-10-002"; transcript_source "havana";
+1	lincRNA	exon	30267	30667	.	+	.	gene_id "ENSG00000243485"; transcript_id "ENST00000469289"; exon_number "1"; gene_name "MIR1302-10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "MIR1302-10-002"; transcript_source "havana"; exon_id "ENSE00001841699";
+1	lincRNA	exon	30976	31109	.	+	.	gene_id "ENSG00000243485"; transcript_id "ENST00000469289"; exon_number "2"; gene_name "MIR1302-10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "MIR1302-10-002"; transcript_source "havana"; exon_id "ENSE00001890064";
+1	miRNA	transcript	30366	30503	.	+	.	gene_id "ENSG00000243485"; transcript_id "ENST00000607096"; gene_name "MIR1302-10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "MIR1302-10-201"; transcript_source "ensembl";
+1	miRNA	exon	30366	30503	.	+	.	gene_id "ENSG00000243485"; transcript_id "ENST00000607096"; exon_number "1"; gene_name "MIR1302-10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "MIR1302-10-201"; transcript_source "ensembl"; exon_id "ENSE00003695741";
+1	lincRNA	gene	34554	36081	.	-	.	gene_id "ENSG00000237613"; gene_name "FAM138A"; gene_source "ensembl_havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	34554	36081	.	-	.	gene_id "ENSG00000237613"; transcript_id "ENST00000417324"; gene_name "FAM138A"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM138A-001"; transcript_source "ensembl_havana";
+1	lincRNA	exon	35721	36081	.	-	.	gene_id "ENSG00000237613"; transcript_id "ENST00000417324"; exon_number "1"; gene_name "FAM138A"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM138A-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001656588";
+1	lincRNA	exon	35277	35481	.	-	.	gene_id "ENSG00000237613"; transcript_id "ENST00000417324"; exon_number "2"; gene_name "FAM138A"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM138A-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001669267";
+1	lincRNA	exon	34554	35174	.	-	.	gene_id "ENSG00000237613"; transcript_id "ENST00000417324"; exon_number "3"; gene_name "FAM138A"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM138A-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001727627";
+1	lincRNA	transcript	35245	36073	.	-	.	gene_id "ENSG00000237613"; transcript_id "ENST00000461467"; gene_name "FAM138A"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM138A-002"; transcript_source "havana";
+1	lincRNA	exon	35721	36073	.	-	.	gene_id "ENSG00000237613"; transcript_id "ENST00000461467"; exon_number "1"; gene_name "FAM138A"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM138A-002"; transcript_source "havana"; exon_id "ENSE00001618781";
+1	lincRNA	exon	35245	35481	.	-	.	gene_id "ENSG00000237613"; transcript_id "ENST00000461467"; exon_number "2"; gene_name "FAM138A"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM138A-002"; transcript_source "havana"; exon_id "ENSE00001874421";
+1	pseudogene	gene	52473	54936	.	+	.	gene_id "ENSG00000268020"; gene_name "OR4G4P"; gene_source "ensembl_havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	52473	53312	.	+	.	gene_id "ENSG00000268020"; transcript_id "ENST00000606857"; gene_name "OR4G4P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "OR4G4P-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	52473	53312	.	+	.	gene_id "ENSG00000268020"; transcript_id "ENST00000606857"; exon_number "1"; gene_name "OR4G4P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "OR4G4P-001"; transcript_source "havana"; exon_id "ENSE00003698237";
+1	unprocessed_pseudogene	transcript	53049	54936	.	+	.	gene_id "ENSG00000268020"; transcript_id "ENST00000594647"; gene_name "OR4G4P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "OR4G4P-201"; transcript_source "ensembl";
+1	unprocessed_pseudogene	exon	53049	53067	.	+	.	gene_id "ENSG00000268020"; transcript_id "ENST00000594647"; exon_number "1"; gene_name "OR4G4P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "OR4G4P-201"; transcript_source "ensembl"; exon_id "ENSE00003076518";
+1	unprocessed_pseudogene	exon	54830	54936	.	+	.	gene_id "ENSG00000268020"; transcript_id "ENST00000594647"; exon_number "2"; gene_name "OR4G4P"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "OR4G4P-201"; transcript_source "ensembl"; exon_id "ENSE00003074125";
+1	pseudogene	gene	62948	63887	.	+	.	gene_id "ENSG00000240361"; gene_name "OR4G11P"; gene_source "havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	62948	63887	.	+	.	gene_id "ENSG00000240361"; transcript_id "ENST00000492842"; gene_name "OR4G11P"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "OR4G11P-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	62948	63887	.	+	.	gene_id "ENSG00000240361"; transcript_id "ENST00000492842"; exon_number "1"; gene_name "OR4G11P"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "OR4G11P-001"; transcript_source "havana"; exon_id "ENSE00001830178";
+1	protein_coding	gene	69091	70008	.	+	.	gene_id "ENSG00000186092"; gene_name "OR4F5"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	69091	70008	.	+	.	gene_id "ENSG00000186092"; transcript_id "ENST00000335137"; gene_name "OR4F5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30547";
+1	protein_coding	exon	69091	70008	.	+	.	gene_id "ENSG00000186092"; transcript_id "ENST00000335137"; exon_number "1"; gene_name "OR4F5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30547"; exon_id "ENSE00002319515";
+1	protein_coding	CDS	69091	70005	.	+	0	gene_id "ENSG00000186092"; transcript_id "ENST00000335137"; exon_number "1"; gene_name "OR4F5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30547"; protein_id "ENSP00000334393";
+1	protein_coding	start_codon	69091	69093	.	+	0	gene_id "ENSG00000186092"; transcript_id "ENST00000335137"; exon_number "1"; gene_name "OR4F5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30547";
+1	protein_coding	stop_codon	70006	70008	.	+	0	gene_id "ENSG00000186092"; transcript_id "ENST00000335137"; exon_number "1"; gene_name "OR4F5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30547";
+1	lincRNA	gene	89295	133566	.	-	.	gene_id "ENSG00000238009"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	89295	120932	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000466430"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-001"; transcript_source "havana";
+1	lincRNA	exon	120775	120932	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000466430"; exon_number "1"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-001"; transcript_source "havana"; exon_id "ENSE00001606755";
+1	lincRNA	exon	112700	112804	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000466430"; exon_number "2"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-001"; transcript_source "havana"; exon_id "ENSE00001957285";
+1	lincRNA	exon	92091	92240	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000466430"; exon_number "3"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-001"; transcript_source "havana"; exon_id "ENSE00001944529";
+1	lincRNA	exon	89295	91629	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000466430"; exon_number "4"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-001"; transcript_source "havana"; exon_id "ENSE00001846804";
+1	lincRNA	transcript	92230	129217	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000477740"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-003"; transcript_source "havana";
+1	lincRNA	exon	129055	129217	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000477740"; exon_number "1"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-003"; transcript_source "havana"; exon_id "ENSE00001919246";
+1	lincRNA	exon	120721	120932	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000477740"; exon_number "2"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-003"; transcript_source "havana"; exon_id "ENSE00001171005";
+1	lincRNA	exon	112700	112804	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000477740"; exon_number "3"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-003"; transcript_source "havana"; exon_id "ENSE00001957285";
+1	lincRNA	exon	92230	92240	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000477740"; exon_number "4"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-003"; transcript_source "havana"; exon_id "ENSE00001896976";
+1	lincRNA	transcript	110953	129173	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000471248"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-002"; transcript_source "havana";
+1	lincRNA	exon	129055	129173	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000471248"; exon_number "1"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-002"; transcript_source "havana"; exon_id "ENSE00001934975";
+1	lincRNA	exon	112700	112804	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000471248"; exon_number "2"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-002"; transcript_source "havana"; exon_id "ENSE00001957285";
+1	lincRNA	exon	110953	111357	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000471248"; exon_number "3"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-002"; transcript_source "havana"; exon_id "ENSE00001879696";
+1	lincRNA	transcript	129081	133566	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000453576"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-004"; transcript_source "havana";
+1	lincRNA	exon	133374	133566	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000453576"; exon_number "1"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-004"; transcript_source "havana"; exon_id "ENSE00001737600";
+1	lincRNA	exon	129081	129223	.	-	.	gene_id "ENSG00000238009"; transcript_id "ENST00000453576"; exon_number "2"; gene_name "RP11-34P13.7"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.7-004"; transcript_source "havana"; exon_id "ENSE00001827073";
+1	lincRNA	gene	89551	91105	.	-	.	gene_id "ENSG00000239945"; gene_name "RP11-34P13.8"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	89551	91105	.	-	.	gene_id "ENSG00000239945"; transcript_id "ENST00000495576"; gene_name "RP11-34P13.8"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.8-001"; transcript_source "havana";
+1	lincRNA	exon	90287	91105	.	-	.	gene_id "ENSG00000239945"; transcript_id "ENST00000495576"; exon_number "1"; gene_name "RP11-34P13.8"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.8-001"; transcript_source "havana"; exon_id "ENSE00001907785";
+1	lincRNA	exon	89551	90050	.	-	.	gene_id "ENSG00000239945"; transcript_id "ENST00000495576"; exon_number "2"; gene_name "RP11-34P13.8"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.8-001"; transcript_source "havana"; exon_id "ENSE00001927725";
+1	pseudogene	gene	131025	134836	.	+	.	gene_id "ENSG00000233750"; gene_name "CICP27"; gene_source "havana"; gene_biotype "pseudogene";
+1	processed_pseudogene	transcript	131025	134836	.	+	.	gene_id "ENSG00000233750"; transcript_id "ENST00000442987"; gene_name "CICP27"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "CICP27-001"; transcript_source "havana";
+1	processed_pseudogene	exon	131025	134836	.	+	.	gene_id "ENSG00000233750"; transcript_id "ENST00000442987"; exon_number "1"; gene_name "CICP27"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "CICP27-001"; transcript_source "havana"; exon_id "ENSE00001625118";
+1	protein_coding	gene	134901	139379	.	-	.	gene_id "ENSG00000237683"; gene_name "AL627309.1"; gene_source "ensembl"; gene_biotype "protein_coding";
+1	protein_coding	transcript	134901	139379	.	-	.	gene_id "ENSG00000237683"; transcript_id "ENST00000423372"; gene_name "AL627309.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL627309.1-201"; transcript_source "ensembl";
+1	protein_coding	exon	137621	139379	.	-	.	gene_id "ENSG00000237683"; transcript_id "ENST00000423372"; exon_number "1"; gene_name "AL627309.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL627309.1-201"; transcript_source "ensembl"; exon_id "ENSE00002221580";
+1	protein_coding	CDS	138533	139309	.	-	0	gene_id "ENSG00000237683"; transcript_id "ENST00000423372"; exon_number "1"; gene_name "AL627309.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL627309.1-201"; transcript_source "ensembl"; protein_id "ENSP00000473460";
+1	protein_coding	stop_codon	138530	138532	.	-	0	gene_id "ENSG00000237683"; transcript_id "ENST00000423372"; exon_number "1"; gene_name "AL627309.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL627309.1-201"; transcript_source "ensembl";
+1	protein_coding	exon	134901	135802	.	-	.	gene_id "ENSG00000237683"; transcript_id "ENST00000423372"; exon_number "2"; gene_name "AL627309.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL627309.1-201"; transcript_source "ensembl"; exon_id "ENSE00002314092";
+1	protein_coding	UTR	139310	139379	.	-	.	gene_id "ENSG00000237683"; transcript_id "ENST00000423372"; gene_name "AL627309.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL627309.1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	137621	138529	.	-	.	gene_id "ENSG00000237683"; transcript_id "ENST00000423372"; gene_name "AL627309.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL627309.1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	134901	135802	.	-	.	gene_id "ENSG00000237683"; transcript_id "ENST00000423372"; gene_name "AL627309.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL627309.1-201"; transcript_source "ensembl";
+1	pseudogene	gene	135141	135895	.	-	.	gene_id "ENSG00000268903"; gene_name "RP11-34P13.15"; gene_source "havana"; gene_biotype "pseudogene";
+1	processed_pseudogene	transcript	135141	135895	.	-	.	gene_id "ENSG00000268903"; transcript_id "ENST00000494149"; gene_name "RP11-34P13.15"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-34P13.15-001"; transcript_source "havana";
+1	processed_pseudogene	exon	135141	135895	.	-	.	gene_id "ENSG00000268903"; transcript_id "ENST00000494149"; exon_number "1"; gene_name "RP11-34P13.15"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-34P13.15-001"; transcript_source "havana"; exon_id "ENSE00001879101";
+1	pseudogene	gene	137682	137965	.	-	.	gene_id "ENSG00000269981"; gene_name "RP11-34P13.16"; gene_source "havana"; gene_biotype "pseudogene";
+1	processed_pseudogene	transcript	137682	137965	.	-	.	gene_id "ENSG00000269981"; transcript_id "ENST00000595919"; gene_name "RP11-34P13.16"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-34P13.16-001"; transcript_source "havana";
+1	processed_pseudogene	exon	137682	137965	.	-	.	gene_id "ENSG00000269981"; transcript_id "ENST00000595919"; exon_number "1"; gene_name "RP11-34P13.16"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-34P13.16-001"; transcript_source "havana"; exon_id "ENSE00001936432";
+1	antisense	gene	139790	140339	.	-	.	gene_id "ENSG00000239906"; gene_name "RP11-34P13.14"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	139790	140339	.	-	.	gene_id "ENSG00000239906"; transcript_id "ENST00000493797"; gene_name "RP11-34P13.14"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-34P13.14-001"; transcript_source "havana";
+1	antisense	exon	140075	140339	.	-	.	gene_id "ENSG00000239906"; transcript_id "ENST00000493797"; exon_number "1"; gene_name "RP11-34P13.14"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-34P13.14-001"; transcript_source "havana"; exon_id "ENSE00001913281";
+1	antisense	exon	139790	139847	.	-	.	gene_id "ENSG00000239906"; transcript_id "ENST00000493797"; exon_number "2"; gene_name "RP11-34P13.14"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-34P13.14-001"; transcript_source "havana"; exon_id "ENSE00001922992";
+1	processed_transcript	gene	141474	173862	.	-	.	gene_id "ENSG00000241860"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript";
+1	antisense	transcript	141474	149707	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000484859"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-004"; transcript_source "havana";
+1	antisense	exon	146386	149707	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000484859"; exon_number "1"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-004"; transcript_source "havana"; exon_id "ENSE00001860404";
+1	antisense	exon	141474	143011	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000484859"; exon_number "2"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-004"; transcript_source "havana"; exon_id "ENSE00001911218";
+1	antisense	transcript	142808	146831	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000490997"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-003"; transcript_source "havana";
+1	antisense	exon	146642	146831	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000490997"; exon_number "1"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-003"; transcript_source "havana"; exon_id "ENSE00001868647";
+1	antisense	exon	146386	146509	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000490997"; exon_number "2"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-003"; transcript_source "havana"; exon_id "ENSE00001853409";
+1	antisense	exon	142808	143011	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000490997"; exon_number "3"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-003"; transcript_source "havana"; exon_id "ENSE00001838397";
+1	lincRNA	transcript	146386	173862	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000466557"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-001"; transcript_source "havana";
+1	lincRNA	exon	173753	173862	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000466557"; exon_number "1"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-001"; transcript_source "havana"; exon_id "ENSE00001947154";
+1	lincRNA	exon	172557	172688	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000466557"; exon_number "2"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-001"; transcript_source "havana"; exon_id "ENSE00001890990";
+1	lincRNA	exon	169049	169264	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000466557"; exon_number "3"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-001"; transcript_source "havana"; exon_id "ENSE00001922566";
+1	lincRNA	exon	168100	168165	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000466557"; exon_number "4"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-001"; transcript_source "havana"; exon_id "ENSE00001947087";
+1	lincRNA	exon	165884	165942	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000466557"; exon_number "5"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-001"; transcript_source "havana"; exon_id "ENSE00001949945";
+1	lincRNA	exon	164263	164791	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000466557"; exon_number "6"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-001"; transcript_source "havana"; exon_id "ENSE00001862111";
+1	lincRNA	exon	155767	155831	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000466557"; exon_number "7"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-001"; transcript_source "havana"; exon_id "ENSE00001799309";
+1	lincRNA	exon	146386	146509	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000466557"; exon_number "8"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-001"; transcript_source "havana"; exon_id "ENSE00001853409";
+1	lincRNA	transcript	165889	168767	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000491962"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-002"; transcript_source "havana";
+1	lincRNA	exon	168610	168767	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000491962"; exon_number "1"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-002"; transcript_source "havana"; exon_id "ENSE00001939117";
+1	lincRNA	exon	168100	168165	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000491962"; exon_number "2"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-002"; transcript_source "havana"; exon_id "ENSE00001947087";
+1	lincRNA	exon	165889	165942	.	-	.	gene_id "ENSG00000241860"; transcript_id "ENST00000491962"; exon_number "3"; gene_name "RP11-34P13.13"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-34P13.13-002"; transcript_source "havana"; exon_id "ENSE00001898156";
+1	snRNA	gene	157784	157887	.	-	.	gene_id "ENSG00000222623"; gene_name "RNU6-1100P"; gene_source "ensembl"; gene_biotype "snRNA";
+1	snRNA	transcript	157784	157887	.	-	.	gene_id "ENSG00000222623"; transcript_id "ENST00000410691"; gene_name "RNU6-1100P"; gene_source "ensembl"; gene_biotype "snRNA"; transcript_name "RNU6-1100P-201"; transcript_source "ensembl";
+1	snRNA	exon	157784	157887	.	-	.	gene_id "ENSG00000222623"; transcript_id "ENST00000410691"; exon_number "1"; gene_name "RNU6-1100P"; gene_source "ensembl"; gene_biotype "snRNA"; transcript_name "RNU6-1100P-201"; transcript_source "ensembl"; exon_id "ENSE00001807945";
+1	lincRNA	gene	160446	161525	.	+	.	gene_id "ENSG00000241599"; gene_name "RP11-34P13.9"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	160446	161525	.	+	.	gene_id "ENSG00000241599"; transcript_id "ENST00000496488"; gene_name "RP11-34P13.9"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.9-001"; transcript_source "havana";
+1	lincRNA	exon	160446	160690	.	+	.	gene_id "ENSG00000241599"; transcript_id "ENST00000496488"; exon_number "1"; gene_name "RP11-34P13.9"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.9-001"; transcript_source "havana"; exon_id "ENSE00001882727";
+1	lincRNA	exon	161314	161525	.	+	.	gene_id "ENSG00000241599"; transcript_id "ENST00000496488"; exon_number "2"; gene_name "RP11-34P13.9"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-34P13.9-001"; transcript_source "havana"; exon_id "ENSE00001895361";
+1	lincRNA	gene	227615	267253	.	-	.	gene_id "ENSG00000228463"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	227615	234484	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000442116"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-003"; transcript_source "havana";
+1	lincRNA	exon	234355	234484	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000442116"; exon_number "1"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-003"; transcript_source "havana"; exon_id "ENSE00001149252";
+1	lincRNA	exon	227615	228776	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000442116"; exon_number "2"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-003"; transcript_source "havana"; exon_id "ENSE00001677641";
+1	lincRNA	transcript	227895	238558	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000448958"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-002"; transcript_source "havana";
+1	lincRNA	exon	238418	238558	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000448958"; exon_number "1"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-002"; transcript_source "havana"; exon_id "ENSE00001759371";
+1	lincRNA	exon	237054	237955	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000448958"; exon_number "2"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-002"; transcript_source "havana"; exon_id "ENSE00001769002";
+1	lincRNA	exon	227895	228776	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000448958"; exon_number "3"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-002"; transcript_source "havana"; exon_id "ENSE00001697698";
+1	lincRNA	transcript	236112	267253	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000424587"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-001"; transcript_source "havana";
+1	lincRNA	exon	267096	267253	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000424587"; exon_number "1"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-001"; transcript_source "havana"; exon_id "ENSE00001697423";
+1	lincRNA	exon	259017	259121	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000424587"; exon_number "2"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-001"; transcript_source "havana"; exon_id "ENSE00001694491";
+1	lincRNA	exon	238418	238567	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000424587"; exon_number "3"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-001"; transcript_source "havana"; exon_id "ENSE00001688505";
+1	lincRNA	exon	236112	237955	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000424587"; exon_number "4"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-001"; transcript_source "havana"; exon_id "ENSE00001785078";
+1	lincRNA	transcript	257268	259121	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000335577"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-004"; transcript_source "havana";
+1	lincRNA	exon	259017	259121	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000335577"; exon_number "1"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-004"; transcript_source "havana"; exon_id "ENSE00001694491";
+1	lincRNA	exon	257268	257672	.	-	.	gene_id "ENSG00000228463"; transcript_id "ENST00000335577"; exon_number "2"; gene_name "AP006222.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "AP006222.2-004"; transcript_source "havana"; exon_id "ENSE00001618264";
+1	pseudogene	gene	228292	228775	.	-	.	gene_id "ENSG00000241670"; gene_name "AP006222.1"; gene_source "ensembl_havana"; gene_biotype "pseudogene";
+1	processed_pseudogene	transcript	228292	228654	.	-	.	gene_id "ENSG00000241670"; transcript_id "ENST00000424429"; gene_name "AP006222.1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "AP006222.1-201"; transcript_source "ensembl";
+1	processed_pseudogene	exon	228292	228654	.	-	.	gene_id "ENSG00000241670"; transcript_id "ENST00000424429"; exon_number "1"; gene_name "AP006222.1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "AP006222.1-201"; transcript_source "ensembl"; exon_id "ENSE00001643312";
+1	processed_pseudogene	transcript	228319	228775	.	-	.	gene_id "ENSG00000241670"; transcript_id "ENST00000450734"; gene_name "AP006222.1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "AP006222.1-001"; transcript_source "havana";
+1	processed_pseudogene	exon	228319	228775	.	-	.	gene_id "ENSG00000241670"; transcript_id "ENST00000450734"; exon_number "1"; gene_name "AP006222.1"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "AP006222.1-001"; transcript_source "havana"; exon_id "ENSE00001787230";
+1	lincRNA	gene	317720	453948	.	+	.	gene_id "ENSG00000237094"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	317720	324873	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000440038"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-003"; transcript_source "havana";
+1	lincRNA	exon	317720	317781	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000440038"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-003"; transcript_source "havana"; exon_id "ENSE00003186556";
+1	lincRNA	exon	322038	322228	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000440038"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-003"; transcript_source "havana"; exon_id "ENSE00003075294";
+1	lincRNA	exon	324288	324345	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000440038"; exon_number "3"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-003"; transcript_source "havana"; exon_id "ENSE00003328882";
+1	lincRNA	exon	324439	324873	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000440038"; exon_number "4"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-003"; transcript_source "havana"; exon_id "ENSE00003003869";
+1	lincRNA	transcript	317730	320353	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000608420"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-014"; transcript_source "havana";
+1	lincRNA	exon	317730	317781	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000608420"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-014"; transcript_source "havana"; exon_id "ENSE00003709813";
+1	lincRNA	exon	319968	320353	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000608420"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-014"; transcript_source "havana"; exon_id "ENSE00003708499";
+1	lincRNA	transcript	320162	321056	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000432964"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-001"; transcript_source "havana";
+1	lincRNA	exon	320162	320653	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000432964"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-001"; transcript_source "havana"; exon_id "ENSE00001736043";
+1	lincRNA	exon	320881	320938	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000432964"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-001"; transcript_source "havana"; exon_id "ENSE00001601447";
+1	lincRNA	exon	321032	321056	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000432964"; exon_number "3"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-001"; transcript_source "havana"; exon_id "ENSE00001803078";
+1	lincRNA	transcript	320162	324461	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000423728"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-002"; transcript_source "havana";
+1	lincRNA	exon	320162	320653	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000423728"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-002"; transcript_source "havana"; exon_id "ENSE00001736043";
+1	lincRNA	exon	324288	324345	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000423728"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-002"; transcript_source "havana"; exon_id "ENSE00003328882";
+1	lincRNA	exon	324439	324461	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000423728"; exon_number "3"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-002"; transcript_source "havana"; exon_id "ENSE00001798174";
+1	lincRNA	transcript	320335	322097	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000601486"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-006"; transcript_source "havana";
+1	lincRNA	exon	320335	320653	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000601486"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-006"; transcript_source "havana"; exon_id "ENSE00003097839";
+1	lincRNA	exon	320881	320938	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000601486"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-006"; transcript_source "havana"; exon_id "ENSE00001601447";
+1	lincRNA	exon	321032	321290	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000601486"; exon_number "3"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-006"; transcript_source "havana"; exon_id "ENSE00003063936";
+1	lincRNA	exon	322038	322097	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000601486"; exon_number "4"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-006"; transcript_source "havana"; exon_id "ENSE00003045569";
+1	lincRNA	transcript	320881	322203	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000599771"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-005"; transcript_source "havana";
+1	lincRNA	exon	320881	320938	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000599771"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-005"; transcript_source "havana"; exon_id "ENSE00001601447";
+1	lincRNA	exon	321032	321264	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000599771"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-005"; transcript_source "havana"; exon_id "ENSE00001760542";
+1	lincRNA	exon	322038	322203	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000599771"; exon_number "3"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-005"; transcript_source "havana"; exon_id "ENSE00003062243";
+1	lincRNA	transcript	322078	342806	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000455464"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-009"; transcript_source "havana";
+1	lincRNA	exon	322078	322228	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000455464"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-009"; transcript_source "havana"; exon_id "ENSE00003016872";
+1	lincRNA	exon	334129	334297	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000455464"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-009"; transcript_source "havana"; exon_id "ENSE00001794483";
+1	lincRNA	exon	342392	342806	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000455464"; exon_number "3"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-009"; transcript_source "havana"; exon_id "ENSE00001707425";
+1	lincRNA	transcript	322672	324955	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000419160"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-004"; transcript_source "havana";
+1	lincRNA	exon	322672	323073	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000419160"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-004"; transcript_source "havana"; exon_id "ENSE00001650218";
+1	lincRNA	exon	324751	324955	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000419160"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-004"; transcript_source "havana"; exon_id "ENSE00001760607";
+1	lincRNA	transcript	323861	334505	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000601814"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-007"; transcript_source "havana";
+1	lincRNA	exon	323861	324060	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000601814"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-007"; transcript_source "havana"; exon_id "ENSE00002997765";
+1	lincRNA	exon	324288	324345	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000601814"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-007"; transcript_source "havana"; exon_id "ENSE00003328882";
+1	lincRNA	exon	334129	334505	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000601814"; exon_number "3"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-007"; transcript_source "havana"; exon_id "ENSE00001690296";
+1	lincRNA	transcript	324756	328453	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000425496"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-201"; transcript_source "ensembl";
+1	lincRNA	exon	324756	326514	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000425496"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-201"; transcript_source "ensembl"; exon_id "ENSE00002233090";
+1	lincRNA	exon	327552	328453	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000425496"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-201"; transcript_source "ensembl"; exon_id "ENSE00002297756";
+1	lincRNA	transcript	329784	334271	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000431812"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-008"; transcript_source "havana";
+1	lincRNA	exon	329784	329976	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000431812"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-008"; transcript_source "havana"; exon_id "ENSE00001628206";
+1	lincRNA	exon	334129	334271	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000431812"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-008"; transcript_source "havana"; exon_id "ENSE00001758832";
+1	lincRNA	transcript	334129	446155	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000455207"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-010"; transcript_source "havana";
+1	lincRNA	exon	334129	334297	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000455207"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-010"; transcript_source "havana"; exon_id "ENSE00001794483";
+1	lincRNA	exon	439467	439568	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000455207"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-010"; transcript_source "havana"; exon_id "ENSE00001628100";
+1	lincRNA	exon	446014	446155	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000455207"; exon_number "3"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-010"; transcript_source "havana"; exon_id "ENSE00001770724";
+1	lincRNA	transcript	439365	453722	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000440163"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-011"; transcript_source "havana";
+1	lincRNA	exon	439365	439568	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000440163"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-011"; transcript_source "havana"; exon_id "ENSE00001687828";
+1	lincRNA	exon	446014	446193	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000440163"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-011"; transcript_source "havana"; exon_id "ENSE00001622961";
+1	lincRNA	exon	453645	453722	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000440163"; exon_number "3"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-011"; transcript_source "havana"; exon_id "ENSE00001651822";
+1	lincRNA	transcript	450887	453942	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000453935"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-013"; transcript_source "havana";
+1	lincRNA	exon	450887	451086	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000453935"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-013"; transcript_source "havana"; exon_id "ENSE00001651491";
+1	lincRNA	exon	453645	453942	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000453935"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-013"; transcript_source "havana"; exon_id "ENSE00001798578";
+1	lincRNA	transcript	453217	453948	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000431321"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-012"; transcript_source "havana";
+1	lincRNA	exon	453217	453318	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000431321"; exon_number "1"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-012"; transcript_source "havana"; exon_id "ENSE00001720138";
+1	lincRNA	exon	453645	453948	.	+	.	gene_id "ENSG00000237094"; transcript_id "ENST00000431321"; exon_number "2"; gene_name "RP4-669L17.10"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.10-012"; transcript_source "havana"; exon_id "ENSE00001656291";
+1	pseudogene	gene	326096	328112	.	+	.	gene_id "ENSG00000250575"; gene_name "RP4-669L17.8"; gene_source "havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	326096	328112	.	+	.	gene_id "ENSG00000250575"; transcript_id "ENST00000514436"; gene_name "RP4-669L17.8"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP4-669L17.8-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	326096	326569	.	+	.	gene_id "ENSG00000250575"; transcript_id "ENST00000514436"; exon_number "1"; gene_name "RP4-669L17.8"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP4-669L17.8-001"; transcript_source "havana"; exon_id "ENSE00002058739";
+1	unprocessed_pseudogene	exon	327348	328112	.	+	.	gene_id "ENSG00000250575"; transcript_id "ENST00000514436"; exon_number "2"; gene_name "RP4-669L17.8"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP4-669L17.8-001"; transcript_source "havana"; exon_id "ENSE00002064640";
+1	pseudogene	gene	329431	332236	.	-	.	gene_id "ENSG00000233653"; gene_name "CICP7"; gene_source "havana"; gene_biotype "pseudogene";
+1	processed_pseudogene	transcript	329431	332236	.	-	.	gene_id "ENSG00000233653"; transcript_id "ENST00000432723"; gene_name "CICP7"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "CICP7-001"; transcript_source "havana";
+1	processed_pseudogene	exon	329950	332236	.	-	.	gene_id "ENSG00000233653"; transcript_id "ENST00000432723"; exon_number "1"; gene_name "CICP7"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "CICP7-001"; transcript_source "havana"; exon_id "ENSE00001705369";
+1	processed_pseudogene	exon	329431	329620	.	-	.	gene_id "ENSG00000233653"; transcript_id "ENST00000432723"; exon_number "2"; gene_name "CICP7"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "CICP7-001"; transcript_source "havana"; exon_id "ENSE00003569252";
+1	pseudogene	gene	334126	334305	.	+	.	gene_id "ENSG00000224813"; gene_name "RP4-669L17.4"; gene_source "havana"; gene_biotype "pseudogene";
+1	transcribed_unprocessed_pseudogene	transcript	334126	334305	.	+	.	gene_id "ENSG00000224813"; transcript_id "ENST00000445840"; gene_name "RP4-669L17.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP4-669L17.4-001"; transcript_source "havana";
+1	transcribed_unprocessed_pseudogene	exon	334126	334305	.	+	.	gene_id "ENSG00000224813"; transcript_id "ENST00000445840"; exon_number "1"; gene_name "RP4-669L17.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP4-669L17.4-001"; transcript_source "havana"; exon_id "ENSE00001665892";
+1	protein_coding	gene	367640	368634	.	+	.	gene_id "ENSG00000235249"; gene_name "OR4F29"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	367640	368634	.	+	.	gene_id "ENSG00000235249"; transcript_id "ENST00000426406"; gene_name "OR4F29"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F29-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41220";
+1	protein_coding	exon	367640	368634	.	+	.	gene_id "ENSG00000235249"; transcript_id "ENST00000426406"; exon_number "1"; gene_name "OR4F29"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F29-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41220"; exon_id "ENSE00002316283";
+1	protein_coding	CDS	367659	368594	.	+	0	gene_id "ENSG00000235249"; transcript_id "ENST00000426406"; exon_number "1"; gene_name "OR4F29"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F29-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41220"; protein_id "ENSP00000409316";
+1	protein_coding	start_codon	367659	367661	.	+	0	gene_id "ENSG00000235249"; transcript_id "ENST00000426406"; exon_number "1"; gene_name "OR4F29"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F29-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41220";
+1	protein_coding	stop_codon	368595	368597	.	+	0	gene_id "ENSG00000235249"; transcript_id "ENST00000426406"; exon_number "1"; gene_name "OR4F29"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F29-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41220";
+1	protein_coding	UTR	367640	367658	.	+	.	gene_id "ENSG00000235249"; transcript_id "ENST00000426406"; gene_name "OR4F29"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F29-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41220";
+1	protein_coding	UTR	368598	368634	.	+	.	gene_id "ENSG00000235249"; transcript_id "ENST00000426406"; gene_name "OR4F29"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F29-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41220";
+1	pseudogene	gene	379105	379467	.	-	.	gene_id "ENSG00000269732"; gene_name "WBP1LP7"; gene_source "havana"; gene_biotype "pseudogene";
+1	processed_pseudogene	transcript	379105	379467	.	-	.	gene_id "ENSG00000269732"; transcript_id "ENST00000437905"; gene_name "WBP1LP7"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "WBP1LP7-001"; transcript_source "havana";
+1	processed_pseudogene	exon	379105	379467	.	-	.	gene_id "ENSG00000269732"; transcript_id "ENST00000437905"; exon_number "1"; gene_name "WBP1LP7"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "WBP1LP7-001"; transcript_source "havana"; exon_id "ENSE00003220883";
+1	pseudogene	gene	450820	450910	.	-	.	gene_id "ENSG00000256186"; gene_name "AL732372.1"; gene_source "ensembl"; gene_biotype "pseudogene";
+1	pseudogene	transcript	450820	450910	.	-	.	gene_id "ENSG00000256186"; transcript_id "ENST00000540477"; gene_name "AL732372.1"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL732372.1-201"; transcript_source "ensembl";
+1	pseudogene	exon	450854	450910	.	-	.	gene_id "ENSG00000256186"; transcript_id "ENST00000540477"; exon_number "1"; gene_name "AL732372.1"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL732372.1-201"; transcript_source "ensembl"; exon_id "ENSE00002305101";
+1	pseudogene	exon	450820	450852	.	-	.	gene_id "ENSG00000256186"; transcript_id "ENST00000540477"; exon_number "2"; gene_name "AL732372.1"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL732372.1-201"; transcript_source "ensembl"; exon_id "ENSE00002202695";
+1	lincRNA	gene	453633	460480	.	-	.	gene_id "ENSG00000236601"; gene_name "RP4-669L17.2"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	453633	460480	.	-	.	gene_id "ENSG00000236601"; transcript_id "ENST00000450983"; gene_name "RP4-669L17.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.2-002"; transcript_source "havana";
+1	lincRNA	exon	460408	460480	.	-	.	gene_id "ENSG00000236601"; transcript_id "ENST00000450983"; exon_number "1"; gene_name "RP4-669L17.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.2-002"; transcript_source "havana"; exon_id "ENSE00001634442";
+1	lincRNA	exon	453633	454166	.	-	.	gene_id "ENSG00000236601"; transcript_id "ENST00000450983"; exon_number "2"; gene_name "RP4-669L17.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.2-002"; transcript_source "havana"; exon_id "ENSE00001787178";
+1	lincRNA	transcript	453827	460465	.	-	.	gene_id "ENSG00000236601"; transcript_id "ENST00000412666"; gene_name "RP4-669L17.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.2-001"; transcript_source "havana";
+1	lincRNA	exon	460380	460465	.	-	.	gene_id "ENSG00000236601"; transcript_id "ENST00000412666"; exon_number "1"; gene_name "RP4-669L17.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.2-001"; transcript_source "havana"; exon_id "ENSE00001700697";
+1	lincRNA	exon	453827	454166	.	-	.	gene_id "ENSG00000236601"; transcript_id "ENST00000412666"; exon_number "2"; gene_name "RP4-669L17.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-669L17.2-001"; transcript_source "havana"; exon_id "ENSE00001745103";
+1	lincRNA	gene	459656	461954	.	+	.	gene_id "ENSG00000236743"; gene_name "RP5-857K21.15"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	459656	461954	.	+	.	gene_id "ENSG00000236743"; transcript_id "ENST00000441866"; gene_name "RP5-857K21.15"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.15-001"; transcript_source "havana";
+1	lincRNA	exon	459656	459992	.	+	.	gene_id "ENSG00000236743"; transcript_id "ENST00000441866"; exon_number "1"; gene_name "RP5-857K21.15"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.15-001"; transcript_source "havana"; exon_id "ENSE00001670287";
+1	lincRNA	exon	461154	461288	.	+	.	gene_id "ENSG00000236743"; transcript_id "ENST00000441866"; exon_number "2"; gene_name "RP5-857K21.15"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.15-001"; transcript_source "havana"; exon_id "ENSE00001729229";
+1	lincRNA	exon	461751	461954	.	+	.	gene_id "ENSG00000236743"; transcript_id "ENST00000441866"; exon_number "3"; gene_name "RP5-857K21.15"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.15-001"; transcript_source "havana"; exon_id "ENSE00001772679";
+1	pseudogene	gene	470971	471355	.	+	.	gene_id "ENSG00000236679"; gene_name "RP4-669L17.1"; gene_source "havana"; gene_biotype "pseudogene";
+1	processed_pseudogene	transcript	470971	471355	.	+	.	gene_id "ENSG00000236679"; transcript_id "ENST00000458203"; gene_name "RP4-669L17.1"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP4-669L17.1-004"; transcript_source "havana";
+1	processed_pseudogene	exon	470971	471355	.	+	.	gene_id "ENSG00000236679"; transcript_id "ENST00000458203"; exon_number "1"; gene_name "RP4-669L17.1"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP4-669L17.1-004"; transcript_source "havana"; exon_id "ENSE00001707201";
+1	lincRNA	gene	521369	523833	.	-	.	gene_id "ENSG00000231709"; gene_name "RP5-857K21.1"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	521369	523833	.	-	.	gene_id "ENSG00000231709"; transcript_id "ENST00000417636"; gene_name "RP5-857K21.1"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.1-001"; transcript_source "havana";
+1	lincRNA	exon	523497	523833	.	-	.	gene_id "ENSG00000231709"; transcript_id "ENST00000417636"; exon_number "1"; gene_name "RP5-857K21.1"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.1-001"; transcript_source "havana"; exon_id "ENSE00001738702";
+1	lincRNA	exon	522201	522335	.	-	.	gene_id "ENSG00000231709"; transcript_id "ENST00000417636"; exon_number "2"; gene_name "RP5-857K21.1"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.1-001"; transcript_source "havana"; exon_id "ENSE00001647781";
+1	lincRNA	exon	521369	521738	.	-	.	gene_id "ENSG00000231709"; transcript_id "ENST00000417636"; exon_number "3"; gene_name "RP5-857K21.1"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.1-001"; transcript_source "havana"; exon_id "ENSE00001680902";
+1	lincRNA	gene	523009	530148	.	+	.	gene_id "ENSG00000235146"; gene_name "RP5-857K21.2"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	523009	530148	.	+	.	gene_id "ENSG00000235146"; transcript_id "ENST00000423796"; gene_name "RP5-857K21.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.2-002"; transcript_source "havana";
+1	lincRNA	exon	523009	523081	.	+	.	gene_id "ENSG00000235146"; transcript_id "ENST00000423796"; exon_number "1"; gene_name "RP5-857K21.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.2-002"; transcript_source "havana"; exon_id "ENSE00001621971";
+1	lincRNA	exon	529615	530148	.	+	.	gene_id "ENSG00000235146"; transcript_id "ENST00000423796"; exon_number "2"; gene_name "RP5-857K21.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.2-002"; transcript_source "havana"; exon_id "ENSE00001665260";
+1	lincRNA	transcript	523048	529954	.	+	.	gene_id "ENSG00000235146"; transcript_id "ENST00000450696"; gene_name "RP5-857K21.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.2-001"; transcript_source "havana";
+1	lincRNA	exon	523048	523109	.	+	.	gene_id "ENSG00000235146"; transcript_id "ENST00000450696"; exon_number "1"; gene_name "RP5-857K21.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.2-001"; transcript_source "havana"; exon_id "ENSE00001734474";
+1	lincRNA	exon	529615	529954	.	+	.	gene_id "ENSG00000235146"; transcript_id "ENST00000450696"; exon_number "2"; gene_name "RP5-857K21.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.2-001"; transcript_source "havana"; exon_id "ENSE00001607178";
+1	lincRNA	gene	529833	532878	.	-	.	gene_id "ENSG00000239664"; gene_name "RP5-857K21.3"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	529833	530597	.	-	.	gene_id "ENSG00000239664"; transcript_id "ENST00000440196"; gene_name "RP5-857K21.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.3-001"; transcript_source "havana";
+1	lincRNA	exon	530463	530597	.	-	.	gene_id "ENSG00000239664"; transcript_id "ENST00000440196"; exon_number "1"; gene_name "RP5-857K21.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.3-001"; transcript_source "havana"; exon_id "ENSE00001610890";
+1	lincRNA	exon	529833	530136	.	-	.	gene_id "ENSG00000239664"; transcript_id "ENST00000440196"; exon_number "2"; gene_name "RP5-857K21.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.3-001"; transcript_source "havana"; exon_id "ENSE00001752275";
+1	lincRNA	transcript	529839	532878	.	-	.	gene_id "ENSG00000239664"; transcript_id "ENST00000357876"; gene_name "RP5-857K21.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.3-002"; transcript_source "havana";
+1	lincRNA	exon	532679	532878	.	-	.	gene_id "ENSG00000239664"; transcript_id "ENST00000357876"; exon_number "1"; gene_name "RP5-857K21.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.3-002"; transcript_source "havana"; exon_id "ENSE00001651821";
+1	lincRNA	exon	529839	530136	.	-	.	gene_id "ENSG00000239664"; transcript_id "ENST00000357876"; exon_number "2"; gene_name "RP5-857K21.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.3-002"; transcript_source "havana"; exon_id "ENSE00001652759";
+1	lincRNA	gene	536816	659930	.	-	.	gene_id "ENSG00000230021"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	536816	655580	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000440200"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-001"; transcript_source "havana";
+1	lincRNA	exon	655412	655580	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000440200"; exon_number "1"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-001"; transcript_source "havana"; exon_id "ENSE00001745637";
+1	lincRNA	exon	543335	543436	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000440200"; exon_number "2"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-001"; transcript_source "havana"; exon_id "ENSE00001718533";
+1	lincRNA	exon	536816	536957	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000440200"; exon_number "3"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-001"; transcript_source "havana"; exon_id "ENSE00001773655";
+1	lincRNA	transcript	637316	655530	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000441245"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-002"; transcript_source "havana";
+1	lincRNA	exon	655412	655530	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000441245"; exon_number "1"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-002"; transcript_source "havana"; exon_id "ENSE00001663889";
+1	lincRNA	exon	639065	639169	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000441245"; exon_number "2"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-002"; transcript_source "havana"; exon_id "ENSE00001671684";
+1	lincRNA	exon	637316	637720	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000441245"; exon_number "3"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-002"; transcript_source "havana"; exon_id "ENSE00001753339";
+1	lincRNA	transcript	639065	655574	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000419394"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-006"; transcript_source "havana";
+1	lincRNA	exon	655412	655574	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000419394"; exon_number "1"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-006"; transcript_source "havana"; exon_id "ENSE00001595248";
+1	lincRNA	exon	647091	647302	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000419394"; exon_number "2"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-006"; transcript_source "havana"; exon_id "ENSE00001696741";
+1	lincRNA	exon	639065	639169	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000419394"; exon_number "3"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-006"; transcript_source "havana"; exon_id "ENSE00001671684";
+1	lincRNA	transcript	646722	655580	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000414688"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-004"; transcript_source "havana";
+1	lincRNA	exon	655412	655580	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000414688"; exon_number "1"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-004"; transcript_source "havana"; exon_id "ENSE00001745637";
+1	lincRNA	exon	646722	647302	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000414688"; exon_number "2"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-004"; transcript_source "havana"; exon_id "ENSE00001788533";
+1	lincRNA	transcript	655438	659930	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000447954"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-005"; transcript_source "havana";
+1	lincRNA	exon	659738	659930	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000447954"; exon_number "1"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-005"; transcript_source "havana"; exon_id "ENSE00001688006";
+1	lincRNA	exon	655438	655580	.	-	.	gene_id "ENSG00000230021"; transcript_id "ENST00000447954"; exon_number "2"; gene_name "RP5-857K21.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.4-005"; transcript_source "havana"; exon_id "ENSE00001675630";
+1	lincRNA	gene	562757	564390	.	-	.	gene_id "ENSG00000223659"; gene_name "RP5-857K21.5"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	562757	564390	.	-	.	gene_id "ENSG00000223659"; transcript_id "ENST00000452176"; gene_name "RP5-857K21.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.5-001"; transcript_source "havana";
+1	lincRNA	exon	564299	564390	.	-	.	gene_id "ENSG00000223659"; transcript_id "ENST00000452176"; exon_number "1"; gene_name "RP5-857K21.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.5-001"; transcript_source "havana"; exon_id "ENSE00001722809";
+1	lincRNA	exon	563341	563603	.	-	.	gene_id "ENSG00000223659"; transcript_id "ENST00000452176"; exon_number "2"; gene_name "RP5-857K21.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.5-001"; transcript_source "havana"; exon_id "ENSE00001760488";
+1	lincRNA	exon	562757	563203	.	-	.	gene_id "ENSG00000223659"; transcript_id "ENST00000452176"; exon_number "3"; gene_name "RP5-857K21.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-857K21.5-001"; transcript_source "havana"; exon_id "ENSE00001675353";
+1	pseudogene	gene	564442	564813	.	+	.	gene_id "ENSG00000225972"; gene_name "MTND1P23"; gene_source "havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	564442	564813	.	+	.	gene_id "ENSG00000225972"; transcript_id "ENST00000416931"; gene_name "MTND1P23"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "MTND1P23-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	564442	564813	.	+	.	gene_id "ENSG00000225972"; transcript_id "ENST00000416931"; exon_number "1"; gene_name "MTND1P23"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "MTND1P23-001"; transcript_source "havana"; exon_id "ENSE00001797039";
+1	pseudogene	gene	565020	566063	.	+	.	gene_id "ENSG00000225630"; gene_name "MTND2P28"; gene_source "havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	565020	566063	.	+	.	gene_id "ENSG00000225630"; transcript_id "ENST00000457540"; gene_name "MTND2P28"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "MTND2P28-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	565020	566063	.	+	.	gene_id "ENSG00000225630"; transcript_id "ENST00000457540"; exon_number "1"; gene_name "MTND2P28"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "MTND2P28-001"; transcript_source "havana"; exon_id "ENSE00001780589";
+1	pseudogene	gene	566454	567996	.	+	.	gene_id "ENSG00000237973"; gene_name "hsa-mir-6723"; gene_source "havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	566454	567996	.	+	.	gene_id "ENSG00000237973"; transcript_id "ENST00000414273"; gene_name "hsa-mir-6723"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "hsa-mir-6723.1-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	566454	567996	.	+	.	gene_id "ENSG00000237973"; transcript_id "ENST00000414273"; exon_number "1"; gene_name "hsa-mir-6723"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "hsa-mir-6723.1-001"; transcript_source "havana"; exon_id "ENSE00001795950";
+1	pseudogene	gene	568137	568818	.	+	.	gene_id "ENSG00000229344"; gene_name "RP5-857K21.7"; gene_source "havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	568137	568818	.	+	.	gene_id "ENSG00000229344"; transcript_id "ENST00000427426"; gene_name "RP5-857K21.7"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP5-857K21.7-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	568137	568818	.	+	.	gene_id "ENSG00000229344"; transcript_id "ENST00000427426"; exon_number "1"; gene_name "RP5-857K21.7"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP5-857K21.7-001"; transcript_source "havana"; exon_id "ENSE00001607075";
+1	pseudogene	gene	568915	569121	.	+	.	gene_id "ENSG00000240409"; gene_name "MTATP8P1"; gene_source "havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	568915	569121	.	+	.	gene_id "ENSG00000240409"; transcript_id "ENST00000467115"; gene_name "MTATP8P1"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "MTATP8P1-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	568915	569121	.	+	.	gene_id "ENSG00000240409"; transcript_id "ENST00000467115"; exon_number "1"; gene_name "MTATP8P1"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "MTATP8P1-001"; transcript_source "havana"; exon_id "ENSE00001887928";
+1	pseudogene	gene	569076	569756	.	+	.	gene_id "ENSG00000248527"; gene_name "MTATP6P1"; gene_source "havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	569076	569756	.	+	.	gene_id "ENSG00000248527"; transcript_id "ENST00000514057"; gene_name "MTATP6P1"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "MTATP6P1-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	569076	569756	.	+	.	gene_id "ENSG00000248527"; transcript_id "ENST00000514057"; exon_number "1"; gene_name "MTATP6P1"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "MTATP6P1-001"; transcript_source "havana"; exon_id "ENSE00002056229";
+1	pseudogene	gene	569756	570302	.	+	.	gene_id "ENSG00000198744"; gene_name "RP5-857K21.11"; gene_source "havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	569756	570302	.	+	.	gene_id "ENSG00000198744"; transcript_id "ENST00000416718"; gene_name "RP5-857K21.11"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP5-857K21.11-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	569756	570302	.	+	.	gene_id "ENSG00000198744"; transcript_id "ENST00000416718"; exon_number "1"; gene_name "RP5-857K21.11"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP5-857K21.11-001"; transcript_source "havana"; exon_id "ENSE00001720008";
+1	pseudogene	gene	610222	610645	.	+	.	gene_id "ENSG00000268663"; gene_name "WBP1LP6"; gene_source "havana"; gene_biotype "pseudogene";
+1	processed_pseudogene	transcript	610222	610645	.	+	.	gene_id "ENSG00000268663"; transcript_id "ENST00000438434"; gene_name "WBP1LP6"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "WBP1LP6-001"; transcript_source "havana";
+1	processed_pseudogene	exon	610222	610645	.	+	.	gene_id "ENSG00000268663"; transcript_id "ENST00000438434"; exon_number "1"; gene_name "WBP1LP6"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "WBP1LP6-001"; transcript_source "havana"; exon_id "ENSE00003226141";
+1	protein_coding	gene	621059	622053	.	-	.	gene_id "ENSG00000185097"; gene_name "OR4F16"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	621059	622053	.	-	.	gene_id "ENSG00000185097"; transcript_id "ENST00000332831"; gene_name "OR4F16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41221";
+1	protein_coding	exon	621059	622053	.	-	.	gene_id "ENSG00000185097"; transcript_id "ENST00000332831"; exon_number "1"; gene_name "OR4F16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41221"; exon_id "ENSE00002324228";
+1	protein_coding	CDS	621099	622034	.	-	0	gene_id "ENSG00000185097"; transcript_id "ENST00000332831"; exon_number "1"; gene_name "OR4F16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41221"; protein_id "ENSP00000329982";
+1	protein_coding	start_codon	622032	622034	.	-	0	gene_id "ENSG00000185097"; transcript_id "ENST00000332831"; exon_number "1"; gene_name "OR4F16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41221";
+1	protein_coding	stop_codon	621096	621098	.	-	0	gene_id "ENSG00000185097"; transcript_id "ENST00000332831"; exon_number "1"; gene_name "OR4F16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41221";
+1	protein_coding	UTR	622035	622053	.	-	.	gene_id "ENSG00000185097"; transcript_id "ENST00000332831"; gene_name "OR4F16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41221";
+1	protein_coding	UTR	621059	621095	.	-	.	gene_id "ENSG00000185097"; transcript_id "ENST00000332831"; gene_name "OR4F16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "OR4F16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41221";
+1	pseudogene	gene	657472	660283	.	+	.	gene_id "ENSG00000229376"; gene_name "CICP3"; gene_source "havana"; gene_biotype "pseudogene";
+1	processed_pseudogene	transcript	657472	660283	.	+	.	gene_id "ENSG00000229376"; transcript_id "ENST00000440782"; gene_name "CICP3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "CICP3-001"; transcript_source "havana";
+1	processed_pseudogene	exon	657472	659740	.	+	.	gene_id "ENSG00000229376"; transcript_id "ENST00000440782"; exon_number "1"; gene_name "CICP3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "CICP3-001"; transcript_source "havana"; exon_id "ENSE00001731162";
+1	processed_pseudogene	exon	660098	660283	.	+	.	gene_id "ENSG00000229376"; transcript_id "ENST00000440782"; exon_number "2"; gene_name "CICP3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "CICP3-001"; transcript_source "havana"; exon_id "ENSE00003593944";
+1	pseudogene	gene	661611	663527	.	-	.	gene_id "ENSG00000224956"; gene_name "RP11-206L10.1"; gene_source "havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	661611	663527	.	-	.	gene_id "ENSG00000224956"; transcript_id "ENST00000506640"; gene_name "RP11-206L10.1"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-206L10.1-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	663054	663527	.	-	.	gene_id "ENSG00000224956"; transcript_id "ENST00000506640"; exon_number "1"; gene_name "RP11-206L10.1"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-206L10.1-001"; transcript_source "havana"; exon_id "ENSE00002082381";
+1	unprocessed_pseudogene	exon	661611	662372	.	-	.	gene_id "ENSG00000224956"; transcript_id "ENST00000506640"; exon_number "2"; gene_name "RP11-206L10.1"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-206L10.1-001"; transcript_source "havana"; exon_id "ENSE00002076418";
+1	lincRNA	gene	677193	685396	.	-	.	gene_id "ENSG00000235373"; gene_name "RP11-206L10.3"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	677193	685396	.	-	.	gene_id "ENSG00000235373"; transcript_id "ENST00000416385"; gene_name "RP11-206L10.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.3-001"; transcript_source "havana";
+1	lincRNA	exon	682075	685396	.	-	.	gene_id "ENSG00000235373"; transcript_id "ENST00000416385"; exon_number "1"; gene_name "RP11-206L10.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.3-001"; transcript_source "havana"; exon_id "ENSE00001605176";
+1	lincRNA	exon	677193	678730	.	-	.	gene_id "ENSG00000235373"; transcript_id "ENST00000416385"; exon_number "2"; gene_name "RP11-206L10.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.3-001"; transcript_source "havana"; exon_id "ENSE00001650007";
+1	snRNA	gene	693613	693716	.	-	.	gene_id "ENSG00000223181"; gene_name "RNU6-1199P"; gene_source "ensembl"; gene_biotype "snRNA";
+1	snRNA	transcript	693613	693716	.	-	.	gene_id "ENSG00000223181"; transcript_id "ENST00000411249"; gene_name "RNU6-1199P"; gene_source "ensembl"; gene_biotype "snRNA"; transcript_name "RNU6-1199P-201"; transcript_source "ensembl";
+1	snRNA	exon	693613	693716	.	-	.	gene_id "ENSG00000223181"; transcript_id "ENST00000411249"; exon_number "1"; gene_name "RNU6-1199P"; gene_source "ensembl"; gene_biotype "snRNA"; transcript_name "RNU6-1199P-201"; transcript_source "ensembl"; exon_id "ENSE00001807223";
+1	lincRNA	gene	694412	700305	.	-	.	gene_id "ENSG00000240618"; gene_name "RP11-206L10.5"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	694412	700305	.	-	.	gene_id "ENSG00000240618"; transcript_id "ENST00000417659"; gene_name "RP11-206L10.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.5-001"; transcript_source "havana";
+1	lincRNA	exon	700103	700305	.	-	.	gene_id "ENSG00000240618"; transcript_id "ENST00000417659"; exon_number "1"; gene_name "RP11-206L10.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.5-001"; transcript_source "havana"; exon_id "ENSE00001674071";
+1	lincRNA	exon	694412	694503	.	-	.	gene_id "ENSG00000240618"; transcript_id "ENST00000417659"; exon_number "2"; gene_name "RP11-206L10.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.5-001"; transcript_source "havana"; exon_id "ENSE00001609623";
+1	antisense	gene	696291	697369	.	+	.	gene_id "ENSG00000229905"; gene_name "RP11-206L10.4"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	696291	697369	.	+	.	gene_id "ENSG00000229905"; transcript_id "ENST00000422528"; gene_name "RP11-206L10.4"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-206L10.4-001"; transcript_source "havana";
+1	antisense	exon	696291	696534	.	+	.	gene_id "ENSG00000229905"; transcript_id "ENST00000422528"; exon_number "1"; gene_name "RP11-206L10.4"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-206L10.4-001"; transcript_source "havana"; exon_id "ENSE00001695448";
+1	antisense	exon	697158	697369	.	+	.	gene_id "ENSG00000229905"; transcript_id "ENST00000422528"; exon_number "2"; gene_name "RP11-206L10.4"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-206L10.4-001"; transcript_source "havana"; exon_id "ENSE00001761034";
+1	lincRNA	gene	700237	714006	.	-	.	gene_id "ENSG00000228327"; gene_name "RP11-206L10.2"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	700237	714006	.	-	.	gene_id "ENSG00000228327"; transcript_id "ENST00000428504"; gene_name "RP11-206L10.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.2-001"; transcript_source "havana";
+1	lincRNA	exon	713664	714006	.	-	.	gene_id "ENSG00000228327"; transcript_id "ENST00000428504"; exon_number "1"; gene_name "RP11-206L10.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.2-001"; transcript_source "havana"; exon_id "ENSE00001715349";
+1	lincRNA	exon	709551	709660	.	-	.	gene_id "ENSG00000228327"; transcript_id "ENST00000428504"; exon_number "2"; gene_name "RP11-206L10.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.2-001"; transcript_source "havana"; exon_id "ENSE00001630466";
+1	lincRNA	exon	708356	708487	.	-	.	gene_id "ENSG00000228327"; transcript_id "ENST00000428504"; exon_number "3"; gene_name "RP11-206L10.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.2-001"; transcript_source "havana"; exon_id "ENSE00001740558";
+1	lincRNA	exon	704877	705092	.	-	.	gene_id "ENSG00000228327"; transcript_id "ENST00000428504"; exon_number "4"; gene_name "RP11-206L10.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.2-001"; transcript_source "havana"; exon_id "ENSE00001703665";
+1	lincRNA	exon	703928	703993	.	-	.	gene_id "ENSG00000228327"; transcript_id "ENST00000428504"; exon_number "5"; gene_name "RP11-206L10.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.2-001"; transcript_source "havana"; exon_id "ENSE00001780794";
+1	lincRNA	exon	701709	701767	.	-	.	gene_id "ENSG00000228327"; transcript_id "ENST00000428504"; exon_number "6"; gene_name "RP11-206L10.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.2-001"; transcript_source "havana"; exon_id "ENSE00001616222";
+1	lincRNA	exon	700237	700627	.	-	.	gene_id "ENSG00000228327"; transcript_id "ENST00000428504"; exon_number "7"; gene_name "RP11-206L10.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.2-001"; transcript_source "havana"; exon_id "ENSE00001723311";
+1	lincRNA	gene	714150	745440	.	+	.	gene_id "ENSG00000237491"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	714150	720070	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000434264"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-017"; transcript_source "havana";
+1	lincRNA	exon	714150	714472	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000434264"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-017"; transcript_source "havana"; exon_id "ENSE00003705302";
+1	lincRNA	exon	717317	717516	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000434264"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-017"; transcript_source "havana"; exon_id "ENSE00001741526";
+1	lincRNA	exon	719750	720070	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000434264"; exon_number "3"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-017"; transcript_source "havana"; exon_id "ENSE00001596490";
+1	lincRNA	transcript	714162	717571	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000457084"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-019"; transcript_source "havana";
+1	lincRNA	exon	714162	714472	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000457084"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-019"; transcript_source "havana"; exon_id "ENSE00001719955";
+1	lincRNA	exon	717317	717571	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000457084"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-019"; transcript_source "havana"; exon_id "ENSE00001642276";
+1	lincRNA	transcript	714310	720035	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000589899"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-003"; transcript_source "havana";
+1	lincRNA	exon	714310	714472	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000589899"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-003"; transcript_source "havana"; exon_id "ENSE00002824115";
+1	lincRNA	exon	717317	717423	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000589899"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-003"; transcript_source "havana"; exon_id "ENSE00002920037";
+1	lincRNA	exon	718491	718743	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000589899"; exon_number "3"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-003"; transcript_source "havana"; exon_id "ENSE00002767185";
+1	lincRNA	exon	719750	720035	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000589899"; exon_number "4"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-003"; transcript_source "havana"; exon_id "ENSE00002968432";
+1	lincRNA	transcript	714317	719809	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000609830"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-021"; transcript_source "havana";
+1	lincRNA	exon	714317	714472	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000609830"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-021"; transcript_source "havana"; exon_id "ENSE00003708104";
+1	lincRNA	exon	717317	717516	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000609830"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-021"; transcript_source "havana"; exon_id "ENSE00001741526";
+1	lincRNA	exon	718491	718743	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000609830"; exon_number "3"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-021"; transcript_source "havana"; exon_id "ENSE00002767185";
+1	lincRNA	exon	719750	719809	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000609830"; exon_number "4"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-021"; transcript_source "havana"; exon_id "ENSE00003711221";
+1	lincRNA	transcript	714436	740255	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000429505"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-001"; transcript_source "havana";
+1	lincRNA	exon	714436	714472	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000429505"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-001"; transcript_source "havana"; exon_id "ENSE00001610263";
+1	lincRNA	exon	739299	739602	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000429505"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-001"; transcript_source "havana"; exon_id "ENSE00001706796";
+1	lincRNA	exon	740156	740255	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000429505"; exon_number "3"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-001"; transcript_source "havana"; exon_id "ENSE00001669825";
+1	lincRNA	transcript	719750	720139	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000585826"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-006"; transcript_source "havana";
+1	lincRNA	exon	719750	720139	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000585826"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-006"; transcript_source "havana"; exon_id "ENSE00002849436";
+1	lincRNA	transcript	719750	720357	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000592547"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-005"; transcript_source "havana";
+1	lincRNA	exon	719750	720357	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000592547"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-005"; transcript_source "havana"; exon_id "ENSE00002792640";
+1	lincRNA	transcript	719750	722246	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000586928"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-004"; transcript_source "havana";
+1	lincRNA	exon	719750	719873	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000586928"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-004"; transcript_source "havana"; exon_id "ENSE00002806114";
+1	lincRNA	exon	721773	722246	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000586928"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-004"; transcript_source "havana"; exon_id "ENSE00002830575";
+1	lincRNA	transcript	719750	730893	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000585745"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-008"; transcript_source "havana";
+1	lincRNA	exon	719750	719873	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000585745"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-008"; transcript_source "havana"; exon_id "ENSE00002806114";
+1	lincRNA	exon	730850	730893	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000585745"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-008"; transcript_source "havana"; exon_id "ENSE00002897844";
+1	lincRNA	transcript	719750	737256	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000585768"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-009"; transcript_source "havana";
+1	lincRNA	exon	719750	719873	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000585768"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-009"; transcript_source "havana"; exon_id "ENSE00002806114";
+1	lincRNA	exon	736987	737256	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000585768"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-009"; transcript_source "havana"; exon_id "ENSE00002861078";
+1	lincRNA	transcript	719750	740212	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000590848"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-007"; transcript_source "havana";
+1	lincRNA	exon	719750	719873	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000590848"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-007"; transcript_source "havana"; exon_id "ENSE00002806114";
+1	lincRNA	exon	728262	728421	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000590848"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-007"; transcript_source "havana"; exon_id "ENSE00002906328";
+1	lincRNA	exon	730850	730962	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000590848"; exon_number "3"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-007"; transcript_source "havana"; exon_id "ENSE00002897294";
+1	lincRNA	exon	739331	739602	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000590848"; exon_number "4"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-007"; transcript_source "havana"; exon_id "ENSE00002781548";
+1	lincRNA	exon	740156	740212	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000590848"; exon_number "5"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-007"; transcript_source "havana"; exon_id "ENSE00002930618";
+1	lincRNA	transcript	719750	740507	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000587530"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-011"; transcript_source "havana";
+1	lincRNA	exon	719750	719873	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000587530"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-011"; transcript_source "havana"; exon_id "ENSE00002806114";
+1	lincRNA	exon	738947	739047	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000587530"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-011"; transcript_source "havana"; exon_id "ENSE00002817360";
+1	lincRNA	exon	739299	739602	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000587530"; exon_number "3"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-011"; transcript_source "havana"; exon_id "ENSE00001706796";
+1	lincRNA	exon	740156	740507	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000587530"; exon_number "4"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-011"; transcript_source "havana"; exon_id "ENSE00002850432";
+1	lincRNA	transcript	719750	740507	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000591440"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-013"; transcript_source "havana";
+1	lincRNA	exon	719750	719873	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000591440"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-013"; transcript_source "havana"; exon_id "ENSE00002806114";
+1	lincRNA	exon	739299	739602	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000591440"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-013"; transcript_source "havana"; exon_id "ENSE00001706796";
+1	lincRNA	exon	740156	740507	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000591440"; exon_number "3"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-013"; transcript_source "havana"; exon_id "ENSE00002850432";
+1	lincRNA	transcript	719750	741839	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000593022"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-012"; transcript_source "havana";
+1	lincRNA	exon	719750	719873	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000593022"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-012"; transcript_source "havana"; exon_id "ENSE00002806114";
+1	lincRNA	exon	739299	739602	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000593022"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-012"; transcript_source "havana"; exon_id "ENSE00001706796";
+1	lincRNA	exon	740156	740346	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000593022"; exon_number "3"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-012"; transcript_source "havana"; exon_id "ENSE00002904472";
+1	lincRNA	exon	741766	741839	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000593022"; exon_number "4"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-012"; transcript_source "havana"; exon_id "ENSE00002772343";
+1	lincRNA	transcript	719750	742694	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000589531"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-018"; transcript_source "havana";
+1	lincRNA	exon	719750	719873	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000589531"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-018"; transcript_source "havana"; exon_id "ENSE00002806114";
+1	lincRNA	exon	739302	739602	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000589531"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-018"; transcript_source "havana"; exon_id "ENSE00002766583";
+1	lincRNA	exon	740156	740346	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000589531"; exon_number "3"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-018"; transcript_source "havana"; exon_id "ENSE00002904472";
+1	lincRNA	exon	742597	742694	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000589531"; exon_number "4"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-018"; transcript_source "havana"; exon_id "ENSE00002894550";
+1	lincRNA	transcript	719750	745109	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000588951"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-002"; transcript_source "havana";
+1	lincRNA	exon	719750	719873	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000588951"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-002"; transcript_source "havana"; exon_id "ENSE00002806114";
+1	lincRNA	exon	739299	739602	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000588951"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-002"; transcript_source "havana"; exon_id "ENSE00001706796";
+1	lincRNA	exon	742597	742703	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000588951"; exon_number "3"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-002"; transcript_source "havana"; exon_id "ENSE00001787632";
+1	lincRNA	exon	745038	745109	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000588951"; exon_number "4"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-002"; transcript_source "havana"; exon_id "ENSE00002883887";
+1	lincRNA	transcript	719776	742701	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000586288"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-010"; transcript_source "havana";
+1	lincRNA	exon	719776	719873	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000586288"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-010"; transcript_source "havana"; exon_id "ENSE00002975428";
+1	lincRNA	exon	728262	728421	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000586288"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-010"; transcript_source "havana"; exon_id "ENSE00002906328";
+1	lincRNA	exon	730850	730962	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000586288"; exon_number "3"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-010"; transcript_source "havana"; exon_id "ENSE00002897294";
+1	lincRNA	exon	738947	739047	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000586288"; exon_number "4"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-010"; transcript_source "havana"; exon_id "ENSE00002817360";
+1	lincRNA	exon	739331	739602	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000586288"; exon_number "5"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-010"; transcript_source "havana"; exon_id "ENSE00002781548";
+1	lincRNA	exon	740156	740346	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000586288"; exon_number "6"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-010"; transcript_source "havana"; exon_id "ENSE00002904472";
+1	lincRNA	exon	742597	742701	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000586288"; exon_number "7"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-010"; transcript_source "havana"; exon_id "ENSE00002877855";
+1	lincRNA	transcript	721180	723052	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000591702"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-020"; transcript_source "havana";
+1	lincRNA	exon	721180	723052	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000591702"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-020"; transcript_source "havana"; exon_id "ENSE00002846108";
+1	lincRNA	transcript	721320	722513	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000358533"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-201"; transcript_source "ensembl";
+1	lincRNA	exon	721320	722513	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000358533"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-201"; transcript_source "ensembl"; exon_id "ENSE00001432917";
+1	lincRNA	transcript	740156	740650	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000587126"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-015"; transcript_source "havana";
+1	lincRNA	exon	740156	740650	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000587126"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-015"; transcript_source "havana"; exon_id "ENSE00002739987";
+1	lincRNA	transcript	740179	742845	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000443772"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-014"; transcript_source "havana";
+1	lincRNA	exon	740179	740346	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000443772"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-014"; transcript_source "havana"; exon_id "ENSE00001776151";
+1	lincRNA	exon	742597	742845	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000443772"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-014"; transcript_source "havana"; exon_id "ENSE00001657688";
+1	lincRNA	transcript	740312	745440	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000412115"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-016"; transcript_source "havana";
+1	lincRNA	exon	740312	740346	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000412115"; exon_number "1"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-016"; transcript_source "havana"; exon_id "ENSE00001730958";
+1	lincRNA	exon	742597	742703	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000412115"; exon_number "2"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-016"; transcript_source "havana"; exon_id "ENSE00001787632";
+1	lincRNA	exon	745002	745440	.	+	.	gene_id "ENSG00000237491"; transcript_id "ENST00000412115"; exon_number "3"; gene_name "RP11-206L10.9"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "RP11-206L10.9-016"; transcript_source "havana"; exon_id "ENSE00001615350";
+1	pseudogene	gene	736259	745541	.	-	.	gene_id "ENSG00000230092"; gene_name "RP11-206L10.8"; gene_source "havana"; gene_biotype "pseudogene";
+1	transcribed_unprocessed_pseudogene	transcript	736259	745541	.	-	.	gene_id "ENSG00000230092"; transcript_id "ENST00000590817"; gene_name "RP11-206L10.8"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-206L10.8-001"; transcript_source "havana";
+1	transcribed_unprocessed_pseudogene	exon	745447	745541	.	-	.	gene_id "ENSG00000230092"; transcript_id "ENST00000590817"; exon_number "1"; gene_name "RP11-206L10.8"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-206L10.8-001"; transcript_source "havana"; exon_id "ENSE00001651951";
+1	transcribed_unprocessed_pseudogene	exon	743954	744003	.	-	.	gene_id "ENSG00000230092"; transcript_id "ENST00000590817"; exon_number "2"; gene_name "RP11-206L10.8"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-206L10.8-001"; transcript_source "havana"; exon_id "ENSE00001782999";
+1	transcribed_unprocessed_pseudogene	exon	741179	741271	.	-	.	gene_id "ENSG00000230092"; transcript_id "ENST00000590817"; exon_number "3"; gene_name "RP11-206L10.8"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-206L10.8-001"; transcript_source "havana"; exon_id "ENSE00001640641";
+1	transcribed_unprocessed_pseudogene	exon	736259	736543	.	-	.	gene_id "ENSG00000230092"; transcript_id "ENST00000590817"; exon_number "4"; gene_name "RP11-206L10.8"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-206L10.8-001"; transcript_source "havana"; exon_id "ENSE00001716345";
+1	processed_transcript	transcript	736259	745541	.	-	.	gene_id "ENSG00000230092"; transcript_id "ENST00000447500"; gene_name "RP11-206L10.8"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-206L10.8-002"; transcript_source "havana";
+1	processed_transcript	exon	745447	745541	.	-	.	gene_id "ENSG00000230092"; transcript_id "ENST00000447500"; exon_number "1"; gene_name "RP11-206L10.8"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-206L10.8-002"; transcript_source "havana"; exon_id "ENSE00001651951";
+1	processed_transcript	exon	743954	744003	.	-	.	gene_id "ENSG00000230092"; transcript_id "ENST00000447500"; exon_number "2"; gene_name "RP11-206L10.8"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-206L10.8-002"; transcript_source "havana"; exon_id "ENSE00001782999";
+1	processed_transcript	exon	741179	741271	.	-	.	gene_id "ENSG00000230092"; transcript_id "ENST00000447500"; exon_number "3"; gene_name "RP11-206L10.8"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-206L10.8-002"; transcript_source "havana"; exon_id "ENSE00001640641";
+1	processed_transcript	exon	736259	736543	.	-	.	gene_id "ENSG00000230092"; transcript_id "ENST00000447500"; exon_number "4"; gene_name "RP11-206L10.8"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-206L10.8-002"; transcript_source "havana"; exon_id "ENSE00001716345";
+1	protein_coding	gene	738532	739137	.	-	.	gene_id "ENSG00000269831"; gene_name "AL669831.1"; gene_source "ensembl"; gene_biotype "protein_coding";
+1	protein_coding	transcript	738532	739137	.	-	.	gene_id "ENSG00000269831"; transcript_id "ENST00000599533"; gene_name "AL669831.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL669831.1-201"; transcript_source "ensembl";
+1	protein_coding	exon	739121	739137	.	-	.	gene_id "ENSG00000269831"; transcript_id "ENST00000599533"; exon_number "1"; gene_name "AL669831.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL669831.1-201"; transcript_source "ensembl"; exon_id "ENSE00003063549";
+1	protein_coding	CDS	739121	739137	.	-	0	gene_id "ENSG00000269831"; transcript_id "ENST00000599533"; exon_number "1"; gene_name "AL669831.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL669831.1-201"; transcript_source "ensembl"; protein_id "ENSP00000468859";
+1	protein_coding	exon	738788	738812	.	-	.	gene_id "ENSG00000269831"; transcript_id "ENST00000599533"; exon_number "2"; gene_name "AL669831.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL669831.1-201"; transcript_source "ensembl"; exon_id "ENSE00003084653";
+1	protein_coding	CDS	738788	738812	.	-	1	gene_id "ENSG00000269831"; transcript_id "ENST00000599533"; exon_number "2"; gene_name "AL669831.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL669831.1-201"; transcript_source "ensembl"; protein_id "ENSP00000468859";
+1	protein_coding	exon	738532	738618	.	-	.	gene_id "ENSG00000269831"; transcript_id "ENST00000599533"; exon_number "3"; gene_name "AL669831.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL669831.1-201"; transcript_source "ensembl"; exon_id "ENSE00003138540";
+1	protein_coding	CDS	738532	738618	.	-	0	gene_id "ENSG00000269831"; transcript_id "ENST00000599533"; exon_number "3"; gene_name "AL669831.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL669831.1-201"; transcript_source "ensembl"; protein_id "ENSP00000468859";
+1	processed_transcript	gene	745489	753092	.	-	.	gene_id "ENSG00000240453"; gene_name "RP11-206L10.10"; gene_source "havana"; gene_biotype "processed_transcript";
+1	processed_transcript	transcript	745489	753092	.	-	.	gene_id "ENSG00000240453"; transcript_id "ENST00000435300"; gene_name "RP11-206L10.10"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-206L10.10-001"; transcript_source "havana";
+1	processed_transcript	exon	752753	753092	.	-	.	gene_id "ENSG00000240453"; transcript_id "ENST00000435300"; exon_number "1"; gene_name "RP11-206L10.10"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-206L10.10-001"; transcript_source "havana"; exon_id "ENSE00001746491";
+1	processed_transcript	exon	745489	745550	.	-	.	gene_id "ENSG00000240453"; transcript_id "ENST00000435300"; exon_number "2"; gene_name "RP11-206L10.10"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP11-206L10.10-001"; transcript_source "havana"; exon_id "ENSE00001674926";
+1	lincRNA	gene	752751	755214	.	+	.	gene_id "ENSG00000177757"; gene_name "FAM87B"; gene_source "ensembl_havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	752751	755214	.	+	.	gene_id "ENSG00000177757"; transcript_id "ENST00000326734"; gene_name "FAM87B"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM87B-001"; transcript_source "ensembl_havana";
+1	lincRNA	exon	752751	753582	.	+	.	gene_id "ENSG00000177757"; transcript_id "ENST00000326734"; exon_number "1"; gene_name "FAM87B"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM87B-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001249411";
+1	lincRNA	exon	754103	755214	.	+	.	gene_id "ENSG00000177757"; transcript_id "ENST00000326734"; exon_number "2"; gene_name "FAM87B"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM87B-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001711564";
+1	lincRNA	gene	761586	762902	.	-	.	gene_id "ENSG00000225880"; gene_name "LINC00115"; gene_source "ensembl_havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	761586	762902	.	-	.	gene_id "ENSG00000225880"; transcript_id "ENST00000473798"; gene_name "LINC00115"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "LINC00115-001"; transcript_source "havana";
+1	lincRNA	exon	761586	762902	.	-	.	gene_id "ENSG00000225880"; transcript_id "ENST00000473798"; exon_number "1"; gene_name "LINC00115"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "LINC00115-001"; transcript_source "havana"; exon_id "ENSE00001890287";
+1	lincRNA	transcript	761589	762886	.	-	.	gene_id "ENSG00000225880"; transcript_id "ENST00000536430"; gene_name "LINC00115"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "LINC00115-201"; transcript_source "ensembl";
+1	lincRNA	exon	761589	762886	.	-	.	gene_id "ENSG00000225880"; transcript_id "ENST00000536430"; exon_number "1"; gene_name "LINC00115"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "LINC00115-201"; transcript_source "ensembl"; exon_id "ENSE00002285202";
+1	processed_transcript	gene	762988	794826	.	+	.	gene_id "ENSG00000228794"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript";
+1	lincRNA	transcript	762988	794826	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000445118"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-001"; transcript_source "havana";
+1	lincRNA	exon	762988	763155	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000445118"; exon_number "1"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-001"; transcript_source "havana"; exon_id "ENSE00001768150";
+1	lincRNA	exon	764383	764484	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000445118"; exon_number "2"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-001"; transcript_source "havana"; exon_id "ENSE00001656290";
+1	lincRNA	exon	787307	787490	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000445118"; exon_number "3"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-001"; transcript_source "havana"; exon_id "ENSE00001678509";
+1	lincRNA	exon	788051	788146	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000445118"; exon_number "4"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-001"; transcript_source "havana"; exon_id "ENSE00001778823";
+1	lincRNA	exon	788771	794826	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000445118"; exon_number "5"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-001"; transcript_source "havana"; exon_id "ENSE00001617947";
+1	lincRNA	transcript	763041	787367	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000610067"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-009"; transcript_source "havana";
+1	lincRNA	exon	763041	763155	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000610067"; exon_number "1"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-009"; transcript_source "havana"; exon_id "ENSE00003703791";
+1	lincRNA	exon	764383	764484	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000610067"; exon_number "2"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-009"; transcript_source "havana"; exon_id "ENSE00001656290";
+1	lincRNA	exon	783034	783186	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000610067"; exon_number "3"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-009"; transcript_source "havana"; exon_id "ENSE00001688192";
+1	lincRNA	exon	784864	784982	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000610067"; exon_number "4"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-009"; transcript_source "havana"; exon_id "ENSE00003702545";
+1	lincRNA	exon	787307	787367	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000610067"; exon_number "5"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-009"; transcript_source "havana"; exon_id "ENSE00003704746";
+1	lincRNA	transcript	763047	777118	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000441765"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-006"; transcript_source "havana";
+1	lincRNA	exon	763047	763155	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000441765"; exon_number "1"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-006"; transcript_source "havana"; exon_id "ENSE00001711288";
+1	lincRNA	exon	764383	764484	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000441765"; exon_number "2"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-006"; transcript_source "havana"; exon_id "ENSE00001656290";
+1	lincRNA	exon	776580	777118	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000441765"; exon_number "3"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-006"; transcript_source "havana"; exon_id "ENSE00001736174";
+1	lincRNA	transcript	763049	787378	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000609139"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-010"; transcript_source "havana";
+1	lincRNA	exon	763049	763155	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000609139"; exon_number "1"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-010"; transcript_source "havana"; exon_id "ENSE00003703633";
+1	lincRNA	exon	764383	764484	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000609139"; exon_number "2"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-010"; transcript_source "havana"; exon_id "ENSE00001656290";
+1	lincRNA	exon	776580	776753	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000609139"; exon_number "3"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-010"; transcript_source "havana"; exon_id "ENSE00003711186";
+1	lincRNA	exon	787307	787378	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000609139"; exon_number "4"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-010"; transcript_source "havana"; exon_id "ENSE00003705678";
+1	lincRNA	transcript	763053	789006	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000449005"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-004"; transcript_source "havana";
+1	lincRNA	exon	763053	763155	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000449005"; exon_number "1"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-004"; transcript_source "havana"; exon_id "ENSE00001671329";
+1	lincRNA	exon	764383	764484	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000449005"; exon_number "2"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-004"; transcript_source "havana"; exon_id "ENSE00001656290";
+1	lincRNA	exon	783034	783186	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000449005"; exon_number "3"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-004"; transcript_source "havana"; exon_id "ENSE00001688192";
+1	lincRNA	exon	787307	787490	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000449005"; exon_number "4"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-004"; transcript_source "havana"; exon_id "ENSE00001678509";
+1	lincRNA	exon	788051	788146	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000449005"; exon_number "5"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-004"; transcript_source "havana"; exon_id "ENSE00001778823";
+1	lincRNA	exon	788771	789006	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000449005"; exon_number "6"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-004"; transcript_source "havana"; exon_id "ENSE00001775761";
+1	lincRNA	transcript	763079	788146	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000416570"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-003"; transcript_source "havana";
+1	lincRNA	exon	763079	763155	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000416570"; exon_number "1"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-003"; transcript_source "havana"; exon_id "ENSE00001546816";
+1	lincRNA	exon	764383	764484	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000416570"; exon_number "2"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-003"; transcript_source "havana"; exon_id "ENSE00001656290";
+1	lincRNA	exon	783034	783186	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000416570"; exon_number "3"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-003"; transcript_source "havana"; exon_id "ENSE00001688192";
+1	lincRNA	exon	787307	787490	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000416570"; exon_number "4"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-003"; transcript_source "havana"; exon_id "ENSE00001678509";
+1	lincRNA	exon	788051	788146	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000416570"; exon_number "5"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-003"; transcript_source "havana"; exon_id "ENSE00001778823";
+1	lincRNA	transcript	763079	788146	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000448975"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-008"; transcript_source "havana";
+1	lincRNA	exon	763079	763155	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000448975"; exon_number "1"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-008"; transcript_source "havana"; exon_id "ENSE00001546816";
+1	lincRNA	exon	764383	764484	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000448975"; exon_number "2"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-008"; transcript_source "havana"; exon_id "ENSE00001656290";
+1	lincRNA	exon	783034	783186	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000448975"; exon_number "3"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-008"; transcript_source "havana"; exon_id "ENSE00001688192";
+1	lincRNA	exon	787307	787490	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000448975"; exon_number "4"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-008"; transcript_source "havana"; exon_id "ENSE00001678509";
+1	lincRNA	exon	788051	788146	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000448975"; exon_number "5"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-008"; transcript_source "havana"; exon_id "ENSE00001778823";
+1	lincRNA	transcript	764443	785731	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000609009"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-012"; transcript_source "havana";
+1	lincRNA	exon	764443	764484	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000609009"; exon_number "1"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-012"; transcript_source "havana"; exon_id "ENSE00003709543";
+1	lincRNA	exon	783034	783186	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000609009"; exon_number "2"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-012"; transcript_source "havana"; exon_id "ENSE00001688192";
+1	lincRNA	exon	784864	784982	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000609009"; exon_number "3"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-012"; transcript_source "havana"; exon_id "ENSE00003702545";
+1	lincRNA	exon	785558	785731	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000609009"; exon_number "4"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-012"; transcript_source "havana"; exon_id "ENSE00003707380";
+1	lincRNA	transcript	764443	785731	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000608189"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-011"; transcript_source "havana";
+1	lincRNA	exon	764443	764484	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000608189"; exon_number "1"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-011"; transcript_source "havana"; exon_id "ENSE00003709543";
+1	lincRNA	exon	783034	783186	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000608189"; exon_number "2"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-011"; transcript_source "havana"; exon_id "ENSE00001688192";
+1	lincRNA	exon	784864	784982	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000608189"; exon_number "3"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-011"; transcript_source "havana"; exon_id "ENSE00003702545";
+1	lincRNA	exon	785561	785731	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000608189"; exon_number "4"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-011"; transcript_source "havana"; exon_id "ENSE00003707413";
+1	lincRNA	transcript	766985	777400	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000415295"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-007"; transcript_source "havana";
+1	lincRNA	exon	766985	767057	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000415295"; exon_number "1"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-007"; transcript_source "havana"; exon_id "ENSE00001802996";
+1	lincRNA	exon	776580	777400	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000415295"; exon_number "2"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-007"; transcript_source "havana"; exon_id "ENSE00001614719";
+1	retained_intron	transcript	786728	788132	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000425657"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-005"; transcript_source "havana";
+1	retained_intron	exon	786728	787490	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000425657"; exon_number "1"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-005"; transcript_source "havana"; exon_id "ENSE00001622987";
+1	retained_intron	exon	788051	788132	.	+	.	gene_id "ENSG00000228794"; transcript_id "ENST00000425657"; exon_number "2"; gene_name "LINC01128"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "LINC01128-005"; transcript_source "havana"; exon_id "ENSE00001729954";
+1	lincRNA	gene	803451	812283	.	-	.	gene_id "ENSG00000230368"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	803451	812283	.	-	.	gene_id "ENSG00000230368"; transcript_id "ENST00000446136"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM41C-001"; transcript_source "havana";
+1	lincRNA	exon	812126	812283	.	-	.	gene_id "ENSG00000230368"; transcript_id "ENST00000446136"; exon_number "1"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM41C-001"; transcript_source "havana"; exon_id "ENSE00001767181";
+1	lincRNA	exon	809492	810535	.	-	.	gene_id "ENSG00000230368"; transcript_id "ENST00000446136"; exon_number "2"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM41C-001"; transcript_source "havana"; exon_id "ENSE00001733976";
+1	lincRNA	exon	803451	804055	.	-	.	gene_id "ENSG00000230368"; transcript_id "ENST00000446136"; exon_number "3"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM41C-001"; transcript_source "havana"; exon_id "ENSE00001645595";
+1	lincRNA	transcript	803620	805581	.	-	.	gene_id "ENSG00000230368"; transcript_id "ENST00000432963"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM41C-003"; transcript_source "ensembl_havana";
+1	lincRNA	exon	805466	805581	.	-	.	gene_id "ENSG00000230368"; transcript_id "ENST00000432963"; exon_number "1"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM41C-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001791782";
+1	lincRNA	exon	804908	804955	.	-	.	gene_id "ENSG00000230368"; transcript_id "ENST00000432963"; exon_number "2"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM41C-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001605362";
+1	lincRNA	exon	804007	804055	.	-	.	gene_id "ENSG00000230368"; transcript_id "ENST00000432963"; exon_number "3"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM41C-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001649469";
+1	lincRNA	exon	803620	803910	.	-	.	gene_id "ENSG00000230368"; transcript_id "ENST00000432963"; exon_number "4"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM41C-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001759635";
+1	lincRNA	transcript	803783	812182	.	-	.	gene_id "ENSG00000230368"; transcript_id "ENST00000427857"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM41C-002"; transcript_source "havana";
+1	lincRNA	exon	812126	812182	.	-	.	gene_id "ENSG00000230368"; transcript_id "ENST00000427857"; exon_number "1"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM41C-002"; transcript_source "havana"; exon_id "ENSE00001790000";
+1	lincRNA	exon	810420	810535	.	-	.	gene_id "ENSG00000230368"; transcript_id "ENST00000427857"; exon_number "2"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM41C-002"; transcript_source "havana"; exon_id "ENSE00001634033";
+1	lincRNA	exon	803783	804055	.	-	.	gene_id "ENSG00000230368"; transcript_id "ENST00000427857"; exon_number "3"; gene_name "FAM41C"; gene_source "ensembl_havana"; gene_biotype "lincRNA"; transcript_name "FAM41C-002"; transcript_source "havana"; exon_id "ENSE00001640201";
+1	pseudogene	gene	808672	809729	.	+	.	gene_id "ENSG00000234711"; gene_name "TUBB8P11"; gene_source "havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	808672	809729	.	+	.	gene_id "ENSG00000234711"; transcript_id "ENST00000415481"; gene_name "TUBB8P11"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "TUBB8P11-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	808672	809729	.	+	.	gene_id "ENSG00000234711"; transcript_id "ENST00000415481"; exon_number "1"; gene_name "TUBB8P11"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "TUBB8P11-001"; transcript_source "havana"; exon_id "ENSE00001714024";
+1	protein_coding	gene	818043	819983	.	+	.	gene_id "ENSG00000269308"; gene_name "AL645608.2"; gene_source "ensembl"; gene_biotype "protein_coding";
+1	protein_coding	transcript	818043	819983	.	+	.	gene_id "ENSG00000269308"; transcript_id "ENST00000594233"; gene_name "AL645608.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.2-201"; transcript_source "ensembl";
+1	protein_coding	exon	818043	818058	.	+	.	gene_id "ENSG00000269308"; transcript_id "ENST00000594233"; exon_number "1"; gene_name "AL645608.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.2-201"; transcript_source "ensembl"; exon_id "ENSE00003079649";
+1	protein_coding	CDS	818043	818058	.	+	0	gene_id "ENSG00000269308"; transcript_id "ENST00000594233"; exon_number "1"; gene_name "AL645608.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.2-201"; transcript_source "ensembl"; protein_id "ENSP00000470877";
+1	protein_coding	exon	819496	819513	.	+	.	gene_id "ENSG00000269308"; transcript_id "ENST00000594233"; exon_number "2"; gene_name "AL645608.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.2-201"; transcript_source "ensembl"; exon_id "ENSE00003048391";
+1	protein_coding	CDS	819496	819513	.	+	2	gene_id "ENSG00000269308"; transcript_id "ENST00000594233"; exon_number "2"; gene_name "AL645608.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.2-201"; transcript_source "ensembl"; protein_id "ENSP00000470877";
+1	protein_coding	exon	819961	819983	.	+	.	gene_id "ENSG00000269308"; transcript_id "ENST00000594233"; exon_number "3"; gene_name "AL645608.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.2-201"; transcript_source "ensembl"; exon_id "ENSE00003055565";
+1	protein_coding	CDS	819961	819980	.	+	2	gene_id "ENSG00000269308"; transcript_id "ENST00000594233"; exon_number "3"; gene_name "AL645608.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.2-201"; transcript_source "ensembl"; protein_id "ENSP00000470877";
+1	protein_coding	stop_codon	819981	819983	.	+	0	gene_id "ENSG00000269308"; transcript_id "ENST00000594233"; exon_number "3"; gene_name "AL645608.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.2-201"; transcript_source "ensembl";
+1	lincRNA	gene	840214	851356	.	+	.	gene_id "ENSG00000272438"; gene_name "RP11-54O7.16"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	840214	851356	.	+	.	gene_id "ENSG00000272438"; transcript_id "ENST00000607769"; gene_name "RP11-54O7.16"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.16-001"; transcript_source "havana";
+1	lincRNA	exon	840214	840337	.	+	.	gene_id "ENSG00000272438"; transcript_id "ENST00000607769"; exon_number "1"; gene_name "RP11-54O7.16"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.16-001"; transcript_source "havana"; exon_id "ENSE00003700027";
+1	lincRNA	exon	851130	851356	.	+	.	gene_id "ENSG00000272438"; transcript_id "ENST00000607769"; exon_number "2"; gene_name "RP11-54O7.16"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.16-001"; transcript_source "havana"; exon_id "ENSE00003696845";
+1	lincRNA	gene	846815	850328	.	+	.	gene_id "ENSG00000230699"; gene_name "RP11-54O7.1"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	846815	850328	.	+	.	gene_id "ENSG00000230699"; transcript_id "ENST00000448179"; gene_name "RP11-54O7.1"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.1-001"; transcript_source "havana";
+1	lincRNA	exon	846815	846853	.	+	.	gene_id "ENSG00000230699"; transcript_id "ENST00000448179"; exon_number "1"; gene_name "RP11-54O7.1"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.1-001"; transcript_source "havana"; exon_id "ENSE00001656547";
+1	lincRNA	exon	847325	850328	.	+	.	gene_id "ENSG00000230699"; transcript_id "ENST00000448179"; exon_number "2"; gene_name "RP11-54O7.1"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.1-001"; transcript_source "havana"; exon_id "ENSE00001646341";
+1	lincRNA	gene	849551	850351	.	+	.	gene_id "ENSG00000241180"; gene_name "RP11-54O7.2"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	849551	850351	.	+	.	gene_id "ENSG00000241180"; transcript_id "ENST00000398216"; gene_name "RP11-54O7.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.2-001"; transcript_source "havana";
+1	lincRNA	exon	849551	849824	.	+	.	gene_id "ENSG00000241180"; transcript_id "ENST00000398216"; exon_number "1"; gene_name "RP11-54O7.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.2-001"; transcript_source "havana"; exon_id "ENSE00001653359";
+1	lincRNA	exon	850183	850351	.	+	.	gene_id "ENSG00000241180"; transcript_id "ENST00000398216"; exon_number "2"; gene_name "RP11-54O7.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.2-001"; transcript_source "havana"; exon_id "ENSE00001670060";
+1	lincRNA	gene	852245	856396	.	-	.	gene_id "ENSG00000223764"; gene_name "RP11-54O7.3"; gene_source "havana"; gene_biotype "lincRNA";
+1	retained_intron	transcript	852245	856396	.	-	.	gene_id "ENSG00000223764"; transcript_id "ENST00000609207"; gene_name "RP11-54O7.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.3-003"; transcript_source "havana";
+1	retained_intron	exon	852245	856396	.	-	.	gene_id "ENSG00000223764"; transcript_id "ENST00000609207"; exon_number "1"; gene_name "RP11-54O7.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.3-003"; transcript_source "havana"; exon_id "ENSE00003706193";
+1	lincRNA	transcript	852250	855072	.	-	.	gene_id "ENSG00000223764"; transcript_id "ENST00000417705"; gene_name "RP11-54O7.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.3-001"; transcript_source "havana";
+1	lincRNA	exon	854715	855072	.	-	.	gene_id "ENSG00000223764"; transcript_id "ENST00000417705"; exon_number "1"; gene_name "RP11-54O7.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.3-001"; transcript_source "havana"; exon_id "ENSE00001655884";
+1	lincRNA	exon	854205	854295	.	-	.	gene_id "ENSG00000223764"; transcript_id "ENST00000417705"; exon_number "2"; gene_name "RP11-54O7.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.3-001"; transcript_source "havana"; exon_id "ENSE00001739486";
+1	lincRNA	exon	853402	853490	.	-	.	gene_id "ENSG00000223764"; transcript_id "ENST00000417705"; exon_number "3"; gene_name "RP11-54O7.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.3-001"; transcript_source "havana"; exon_id "ENSE00001702311";
+1	lincRNA	exon	852250	853100	.	-	.	gene_id "ENSG00000223764"; transcript_id "ENST00000417705"; exon_number "4"; gene_name "RP11-54O7.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.3-001"; transcript_source "havana"; exon_id "ENSE00001764582";
+1	retained_intron	transcript	852750	853914	.	-	.	gene_id "ENSG00000223764"; transcript_id "ENST00000432961"; gene_name "RP11-54O7.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.3-002"; transcript_source "havana";
+1	retained_intron	exon	853402	853914	.	-	.	gene_id "ENSG00000223764"; transcript_id "ENST00000432961"; exon_number "1"; gene_name "RP11-54O7.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.3-002"; transcript_source "havana"; exon_id "ENSE00001613756";
+1	retained_intron	exon	852750	852866	.	-	.	gene_id "ENSG00000223764"; transcript_id "ENST00000432961"; exon_number "2"; gene_name "RP11-54O7.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.3-002"; transcript_source "havana"; exon_id "ENSE00001697161";
+1	protein_coding	gene	860260	879955	.	+	.	gene_id "ENSG00000187634"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	860260	874671	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	860260	860328	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; exon_number "1"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; exon_id "ENSE00001637883"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	861302	861393	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; exon_id "ENSE00001763717"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	861322	861393	.	+	0	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; protein_id "ENSP00000411579"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	865535	865716	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; exon_number "3"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; exon_id "ENSE00002727207"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	865535	865716	.	+	0	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; exon_number "3"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; protein_id "ENSP00000411579"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	866419	866469	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; exon_number "4"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; exon_id "ENSE00002696520"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	866419	866469	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; exon_number "4"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; protein_id "ENSP00000411579"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	871152	871276	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; exon_number "5"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; exon_id "ENSE00002703998"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	871152	871276	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; exon_number "5"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; protein_id "ENSP00000411579"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	874420	874509	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; exon_number "6"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; exon_id "ENSE00002686739"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	874420	874509	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; exon_number "6"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; protein_id "ENSP00000411579"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	874655	874671	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; exon_number "7"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; exon_id "ENSE00001608769"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	874655	874671	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; exon_number "7"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; protein_id "ENSP00000411579"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	860260	860328	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	861302	861321	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000420190"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	860530	871173	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000437963"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	860530	860569	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000437963"; exon_number "1"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-003"; transcript_source "havana"; exon_id "ENSE00001481182"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	861302	861393	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000437963"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-003"; transcript_source "havana"; exon_id "ENSE00001763717"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	861322	861393	.	+	0	gene_id "ENSG00000187634"; transcript_id "ENST00000437963"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-003"; transcript_source "havana"; protein_id "ENSP00000393181"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	865535	865716	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000437963"; exon_number "3"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-003"; transcript_source "havana"; exon_id "ENSE00002727207"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	865535	865716	.	+	0	gene_id "ENSG00000187634"; transcript_id "ENST00000437963"; exon_number "3"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-003"; transcript_source "havana"; protein_id "ENSP00000393181"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	866419	866469	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000437963"; exon_number "4"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-003"; transcript_source "havana"; exon_id "ENSE00002696520"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	866419	866469	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000437963"; exon_number "4"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-003"; transcript_source "havana"; protein_id "ENSP00000393181"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	871152	871173	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000437963"; exon_number "5"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-003"; transcript_source "havana"; exon_id "ENSE00001631320"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	871152	871173	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000437963"; exon_number "5"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-003"; transcript_source "havana"; protein_id "ENSP00000393181"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	860530	860569	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000437963"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	861302	861321	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000437963"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	861118	879955	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2";
+1	protein_coding	exon	861118	861180	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "1"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00001864899";
+1	protein_coding	exon	861302	861393	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00001763717";
+1	protein_coding	CDS	861322	861393	.	+	0	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; protein_id "ENSP00000342313";
+1	protein_coding	start_codon	861322	861324	.	+	0	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2";
+1	protein_coding	exon	865535	865716	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "3"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00002727207";
+1	protein_coding	CDS	865535	865716	.	+	0	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "3"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; protein_id "ENSP00000342313";
+1	protein_coding	exon	866419	866469	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "4"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00002696520";
+1	protein_coding	CDS	866419	866469	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "4"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; protein_id "ENSP00000342313";
+1	protein_coding	exon	871152	871276	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "5"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00002703998";
+1	protein_coding	CDS	871152	871276	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "5"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; protein_id "ENSP00000342313";
+1	protein_coding	exon	874420	874509	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "6"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00002686739";
+1	protein_coding	CDS	874420	874509	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "6"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; protein_id "ENSP00000342313";
+1	protein_coding	exon	874655	874840	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "7"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00002715021";
+1	protein_coding	CDS	874655	874840	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "7"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; protein_id "ENSP00000342313";
+1	protein_coding	exon	876524	876686	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "8"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00003477353";
+1	protein_coding	CDS	876524	876686	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "8"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; protein_id "ENSP00000342313";
+1	protein_coding	exon	877516	877631	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "9"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00003681266";
+1	protein_coding	CDS	877516	877631	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "9"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; protein_id "ENSP00000342313";
+1	protein_coding	exon	877790	877868	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "10"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00003675531";
+1	protein_coding	CDS	877790	877868	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "10"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; protein_id "ENSP00000342313";
+1	protein_coding	exon	877939	878438	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "11"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00002728091";
+1	protein_coding	CDS	877939	878438	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "11"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; protein_id "ENSP00000342313";
+1	protein_coding	exon	878633	878757	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "12"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00002733131";
+1	protein_coding	CDS	878633	878757	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "12"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; protein_id "ENSP00000342313";
+1	protein_coding	exon	879078	879188	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "13"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00002692620";
+1	protein_coding	CDS	879078	879188	.	+	0	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "13"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; protein_id "ENSP00000342313";
+1	protein_coding	exon	879288	879955	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "14"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; exon_id "ENSE00001804027";
+1	protein_coding	CDS	879288	879530	.	+	0	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "14"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2"; protein_id "ENSP00000342313";
+1	protein_coding	stop_codon	879531	879533	.	+	0	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; exon_number "14"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2";
+1	protein_coding	UTR	861118	861180	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2";
+1	protein_coding	UTR	861302	861321	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2";
+1	protein_coding	UTR	879534	879955	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000342066"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-010"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS2";
+1	protein_coding	transcript	865692	879955	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	865692	865716	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "1"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; exon_id "ENSE00001768193"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	865692	865716	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "1"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; protein_id "ENSP00000349216"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	866419	866469	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; exon_id "ENSE00002696520"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	866419	866469	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; protein_id "ENSP00000349216"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	871152	871276	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "3"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; exon_id "ENSE00002703998"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	871152	871276	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "3"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; protein_id "ENSP00000349216"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	874420	874509	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "4"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; exon_id "ENSE00002686739"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	874420	874509	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "4"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; protein_id "ENSP00000349216"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	874655	874792	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "5"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; exon_id "ENSE00001708361"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	874655	874792	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "5"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; protein_id "ENSP00000349216"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	876524	876686	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "6"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; exon_id "ENSE00003477353"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	876524	876686	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "6"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; protein_id "ENSP00000349216"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	877516	877631	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "7"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; exon_id "ENSE00003681266"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	877516	877631	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "7"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; protein_id "ENSP00000349216"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	877790	877868	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "8"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; exon_id "ENSE00003675531"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	877790	877868	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "8"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; protein_id "ENSP00000349216"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	877939	878438	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "9"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; exon_id "ENSE00002728091"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	877939	878438	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "9"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; protein_id "ENSP00000349216"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	878633	878757	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "10"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; exon_id "ENSE00002733131"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	878633	878757	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "10"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; protein_id "ENSP00000349216"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	879078	879188	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "11"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; exon_id "ENSE00002692620"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	879078	879188	.	+	0	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "11"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; protein_id "ENSP00000349216"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	879288	879955	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "12"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; exon_id "ENSE00001804027"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	879288	879533	.	+	0	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; exon_number "12"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; protein_id "ENSP00000349216"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	879534	879955	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000341065"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-001"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	874655	879639	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	874655	874840	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "1"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; exon_id "ENSE00002715021"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	874655	874840	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "1"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; protein_id "ENSP00000412228"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	876524	876686	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; exon_id "ENSE00003477353"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	876524	876686	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; protein_id "ENSP00000412228"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	877516	877631	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "3"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; exon_id "ENSE00003681266"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	877516	877631	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "3"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; protein_id "ENSP00000412228"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	877790	877868	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "4"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; exon_id "ENSE00003675531"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	877790	877868	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "4"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; protein_id "ENSP00000412228"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	877939	878438	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "5"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; exon_id "ENSE00002728091"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	877939	878438	.	+	1	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "5"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; protein_id "ENSP00000412228"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	878633	878757	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "6"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; exon_id "ENSE00002733131"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	878633	878757	.	+	2	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "6"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; protein_id "ENSP00000412228"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	879078	879639	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "7"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; exon_id "ENSE00001631574"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	879078	879533	.	+	0	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; exon_number "7"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; protein_id "ENSP00000412228"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	879534	879639	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000455979"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	processed_transcript	transcript	875726	877553	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000478729"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-006"; transcript_source "havana";
+1	processed_transcript	exon	875726	875842	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000478729"; exon_number "1"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-006"; transcript_source "havana"; exon_id "ENSE00001953327";
+1	processed_transcript	exon	876524	876686	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000478729"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-006"; transcript_source "havana"; exon_id "ENSE00003686968";
+1	processed_transcript	exon	877516	877553	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000478729"; exon_number "3"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-006"; transcript_source "havana"; exon_id "ENSE00001881351";
+1	retained_intron	transcript	876456	878374	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000474461"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-007"; transcript_source "havana";
+1	retained_intron	exon	876456	876686	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000474461"; exon_number "1"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-007"; transcript_source "havana"; exon_id "ENSE00001939283";
+1	retained_intron	exon	877516	877631	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000474461"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-007"; transcript_source "havana"; exon_id "ENSE00003595355";
+1	retained_intron	exon	877790	877868	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000474461"; exon_number "3"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-007"; transcript_source "havana"; exon_id "ENSE00003689246";
+1	retained_intron	exon	877939	878374	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000474461"; exon_number "4"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-007"; transcript_source "havana"; exon_id "ENSE00001887416";
+1	retained_intron	transcript	877483	878182	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000466827"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-008"; transcript_source "havana";
+1	retained_intron	exon	877483	877631	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000466827"; exon_number "1"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-008"; transcript_source "havana"; exon_id "ENSE00001885801";
+1	retained_intron	exon	877790	878182	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000466827"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-008"; transcript_source "havana"; exon_id "ENSE00001884257";
+1	retained_intron	transcript	877546	878272	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000464948"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-009"; transcript_source "havana";
+1	retained_intron	exon	877546	877868	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000464948"; exon_number "1"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-009"; transcript_source "havana"; exon_id "ENSE00001944279";
+1	retained_intron	exon	877939	878272	.	+	.	gene_id "ENSG00000187634"; transcript_id "ENST00000464948"; exon_number "2"; gene_name "SAMD11"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SAMD11-009"; transcript_source "havana"; exon_id "ENSE00001857616";
+1	protein_coding	gene	861264	866445	.	-	.	gene_id "ENSG00000268179"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding";
+1	protein_coding	transcript	861264	866445	.	-	.	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl";
+1	protein_coding	exon	866426	866445	.	-	.	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; exon_number "1"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl"; exon_id "ENSE00003021192";
+1	protein_coding	CDS	866426	866445	.	-	0	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; exon_number "1"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl"; protein_id "ENSP00000471152";
+1	protein_coding	start_codon	866443	866445	.	-	0	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; exon_number "1"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl";
+1	protein_coding	exon	865990	865996	.	-	.	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; exon_number "2"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl"; exon_id "ENSE00003059724";
+1	protein_coding	CDS	865990	865996	.	-	1	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; exon_number "2"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl"; protein_id "ENSP00000471152";
+1	protein_coding	exon	865666	865719	.	-	.	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; exon_number "3"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl"; exon_id "ENSE00003023978";
+1	protein_coding	CDS	865666	865719	.	-	0	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; exon_number "3"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl"; protein_id "ENSP00000471152";
+1	protein_coding	exon	865556	865660	.	-	.	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; exon_number "4"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl"; exon_id "ENSE00003117468";
+1	protein_coding	CDS	865556	865660	.	-	0	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; exon_number "4"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl"; protein_id "ENSP00000471152";
+1	protein_coding	exon	863255	863261	.	-	.	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; exon_number "5"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl"; exon_id "ENSE00003169115";
+1	protein_coding	CDS	863255	863261	.	-	0	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; exon_number "5"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl"; protein_id "ENSP00000471152";
+1	protein_coding	exon	861264	861406	.	-	.	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; exon_number "6"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl"; exon_id "ENSE00003183674";
+1	protein_coding	CDS	861264	861406	.	-	2	gene_id "ENSG00000268179"; transcript_id "ENST00000598827"; exon_number "6"; gene_name "AL645608.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645608.1-201"; transcript_source "ensembl"; protein_id "ENSP00000471152";
+1	protein_coding	gene	879584	894689	.	-	.	gene_id "ENSG00000188976"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	retained_intron	transcript	879584	882440	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000483767"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-003"; transcript_source "havana";
+1	retained_intron	exon	881782	882440	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000483767"; exon_number "1"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-003"; transcript_source "havana"; exon_id "ENSE00001938674";
+1	retained_intron	exon	881553	881666	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000483767"; exon_number "2"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-003"; transcript_source "havana"; exon_id "ENSE00003681316";
+1	retained_intron	exon	880898	881033	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000483767"; exon_number "3"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-003"; transcript_source "havana"; exon_id "ENSE00003481297";
+1	retained_intron	exon	880422	880526	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000483767"; exon_number "4"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-003"; transcript_source "havana"; exon_id "ENSE00001826211";
+1	retained_intron	exon	879584	880180	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000483767"; exon_number "5"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-003"; transcript_source "havana"; exon_id "ENSE00003459193";
+1	protein_coding	transcript	879584	894670	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3";
+1	protein_coding	exon	894595	894670	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "1"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00001926296";
+1	protein_coding	CDS	894595	894620	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "1"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	start_codon	894618	894620	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "1"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3";
+1	protein_coding	exon	894309	894461	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "2"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003591928";
+1	protein_coding	CDS	894309	894461	.	-	1	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "2"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	892479	892653	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "3"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003620005";
+1	protein_coding	CDS	892479	892653	.	-	1	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "3"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	892274	892405	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "4"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003567731";
+1	protein_coding	CDS	892274	892405	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "4"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	891475	891595	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "5"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003589494";
+1	protein_coding	CDS	891475	891595	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "5"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	891303	891393	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "6"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003687250";
+1	protein_coding	CDS	891303	891393	.	-	2	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "6"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	889384	889462	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "7"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00001380352";
+1	protein_coding	CDS	889384	889462	.	-	1	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "7"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	889162	889272	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "8"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003602238";
+1	protein_coding	CDS	889162	889272	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "8"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	888555	888668	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "9"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003560627";
+1	protein_coding	CDS	888555	888668	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "9"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	887792	887980	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "10"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003638394";
+1	protein_coding	CDS	887792	887980	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "10"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	887380	887519	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "11"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003527689";
+1	protein_coding	CDS	887380	887519	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "11"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	886507	886618	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "12"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003521833";
+1	protein_coding	CDS	886507	886618	.	-	1	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "12"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	883870	883983	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "13"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003500440";
+1	protein_coding	CDS	883870	883983	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "13"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	883511	883612	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "14"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003657824";
+1	protein_coding	CDS	883511	883612	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "14"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	881782	881925	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "15"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003554589";
+1	protein_coding	CDS	881782	881925	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "15"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	881553	881666	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "16"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003603800";
+1	protein_coding	CDS	881553	881666	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "16"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	880898	881033	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "17"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003682181";
+1	protein_coding	CDS	880898	881033	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "17"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	880437	880526	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "18"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00001375393";
+1	protein_coding	CDS	880437	880526	.	-	2	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "18"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	exon	879584	880180	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "19"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; exon_id "ENSE00003486680";
+1	protein_coding	CDS	880077	880180	.	-	2	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "19"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3"; protein_id "ENSP00000317992";
+1	protein_coding	stop_codon	880074	880076	.	-	0	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; exon_number "19"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3";
+1	protein_coding	UTR	894621	894670	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3";
+1	protein_coding	UTR	879584	880073	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000327044"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS3";
+1	retained_intron	transcript	879585	893838	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana";
+1	retained_intron	exon	892479	893838	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "1"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00001944259";
+1	retained_intron	exon	892274	892405	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "2"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00003546702";
+1	retained_intron	exon	891475	891595	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "3"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00003497251";
+1	retained_intron	exon	891303	891393	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "4"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00003472906";
+1	retained_intron	exon	889384	889903	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "5"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00001918683";
+1	retained_intron	exon	889162	889272	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "6"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00003642636";
+1	retained_intron	exon	888555	888668	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "7"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00003483523";
+1	retained_intron	exon	887792	887980	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "8"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00003543641";
+1	retained_intron	exon	887380	887519	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "9"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00003485617";
+1	retained_intron	exon	886507	886618	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "10"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00003679235";
+1	retained_intron	exon	883870	883983	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "11"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00003524730";
+1	retained_intron	exon	883511	883612	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "12"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00003630998";
+1	retained_intron	exon	881782	881925	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "13"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00003688779";
+1	retained_intron	exon	881553	881666	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "14"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00003681316";
+1	retained_intron	exon	880898	881033	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "15"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00003481297";
+1	retained_intron	exon	880422	880526	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "16"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00001826211";
+1	retained_intron	exon	879585	880180	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000477976"; exon_number "17"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-005"; transcript_source "havana"; exon_id "ENSE00001954015";
+1	processed_transcript	transcript	880699	880942	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000496938"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-002"; transcript_source "havana";
+1	processed_transcript	exon	880898	880942	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000496938"; exon_number "1"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-002"; transcript_source "havana"; exon_id "ENSE00001870981";
+1	processed_transcript	exon	880699	880802	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000496938"; exon_number "2"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-002"; transcript_source "havana"; exon_id "ENSE00001829350";
+1	processed_transcript	transcript	889806	894689	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000487214"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-006"; transcript_source "havana";
+1	processed_transcript	exon	894595	894689	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000487214"; exon_number "1"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-006"; transcript_source "havana"; exon_id "ENSE00001911057";
+1	processed_transcript	exon	894309	894461	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000487214"; exon_number "2"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-006"; transcript_source "havana"; exon_id "ENSE00003529593";
+1	processed_transcript	exon	892479	892653	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000487214"; exon_number "3"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-006"; transcript_source "havana"; exon_id "ENSE00003600775";
+1	processed_transcript	exon	892274	892405	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000487214"; exon_number "4"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-006"; transcript_source "havana"; exon_id "ENSE00003546702";
+1	processed_transcript	exon	891475	891595	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000487214"; exon_number "5"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-006"; transcript_source "havana"; exon_id "ENSE00003497251";
+1	processed_transcript	exon	891303	891393	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000487214"; exon_number "6"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-006"; transcript_source "havana"; exon_id "ENSE00003472906";
+1	processed_transcript	exon	889806	889903	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000487214"; exon_number "7"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-006"; transcript_source "havana"; exon_id "ENSE00001853718";
+1	retained_intron	transcript	893626	894636	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000469563"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-004"; transcript_source "havana";
+1	retained_intron	exon	894595	894636	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000469563"; exon_number "1"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-004"; transcript_source "havana"; exon_id "ENSE00001883423";
+1	retained_intron	exon	893626	894461	.	-	.	gene_id "ENSG00000188976"; transcript_id "ENST00000469563"; exon_number "2"; gene_name "NOC2L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NOC2L-004"; transcript_source "havana"; exon_id "ENSE00001904703";
+1	protein_coding	gene	895967	901095	.	+	.	gene_id "ENSG00000187961"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	895967	901095	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550";
+1	protein_coding	exon	895967	896180	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "1"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; exon_id "ENSE00002291218";
+1	protein_coding	CDS	896074	896180	.	+	0	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "1"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; protein_id "ENSP00000343930";
+1	protein_coding	start_codon	896074	896076	.	+	0	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "1"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550";
+1	protein_coding	exon	896673	896932	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "2"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; exon_id "ENSE00001727488";
+1	protein_coding	CDS	896673	896932	.	+	1	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "2"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; protein_id "ENSP00000343930";
+1	protein_coding	exon	897009	897130	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "3"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; exon_id "ENSE00002988116";
+1	protein_coding	CDS	897009	897130	.	+	2	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "3"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; protein_id "ENSP00000343930";
+1	protein_coding	exon	897206	897427	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "4"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; exon_id "ENSE00003185989";
+1	protein_coding	CDS	897206	897427	.	+	0	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "4"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; protein_id "ENSP00000343930";
+1	protein_coding	exon	897735	897851	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "5"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; exon_id "ENSE00001375296";
+1	protein_coding	CDS	897735	897851	.	+	0	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "5"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; protein_id "ENSP00000343930";
+1	protein_coding	exon	898084	898297	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "6"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; exon_id "ENSE00001368267";
+1	protein_coding	CDS	898084	898297	.	+	0	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "6"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; protein_id "ENSP00000343930";
+1	protein_coding	exon	898489	898633	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "7"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; exon_id "ENSE00001365077";
+1	protein_coding	CDS	898489	898633	.	+	2	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "7"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; protein_id "ENSP00000343930";
+1	protein_coding	exon	898717	898884	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "8"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; exon_id "ENSE00003600458";
+1	protein_coding	CDS	898717	898884	.	+	1	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "8"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; protein_id "ENSP00000343930";
+1	protein_coding	exon	899300	899388	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "9"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; exon_id "ENSE00003624001";
+1	protein_coding	CDS	899300	899388	.	+	1	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "9"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; protein_id "ENSP00000343930";
+1	protein_coding	exon	899487	899560	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "10"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; exon_id "ENSE00001375324";
+1	protein_coding	CDS	899487	899560	.	+	2	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "10"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; protein_id "ENSP00000343930";
+1	protein_coding	exon	899729	899910	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "11"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; exon_id "ENSE00003479668";
+1	protein_coding	CDS	899729	899910	.	+	0	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "11"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; protein_id "ENSP00000343930";
+1	protein_coding	exon	900343	901095	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "12"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; exon_id "ENSE00001372585";
+1	protein_coding	CDS	900343	900568	.	+	1	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "12"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550"; protein_id "ENSP00000343930";
+1	protein_coding	stop_codon	900569	900571	.	+	0	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; exon_number "12"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550";
+1	protein_coding	UTR	895967	896073	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550";
+1	protein_coding	UTR	900572	901095	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000338591"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30550";
+1	retained_intron	transcript	896829	897858	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000463212"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-003"; transcript_source "havana";
+1	retained_intron	exon	896829	897130	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000463212"; exon_number "1"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-003"; transcript_source "havana"; exon_id "ENSE00001880471";
+1	retained_intron	exon	897206	897858	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000463212"; exon_number "2"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-003"; transcript_source "havana"; exon_id "ENSE00001827563";
+1	nonsense_mediated_decay	transcript	898107	899910	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	898107	898297	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; exon_number "1"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; exon_id "ENSE00001944508"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	898107	898297	.	+	1	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; exon_number "1"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; protein_id "ENSP00000463694"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	898412	898633	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; exon_number "2"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; exon_id "ENSE00001858232"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	898412	898633	.	+	2	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; exon_number "2"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; protein_id "ENSP00000463694"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	898717	898884	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; exon_number "3"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; exon_id "ENSE00003477911"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	898717	898766	.	+	2	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; exon_number "3"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; protein_id "ENSP00000463694"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	899300	899388	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; exon_number "4"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; exon_id "ENSE00003636485"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	899487	899547	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; exon_number "5"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; exon_id "ENSE00001846219"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	899729	899910	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; exon_number "6"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; exon_id "ENSE00003591545"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	898767	898884	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	899300	899388	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	899487	899547	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	899729	899910	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000466300"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	898932	899544	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000481067"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-005"; transcript_source "havana";
+1	retained_intron	exon	898932	899388	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000481067"; exon_number "1"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-005"; transcript_source "havana"; exon_id "ENSE00001848531";
+1	retained_intron	exon	899487	899544	.	+	.	gene_id "ENSG00000187961"; transcript_id "ENST00000481067"; exon_number "2"; gene_name "KLHL17"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "KLHL17-005"; transcript_source "havana"; exon_id "ENSE00001844258";
+1	protein_coding	gene	901877	911245	.	+	.	gene_id "ENSG00000187583"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	901877	910488	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4";
+1	protein_coding	exon	901877	901994	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "1"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001363936";
+1	protein_coding	CDS	901912	901994	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "1"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	start_codon	901912	901914	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "1"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4";
+1	protein_coding	exon	902084	902183	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "2"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001364180";
+1	protein_coding	CDS	902084	902183	.	+	1	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "2"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	905657	905803	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "3"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001373621";
+1	protein_coding	CDS	905657	905803	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "3"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	905901	905981	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "4"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001374286";
+1	protein_coding	CDS	905901	905981	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "4"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	906066	906138	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "5"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001385460";
+1	protein_coding	CDS	906066	906138	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "5"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	906259	906386	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "6"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001374990";
+1	protein_coding	CDS	906259	906386	.	+	2	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "6"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	906493	906588	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "7"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001368630";
+1	protein_coding	CDS	906493	906588	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "7"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	906704	906784	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "8"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001380204";
+1	protein_coding	CDS	906704	906784	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "8"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	907455	907530	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "9"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001375540";
+1	protein_coding	CDS	907455	907530	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "9"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	907668	907804	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "10"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001365628";
+1	protein_coding	CDS	907668	907804	.	+	2	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "10"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	908241	908390	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "11"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001386720";
+1	protein_coding	CDS	908241	908390	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "11"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	908566	908706	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "12"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001377573";
+1	protein_coding	CDS	908566	908706	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "12"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	908880	909020	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "13"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001371278";
+1	protein_coding	CDS	908880	909020	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "13"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	909213	909431	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "14"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001371226";
+1	protein_coding	CDS	909213	909431	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "14"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	909696	909744	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "15"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001370044";
+1	protein_coding	CDS	909696	909744	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "15"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	exon	909822	910488	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "16"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; exon_id "ENSE00001919329";
+1	protein_coding	CDS	909822	909952	.	+	2	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "16"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4"; protein_id "ENSP00000368720";
+1	protein_coding	stop_codon	909953	909955	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; exon_number "16"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4";
+1	protein_coding	UTR	901877	901911	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4";
+1	protein_coding	UTR	909956	910488	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379410"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS4";
+1	protein_coding	transcript	901882	910388	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana";
+1	protein_coding	exon	901882	901994	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "1"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00002268161";
+1	protein_coding	CDS	901912	901994	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "1"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	start_codon	901912	901914	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "1"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana";
+1	protein_coding	exon	902084	902183	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "2"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00001364180";
+1	protein_coding	CDS	902084	902183	.	+	1	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "2"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	exon	905657	905803	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "3"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00001373621";
+1	protein_coding	CDS	905657	905803	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "3"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	exon	905901	905981	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "4"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00001374286";
+1	protein_coding	CDS	905901	905981	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "4"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	exon	906066	906386	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "5"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00001480873";
+1	protein_coding	CDS	906066	906386	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "5"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	exon	906457	906588	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "6"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00003549084";
+1	protein_coding	CDS	906457	906588	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "6"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	exon	906704	906784	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "7"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00001380204";
+1	protein_coding	CDS	906704	906784	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "7"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	exon	907455	907530	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "8"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00001375540";
+1	protein_coding	CDS	907455	907530	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "8"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	exon	907668	907804	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "9"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00001365628";
+1	protein_coding	CDS	907668	907804	.	+	2	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "9"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	exon	908241	908390	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "10"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00001386720";
+1	protein_coding	CDS	908241	908390	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "10"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	exon	908566	908706	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "11"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00001377573";
+1	protein_coding	CDS	908566	908706	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "11"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	exon	908880	909020	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "12"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00001371278";
+1	protein_coding	CDS	908880	909020	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "12"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	exon	909213	909431	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "13"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00001371226";
+1	protein_coding	CDS	909213	909431	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "13"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	exon	909696	909744	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "14"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00001370044";
+1	protein_coding	CDS	909696	909744	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "14"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	exon	909822	910388	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "15"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; exon_id "ENSE00002275645";
+1	protein_coding	CDS	909822	909952	.	+	2	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "15"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana"; protein_id "ENSP00000368719";
+1	protein_coding	stop_codon	909953	909955	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; exon_number "15"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	901882	901911	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	909956	910388	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379409"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-005"; transcript_source "ensembl_havana";
+1	protein_coding	transcript	901882	910388	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256";
+1	protein_coding	exon	901882	901994	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "1"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00002268161";
+1	protein_coding	CDS	901912	901994	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "1"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	start_codon	901912	901914	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "1"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256";
+1	protein_coding	exon	902084	902183	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "2"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00001364180";
+1	protein_coding	CDS	902084	902183	.	+	1	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "2"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	exon	905657	905803	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "3"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00001373621";
+1	protein_coding	CDS	905657	905803	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "3"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	exon	905901	905981	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "4"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00001374286";
+1	protein_coding	CDS	905901	905981	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "4"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	exon	906066	906138	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "5"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00001385460";
+1	protein_coding	CDS	906066	906138	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "5"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	exon	906259	906386	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "6"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00001374990";
+1	protein_coding	CDS	906259	906386	.	+	2	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "6"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	exon	906457	906588	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "7"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00003549084";
+1	protein_coding	CDS	906457	906588	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "7"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	exon	906704	906784	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "8"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00001380204";
+1	protein_coding	CDS	906704	906784	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "8"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	exon	907455	907530	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "9"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00001375540";
+1	protein_coding	CDS	907455	907530	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "9"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	exon	907668	907804	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "10"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00001365628";
+1	protein_coding	CDS	907668	907804	.	+	2	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "10"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	exon	908241	908390	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "11"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00001386720";
+1	protein_coding	CDS	908241	908390	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "11"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	exon	908880	909020	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "12"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00001371278";
+1	protein_coding	CDS	908880	909020	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "12"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	exon	909213	909431	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "13"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00001371226";
+1	protein_coding	CDS	909213	909431	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "13"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	exon	909696	909744	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "14"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00001370044";
+1	protein_coding	CDS	909696	909744	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "14"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	exon	909822	910388	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "15"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; exon_id "ENSE00002275645";
+1	protein_coding	CDS	909822	909952	.	+	2	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "15"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256"; protein_id "ENSP00000368717";
+1	protein_coding	stop_codon	909953	909955	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; exon_number "15"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256";
+1	protein_coding	UTR	901882	901911	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256";
+1	protein_coding	UTR	909956	910388	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000379407"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53256";
+1	retained_intron	transcript	906255	906903	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000480267"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-002"; transcript_source "havana";
+1	retained_intron	exon	906255	906386	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000480267"; exon_number "1"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-002"; transcript_source "havana"; exon_id "ENSE00001912537";
+1	retained_intron	exon	906457	906588	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000480267"; exon_number "2"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-002"; transcript_source "havana"; exon_id "ENSE00003643492";
+1	retained_intron	exon	906704	906903	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000480267"; exon_number "3"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-002"; transcript_source "havana"; exon_id "ENSE00001935926";
+1	protein_coding	transcript	908892	911245	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000491024"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-003"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	908892	909020	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000491024"; exon_number "1"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-003"; transcript_source "havana"; exon_id "ENSE00001818645"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	908892	909020	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000491024"; exon_number "1"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-003"; transcript_source "havana"; protein_id "ENSP00000462558"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	909213	909431	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000491024"; exon_number "2"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-003"; transcript_source "havana"; exon_id "ENSE00001371226"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	909213	909431	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000491024"; exon_number "2"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-003"; transcript_source "havana"; protein_id "ENSP00000462558"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	909696	909744	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000491024"; exon_number "3"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-003"; transcript_source "havana"; exon_id "ENSE00001370044"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	909696	909744	.	+	0	gene_id "ENSG00000187583"; transcript_id "ENST00000491024"; exon_number "3"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-003"; transcript_source "havana"; protein_id "ENSP00000462558"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	909822	909968	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000491024"; exon_number "4"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-003"; transcript_source "havana"; exon_id "ENSE00001903023"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	909822	909955	.	+	2	gene_id "ENSG00000187583"; transcript_id "ENST00000491024"; exon_number "4"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-003"; transcript_source "havana"; protein_id "ENSP00000462558"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	911092	911245	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000491024"; exon_number "5"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-003"; transcript_source "havana"; exon_id "ENSE00001907430"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	909956	909968	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000491024"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-003"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	911092	911245	.	+	.	gene_id "ENSG00000187583"; transcript_id "ENST00000491024"; gene_name "PLEKHN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLEKHN1-003"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	gene	910579	917497	.	-	.	gene_id "ENSG00000187642"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	910579	917497	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl";
+1	protein_coding	exon	917445	917497	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; exon_number "1"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl"; exon_id "ENSE00001749380";
+1	protein_coding	CDS	917445	917497	.	-	0	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; exon_number "1"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl"; protein_id "ENSP00000414022";
+1	protein_coding	start_codon	917495	917497	.	-	0	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; exon_number "1"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl";
+1	protein_coding	exon	916517	916553	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; exon_number "2"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl"; exon_id "ENSE00003534572";
+1	protein_coding	CDS	916517	916553	.	-	1	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; exon_number "2"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl"; protein_id "ENSP00000414022";
+1	protein_coding	exon	914261	916037	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; exon_number "3"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl"; exon_id "ENSE00001365716";
+1	protein_coding	CDS	914261	916037	.	-	0	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; exon_number "3"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl"; protein_id "ENSP00000414022";
+1	protein_coding	exon	911879	912004	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; exon_number "4"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl"; exon_id "ENSE00001389758";
+1	protein_coding	CDS	911879	912004	.	-	2	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; exon_number "4"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl"; protein_id "ENSP00000414022";
+1	protein_coding	exon	910579	911649	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; exon_number "5"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl"; exon_id "ENSE00002263633";
+1	protein_coding	CDS	911555	911649	.	-	2	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; exon_number "5"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl"; protein_id "ENSP00000414022";
+1	protein_coding	stop_codon	911552	911554	.	-	0	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; exon_number "5"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl";
+1	protein_coding	UTR	910579	911551	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000433179"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-201"; transcript_source "ensembl";
+1	protein_coding	transcript	910584	917473	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana";
+1	protein_coding	exon	917445	917473	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; exon_number "1"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana"; exon_id "ENSE00001385037";
+1	protein_coding	exon	916517	916553	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; exon_number "2"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana"; exon_id "ENSE00003620136";
+1	protein_coding	CDS	916517	916546	.	-	0	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; exon_number "2"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana"; protein_id "ENSP00000343864";
+1	protein_coding	start_codon	916544	916546	.	-	0	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; exon_number "2"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana";
+1	protein_coding	exon	914261	916037	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; exon_number "3"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana"; exon_id "ENSE00001365716";
+1	protein_coding	CDS	914261	916037	.	-	0	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; exon_number "3"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana"; protein_id "ENSP00000343864";
+1	protein_coding	exon	911879	912004	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; exon_number "4"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana"; exon_id "ENSE00001389758";
+1	protein_coding	CDS	911879	912004	.	-	2	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; exon_number "4"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana"; protein_id "ENSP00000343864";
+1	protein_coding	exon	910584	911649	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; exon_number "5"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana"; exon_id "ENSE00001366612";
+1	protein_coding	CDS	911555	911649	.	-	2	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; exon_number "5"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana"; protein_id "ENSP00000343864";
+1	protein_coding	stop_codon	911552	911554	.	-	0	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; exon_number "5"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana";
+1	protein_coding	UTR	917445	917473	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana";
+1	protein_coding	UTR	916547	916553	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana";
+1	protein_coding	UTR	910584	911551	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000341290"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-001"; transcript_source "havana";
+1	retained_intron	transcript	910585	912021	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000479361"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-002"; transcript_source "havana";
+1	retained_intron	exon	911879	912021	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000479361"; exon_number "1"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-002"; transcript_source "havana"; exon_id "ENSE00001902329";
+1	retained_intron	exon	910585	911649	.	-	.	gene_id "ENSG00000187642"; transcript_id "ENST00000479361"; exon_number "2"; gene_name "C1orf170"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf170-002"; transcript_source "havana"; exon_id "ENSE00001827921";
+1	lincRNA	gene	931346	933431	.	-	.	gene_id "ENSG00000272512"; gene_name "RP11-54O7.17"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	931346	933431	.	-	.	gene_id "ENSG00000272512"; transcript_id "ENST00000606034"; gene_name "RP11-54O7.17"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.17-001"; transcript_source "havana";
+1	lincRNA	exon	931346	933431	.	-	.	gene_id "ENSG00000272512"; transcript_id "ENST00000606034"; exon_number "1"; gene_name "RP11-54O7.17"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.17-001"; transcript_source "havana"; exon_id "ENSE00003700959";
+1	protein_coding	gene	934342	935552	.	-	.	gene_id "ENSG00000188290"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	934342	935552	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000428771"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44034";
+1	protein_coding	exon	935072	935552	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000428771"; exon_number "1"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44034"; exon_id "ENSE00002066325";
+1	protein_coding	CDS	935072	935353	.	-	0	gene_id "ENSG00000188290"; transcript_id "ENST00000428771"; exon_number "1"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44034"; protein_id "ENSP00000393198";
+1	protein_coding	start_codon	935351	935353	.	-	0	gene_id "ENSG00000188290"; transcript_id "ENST00000428771"; exon_number "1"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44034";
+1	protein_coding	exon	934906	934993	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000428771"; exon_number "2"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44034"; exon_id "ENSE00001801835";
+1	protein_coding	CDS	934906	934993	.	-	0	gene_id "ENSG00000188290"; transcript_id "ENST00000428771"; exon_number "2"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44034"; protein_id "ENSP00000393198";
+1	protein_coding	exon	934342	934812	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000428771"; exon_number "3"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44034"; exon_id "ENSE00001766880";
+1	protein_coding	CDS	934442	934812	.	-	2	gene_id "ENSG00000188290"; transcript_id "ENST00000428771"; exon_number "3"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44034"; protein_id "ENSP00000393198";
+1	protein_coding	stop_codon	934439	934441	.	-	0	gene_id "ENSG00000188290"; transcript_id "ENST00000428771"; exon_number "3"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44034";
+1	protein_coding	UTR	935354	935552	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000428771"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44034";
+1	protein_coding	UTR	934342	934438	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000428771"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44034";
+1	protein_coding	transcript	934344	935491	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000304952"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS5";
+1	protein_coding	exon	935246	935491	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000304952"; exon_number "1"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS5"; exon_id "ENSE00001424451";
+1	protein_coding	CDS	935246	935353	.	-	0	gene_id "ENSG00000188290"; transcript_id "ENST00000304952"; exon_number "1"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS5"; protein_id "ENSP00000304595";
+1	protein_coding	start_codon	935351	935353	.	-	0	gene_id "ENSG00000188290"; transcript_id "ENST00000304952"; exon_number "1"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS5";
+1	protein_coding	exon	935072	935167	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000304952"; exon_number "2"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS5"; exon_id "ENSE00001374237";
+1	protein_coding	CDS	935072	935167	.	-	0	gene_id "ENSG00000188290"; transcript_id "ENST00000304952"; exon_number "2"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS5"; protein_id "ENSP00000304595";
+1	protein_coding	exon	934906	934993	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000304952"; exon_number "3"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS5"; exon_id "ENSE00001801835";
+1	protein_coding	CDS	934906	934993	.	-	0	gene_id "ENSG00000188290"; transcript_id "ENST00000304952"; exon_number "3"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS5"; protein_id "ENSP00000304595";
+1	protein_coding	exon	934344	934812	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000304952"; exon_number "4"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS5"; exon_id "ENSE00001934557";
+1	protein_coding	CDS	934442	934812	.	-	2	gene_id "ENSG00000188290"; transcript_id "ENST00000304952"; exon_number "4"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS5"; protein_id "ENSP00000304595";
+1	protein_coding	stop_codon	934439	934441	.	-	0	gene_id "ENSG00000188290"; transcript_id "ENST00000304952"; exon_number "4"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS5";
+1	protein_coding	UTR	935354	935491	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000304952"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS5";
+1	protein_coding	UTR	934344	934438	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000304952"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS5";
+1	retained_intron	transcript	934346	935476	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000481869"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-003"; transcript_source "havana";
+1	retained_intron	exon	934906	935476	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000481869"; exon_number "1"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-003"; transcript_source "havana"; exon_id "ENSE00001854075";
+1	retained_intron	exon	934346	934812	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000481869"; exon_number "2"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-003"; transcript_source "havana"; exon_id "ENSE00001952216";
+1	protein_coding	transcript	934350	935361	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000484667"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-004"; transcript_source "havana";
+1	protein_coding	exon	935246	935361	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000484667"; exon_number "1"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-004"; transcript_source "havana"; exon_id "ENSE00002021607";
+1	protein_coding	CDS	935246	935353	.	-	0	gene_id "ENSG00000188290"; transcript_id "ENST00000484667"; exon_number "1"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-004"; transcript_source "havana"; protein_id "ENSP00000425085";
+1	protein_coding	start_codon	935351	935353	.	-	0	gene_id "ENSG00000188290"; transcript_id "ENST00000484667"; exon_number "1"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-004"; transcript_source "havana";
+1	protein_coding	exon	934906	934993	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000484667"; exon_number "2"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-004"; transcript_source "havana"; exon_id "ENSE00001801835";
+1	protein_coding	CDS	934906	934993	.	-	0	gene_id "ENSG00000188290"; transcript_id "ENST00000484667"; exon_number "2"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-004"; transcript_source "havana"; protein_id "ENSP00000425085";
+1	protein_coding	exon	934350	934812	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000484667"; exon_number "3"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-004"; transcript_source "havana"; exon_id "ENSE00001480840";
+1	protein_coding	CDS	934442	934812	.	-	2	gene_id "ENSG00000188290"; transcript_id "ENST00000484667"; exon_number "3"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-004"; transcript_source "havana"; protein_id "ENSP00000425085";
+1	protein_coding	stop_codon	934439	934441	.	-	0	gene_id "ENSG00000188290"; transcript_id "ENST00000484667"; exon_number "3"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-004"; transcript_source "havana";
+1	protein_coding	UTR	935354	935361	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000484667"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-004"; transcript_source "havana";
+1	protein_coding	UTR	934350	934438	.	-	.	gene_id "ENSG00000188290"; transcript_id "ENST00000484667"; gene_name "HES4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES4-004"; transcript_source "havana";
+1	pseudogene	gene	943456	943609	.	-	.	gene_id "ENSG00000231702"; gene_name "RP11-54O7.10"; gene_source "havana"; gene_biotype "pseudogene";
+1	processed_pseudogene	transcript	943456	943609	.	-	.	gene_id "ENSG00000231702"; transcript_id "ENST00000423619"; gene_name "RP11-54O7.10"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-54O7.10-001"; transcript_source "havana";
+1	processed_pseudogene	exon	943456	943609	.	-	.	gene_id "ENSG00000231702"; transcript_id "ENST00000423619"; exon_number "1"; gene_name "RP11-54O7.10"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-54O7.10-001"; transcript_source "havana"; exon_id "ENSE00001736965";
+1	antisense	gene	947377	948573	.	-	.	gene_id "ENSG00000224969"; gene_name "RP11-54O7.11"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	947377	948573	.	-	.	gene_id "ENSG00000224969"; transcript_id "ENST00000458555"; gene_name "RP11-54O7.11"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-54O7.11-001"; transcript_source "havana";
+1	antisense	exon	948297	948573	.	-	.	gene_id "ENSG00000224969"; transcript_id "ENST00000458555"; exon_number "1"; gene_name "RP11-54O7.11"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-54O7.11-001"; transcript_source "havana"; exon_id "ENSE00001740160";
+1	antisense	exon	947377	947570	.	-	.	gene_id "ENSG00000224969"; transcript_id "ENST00000458555"; exon_number "2"; gene_name "RP11-54O7.11"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-54O7.11-001"; transcript_source "havana"; exon_id "ENSE00001614353";
+1	protein_coding	gene	948803	949920	.	+	.	gene_id "ENSG00000187608"; gene_name "ISG15"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	948803	949920	.	+	.	gene_id "ENSG00000187608"; transcript_id "ENST00000379389"; gene_name "ISG15"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ISG15-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS6";
+1	protein_coding	exon	948803	948956	.	+	.	gene_id "ENSG00000187608"; transcript_id "ENST00000379389"; exon_number "1"; gene_name "ISG15"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ISG15-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS6"; exon_id "ENSE00001480807";
+1	protein_coding	CDS	948954	948956	.	+	0	gene_id "ENSG00000187608"; transcript_id "ENST00000379389"; exon_number "1"; gene_name "ISG15"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ISG15-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS6"; protein_id "ENSP00000368699";
+1	protein_coding	start_codon	948954	948956	.	+	0	gene_id "ENSG00000187608"; transcript_id "ENST00000379389"; exon_number "1"; gene_name "ISG15"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ISG15-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS6";
+1	protein_coding	exon	949364	949920	.	+	.	gene_id "ENSG00000187608"; transcript_id "ENST00000379389"; exon_number "2"; gene_name "ISG15"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ISG15-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS6"; exon_id "ENSE00001480799";
+1	protein_coding	CDS	949364	949855	.	+	0	gene_id "ENSG00000187608"; transcript_id "ENST00000379389"; exon_number "2"; gene_name "ISG15"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ISG15-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS6"; protein_id "ENSP00000368699";
+1	protein_coding	stop_codon	949856	949858	.	+	0	gene_id "ENSG00000187608"; transcript_id "ENST00000379389"; exon_number "2"; gene_name "ISG15"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ISG15-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS6";
+1	protein_coding	UTR	948803	948953	.	+	.	gene_id "ENSG00000187608"; transcript_id "ENST00000379389"; gene_name "ISG15"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ISG15-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS6";
+1	protein_coding	UTR	949859	949920	.	+	.	gene_id "ENSG00000187608"; transcript_id "ENST00000379389"; gene_name "ISG15"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ISG15-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS6";
+1	protein_coding	gene	955503	991496	.	+	.	gene_id "ENSG00000188157"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	955503	991496	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551";
+1	protein_coding	exon	955503	955753	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "1"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00002277560";
+1	protein_coding	CDS	955553	955753	.	+	0	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "1"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	start_codon	955553	955555	.	+	0	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "1"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551";
+1	protein_coding	exon	957581	957842	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "2"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001673004";
+1	protein_coding	CDS	957581	957842	.	+	0	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "2"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	970657	970704	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "3"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00003635914";
+1	protein_coding	CDS	970657	970704	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "3"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	976045	976260	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "4"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00003677060";
+1	protein_coding	CDS	976045	976260	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "4"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	976553	976777	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "5"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00003472518";
+1	protein_coding	CDS	976553	976777	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "5"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	976858	977082	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "6"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001627476";
+1	protein_coding	CDS	976858	977082	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "6"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	977336	977542	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "7"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001700910";
+1	protein_coding	CDS	977336	977542	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "7"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	978619	978837	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "8"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001605257";
+1	protein_coding	CDS	978619	978837	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "8"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	978918	979112	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "9"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001701194";
+1	protein_coding	CDS	978918	979112	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "9"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	979203	979403	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "10"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001762402";
+1	protein_coding	CDS	979203	979403	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "10"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	979489	979637	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "11"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001653556";
+1	protein_coding	CDS	979489	979637	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "11"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	979714	979819	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "12"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001773423";
+1	protein_coding	CDS	979714	979819	.	+	0	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "12"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	980541	980657	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "13"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001688790";
+1	protein_coding	CDS	980541	980657	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "13"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	980739	980903	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "14"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001737074";
+1	protein_coding	CDS	980739	980903	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "14"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	981113	981256	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "15"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00003686258";
+1	protein_coding	CDS	981113	981256	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "15"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	981344	981468	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "16"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00003684009";
+1	protein_coding	CDS	981344	981468	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "16"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	981540	981645	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "17"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001652878";
+1	protein_coding	CDS	981540	981645	.	+	0	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "17"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	981777	982115	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "18"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001750513";
+1	protein_coding	CDS	981777	982115	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "18"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	982200	982337	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "19"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001787340";
+1	protein_coding	CDS	982200	982337	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "19"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	982707	982834	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "20"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001622111";
+1	protein_coding	CDS	982707	982834	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "20"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	982953	983067	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "21"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00003529542";
+1	protein_coding	CDS	982953	983067	.	+	0	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "21"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	983156	983275	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "22"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001667688";
+1	protein_coding	CDS	983156	983275	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "22"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	983392	983745	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "23"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001650172";
+1	protein_coding	CDS	983392	983745	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "23"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	984247	984439	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "24"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001641464";
+1	protein_coding	CDS	984247	984439	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "24"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	984616	984831	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "25"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001706121";
+1	protein_coding	CDS	984616	984831	.	+	1	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "25"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	984946	985175	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "26"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001622861";
+1	protein_coding	CDS	984946	985175	.	+	1	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "26"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	985283	985417	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "27"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001756488";
+1	protein_coding	CDS	985283	985417	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "27"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	985613	985709	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "28"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001657020";
+1	protein_coding	CDS	985613	985709	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "28"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	985807	985971	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "29"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001693596";
+1	protein_coding	CDS	985807	985971	.	+	1	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "29"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	986106	986217	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "30"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001367302";
+1	protein_coding	CDS	986106	986217	.	+	1	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "30"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	986633	986749	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "31"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001385905";
+1	protein_coding	CDS	986633	986749	.	+	0	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "31"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	986833	987025	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "32"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001374645";
+1	protein_coding	CDS	986833	987025	.	+	0	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "32"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	987108	987195	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "33"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001381606";
+1	protein_coding	CDS	987108	987195	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "33"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	989133	989357	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "34"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00002692404";
+1	protein_coding	CDS	989133	989357	.	+	1	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "34"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	989828	989931	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "35"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00003619422";
+1	protein_coding	CDS	989828	989931	.	+	1	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "35"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	exon	990204	991496	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "36"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; exon_id "ENSE00001883271";
+1	protein_coding	CDS	990204	990358	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "36"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551"; protein_id "ENSP00000368678";
+1	protein_coding	stop_codon	990359	990361	.	+	0	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; exon_number "36"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551";
+1	protein_coding	UTR	955503	955552	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551";
+1	protein_coding	UTR	990362	991496	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000379370"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30551";
+1	processed_transcript	transcript	969486	976105	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000477585"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-002"; transcript_source "havana";
+1	processed_transcript	exon	969486	970083	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000477585"; exon_number "1"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-002"; transcript_source "havana"; exon_id "ENSE00001908949";
+1	processed_transcript	exon	970657	970704	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000477585"; exon_number "2"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-002"; transcript_source "havana"; exon_id "ENSE00003671338";
+1	processed_transcript	exon	976045	976105	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000477585"; exon_number "3"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-002"; transcript_source "havana"; exon_id "ENSE00001943395";
+1	retained_intron	transcript	970247	976777	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000469403"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-003"; transcript_source "havana";
+1	retained_intron	exon	970247	970704	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000469403"; exon_number "1"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-003"; transcript_source "havana"; exon_id "ENSE00001842655";
+1	retained_intron	exon	976045	976260	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000469403"; exon_number "2"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-003"; transcript_source "havana"; exon_id "ENSE00003653966";
+1	retained_intron	exon	976553	976777	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000469403"; exon_number "3"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-003"; transcript_source "havana"; exon_id "ENSE00003495736";
+1	retained_intron	transcript	980779	981729	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000479707"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-004"; transcript_source "havana";
+1	retained_intron	exon	980779	980903	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000479707"; exon_number "1"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-004"; transcript_source "havana"; exon_id "ENSE00001845514";
+1	retained_intron	exon	981113	981256	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000479707"; exon_number "2"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-004"; transcript_source "havana"; exon_id "ENSE00003548211";
+1	retained_intron	exon	981344	981468	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000479707"; exon_number "3"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-004"; transcript_source "havana"; exon_id "ENSE00003551748";
+1	retained_intron	exon	981540	981729	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000479707"; exon_number "4"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-004"; transcript_source "havana"; exon_id "ENSE00001855193";
+1	retained_intron	transcript	982581	983245	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000466223"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-005"; transcript_source "havana";
+1	retained_intron	exon	982581	982834	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000466223"; exon_number "1"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-005"; transcript_source "havana"; exon_id "ENSE00001853258";
+1	retained_intron	exon	982953	983067	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000466223"; exon_number "2"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-005"; transcript_source "havana"; exon_id "ENSE00003484863";
+1	retained_intron	exon	983156	983245	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000466223"; exon_number "3"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-005"; transcript_source "havana"; exon_id "ENSE00001890043";
+1	retained_intron	transcript	982855	983218	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000478677"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-006"; transcript_source "havana";
+1	retained_intron	exon	982855	983067	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000478677"; exon_number "1"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-006"; transcript_source "havana"; exon_id "ENSE00001827514";
+1	retained_intron	exon	983156	983218	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000478677"; exon_number "2"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-006"; transcript_source "havana"; exon_id "ENSE00001880503";
+1	retained_intron	transcript	983909	984774	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000492947"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-007"; transcript_source "havana";
+1	retained_intron	exon	983909	984439	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000492947"; exon_number "1"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-007"; transcript_source "havana"; exon_id "ENSE00001898541";
+1	retained_intron	exon	984616	984774	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000492947"; exon_number "2"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-007"; transcript_source "havana"; exon_id "ENSE00001932683";
+1	protein_coding	transcript	985936	989330	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	985936	985971	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "1"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; exon_id "ENSE00001746314"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	985936	985971	.	+	1	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "1"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; protein_id "ENSP00000400771"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	986106	986217	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "2"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; exon_id "ENSE00001367302"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	986106	986217	.	+	1	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "2"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; protein_id "ENSP00000400771"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	986412	986423	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "3"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; exon_id "ENSE00001651515"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	986412	986423	.	+	0	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "3"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; protein_id "ENSP00000400771"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	986633	986749	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "4"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; exon_id "ENSE00001385905"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	986633	986749	.	+	0	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "4"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; protein_id "ENSP00000400771"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	986833	987025	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "5"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; exon_id "ENSE00001374645"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	986833	987025	.	+	0	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "5"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; protein_id "ENSP00000400771"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	987108	987195	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "6"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; exon_id "ENSE00001381606"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	987108	987195	.	+	2	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "6"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; protein_id "ENSP00000400771"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	987373	987396	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "7"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; exon_id "ENSE00001480659"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	987373	987396	.	+	1	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "7"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; protein_id "ENSP00000400771"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	988841	988873	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "8"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; exon_id "ENSE00001480658"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	988841	988873	.	+	1	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "8"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; protein_id "ENSP00000400771"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	989133	989330	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "9"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; exon_id "ENSE00001610541"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	989133	989330	.	+	1	gene_id "ENSG00000188157"; transcript_id "ENST00000419249"; exon_number "9"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-009"; transcript_source "havana"; protein_id "ENSP00000400771"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	987366	991492	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000461111"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-008"; transcript_source "havana";
+1	retained_intron	exon	987366	989357	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000461111"; exon_number "1"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-008"; transcript_source "havana"; exon_id "ENSE00001870196";
+1	retained_intron	exon	989828	989931	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000461111"; exon_number "2"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-008"; transcript_source "havana"; exon_id "ENSE00003614702";
+1	retained_intron	exon	990204	991492	.	+	.	gene_id "ENSG00000188157"; transcript_id "ENST00000461111"; exon_number "3"; gene_name "AGRN"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AGRN-008"; transcript_source "havana"; exon_id "ENSE00001947822";
+1	sense_intronic	gene	990413	991496	.	+	.	gene_id "ENSG00000242590"; gene_name "RP11-54O7.14"; gene_source "havana"; gene_biotype "sense_intronic";
+1	sense_intronic	transcript	990413	991496	.	+	.	gene_id "ENSG00000242590"; transcript_id "ENST00000418300"; gene_name "RP11-54O7.14"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP11-54O7.14-001"; transcript_source "havana";
+1	sense_intronic	exon	990413	990595	.	+	.	gene_id "ENSG00000242590"; transcript_id "ENST00000418300"; exon_number "1"; gene_name "RP11-54O7.14"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP11-54O7.14-001"; transcript_source "havana"; exon_id "ENSE00001728627";
+1	sense_intronic	exon	991278	991496	.	+	.	gene_id "ENSG00000242590"; transcript_id "ENST00000418300"; exon_number "2"; gene_name "RP11-54O7.14"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP11-54O7.14-001"; transcript_source "havana"; exon_id "ENSE00001702762";
+1	pseudogene	gene	995114	1004735	.	+	.	gene_id "ENSG00000217801"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene";
+1	processed_transcript	transcript	995114	1001836	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000427998"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-005"; transcript_source "havana";
+1	processed_transcript	exon	995114	995226	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000427998"; exon_number "1"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-005"; transcript_source "havana"; exon_id "ENSE00001669701";
+1	processed_transcript	exon	995660	995773	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000427998"; exon_number "2"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-005"; transcript_source "havana"; exon_id "ENSE00001702890";
+1	processed_transcript	exon	998459	998581	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000427998"; exon_number "3"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-005"; transcript_source "havana"; exon_id "ENSE00001613074";
+1	processed_transcript	exon	1001210	1001836	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000427998"; exon_number "4"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-005"; transcript_source "havana"; exon_id "ENSE00001719282";
+1	processed_transcript	transcript	996400	1001385	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000394517"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-002"; transcript_source "havana";
+1	processed_transcript	exon	996400	996497	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000394517"; exon_number "1"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-002"; transcript_source "havana"; exon_id "ENSE00001630784";
+1	processed_transcript	exon	998459	998581	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000394517"; exon_number "2"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-002"; transcript_source "havana"; exon_id "ENSE00001613074";
+1	processed_transcript	exon	1001210	1001385	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000394517"; exon_number "3"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-002"; transcript_source "havana"; exon_id "ENSE00001730331";
+1	processed_transcript	transcript	998459	1001836	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000456409"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-006"; transcript_source "havana";
+1	processed_transcript	exon	998459	998581	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000456409"; exon_number "1"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-006"; transcript_source "havana"; exon_id "ENSE00001613074";
+1	processed_transcript	exon	1001210	1001836	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000456409"; exon_number "2"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-006"; transcript_source "havana"; exon_id "ENSE00001719282";
+1	transcribed_unprocessed_pseudogene	transcript	998459	1004735	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000412397"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-001"; transcript_source "havana";
+1	transcribed_unprocessed_pseudogene	exon	998459	998581	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000412397"; exon_number "1"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-001"; transcript_source "havana"; exon_id "ENSE00001613074";
+1	transcribed_unprocessed_pseudogene	exon	998860	998946	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000412397"; exon_number "2"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-001"; transcript_source "havana"; exon_id "ENSE00001758525";
+1	transcribed_unprocessed_pseudogene	exon	999590	999781	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000412397"; exon_number "3"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-001"; transcript_source "havana"; exon_id "ENSE00001671307";
+1	transcribed_unprocessed_pseudogene	exon	999870	999969	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000412397"; exon_number "4"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-001"; transcript_source "havana"; exon_id "ENSE00001775266";
+1	transcribed_unprocessed_pseudogene	exon	1000732	1000855	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000412397"; exon_number "5"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-001"; transcript_source "havana"; exon_id "ENSE00001731427";
+1	transcribed_unprocessed_pseudogene	exon	1001967	1002047	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000412397"; exon_number "6"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-001"; transcript_source "havana"; exon_id "ENSE00001666739";
+1	transcribed_unprocessed_pseudogene	exon	1002946	1003026	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000412397"; exon_number "7"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-001"; transcript_source "havana"; exon_id "ENSE00001654594";
+1	transcribed_unprocessed_pseudogene	exon	1003249	1003383	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000412397"; exon_number "8"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-001"; transcript_source "havana"; exon_id "ENSE00001680786";
+1	transcribed_unprocessed_pseudogene	exon	1003957	1004104	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000412397"; exon_number "9"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-001"; transcript_source "havana"; exon_id "ENSE00001609518";
+1	transcribed_unprocessed_pseudogene	exon	1004588	1004735	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000412397"; exon_number "10"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-001"; transcript_source "havana"; exon_id "ENSE00001797746";
+1	processed_transcript	transcript	999875	1001654	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000433695"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-003"; transcript_source "havana";
+1	processed_transcript	exon	999875	999969	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000433695"; exon_number "1"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-003"; transcript_source "havana"; exon_id "ENSE00001730292";
+1	processed_transcript	exon	1001210	1001654	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000433695"; exon_number "2"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-003"; transcript_source "havana"; exon_id "ENSE00001514952";
+1	processed_transcript	transcript	999898	1001821	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000451054"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-004"; transcript_source "havana";
+1	processed_transcript	exon	999898	999969	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000451054"; exon_number "1"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-004"; transcript_source "havana"; exon_id "ENSE00001668262";
+1	processed_transcript	exon	1001329	1001821	.	+	.	gene_id "ENSG00000217801"; transcript_id "ENST00000451054"; exon_number "2"; gene_name "RP11-465B22.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-465B22.3-004"; transcript_source "havana"; exon_id "ENSE00001623309";
+1	lincRNA	gene	997588	998668	.	-	.	gene_id "ENSG00000273443"; gene_name "RP11-54O7.18"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	997588	998668	.	-	.	gene_id "ENSG00000273443"; transcript_id "ENST00000442292"; gene_name "RP11-54O7.18"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.18-001"; transcript_source "havana";
+1	lincRNA	exon	998441	998668	.	-	.	gene_id "ENSG00000273443"; transcript_id "ENST00000442292"; exon_number "1"; gene_name "RP11-54O7.18"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.18-001"; transcript_source "havana"; exon_id "ENSE00001670841";
+1	lincRNA	exon	997588	998188	.	-	.	gene_id "ENSG00000273443"; transcript_id "ENST00000442292"; exon_number "2"; gene_name "RP11-54O7.18"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-54O7.18-001"; transcript_source "havana"; exon_id "ENSE00001660524";
+1	protein_coding	gene	1006346	1009687	.	-	.	gene_id "ENSG00000237330"; gene_name "RNF223"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1006346	1009687	.	-	.	gene_id "ENSG00000237330"; transcript_id "ENST00000453464"; gene_name "RNF223"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RNF223-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53257";
+1	protein_coding	exon	1009396	1009687	.	-	.	gene_id "ENSG00000237330"; transcript_id "ENST00000453464"; exon_number "1"; gene_name "RNF223"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RNF223-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53257"; exon_id "ENSE00001707588";
+1	protein_coding	exon	1006346	1007955	.	-	.	gene_id "ENSG00000237330"; transcript_id "ENST00000453464"; exon_number "2"; gene_name "RNF223"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RNF223-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53257"; exon_id "ENSE00001666214";
+1	protein_coding	CDS	1007200	1007946	.	-	0	gene_id "ENSG00000237330"; transcript_id "ENST00000453464"; exon_number "2"; gene_name "RNF223"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RNF223-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53257"; protein_id "ENSP00000410533";
+1	protein_coding	start_codon	1007944	1007946	.	-	0	gene_id "ENSG00000237330"; transcript_id "ENST00000453464"; exon_number "2"; gene_name "RNF223"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RNF223-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53257";
+1	protein_coding	stop_codon	1007197	1007199	.	-	0	gene_id "ENSG00000237330"; transcript_id "ENST00000453464"; exon_number "2"; gene_name "RNF223"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RNF223-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53257";
+1	protein_coding	UTR	1009396	1009687	.	-	.	gene_id "ENSG00000237330"; transcript_id "ENST00000453464"; gene_name "RNF223"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RNF223-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53257";
+1	protein_coding	UTR	1007947	1007955	.	-	.	gene_id "ENSG00000237330"; transcript_id "ENST00000453464"; gene_name "RNF223"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RNF223-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53257";
+1	protein_coding	UTR	1006346	1007196	.	-	.	gene_id "ENSG00000237330"; transcript_id "ENST00000453464"; gene_name "RNF223"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RNF223-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53257";
+1	protein_coding	gene	1017198	1051741	.	-	.	gene_id "ENSG00000131591"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1017198	1051461	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana";
+1	protein_coding	exon	1051440	1051461	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; exon_id "ENSE00001480605";
+1	protein_coding	exon	1050402	1050455	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; exon_id "ENSE00001480604";
+1	protein_coding	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; exon_id "ENSE00002711450";
+1	protein_coding	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; exon_id "ENSE00003652001";
+1	protein_coding	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; protein_id "ENSP00000368644";
+1	protein_coding	start_codon	1026921	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana";
+1	protein_coding	exon	1026256	1026363	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; exon_id "ENSE00001480589";
+1	protein_coding	CDS	1026256	1026363	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; protein_id "ENSP00000368644";
+1	protein_coding	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; exon_id "ENSE00003592709";
+1	protein_coding	CDS	1025733	1025808	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; protein_id "ENSP00000368644";
+1	protein_coding	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; exon_id "ENSE00003463192";
+1	protein_coding	CDS	1022882	1022977	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; protein_id "ENSP00000368644";
+1	protein_coding	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; exon_id "ENSE00003671316";
+1	protein_coding	CDS	1022519	1022584	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; protein_id "ENSP00000368644";
+1	protein_coding	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; exon_id "ENSE00003678908";
+1	protein_coding	CDS	1021258	1021392	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; protein_id "ENSP00000368644";
+1	protein_coding	exon	1019861	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; exon_id "ENSE00003614342";
+1	protein_coding	CDS	1019861	1019886	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; protein_id "ENSP00000368644";
+1	protein_coding	exon	1019295	1019763	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "11"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; exon_id "ENSE00003664630";
+1	protein_coding	CDS	1019295	1019763	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "11"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; protein_id "ENSP00000368644";
+1	protein_coding	exon	1017198	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "12"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; exon_id "ENSE00001662925";
+1	protein_coding	CDS	1018276	1018367	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "12"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana"; protein_id "ENSP00000368644";
+1	protein_coding	stop_codon	1018273	1018275	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; exon_number "12"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana";
+1	protein_coding	UTR	1051440	1051461	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana";
+1	protein_coding	UTR	1050402	1050455	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana";
+1	protein_coding	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana";
+1	protein_coding	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana";
+1	protein_coding	UTR	1017198	1018272	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379339"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-002"; transcript_source "havana";
+1	protein_coding	transcript	1017198	1051736	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl";
+1	protein_coding	exon	1051440	1051736	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; exon_id "ENSE00001639584";
+1	protein_coding	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; exon_id "ENSE00002711450";
+1	protein_coding	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; exon_id "ENSE00003652001";
+1	protein_coding	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; protein_id "ENSP00000392290";
+1	protein_coding	start_codon	1026921	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl";
+1	protein_coding	exon	1026256	1026363	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; exon_id "ENSE00001480589";
+1	protein_coding	CDS	1026256	1026363	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; protein_id "ENSP00000392290";
+1	protein_coding	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; exon_id "ENSE00003592709";
+1	protein_coding	CDS	1025733	1025808	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; protein_id "ENSP00000392290";
+1	protein_coding	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; exon_id "ENSE00003463192";
+1	protein_coding	CDS	1022882	1022977	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; protein_id "ENSP00000392290";
+1	protein_coding	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; exon_id "ENSE00003671316";
+1	protein_coding	CDS	1022519	1022584	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; protein_id "ENSP00000392290";
+1	protein_coding	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; exon_id "ENSE00003678908";
+1	protein_coding	CDS	1021258	1021392	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; protein_id "ENSP00000392290";
+1	protein_coding	exon	1019861	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; exon_id "ENSE00003614342";
+1	protein_coding	CDS	1019861	1019886	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; protein_id "ENSP00000392290";
+1	protein_coding	exon	1019295	1019763	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; exon_id "ENSE00003664630";
+1	protein_coding	CDS	1019295	1019763	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; protein_id "ENSP00000392290";
+1	protein_coding	exon	1017198	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "11"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; exon_id "ENSE00001662925";
+1	protein_coding	CDS	1018276	1018367	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "11"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl"; protein_id "ENSP00000392290";
+1	protein_coding	stop_codon	1018273	1018275	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; exon_number "11"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl";
+1	protein_coding	UTR	1051440	1051736	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl";
+1	protein_coding	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl";
+1	protein_coding	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl";
+1	protein_coding	UTR	1017198	1018272	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000448924"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-203"; transcript_source "ensembl";
+1	protein_coding	transcript	1017198	1051736	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl";
+1	protein_coding	exon	1051440	1051736	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; exon_id "ENSE00001639584";
+1	protein_coding	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; exon_id "ENSE00002711450";
+1	protein_coding	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; exon_id "ENSE00003652001";
+1	protein_coding	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; protein_id "ENSP00000294576";
+1	protein_coding	start_codon	1026921	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl";
+1	protein_coding	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; exon_id "ENSE00003592709";
+1	protein_coding	CDS	1025733	1025808	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; protein_id "ENSP00000294576";
+1	protein_coding	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; exon_id "ENSE00003463192";
+1	protein_coding	CDS	1022882	1022977	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; protein_id "ENSP00000294576";
+1	protein_coding	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; exon_id "ENSE00003671316";
+1	protein_coding	CDS	1022519	1022584	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; protein_id "ENSP00000294576";
+1	protein_coding	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; exon_id "ENSE00003678908";
+1	protein_coding	CDS	1021258	1021392	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; protein_id "ENSP00000294576";
+1	protein_coding	exon	1019861	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; exon_id "ENSE00003614342";
+1	protein_coding	CDS	1019861	1019886	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; protein_id "ENSP00000294576";
+1	protein_coding	exon	1019295	1019763	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; exon_id "ENSE00003664630";
+1	protein_coding	CDS	1019295	1019763	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; protein_id "ENSP00000294576";
+1	protein_coding	exon	1017198	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; exon_id "ENSE00001662925";
+1	protein_coding	CDS	1018276	1018367	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl"; protein_id "ENSP00000294576";
+1	protein_coding	stop_codon	1018273	1018275	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1051440	1051736	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1017198	1018272	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000294576"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-201"; transcript_source "ensembl";
+1	retained_intron	transcript	1017203	1027457	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000465822"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-012"; transcript_source "havana";
+1	retained_intron	exon	1027371	1027457	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000465822"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-012"; transcript_source "havana"; exon_id "ENSE00001882987";
+1	retained_intron	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000465822"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-012"; transcript_source "havana"; exon_id "ENSE00003646498";
+1	retained_intron	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000465822"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-012"; transcript_source "havana"; exon_id "ENSE00003541089";
+1	retained_intron	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000465822"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-012"; transcript_source "havana"; exon_id "ENSE00003497379";
+1	retained_intron	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000465822"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-012"; transcript_source "havana"; exon_id "ENSE00003680286";
+1	retained_intron	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000465822"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-012"; transcript_source "havana"; exon_id "ENSE00003525085";
+1	retained_intron	exon	1020631	1020690	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000465822"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-012"; transcript_source "havana"; exon_id "ENSE00003466083";
+1	retained_intron	exon	1019733	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000465822"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-012"; transcript_source "havana"; exon_id "ENSE00001823263";
+1	retained_intron	exon	1017203	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000465822"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-012"; transcript_source "havana"; exon_id "ENSE00003497458";
+1	nonsense_mediated_decay	transcript	1017203	1051475	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1051440	1051475	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; exon_id "ENSE00001742039";
+1	nonsense_mediated_decay	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; exon_id "ENSE00002711450";
+1	nonsense_mediated_decay	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; exon_id "ENSE00003652001";
+1	nonsense_mediated_decay	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; protein_id "ENSP00000368629";
+1	nonsense_mediated_decay	start_codon	1026921	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; exon_id "ENSE00003592709";
+1	nonsense_mediated_decay	CDS	1025733	1025808	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; protein_id "ENSP00000368629";
+1	nonsense_mediated_decay	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; exon_id "ENSE00003463192";
+1	nonsense_mediated_decay	CDS	1022882	1022977	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; protein_id "ENSP00000368629";
+1	nonsense_mediated_decay	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; exon_id "ENSE00003671316";
+1	nonsense_mediated_decay	CDS	1022519	1022584	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; protein_id "ENSP00000368629";
+1	nonsense_mediated_decay	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; exon_id "ENSE00003678908";
+1	nonsense_mediated_decay	CDS	1021258	1021392	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; protein_id "ENSP00000368629";
+1	nonsense_mediated_decay	exon	1019861	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; exon_id "ENSE00003614342";
+1	nonsense_mediated_decay	CDS	1019861	1019886	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; protein_id "ENSP00000368629";
+1	nonsense_mediated_decay	exon	1019733	1019763	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; exon_id "ENSE00003506442";
+1	nonsense_mediated_decay	CDS	1019733	1019763	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; protein_id "ENSP00000368629";
+1	nonsense_mediated_decay	exon	1019295	1019466	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; exon_id "ENSE00003657760";
+1	nonsense_mediated_decay	CDS	1019402	1019466	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; protein_id "ENSP00000368629";
+1	nonsense_mediated_decay	stop_codon	1019399	1019401	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1017203	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; exon_number "11"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana"; exon_id "ENSE00003497458";
+1	nonsense_mediated_decay	UTR	1051440	1051475	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1019295	1019398	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1017203	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379325"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-019"; transcript_source "havana";
+1	protein_coding	transcript	1017203	1051478	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7";
+1	protein_coding	exon	1051440	1051478	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00001943993";
+1	protein_coding	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00002711450";
+1	protein_coding	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003652001";
+1	protein_coding	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000400736";
+1	protein_coding	start_codon	1026921	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7";
+1	protein_coding	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003592709";
+1	protein_coding	CDS	1025733	1025808	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000400736";
+1	protein_coding	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003463192";
+1	protein_coding	CDS	1022882	1022977	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000400736";
+1	protein_coding	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003671316";
+1	protein_coding	CDS	1022519	1022584	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000400736";
+1	protein_coding	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003678908";
+1	protein_coding	CDS	1021258	1021392	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000400736";
+1	protein_coding	exon	1019861	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003614342";
+1	protein_coding	CDS	1019861	1019886	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000400736";
+1	protein_coding	exon	1019733	1019763	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003506442";
+1	protein_coding	CDS	1019733	1019763	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000400736";
+1	protein_coding	exon	1017203	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003615395";
+1	protein_coding	CDS	1018276	1018367	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000400736";
+1	protein_coding	stop_codon	1018273	1018275	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7";
+1	protein_coding	UTR	1051440	1051478	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7";
+1	protein_coding	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7";
+1	protein_coding	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7";
+1	protein_coding	UTR	1017203	1018272	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000421241"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS7";
+1	retained_intron	transcript	1017205	1023016	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000487177"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-006"; transcript_source "havana";
+1	retained_intron	exon	1022519	1023016	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000487177"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-006"; transcript_source "havana"; exon_id "ENSE00001913500";
+1	retained_intron	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000487177"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-006"; transcript_source "havana"; exon_id "ENSE00003525085";
+1	retained_intron	exon	1017205	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000487177"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-006"; transcript_source "havana"; exon_id "ENSE00001859925";
+1	nonsense_mediated_decay	transcript	1017205	1051469	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1051440	1051469	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana"; exon_id "ENSE00001902417";
+1	nonsense_mediated_decay	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana"; exon_id "ENSE00002711450";
+1	nonsense_mediated_decay	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana"; exon_id "ENSE00003652001";
+1	nonsense_mediated_decay	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana"; protein_id "ENSP00000462798";
+1	nonsense_mediated_decay	start_codon	1026921	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1025733	1026754	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana"; exon_id "ENSE00001908037";
+1	nonsense_mediated_decay	CDS	1026533	1026754	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana"; protein_id "ENSP00000462798";
+1	nonsense_mediated_decay	stop_codon	1026530	1026532	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana"; exon_id "ENSE00003497379";
+1	nonsense_mediated_decay	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana"; exon_id "ENSE00003680286";
+1	nonsense_mediated_decay	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana"; exon_id "ENSE00003525085";
+1	nonsense_mediated_decay	exon	1019861	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana"; exon_id "ENSE00003506487";
+1	nonsense_mediated_decay	exon	1019295	1019763	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana"; exon_id "ENSE00003487799";
+1	nonsense_mediated_decay	exon	1017205	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana"; exon_id "ENSE00001775910";
+1	nonsense_mediated_decay	UTR	1051440	1051469	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1025733	1026529	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1019861	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1019295	1019763	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1017205	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000477196"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-003"; transcript_source "havana";
+1	nonsense_mediated_decay	transcript	1017205	1051469	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1051440	1051469	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; exon_id "ENSE00001902417";
+1	nonsense_mediated_decay	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; exon_id "ENSE00002711450";
+1	nonsense_mediated_decay	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; exon_id "ENSE00003652001";
+1	nonsense_mediated_decay	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; protein_id "ENSP00000463144";
+1	nonsense_mediated_decay	start_codon	1026921	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1026658	1026754	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; exon_id "ENSE00001793213";
+1	nonsense_mediated_decay	CDS	1026658	1026754	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; protein_id "ENSP00000463144";
+1	nonsense_mediated_decay	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; exon_id "ENSE00003589894";
+1	nonsense_mediated_decay	CDS	1025733	1025808	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; protein_id "ENSP00000463144";
+1	nonsense_mediated_decay	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; exon_id "ENSE00003668521";
+1	nonsense_mediated_decay	CDS	1022890	1022977	.	-	1	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; protein_id "ENSP00000463144";
+1	nonsense_mediated_decay	stop_codon	1022887	1022889	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; exon_id "ENSE00003680286";
+1	nonsense_mediated_decay	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; exon_id "ENSE00003525085";
+1	nonsense_mediated_decay	exon	1019861	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; exon_id "ENSE00003506487";
+1	nonsense_mediated_decay	exon	1019733	1019763	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; exon_id "ENSE00003467290";
+1	nonsense_mediated_decay	exon	1019295	1019466	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "11"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; exon_id "ENSE00003620358";
+1	nonsense_mediated_decay	exon	1017205	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; exon_number "12"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana"; exon_id "ENSE00001775910";
+1	nonsense_mediated_decay	UTR	1051440	1051469	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1022882	1022886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1019861	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1019733	1019763	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1019295	1019466	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1017205	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000467751"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-013"; transcript_source "havana";
+1	processed_transcript	transcript	1017526	1019452	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000464905"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-014"; transcript_source "havana";
+1	processed_transcript	exon	1019295	1019452	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000464905"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-014"; transcript_source "havana"; exon_id "ENSE00001932828";
+1	processed_transcript	exon	1017984	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000464905"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-014"; transcript_source "havana"; exon_id "ENSE00001869342";
+1	processed_transcript	exon	1017526	1017633	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000464905"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-014"; transcript_source "havana"; exon_id "ENSE00001855897";
+1	protein_coding	transcript	1017615	1027554	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana";
+1	protein_coding	exon	1026852	1027554	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; exon_id "ENSE00001480513";
+1	protein_coding	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; protein_id "ENSP00000368624";
+1	protein_coding	start_codon	1026921	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana";
+1	protein_coding	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; exon_id "ENSE00003592709";
+1	protein_coding	CDS	1025733	1025808	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; protein_id "ENSP00000368624";
+1	protein_coding	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; exon_id "ENSE00003463192";
+1	protein_coding	CDS	1022882	1022977	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; protein_id "ENSP00000368624";
+1	protein_coding	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; exon_id "ENSE00003671316";
+1	protein_coding	CDS	1022519	1022584	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; protein_id "ENSP00000368624";
+1	protein_coding	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; exon_id "ENSE00003678908";
+1	protein_coding	CDS	1021258	1021392	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; protein_id "ENSP00000368624";
+1	protein_coding	exon	1019861	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; exon_id "ENSE00003614342";
+1	protein_coding	CDS	1019861	1019886	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; protein_id "ENSP00000368624";
+1	protein_coding	exon	1019295	1019763	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; exon_id "ENSE00003664630";
+1	protein_coding	CDS	1019295	1019763	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; protein_id "ENSP00000368624";
+1	protein_coding	exon	1017615	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; exon_id "ENSE00001480511";
+1	protein_coding	CDS	1018276	1018367	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana"; protein_id "ENSP00000368624";
+1	protein_coding	stop_codon	1018273	1018275	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana";
+1	protein_coding	UTR	1026924	1027554	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana";
+1	protein_coding	UTR	1017615	1018272	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379320"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-004"; transcript_source "havana";
+1	protein_coding	transcript	1018080	1041507	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7";
+1	protein_coding	exon	1041336	1041507	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00001480510";
+1	protein_coding	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00002711450";
+1	protein_coding	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003652001";
+1	protein_coding	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000368623";
+1	protein_coding	start_codon	1026921	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7";
+1	protein_coding	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003592709";
+1	protein_coding	CDS	1025733	1025808	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000368623";
+1	protein_coding	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003463192";
+1	protein_coding	CDS	1022882	1022977	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000368623";
+1	protein_coding	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003671316";
+1	protein_coding	CDS	1022519	1022584	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000368623";
+1	protein_coding	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003678908";
+1	protein_coding	CDS	1021258	1021392	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000368623";
+1	protein_coding	exon	1019861	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003614342";
+1	protein_coding	CDS	1019861	1019886	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000368623";
+1	protein_coding	exon	1019733	1019763	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00003506442";
+1	protein_coding	CDS	1019733	1019763	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000368623";
+1	protein_coding	exon	1018080	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; exon_id "ENSE00001480509";
+1	protein_coding	CDS	1018276	1018367	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7"; protein_id "ENSP00000368623";
+1	protein_coding	stop_codon	1018273	1018275	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7";
+1	protein_coding	UTR	1041336	1041507	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7";
+1	protein_coding	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7";
+1	protein_coding	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7";
+1	protein_coding	UTR	1018080	1018272	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000379319"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-009"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS7";
+1	protein_coding	transcript	1018296	1051475	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1051440	1051475	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; exon_id "ENSE00001742039"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; exon_id "ENSE00002711450"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; exon_id "ENSE00003652001"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; protein_id "ENSP00000390635"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; exon_id "ENSE00003592709"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1025733	1025808	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; protein_id "ENSP00000390635"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; exon_id "ENSE00003463192"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1022882	1022977	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; protein_id "ENSP00000390635"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; exon_id "ENSE00003671316"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1022519	1022584	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; protein_id "ENSP00000390635"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; exon_id "ENSE00003678908"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1021258	1021392	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; protein_id "ENSP00000390635"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1019861	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; exon_id "ENSE00003614342"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1019861	1019886	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; protein_id "ENSP00000390635"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1019733	1019763	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; exon_id "ENSE00003506442"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1019733	1019763	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; protein_id "ENSP00000390635"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1019295	1019391	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; exon_id "ENSE00001770135"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1019295	1019391	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; protein_id "ENSP00000390635"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1018296	1018367	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "11"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; exon_id "ENSE00001657855"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1018296	1018367	.	-	1	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; exon_number "11"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; protein_id "ENSP00000390635"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1051440	1051475	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000434641"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	processed_transcript	transcript	1019306	1051623	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000482816"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-005"; transcript_source "havana";
+1	processed_transcript	exon	1051440	1051623	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000482816"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-005"; transcript_source "havana"; exon_id "ENSE00001903443";
+1	processed_transcript	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000482816"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-005"; transcript_source "havana"; exon_id "ENSE00002711450";
+1	processed_transcript	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000482816"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-005"; transcript_source "havana"; exon_id "ENSE00003646498";
+1	processed_transcript	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000482816"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-005"; transcript_source "havana"; exon_id "ENSE00003541089";
+1	processed_transcript	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000482816"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-005"; transcript_source "havana"; exon_id "ENSE00003497379";
+1	processed_transcript	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000482816"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-005"; transcript_source "havana"; exon_id "ENSE00003680286";
+1	processed_transcript	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000482816"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-005"; transcript_source "havana"; exon_id "ENSE00003525085";
+1	processed_transcript	exon	1019861	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000482816"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-005"; transcript_source "havana"; exon_id "ENSE00003506487";
+1	processed_transcript	exon	1019733	1019763	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000482816"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-005"; transcript_source "havana"; exon_id "ENSE00003467290";
+1	processed_transcript	exon	1019306	1019466	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000482816"; exon_number "10"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-005"; transcript_source "havana"; exon_id "ENSE00001912260";
+1	protein_coding	transcript	1019834	1051736	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl";
+1	protein_coding	exon	1051440	1051736	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; exon_id "ENSE00001639584";
+1	protein_coding	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; exon_id "ENSE00002711450";
+1	protein_coding	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; exon_id "ENSE00003652001";
+1	protein_coding	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; protein_id "ENSP00000399027";
+1	protein_coding	start_codon	1026921	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl";
+1	protein_coding	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; exon_id "ENSE00003592709";
+1	protein_coding	CDS	1025733	1025808	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; protein_id "ENSP00000399027";
+1	protein_coding	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; exon_id "ENSE00003463192";
+1	protein_coding	CDS	1022882	1022977	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; protein_id "ENSP00000399027";
+1	protein_coding	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; exon_id "ENSE00003671316";
+1	protein_coding	CDS	1022519	1022584	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; protein_id "ENSP00000399027";
+1	protein_coding	exon	1021258	1021392	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; exon_id "ENSE00003678908";
+1	protein_coding	CDS	1021258	1021392	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; protein_id "ENSP00000399027";
+1	protein_coding	exon	1020631	1020690	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; exon_id "ENSE00003620022";
+1	protein_coding	CDS	1020631	1020690	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "8"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; protein_id "ENSP00000399027";
+1	protein_coding	exon	1019834	1019886	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; exon_id "ENSE00001595596";
+1	protein_coding	CDS	1019837	1019886	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl"; protein_id "ENSP00000399027";
+1	protein_coding	stop_codon	1019834	1019836	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; exon_number "9"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl";
+1	protein_coding	UTR	1051440	1051736	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl";
+1	protein_coding	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl";
+1	protein_coding	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000437760"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-202"; transcript_source "ensembl";
+1	protein_coding	transcript	1022519	1051736	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1051440	1051736	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; exon_id "ENSE00001639584"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1041336	1041429	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; exon_id "ENSE00001856544"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; exon_id "ENSE00002711450"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; exon_id "ENSE00003652001"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; protein_id "ENSP00000464273"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; exon_id "ENSE00003592709"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1025733	1025808	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; protein_id "ENSP00000464273"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; exon_id "ENSE00003463192"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1022882	1022977	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; protein_id "ENSP00000464273"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1022519	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; exon_id "ENSE00003469492"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1022519	1022584	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; exon_number "7"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; protein_id "ENSP00000464273"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1051440	1051736	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1041336	1041429	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000462097"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-008"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	retained_intron	transcript	1022521	1027674	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000473600"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-010"; transcript_source "havana";
+1	retained_intron	exon	1027371	1027674	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000473600"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-010"; transcript_source "havana"; exon_id "ENSE00001854181";
+1	retained_intron	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000473600"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-010"; transcript_source "havana"; exon_id "ENSE00003646498";
+1	retained_intron	exon	1025733	1025967	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000473600"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-010"; transcript_source "havana"; exon_id "ENSE00001939679";
+1	retained_intron	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000473600"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-010"; transcript_source "havana"; exon_id "ENSE00003497379";
+1	retained_intron	exon	1022521	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000473600"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-010"; transcript_source "havana"; exon_id "ENSE00001951856";
+1	protein_coding	transcript	1022570	1051741	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1051440	1051741	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; exon_id "ENSE00001917779"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; exon_id "ENSE00002711450"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1026852	1026989	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; exon_id "ENSE00001846300"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; protein_id "ENSP00000462517"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; exon_id "ENSE00003592709"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1025733	1025808	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; protein_id "ENSP00000462517"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1022882	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; exon_id "ENSE00003463192"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1022882	1022977	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; protein_id "ENSP00000462517"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1022570	1022584	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; exon_id "ENSE00001814861"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1022570	1022584	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; protein_id "ENSP00000462517"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1051440	1051741	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1026924	1026989	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000475119"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	1022955	1028193	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000442117"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1027946	1028193	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000442117"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-017"; transcript_source "havana"; exon_id "ENSE00001649329"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000442117"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-017"; transcript_source "havana"; exon_id "ENSE00002711450"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000442117"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-017"; transcript_source "havana"; exon_id "ENSE00003652001"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000442117"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-017"; transcript_source "havana"; protein_id "ENSP00000416740"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1025733	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000442117"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-017"; transcript_source "havana"; exon_id "ENSE00003592709"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1025733	1025808	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000442117"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-017"; transcript_source "havana"; protein_id "ENSP00000416740"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1022955	1022977	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000442117"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-017"; transcript_source "havana"; exon_id "ENSE00001794977"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1022955	1022977	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000442117"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-017"; transcript_source "havana"; protein_id "ENSP00000416740"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1027946	1028193	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000442117"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000442117"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000442117"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	1025786	1028193	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000427787"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-016"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1027946	1028193	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000427787"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-016"; transcript_source "havana"; exon_id "ENSE00001649329"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000427787"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-016"; transcript_source "havana"; exon_id "ENSE00002711450"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1026852	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000427787"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-016"; transcript_source "havana"; exon_id "ENSE00003652001"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1026852	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000427787"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-016"; transcript_source "havana"; protein_id "ENSP00000395935"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1026658	1026754	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000427787"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-016"; transcript_source "havana"; exon_id "ENSE00001793213"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1026658	1026754	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000427787"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-016"; transcript_source "havana"; protein_id "ENSP00000395935"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1025786	1025808	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000427787"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-016"; transcript_source "havana"; exon_id "ENSE00001690690"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1025786	1025808	.	-	2	gene_id "ENSG00000131591"; transcript_id "ENST00000427787"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-016"; transcript_source "havana"; protein_id "ENSP00000395935"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1027946	1028193	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000427787"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-016"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000427787"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-016"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000427787"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-016"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	retained_intron	transcript	1026426	1051467	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000472741"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-018"; transcript_source "havana";
+1	retained_intron	exon	1051440	1051467	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000472741"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-018"; transcript_source "havana"; exon_id "ENSE00001835492";
+1	retained_intron	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000472741"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-018"; transcript_source "havana"; exon_id "ENSE00002711450";
+1	retained_intron	exon	1026426	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000472741"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-018"; transcript_source "havana"; exon_id "ENSE00001892752";
+1	protein_coding	transcript	1026880	1051469	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1051440	1051469	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; exon_number "1"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; exon_id "ENSE00001902417"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1050402	1050455	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; exon_number "2"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; exon_id "ENSE00001480604"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1042030	1042251	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; exon_number "3"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; exon_id "ENSE00001824291"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1041336	1041429	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; exon_number "4"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; exon_id "ENSE00001856544"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; exon_number "5"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; exon_id "ENSE00002711450"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1026880	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; exon_id "ENSE00001952624"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1026880	1026923	.	-	0	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; exon_number "6"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; protein_id "ENSP00000464657"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1051440	1051469	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1050402	1050455	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1042030	1042251	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1041336	1041429	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1027371	1027483	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1026924	1026945	.	-	.	gene_id "ENSG00000131591"; transcript_id "ENST00000480643"; gene_name "C1orf159"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf159-015"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	lincRNA	gene	1072397	1079436	.	+	.	gene_id "ENSG00000223823"; gene_name "RP11-465B22.5"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	1072397	1079436	.	+	.	gene_id "ENSG00000223823"; transcript_id "ENST00000416774"; gene_name "RP11-465B22.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-465B22.5-001"; transcript_source "havana";
+1	lincRNA	exon	1072397	1072490	.	+	.	gene_id "ENSG00000223823"; transcript_id "ENST00000416774"; exon_number "1"; gene_name "RP11-465B22.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-465B22.5-001"; transcript_source "havana"; exon_id "ENSE00001733002";
+1	lincRNA	exon	1076205	1076412	.	+	.	gene_id "ENSG00000223823"; transcript_id "ENST00000416774"; exon_number "2"; gene_name "RP11-465B22.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-465B22.5-001"; transcript_source "havana"; exon_id "ENSE00001788407";
+1	lincRNA	exon	1078119	1079436	.	+	.	gene_id "ENSG00000223823"; transcript_id "ENST00000416774"; exon_number "3"; gene_name "RP11-465B22.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-465B22.5-001"; transcript_source "havana"; exon_id "ENSE00001682245";
+1	miRNA	gene	1102484	1102578	.	+	.	gene_id "ENSG00000207730"; gene_name "MIR200B"; gene_source "ensembl"; gene_biotype "miRNA";
+1	miRNA	transcript	1102484	1102578	.	+	.	gene_id "ENSG00000207730"; transcript_id "ENST00000384997"; gene_name "MIR200B"; gene_source "ensembl"; gene_biotype "miRNA"; transcript_name "MIR200B-201"; transcript_source "ensembl";
+1	miRNA	exon	1102484	1102578	.	+	.	gene_id "ENSG00000207730"; transcript_id "ENST00000384997"; exon_number "1"; gene_name "MIR200B"; gene_source "ensembl"; gene_biotype "miRNA"; transcript_name "MIR200B-201"; transcript_source "ensembl"; exon_id "ENSE00001500004";
+1	miRNA	gene	1103243	1103332	.	+	.	gene_id "ENSG00000207607"; gene_name "MIR200A"; gene_source "ensembl"; gene_biotype "miRNA";
+1	miRNA	transcript	1103243	1103332	.	+	.	gene_id "ENSG00000207607"; transcript_id "ENST00000384875"; gene_name "MIR200A"; gene_source "ensembl"; gene_biotype "miRNA"; transcript_name "MIR200A-201"; transcript_source "ensembl";
+1	miRNA	exon	1103243	1103332	.	+	.	gene_id "ENSG00000207607"; transcript_id "ENST00000384875"; exon_number "1"; gene_name "MIR200A"; gene_source "ensembl"; gene_biotype "miRNA"; transcript_name "MIR200A-201"; transcript_source "ensembl"; exon_id "ENSE00001499882";
+1	miRNA	gene	1104385	1104467	.	+	.	gene_id "ENSG00000198976"; gene_name "MIR429"; gene_source "ensembl"; gene_biotype "miRNA";
+1	miRNA	transcript	1104385	1104467	.	+	.	gene_id "ENSG00000198976"; transcript_id "ENST00000362106"; gene_name "MIR429"; gene_source "ensembl"; gene_biotype "miRNA"; transcript_name "MIR429-201"; transcript_source "ensembl";
+1	miRNA	exon	1104385	1104467	.	+	.	gene_id "ENSG00000198976"; transcript_id "ENST00000362106"; exon_number "1"; gene_name "MIR429"; gene_source "ensembl"; gene_biotype "miRNA"; transcript_name "MIR429-201"; transcript_source "ensembl"; exon_id "ENSE00001436869";
+1	lincRNA	gene	1104737	1105723	.	+	.	gene_id "ENSG00000272141"; gene_name "RP11-465B22.8"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	1104737	1105723	.	+	.	gene_id "ENSG00000272141"; transcript_id "ENST00000606993"; gene_name "RP11-465B22.8"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-465B22.8-001"; transcript_source "havana";
+1	lincRNA	exon	1104737	1105723	.	+	.	gene_id "ENSG00000272141"; transcript_id "ENST00000606993"; exon_number "1"; gene_name "RP11-465B22.8"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-465B22.8-001"; transcript_source "havana"; exon_id "ENSE00003699319";
+1	antisense	gene	1108436	1114935	.	-	.	gene_id "ENSG00000205231"; gene_name "TTLL10-AS1"; gene_source "ensembl_havana"; gene_biotype "antisense";
+1	antisense	transcript	1108436	1114935	.	-	.	gene_id "ENSG00000205231"; transcript_id "ENST00000379317"; gene_name "TTLL10-AS1"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "TTLL10-AS1-001"; transcript_source "ensembl_havana";
+1	antisense	exon	1114745	1114935	.	-	.	gene_id "ENSG00000205231"; transcript_id "ENST00000379317"; exon_number "1"; gene_name "TTLL10-AS1"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "TTLL10-AS1-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001480505";
+1	antisense	exon	1108436	1111776	.	-	.	gene_id "ENSG00000205231"; transcript_id "ENST00000379317"; exon_number "2"; gene_name "TTLL10-AS1"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "TTLL10-AS1-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001480504";
+1	protein_coding	gene	1109264	1133315	.	+	.	gene_id "ENSG00000162571"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	processed_transcript	transcript	1109264	1110414	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000506177"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-005"; transcript_source "havana";
+1	processed_transcript	exon	1109264	1109306	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000506177"; exon_number "1"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-005"; transcript_source "havana"; exon_id "ENSE00002036594";
+1	processed_transcript	exon	1109901	1110414	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000506177"; exon_number "2"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-005"; transcript_source "havana"; exon_id "ENSE00002046123";
+1	protein_coding	transcript	1109283	1133315	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	exon	1109283	1109306	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "1"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001480467";
+1	protein_coding	exon	1109646	1109701	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "2"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001480466";
+1	protein_coding	exon	1109804	1109869	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "3"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001480465";
+1	protein_coding	exon	1114569	1114713	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "4"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00002321912";
+1	protein_coding	CDS	1114596	1114713	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "4"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368592";
+1	protein_coding	start_codon	1114596	1114598	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "4"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	exon	1115037	1115117	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "5"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001708250";
+1	protein_coding	CDS	1115037	1115117	.	+	2	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "5"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368592";
+1	protein_coding	exon	1115414	1115720	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "6"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00003486642";
+1	protein_coding	CDS	1115414	1115720	.	+	2	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "6"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368592";
+1	protein_coding	exon	1115863	1115981	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "7"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001066411";
+1	protein_coding	CDS	1115863	1115981	.	+	1	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "7"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368592";
+1	protein_coding	exon	1116111	1116240	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "8"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001066412";
+1	protein_coding	CDS	1116111	1116240	.	+	2	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "8"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368592";
+1	protein_coding	exon	1117121	1117195	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "9"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00003539251";
+1	protein_coding	CDS	1117121	1117195	.	+	1	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "9"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368592";
+1	protein_coding	exon	1117741	1117826	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "10"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00003628330";
+1	protein_coding	CDS	1117741	1117826	.	+	1	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "10"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368592";
+1	protein_coding	exon	1118256	1118427	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "11"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00003545721";
+1	protein_coding	CDS	1118256	1118427	.	+	2	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "11"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368592";
+1	protein_coding	exon	1119300	1119471	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "12"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001209659";
+1	protein_coding	CDS	1119300	1119471	.	+	1	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "12"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368592";
+1	protein_coding	exon	1120349	1120489	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "13"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001480405";
+1	protein_coding	CDS	1120349	1120489	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "13"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368592";
+1	protein_coding	exon	1131980	1132096	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "14"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00003631234";
+1	protein_coding	CDS	1131980	1132096	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "14"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368592";
+1	protein_coding	exon	1132473	1132566	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "15"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00003687990";
+1	protein_coding	CDS	1132473	1132566	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "15"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368592";
+1	protein_coding	exon	1132818	1133315	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "16"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001480395";
+1	protein_coding	CDS	1132818	1133224	.	+	2	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "16"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368592";
+1	protein_coding	stop_codon	1133225	1133227	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; exon_number "16"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	UTR	1109283	1109306	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	UTR	1109646	1109701	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	UTR	1109804	1109869	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	UTR	1114569	1114595	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	UTR	1133228	1133315	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379290"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	transcript	1109286	1133313	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	exon	1109286	1109306	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "1"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001480388";
+1	protein_coding	exon	1109665	1109701	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "2"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001480387";
+1	protein_coding	exon	1109804	1109869	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "3"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001480465";
+1	protein_coding	exon	1114569	1114713	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "4"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00002321912";
+1	protein_coding	CDS	1114596	1114713	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "4"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368591";
+1	protein_coding	start_codon	1114596	1114598	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "4"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	exon	1115037	1115117	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "5"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001708250";
+1	protein_coding	CDS	1115037	1115117	.	+	2	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "5"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368591";
+1	protein_coding	exon	1115414	1115720	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "6"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00003486642";
+1	protein_coding	CDS	1115414	1115720	.	+	2	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "6"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368591";
+1	protein_coding	exon	1115863	1115981	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "7"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001066411";
+1	protein_coding	CDS	1115863	1115981	.	+	1	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "7"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368591";
+1	protein_coding	exon	1116111	1116240	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "8"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001066412";
+1	protein_coding	CDS	1116111	1116240	.	+	2	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "8"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368591";
+1	protein_coding	exon	1117121	1117195	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "9"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00003539251";
+1	protein_coding	CDS	1117121	1117195	.	+	1	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "9"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368591";
+1	protein_coding	exon	1117741	1117826	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "10"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00003628330";
+1	protein_coding	CDS	1117741	1117826	.	+	1	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "10"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368591";
+1	protein_coding	exon	1118256	1118427	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "11"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00003545721";
+1	protein_coding	CDS	1118256	1118427	.	+	2	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "11"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368591";
+1	protein_coding	exon	1119300	1119471	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "12"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001209659";
+1	protein_coding	CDS	1119300	1119471	.	+	1	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "12"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368591";
+1	protein_coding	exon	1120349	1120489	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "13"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001480405";
+1	protein_coding	CDS	1120349	1120489	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "13"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368591";
+1	protein_coding	exon	1131980	1132096	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "14"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00003631234";
+1	protein_coding	CDS	1131980	1132096	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "14"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368591";
+1	protein_coding	exon	1132473	1132566	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "15"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00003687990";
+1	protein_coding	CDS	1132473	1132566	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "15"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368591";
+1	protein_coding	exon	1132818	1133313	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "16"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; exon_id "ENSE00001480380";
+1	protein_coding	CDS	1132818	1133224	.	+	2	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "16"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036"; protein_id "ENSP00000368591";
+1	protein_coding	stop_codon	1133225	1133227	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; exon_number "16"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	UTR	1109286	1109306	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	UTR	1109665	1109701	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	UTR	1109804	1109869	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	UTR	1114569	1114595	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	UTR	1133228	1133313	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379289"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44036";
+1	protein_coding	transcript	1115077	1121244	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8";
+1	protein_coding	exon	1115077	1115233	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "1"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; exon_id "ENSE00001231790";
+1	protein_coding	exon	1115414	1115720	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "2"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; exon_id "ENSE00003598036";
+1	protein_coding	CDS	1115434	1115720	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "2"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; protein_id "ENSP00000368590";
+1	protein_coding	start_codon	1115434	1115436	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "2"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8";
+1	protein_coding	exon	1115863	1115981	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "3"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; exon_id "ENSE00001066411";
+1	protein_coding	CDS	1115863	1115981	.	+	1	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "3"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; protein_id "ENSP00000368590";
+1	protein_coding	exon	1116111	1116240	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "4"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; exon_id "ENSE00001066412";
+1	protein_coding	CDS	1116111	1116240	.	+	2	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "4"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; protein_id "ENSP00000368590";
+1	protein_coding	exon	1117121	1117195	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "5"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; exon_id "ENSE00003539251";
+1	protein_coding	CDS	1117121	1117195	.	+	1	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "5"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; protein_id "ENSP00000368590";
+1	protein_coding	exon	1117741	1117826	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "6"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; exon_id "ENSE00003628330";
+1	protein_coding	CDS	1117741	1117826	.	+	1	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "6"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; protein_id "ENSP00000368590";
+1	protein_coding	exon	1118256	1118427	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "7"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; exon_id "ENSE00003545721";
+1	protein_coding	CDS	1118256	1118427	.	+	2	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "7"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; protein_id "ENSP00000368590";
+1	protein_coding	exon	1119300	1119471	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "8"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; exon_id "ENSE00001209659";
+1	protein_coding	CDS	1119300	1119471	.	+	1	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "8"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; protein_id "ENSP00000368590";
+1	protein_coding	exon	1120349	1121244	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "9"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; exon_id "ENSE00001480373";
+1	protein_coding	CDS	1120349	1120519	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "9"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8"; protein_id "ENSP00000368590";
+1	protein_coding	stop_codon	1120520	1120522	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; exon_number "9"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8";
+1	protein_coding	UTR	1115077	1115233	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8";
+1	protein_coding	UTR	1115414	1115433	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8";
+1	protein_coding	UTR	1120523	1121244	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000379288"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS8";
+1	retained_intron	transcript	1115864	1119307	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000460998"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-004"; transcript_source "havana";
+1	retained_intron	exon	1115864	1116240	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000460998"; exon_number "1"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-004"; transcript_source "havana"; exon_id "ENSE00001930557";
+1	retained_intron	exon	1117121	1117195	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000460998"; exon_number "2"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-004"; transcript_source "havana"; exon_id "ENSE00003567627";
+1	retained_intron	exon	1117741	1117826	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000460998"; exon_number "3"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-004"; transcript_source "havana"; exon_id "ENSE00003573442";
+1	retained_intron	exon	1118256	1118427	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000460998"; exon_number "4"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-004"; transcript_source "havana"; exon_id "ENSE00003586916";
+1	retained_intron	exon	1119300	1119307	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000460998"; exon_number "5"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-004"; transcript_source "havana"; exon_id "ENSE00001858401";
+1	retained_intron	transcript	1115917	1116264	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000514695"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-006"; transcript_source "havana";
+1	retained_intron	exon	1115917	1115981	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000514695"; exon_number "1"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-006"; transcript_source "havana"; exon_id "ENSE00002072760";
+1	retained_intron	exon	1116111	1116264	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000514695"; exon_number "2"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-006"; transcript_source "havana"; exon_id "ENSE00002084491";
+1	nonsense_mediated_decay	transcript	1120416	1132855	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000486379"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-003"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1120416	1120489	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000486379"; exon_number "1"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-003"; transcript_source "havana"; exon_id "ENSE00001892315"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1120416	1120489	.	+	2	gene_id "ENSG00000162571"; transcript_id "ENST00000486379"; exon_number "1"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-003"; transcript_source "havana"; protein_id "ENSP00000464269"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1131766	1131868	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000486379"; exon_number "2"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-003"; transcript_source "havana"; exon_id "ENSE00001828452"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1131766	1131828	.	+	0	gene_id "ENSG00000162571"; transcript_id "ENST00000486379"; exon_number "2"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-003"; transcript_source "havana"; protein_id "ENSP00000464269"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1131980	1132096	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000486379"; exon_number "3"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-003"; transcript_source "havana"; exon_id "ENSE00003635834"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1132473	1132566	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000486379"; exon_number "4"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-003"; transcript_source "havana"; exon_id "ENSE00003530115"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1132818	1132855	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000486379"; exon_number "5"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-003"; transcript_source "havana"; exon_id "ENSE00001885877"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1131829	1131868	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000486379"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-003"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1131980	1132096	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000486379"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-003"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1132473	1132566	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000486379"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-003"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1132818	1132855	.	+	.	gene_id "ENSG00000162571"; transcript_id "ENST00000486379"; gene_name "TTLL10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTLL10-003"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	gene	1138888	1142071	.	-	.	gene_id "ENSG00000186891"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1138888	1141951	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000328596"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS9";
+1	protein_coding	exon	1141765	1141951	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000328596"; exon_number "1"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS9"; exon_id "ENSE00001955581";
+1	protein_coding	CDS	1141765	1141951	.	-	0	gene_id "ENSG00000186891"; transcript_id "ENST00000328596"; exon_number "1"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS9"; protein_id "ENSP00000328207";
+1	protein_coding	start_codon	1141949	1141951	.	-	0	gene_id "ENSG00000186891"; transcript_id "ENST00000328596"; exon_number "1"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS9";
+1	protein_coding	exon	1140750	1140872	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000328596"; exon_number "2"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS9"; exon_id "ENSE00001333111";
+1	protein_coding	CDS	1140750	1140872	.	-	2	gene_id "ENSG00000186891"; transcript_id "ENST00000328596"; exon_number "2"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS9"; protein_id "ENSP00000328207";
+1	protein_coding	exon	1139779	1139866	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000328596"; exon_number "3"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS9"; exon_id "ENSE00001333105";
+1	protein_coding	CDS	1139779	1139866	.	-	2	gene_id "ENSG00000186891"; transcript_id "ENST00000328596"; exon_number "3"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS9"; protein_id "ENSP00000328207";
+1	protein_coding	exon	1138888	1139340	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000328596"; exon_number "4"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS9"; exon_id "ENSE00001934216";
+1	protein_coding	CDS	1138974	1139340	.	-	1	gene_id "ENSG00000186891"; transcript_id "ENST00000328596"; exon_number "4"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS9"; protein_id "ENSP00000328207";
+1	protein_coding	stop_codon	1138971	1138973	.	-	0	gene_id "ENSG00000186891"; transcript_id "ENST00000328596"; exon_number "4"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS9";
+1	protein_coding	UTR	1138888	1138970	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000328596"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS9";
+1	protein_coding	transcript	1138891	1142071	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10";
+1	protein_coding	exon	1141765	1142071	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; exon_number "1"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10"; exon_id "ENSE00001333116";
+1	protein_coding	CDS	1141765	1141951	.	-	0	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; exon_number "1"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10"; protein_id "ENSP00000368570";
+1	protein_coding	start_codon	1141949	1141951	.	-	0	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; exon_number "1"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10";
+1	protein_coding	exon	1140750	1140872	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; exon_number "2"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10"; exon_id "ENSE00001333111";
+1	protein_coding	CDS	1140750	1140872	.	-	2	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; exon_number "2"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10"; protein_id "ENSP00000368570";
+1	protein_coding	exon	1139779	1139866	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; exon_number "3"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10"; exon_id "ENSE00001333105";
+1	protein_coding	CDS	1139779	1139866	.	-	2	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; exon_number "3"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10"; protein_id "ENSP00000368570";
+1	protein_coding	exon	1139414	1139616	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; exon_number "4"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10"; exon_id "ENSE00001333104";
+1	protein_coding	CDS	1139414	1139616	.	-	1	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; exon_number "4"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10"; protein_id "ENSP00000368570";
+1	protein_coding	exon	1138891	1139348	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; exon_number "5"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10"; exon_id "ENSE00001827758";
+1	protein_coding	CDS	1139227	1139348	.	-	2	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; exon_number "5"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10"; protein_id "ENSP00000368570";
+1	protein_coding	stop_codon	1139224	1139226	.	-	0	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; exon_number "5"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10";
+1	protein_coding	UTR	1141952	1142071	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10";
+1	protein_coding	UTR	1138891	1139223	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379268"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS10";
+1	protein_coding	transcript	1139224	1141060	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000486728"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-004"; transcript_source "havana";
+1	protein_coding	exon	1140750	1141060	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000486728"; exon_number "1"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-004"; transcript_source "havana"; exon_id "ENSE00001864187";
+1	protein_coding	CDS	1140750	1140843	.	-	0	gene_id "ENSG00000186891"; transcript_id "ENST00000486728"; exon_number "1"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-004"; transcript_source "havana"; protein_id "ENSP00000462735";
+1	protein_coding	start_codon	1140841	1140843	.	-	0	gene_id "ENSG00000186891"; transcript_id "ENST00000486728"; exon_number "1"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-004"; transcript_source "havana";
+1	protein_coding	exon	1139779	1139866	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000486728"; exon_number "2"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-004"; transcript_source "havana"; exon_id "ENSE00001333105";
+1	protein_coding	CDS	1139779	1139866	.	-	2	gene_id "ENSG00000186891"; transcript_id "ENST00000486728"; exon_number "2"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-004"; transcript_source "havana"; protein_id "ENSP00000462735";
+1	protein_coding	exon	1139414	1139616	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000486728"; exon_number "3"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-004"; transcript_source "havana"; exon_id "ENSE00001333104";
+1	protein_coding	CDS	1139414	1139616	.	-	1	gene_id "ENSG00000186891"; transcript_id "ENST00000486728"; exon_number "3"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-004"; transcript_source "havana"; protein_id "ENSP00000462735";
+1	protein_coding	exon	1139224	1139348	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000486728"; exon_number "4"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-004"; transcript_source "havana"; exon_id "ENSE00001901934";
+1	protein_coding	CDS	1139227	1139348	.	-	2	gene_id "ENSG00000186891"; transcript_id "ENST00000486728"; exon_number "4"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-004"; transcript_source "havana"; protein_id "ENSP00000462735";
+1	protein_coding	stop_codon	1139224	1139226	.	-	0	gene_id "ENSG00000186891"; transcript_id "ENST00000486728"; exon_number "4"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-004"; transcript_source "havana";
+1	protein_coding	UTR	1140844	1141060	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000486728"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-004"; transcript_source "havana";
+1	protein_coding	transcript	1139224	1141951	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379265"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30552";
+1	protein_coding	exon	1141765	1141951	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379265"; exon_number "1"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30552"; exon_id "ENSE00001955581";
+1	protein_coding	CDS	1141765	1141951	.	-	0	gene_id "ENSG00000186891"; transcript_id "ENST00000379265"; exon_number "1"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30552"; protein_id "ENSP00000368567";
+1	protein_coding	start_codon	1141949	1141951	.	-	0	gene_id "ENSG00000186891"; transcript_id "ENST00000379265"; exon_number "1"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30552";
+1	protein_coding	exon	1140750	1140872	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379265"; exon_number "2"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30552"; exon_id "ENSE00001333111";
+1	protein_coding	CDS	1140750	1140872	.	-	2	gene_id "ENSG00000186891"; transcript_id "ENST00000379265"; exon_number "2"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30552"; protein_id "ENSP00000368567";
+1	protein_coding	exon	1139779	1139866	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379265"; exon_number "3"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30552"; exon_id "ENSE00001333105";
+1	protein_coding	CDS	1139779	1139866	.	-	2	gene_id "ENSG00000186891"; transcript_id "ENST00000379265"; exon_number "3"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30552"; protein_id "ENSP00000368567";
+1	protein_coding	exon	1139435	1139616	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379265"; exon_number "4"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30552"; exon_id "ENSE00001480306";
+1	protein_coding	CDS	1139435	1139616	.	-	1	gene_id "ENSG00000186891"; transcript_id "ENST00000379265"; exon_number "4"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30552"; protein_id "ENSP00000368567";
+1	protein_coding	exon	1139224	1139348	.	-	.	gene_id "ENSG00000186891"; transcript_id "ENST00000379265"; exon_number "5"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30552"; exon_id "ENSE00001901934";
+1	protein_coding	CDS	1139227	1139348	.	-	2	gene_id "ENSG00000186891"; transcript_id "ENST00000379265"; exon_number "5"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30552"; protein_id "ENSP00000368567";
+1	protein_coding	stop_codon	1139224	1139226	.	-	0	gene_id "ENSG00000186891"; transcript_id "ENST00000379265"; exon_number "5"; gene_name "TNFRSF18"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF18-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30552";
+1	protein_coding	gene	1146706	1149518	.	-	.	gene_id "ENSG00000186827"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1146706	1149512	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11";
+1	protein_coding	exon	1149363	1149512	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "1"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; exon_id "ENSE00001832731";
+1	protein_coding	CDS	1149363	1149507	.	-	0	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "1"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; protein_id "ENSP00000368538";
+1	protein_coding	start_codon	1149505	1149507	.	-	0	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "1"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11";
+1	protein_coding	exon	1149043	1149165	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "2"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; exon_id "ENSE00001333068";
+1	protein_coding	CDS	1149043	1149165	.	-	2	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "2"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; protein_id "ENSP00000368538";
+1	protein_coding	exon	1148372	1148473	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "3"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; exon_id "ENSE00003672164";
+1	protein_coding	CDS	1148372	1148473	.	-	2	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "3"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; protein_id "ENSP00000368538";
+1	protein_coding	exon	1148018	1148084	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "4"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; exon_id "ENSE00003688707";
+1	protein_coding	CDS	1148018	1148084	.	-	2	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "4"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; protein_id "ENSP00000368538";
+1	protein_coding	exon	1147322	1147518	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "5"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; exon_id "ENSE00003649215";
+1	protein_coding	CDS	1147322	1147518	.	-	1	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "5"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; protein_id "ENSP00000368538";
+1	protein_coding	exon	1147084	1147212	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "6"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; exon_id "ENSE00001333051";
+1	protein_coding	CDS	1147084	1147212	.	-	2	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "6"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; protein_id "ENSP00000368538";
+1	protein_coding	exon	1146706	1147005	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "7"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; exon_id "ENSE00001915458";
+1	protein_coding	CDS	1146938	1147005	.	-	2	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "7"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11"; protein_id "ENSP00000368538";
+1	protein_coding	stop_codon	1146935	1146937	.	-	0	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; exon_number "7"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11";
+1	protein_coding	UTR	1149508	1149512	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11";
+1	protein_coding	UTR	1146706	1146934	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000379236"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS11";
+1	retained_intron	transcript	1146720	1149518	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000497869"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-002"; transcript_source "havana";
+1	retained_intron	exon	1149363	1149518	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000497869"; exon_number "1"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-002"; transcript_source "havana"; exon_id "ENSE00001480264";
+1	retained_intron	exon	1148372	1149165	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000497869"; exon_number "2"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-002"; transcript_source "havana"; exon_id "ENSE00001906619";
+1	retained_intron	exon	1148018	1148084	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000497869"; exon_number "3"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-002"; transcript_source "havana"; exon_id "ENSE00003550137";
+1	retained_intron	exon	1147322	1147518	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000497869"; exon_number "4"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-002"; transcript_source "havana"; exon_id "ENSE00003604411";
+1	retained_intron	exon	1146720	1147212	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000497869"; exon_number "5"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-002"; transcript_source "havana"; exon_id "ENSE00001923078";
+1	processed_transcript	transcript	1147399	1148878	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000453580"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-003"; transcript_source "havana";
+1	processed_transcript	exon	1148775	1148878	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000453580"; exon_number "1"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-003"; transcript_source "havana"; exon_id "ENSE00001680308";
+1	processed_transcript	exon	1148372	1148473	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000453580"; exon_number "2"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-003"; transcript_source "havana"; exon_id "ENSE00003495433";
+1	processed_transcript	exon	1148018	1148084	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000453580"; exon_number "3"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-003"; transcript_source "havana"; exon_id "ENSE00003550137";
+1	processed_transcript	exon	1147399	1147518	.	-	.	gene_id "ENSG00000186827"; transcript_id "ENST00000453580"; exon_number "4"; gene_name "TNFRSF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF4-003"; transcript_source "havana"; exon_id "ENSE00001723250";
+1	protein_coding	gene	1152288	1167411	.	-	.	gene_id "ENSG00000078808"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1152288	1167381	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553";
+1	protein_coding	exon	1167272	1167381	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "1"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553"; exon_id "ENSE00001945650";
+1	protein_coding	exon	1163848	1164326	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553"; exon_id "ENSE00003459646";
+1	protein_coding	CDS	1163848	1164173	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553"; protein_id "ENSP00000353094";
+1	protein_coding	start_codon	1164171	1164173	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553";
+1	protein_coding	exon	1159212	1159348	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "3"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553"; exon_id "ENSE00000869640";
+1	protein_coding	CDS	1159212	1159348	.	-	1	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "3"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553"; protein_id "ENSP00000353094";
+1	protein_coding	exon	1158624	1158737	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "4"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553"; exon_id "ENSE00000869639";
+1	protein_coding	CDS	1158624	1158737	.	-	2	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "4"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553"; protein_id "ENSP00000353094";
+1	protein_coding	exon	1154149	1154307	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "5"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553"; exon_id "ENSE00001131112";
+1	protein_coding	CDS	1154149	1154307	.	-	2	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "5"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553"; protein_id "ENSP00000353094";
+1	protein_coding	exon	1153838	1154013	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "6"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553"; exon_id "ENSE00003628628";
+1	protein_coding	CDS	1153838	1154013	.	-	2	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "6"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553"; protein_id "ENSP00000353094";
+1	protein_coding	exon	1152288	1153068	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "7"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553"; exon_id "ENSE00001480105";
+1	protein_coding	CDS	1152895	1153068	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "7"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553"; protein_id "ENSP00000353094";
+1	protein_coding	stop_codon	1152892	1152894	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; exon_number "7"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553";
+1	protein_coding	UTR	1167272	1167381	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553";
+1	protein_coding	UTR	1164174	1164326	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553";
+1	protein_coding	UTR	1152288	1152891	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000360001"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30553";
+1	nonsense_mediated_decay	transcript	1152311	1167411	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1167272	1167411	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "1"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana"; exon_id "ENSE00001066426";
+1	nonsense_mediated_decay	exon	1163848	1164326	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana"; exon_id "ENSE00003459646";
+1	nonsense_mediated_decay	CDS	1163848	1164173	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana"; protein_id "ENSP00000435962";
+1	nonsense_mediated_decay	start_codon	1164171	1164173	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1159212	1159348	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "3"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana"; exon_id "ENSE00000869640";
+1	nonsense_mediated_decay	CDS	1159212	1159348	.	-	1	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "3"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana"; protein_id "ENSP00000435962";
+1	nonsense_mediated_decay	exon	1158624	1158737	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "4"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana"; exon_id "ENSE00000869639";
+1	nonsense_mediated_decay	CDS	1158624	1158737	.	-	2	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "4"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana"; protein_id "ENSP00000435962";
+1	nonsense_mediated_decay	exon	1154149	1154323	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "5"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana"; exon_id "ENSE00001818003";
+1	nonsense_mediated_decay	CDS	1154149	1154323	.	-	2	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "5"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana"; protein_id "ENSP00000435962";
+1	nonsense_mediated_decay	exon	1153838	1154013	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "6"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana"; exon_id "ENSE00003630176";
+1	nonsense_mediated_decay	CDS	1154004	1154013	.	-	1	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "6"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana"; protein_id "ENSP00000435962";
+1	nonsense_mediated_decay	stop_codon	1154001	1154003	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "6"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1152311	1153184	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; exon_number "7"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana"; exon_id "ENSE00003602088";
+1	nonsense_mediated_decay	UTR	1167272	1167411	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1164174	1164326	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1153838	1154000	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1152311	1153184	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000465727"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-002"; transcript_source "havana";
+1	protein_coding	transcript	1152311	1167411	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12";
+1	protein_coding	exon	1167272	1167411	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "1"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12"; exon_id "ENSE00001066426";
+1	protein_coding	exon	1163848	1164326	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12"; exon_id "ENSE00003459646";
+1	protein_coding	CDS	1163848	1164173	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12"; protein_id "ENSP00000263741";
+1	protein_coding	start_codon	1164171	1164173	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12";
+1	protein_coding	exon	1159212	1159348	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "3"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12"; exon_id "ENSE00000869640";
+1	protein_coding	CDS	1159212	1159348	.	-	1	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "3"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12"; protein_id "ENSP00000263741";
+1	protein_coding	exon	1158624	1158737	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "4"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12"; exon_id "ENSE00000869639";
+1	protein_coding	CDS	1158624	1158737	.	-	2	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "4"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12"; protein_id "ENSP00000263741";
+1	protein_coding	exon	1154149	1154307	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "5"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12"; exon_id "ENSE00001131112";
+1	protein_coding	CDS	1154149	1154307	.	-	2	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "5"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12"; protein_id "ENSP00000263741";
+1	protein_coding	exon	1153838	1154013	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "6"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12"; exon_id "ENSE00003628628";
+1	protein_coding	CDS	1153838	1154013	.	-	2	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "6"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12"; protein_id "ENSP00000263741";
+1	protein_coding	exon	1152311	1153184	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "7"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12"; exon_id "ENSE00003498309";
+1	protein_coding	CDS	1153053	1153184	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "7"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12"; protein_id "ENSP00000263741";
+1	protein_coding	stop_codon	1153050	1153052	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; exon_number "7"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12";
+1	protein_coding	UTR	1167272	1167411	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12";
+1	protein_coding	UTR	1164174	1164326	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12";
+1	protein_coding	UTR	1152311	1153049	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000263741"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-007"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS12";
+1	retained_intron	transcript	1152312	1156731	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000494748"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-003"; transcript_source "havana";
+1	retained_intron	exon	1154149	1156731	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000494748"; exon_number "1"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-003"; transcript_source "havana"; exon_id "ENSE00001849875";
+1	retained_intron	exon	1153838	1154013	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000494748"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-003"; transcript_source "havana"; exon_id "ENSE00003666714";
+1	retained_intron	exon	1152312	1153068	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000494748"; exon_number "3"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-003"; transcript_source "havana"; exon_id "ENSE00001932288";
+1	retained_intron	transcript	1152314	1155673	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000478938"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-004"; transcript_source "havana";
+1	retained_intron	exon	1153838	1155673	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000478938"; exon_number "1"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-004"; transcript_source "havana"; exon_id "ENSE00001889239";
+1	retained_intron	exon	1152314	1153068	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000478938"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-004"; transcript_source "havana"; exon_id "ENSE00001935739";
+1	protein_coding	transcript	1153903	1163976	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000403997"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-006"; transcript_source "havana"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1163848	1163976	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000403997"; exon_number "1"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-006"; transcript_source "havana"; exon_id "ENSE00001651991"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1163848	1163976	.	-	1	gene_id "ENSG00000078808"; transcript_id "ENST00000403997"; exon_number "1"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-006"; transcript_source "havana"; protein_id "ENSP00000384207"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1159212	1159348	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000403997"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-006"; transcript_source "havana"; exon_id "ENSE00000869640"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1159212	1159348	.	-	1	gene_id "ENSG00000078808"; transcript_id "ENST00000403997"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-006"; transcript_source "havana"; protein_id "ENSP00000384207"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1158624	1158737	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000403997"; exon_number "3"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-006"; transcript_source "havana"; exon_id "ENSE00000869639"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1158624	1158737	.	-	2	gene_id "ENSG00000078808"; transcript_id "ENST00000403997"; exon_number "3"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-006"; transcript_source "havana"; protein_id "ENSP00000384207"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1154149	1154385	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000403997"; exon_number "4"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-006"; transcript_source "havana"; exon_id "ENSE00001549089"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1154149	1154385	.	-	2	gene_id "ENSG00000078808"; transcript_id "ENST00000403997"; exon_number "4"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-006"; transcript_source "havana"; protein_id "ENSP00000384207"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1153903	1154013	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000403997"; exon_number "5"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-006"; transcript_source "havana"; exon_id "ENSE00001753890"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1153903	1154013	.	-	2	gene_id "ENSG00000078808"; transcript_id "ENST00000403997"; exon_number "5"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-006"; transcript_source "havana"; protein_id "ENSP00000384207"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1156079	1167370	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl";
+1	protein_coding	exon	1167272	1167370	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; exon_number "1"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl"; exon_id "ENSE00002272778";
+1	protein_coding	exon	1163848	1164326	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl"; exon_id "ENSE00003459646";
+1	protein_coding	CDS	1163848	1164173	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl"; protein_id "ENSP00000444451";
+1	protein_coding	start_codon	1164171	1164173	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl";
+1	protein_coding	exon	1159212	1159348	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; exon_number "3"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl"; exon_id "ENSE00000869640";
+1	protein_coding	CDS	1159212	1159348	.	-	1	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; exon_number "3"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl"; protein_id "ENSP00000444451";
+1	protein_coding	exon	1158624	1158737	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; exon_number "4"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl"; exon_id "ENSE00000869639";
+1	protein_coding	CDS	1158624	1158737	.	-	2	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; exon_number "4"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl"; protein_id "ENSP00000444451";
+1	protein_coding	exon	1156079	1156110	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; exon_number "5"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl"; exon_id "ENSE00002252415";
+1	protein_coding	CDS	1156082	1156110	.	-	2	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; exon_number "5"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl"; protein_id "ENSP00000444451";
+1	protein_coding	stop_codon	1156079	1156081	.	-	0	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; exon_number "5"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1167272	1167370	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1164174	1164326	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000545427"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-201"; transcript_source "ensembl";
+1	processed_transcript	transcript	1162652	1167348	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000459994"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-005"; transcript_source "havana";
+1	processed_transcript	exon	1167272	1167348	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000459994"; exon_number "1"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-005"; transcript_source "havana"; exon_id "ENSE00001858477";
+1	processed_transcript	exon	1163848	1164326	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000459994"; exon_number "2"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-005"; transcript_source "havana"; exon_id "ENSE00003662806";
+1	processed_transcript	exon	1162652	1162699	.	-	.	gene_id "ENSG00000078808"; transcript_id "ENST00000459994"; exon_number "3"; gene_name "SDF4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SDF4-005"; transcript_source "havana"; exon_id "ENSE00001901343";
+1	protein_coding	gene	1167629	1170421	.	+	.	gene_id "ENSG00000176022"; gene_name "B3GALT6"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1167629	1170421	.	+	.	gene_id "ENSG00000176022"; transcript_id "ENST00000379198"; gene_name "B3GALT6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "B3GALT6-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS13";
+1	protein_coding	exon	1167629	1170421	.	+	.	gene_id "ENSG00000176022"; transcript_id "ENST00000379198"; exon_number "1"; gene_name "B3GALT6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "B3GALT6-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS13"; exon_id "ENSE00001480062";
+1	protein_coding	CDS	1167659	1168645	.	+	0	gene_id "ENSG00000176022"; transcript_id "ENST00000379198"; exon_number "1"; gene_name "B3GALT6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "B3GALT6-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS13"; protein_id "ENSP00000368496";
+1	protein_coding	start_codon	1167659	1167661	.	+	0	gene_id "ENSG00000176022"; transcript_id "ENST00000379198"; exon_number "1"; gene_name "B3GALT6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "B3GALT6-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS13";
+1	protein_coding	stop_codon	1168646	1168648	.	+	0	gene_id "ENSG00000176022"; transcript_id "ENST00000379198"; exon_number "1"; gene_name "B3GALT6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "B3GALT6-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS13";
+1	protein_coding	UTR	1167629	1167658	.	+	.	gene_id "ENSG00000176022"; transcript_id "ENST00000379198"; gene_name "B3GALT6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "B3GALT6-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS13";
+1	protein_coding	UTR	1168649	1170421	.	+	.	gene_id "ENSG00000176022"; transcript_id "ENST00000379198"; gene_name "B3GALT6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "B3GALT6-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS13";
+1	protein_coding	gene	1177826	1182102	.	-	.	gene_id "ENSG00000184163"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	retained_intron	transcript	1177826	1178843	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000462849"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-004"; transcript_source "havana";
+1	retained_intron	exon	1178442	1178843	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000462849"; exon_number "1"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-004"; transcript_source "havana"; exon_id "ENSE00001958831";
+1	retained_intron	exon	1178215	1178293	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000462849"; exon_number "2"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-004"; transcript_source "havana"; exon_id "ENSE00003677166";
+1	retained_intron	exon	1177826	1178026	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000462849"; exon_number "3"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-004"; transcript_source "havana"; exon_id "ENSE00001901593";
+1	retained_intron	transcript	1177829	1178538	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000478606"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-005"; transcript_source "havana";
+1	retained_intron	exon	1178215	1178538	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000478606"; exon_number "1"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-005"; transcript_source "havana"; exon_id "ENSE00001951859";
+1	retained_intron	exon	1177829	1178026	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000478606"; exon_number "2"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-005"; transcript_source "havana"; exon_id "ENSE00001853874";
+1	protein_coding	transcript	1177833	1182102	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554";
+1	protein_coding	exon	1181894	1182102	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "1"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; exon_id "ENSE00001330968";
+1	protein_coding	CDS	1181894	1182070	.	-	0	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "1"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; protein_id "ENSP00000329137";
+1	protein_coding	start_codon	1182068	1182070	.	-	0	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "1"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554";
+1	protein_coding	exon	1179761	1179877	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "2"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; exon_id "ENSE00001480048";
+1	protein_coding	CDS	1179761	1179877	.	-	0	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "2"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; protein_id "ENSP00000329137";
+1	protein_coding	exon	1179571	1179655	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "3"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; exon_id "ENSE00001480047";
+1	protein_coding	CDS	1179571	1179655	.	-	0	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "3"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; protein_id "ENSP00000329137";
+1	protein_coding	exon	1179334	1179485	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "4"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; exon_id "ENSE00001311835";
+1	protein_coding	CDS	1179334	1179485	.	-	2	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "4"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; protein_id "ENSP00000329137";
+1	protein_coding	exon	1178824	1178932	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "5"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; exon_id "ENSE00001299832";
+1	protein_coding	CDS	1178824	1178932	.	-	0	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "5"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; protein_id "ENSP00000329137";
+1	protein_coding	exon	1178442	1178532	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "6"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; exon_id "ENSE00001327847";
+1	protein_coding	CDS	1178442	1178532	.	-	2	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "6"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; protein_id "ENSP00000329137";
+1	protein_coding	exon	1178215	1178293	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "7"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; exon_id "ENSE00003523654";
+1	protein_coding	CDS	1178215	1178293	.	-	1	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "7"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; protein_id "ENSP00000329137";
+1	protein_coding	exon	1177833	1178026	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "8"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; exon_id "ENSE00001330101";
+1	protein_coding	CDS	1177931	1178026	.	-	0	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "8"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554"; protein_id "ENSP00000329137";
+1	protein_coding	stop_codon	1177928	1177930	.	-	0	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; exon_number "8"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554";
+1	protein_coding	UTR	1182071	1182102	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554";
+1	protein_coding	UTR	1177833	1177927	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000330388"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30554";
+1	retained_intron	transcript	1178646	1179798	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000468365"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-002"; transcript_source "havana";
+1	retained_intron	exon	1179761	1179798	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000468365"; exon_number "1"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-002"; transcript_source "havana"; exon_id "ENSE00001876307";
+1	retained_intron	exon	1179334	1179655	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000468365"; exon_number "2"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-002"; transcript_source "havana"; exon_id "ENSE00001885274";
+1	retained_intron	exon	1178646	1178932	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000468365"; exon_number "3"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-002"; transcript_source "havana"; exon_id "ENSE00001882488";
+1	retained_intron	transcript	1179361	1180104	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000486627"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-003"; transcript_source "havana";
+1	retained_intron	exon	1179761	1180104	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000486627"; exon_number "1"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-003"; transcript_source "havana"; exon_id "ENSE00001935979";
+1	retained_intron	exon	1179361	1179655	.	-	.	gene_id "ENSG00000184163"; transcript_id "ENST00000486627"; exon_number "2"; gene_name "FAM132A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM132A-003"; transcript_source "havana"; exon_id "ENSE00001844696";
+1	lincRNA	gene	1185157	1186714	.	-	.	gene_id "ENSG00000260179"; gene_name "RP5-902P8.12"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	1185157	1186714	.	-	.	gene_id "ENSG00000260179"; transcript_id "ENST00000565563"; gene_name "RP5-902P8.12"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-902P8.12-001"; transcript_source "havana";
+1	lincRNA	exon	1185157	1186714	.	-	.	gene_id "ENSG00000260179"; transcript_id "ENST00000565563"; exon_number "1"; gene_name "RP5-902P8.12"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-902P8.12-001"; transcript_source "havana"; exon_id "ENSE00002619150";
+1	protein_coding	gene	1189289	1209265	.	-	.	gene_id "ENSG00000160087"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	nonsense_mediated_decay	transcript	1189289	1209233	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1209046	1209233	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana"; exon_id "ENSE00002072367";
+1	nonsense_mediated_decay	exon	1203242	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana"; exon_id "ENSE00003539153";
+1	nonsense_mediated_decay	CDS	1203244	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana"; protein_id "ENSP00000407565";
+1	nonsense_mediated_decay	start_codon	1203370	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1201478	1201670	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana"; exon_id "ENSE00003665979";
+1	nonsense_mediated_decay	CDS	1201670	1201670	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana"; protein_id "ENSP00000407565";
+1	nonsense_mediated_decay	stop_codon	1203242	1203243	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana";
+1	nonsense_mediated_decay	stop_codon	1201670	1201670	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana"; exon_id "ENSE00003572926";
+1	nonsense_mediated_decay	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana"; exon_id "ENSE00003628299";
+1	nonsense_mediated_decay	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana"; exon_id "ENSE00003609795";
+1	nonsense_mediated_decay	exon	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana"; exon_id "ENSE00003466253";
+1	nonsense_mediated_decay	exon	1189289	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; exon_number "8"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana"; exon_id "ENSE00001675740";
+1	nonsense_mediated_decay	UTR	1209046	1209233	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1201478	1201669	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1189289	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000450390"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-002"; transcript_source "havana";
+1	protein_coding	transcript	1189294	1209234	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	exon	1209046	1209234	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00001307335";
+1	protein_coding	exon	1203113	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00001479990";
+1	protein_coding	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00003499243";
+1	protein_coding	CDS	1198726	1198741	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000344857";
+1	protein_coding	start_codon	1198739	1198741	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00003468437";
+1	protein_coding	CDS	1192588	1192690	.	-	2	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000344857";
+1	protein_coding	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00003500691";
+1	protein_coding	CDS	1192372	1192510	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000344857";
+1	protein_coding	exon	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00003570987";
+1	protein_coding	CDS	1191425	1191505	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000344857";
+1	protein_coding	exon	1189294	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00001066486";
+1	protein_coding	CDS	1190586	1190867	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000344857";
+1	protein_coding	stop_codon	1190583	1190585	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	UTR	1209046	1209234	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	UTR	1203113	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	UTR	1198742	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	UTR	1189294	1190582	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000347370"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	transcript	1189850	1209265	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14";
+1	protein_coding	exon	1209046	1209265	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00001812295";
+1	protein_coding	exon	1203242	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00003539153";
+1	protein_coding	CDS	1203242	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14"; protein_id "ENSP00000305826";
+1	protein_coding	start_codon	1203370	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14";
+1	protein_coding	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00003612818";
+1	protein_coding	CDS	1198726	1198766	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14"; protein_id "ENSP00000305826";
+1	protein_coding	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00003468437";
+1	protein_coding	CDS	1192588	1192690	.	-	2	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14"; protein_id "ENSP00000305826";
+1	protein_coding	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00003500691";
+1	protein_coding	CDS	1192372	1192510	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14"; protein_id "ENSP00000305826";
+1	protein_coding	exon	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00003570987";
+1	protein_coding	CDS	1191425	1191505	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14"; protein_id "ENSP00000305826";
+1	protein_coding	exon	1189850	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00001936789";
+1	protein_coding	CDS	1190586	1190867	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14"; protein_id "ENSP00000305826";
+1	protein_coding	stop_codon	1190583	1190585	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14";
+1	protein_coding	UTR	1209046	1209265	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14";
+1	protein_coding	UTR	1189850	1190582	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000349431"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS14";
+1	protein_coding	transcript	1190285	1201503	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl";
+1	protein_coding	exon	1201478	1201503	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl"; exon_id "ENSE00001479909";
+1	protein_coding	CDS	1201478	1201503	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl"; protein_id "ENSP00000340197";
+1	protein_coding	start_codon	1201501	1201503	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl";
+1	protein_coding	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl"; exon_id "ENSE00003612818";
+1	protein_coding	CDS	1198726	1198766	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl"; protein_id "ENSP00000340197";
+1	protein_coding	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl"; exon_id "ENSE00003468437";
+1	protein_coding	CDS	1192588	1192690	.	-	2	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl"; protein_id "ENSP00000340197";
+1	protein_coding	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl"; exon_id "ENSE00003500691";
+1	protein_coding	CDS	1192372	1192510	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl"; protein_id "ENSP00000340197";
+1	protein_coding	exon	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl"; exon_id "ENSE00003570987";
+1	protein_coding	CDS	1191425	1191505	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl"; protein_id "ENSP00000340197";
+1	protein_coding	exon	1190285	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl"; exon_id "ENSE00001130936";
+1	protein_coding	CDS	1190586	1190867	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl"; protein_id "ENSP00000340197";
+1	protein_coding	stop_codon	1190583	1190585	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1190285	1190582	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000339385"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-201"; transcript_source "ensembl";
+1	protein_coding	transcript	1190285	1209244	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	exon	1209046	1209244	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00001816517";
+1	protein_coding	exon	1203242	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00003598715";
+1	protein_coding	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00003499243";
+1	protein_coding	CDS	1198726	1198741	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000342541";
+1	protein_coding	start_codon	1198739	1198741	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00003468437";
+1	protein_coding	CDS	1192588	1192690	.	-	2	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000342541";
+1	protein_coding	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00003500691";
+1	protein_coding	CDS	1192372	1192510	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000342541";
+1	protein_coding	exon	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00003570987";
+1	protein_coding	CDS	1191425	1191505	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000342541";
+1	protein_coding	exon	1190285	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00001130936";
+1	protein_coding	CDS	1190586	1190867	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000342541";
+1	protein_coding	stop_codon	1190583	1190585	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	UTR	1209046	1209244	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	UTR	1203242	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	UTR	1198742	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	UTR	1190285	1190582	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000348298"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	transcript	1190365	1209235	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	exon	1209046	1209235	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00002024319";
+1	protein_coding	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00003499243";
+1	protein_coding	CDS	1198726	1198741	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000383718";
+1	protein_coding	start_codon	1198739	1198741	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00003468437";
+1	protein_coding	CDS	1192588	1192690	.	-	2	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000383718";
+1	protein_coding	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00003500691";
+1	protein_coding	CDS	1192372	1192510	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000383718";
+1	protein_coding	exon	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00003570987";
+1	protein_coding	CDS	1191425	1191505	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000383718";
+1	protein_coding	exon	1190365	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16"; exon_id "ENSE00002041171";
+1	protein_coding	CDS	1190586	1190867	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16"; protein_id "ENSP00000383718";
+1	protein_coding	stop_codon	1190583	1190585	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	UTR	1209046	1209235	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	UTR	1198742	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16";
+1	protein_coding	UTR	1190365	1190582	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400929"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS16";
+1	nonsense_mediated_decay	transcript	1190428	1209244	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1209046	1209244	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana"; exon_id "ENSE00001816517";
+1	nonsense_mediated_decay	exon	1203242	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana"; exon_id "ENSE00003539153";
+1	nonsense_mediated_decay	CDS	1203242	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana"; protein_id "ENSP00000423880";
+1	nonsense_mediated_decay	start_codon	1203370	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana"; exon_id "ENSE00003612818";
+1	nonsense_mediated_decay	CDS	1198726	1198766	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana"; protein_id "ENSP00000423880";
+1	nonsense_mediated_decay	exon	1197649	1197770	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana"; exon_id "ENSE00003631934";
+1	nonsense_mediated_decay	CDS	1197649	1197770	.	-	2	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana"; protein_id "ENSP00000423880";
+1	nonsense_mediated_decay	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana"; exon_id "ENSE00003660161";
+1	nonsense_mediated_decay	CDS	1192670	1192690	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana"; protein_id "ENSP00000423880";
+1	nonsense_mediated_decay	stop_codon	1192667	1192669	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana"; exon_id "ENSE00003609795";
+1	nonsense_mediated_decay	exon	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana"; exon_id "ENSE00003466253";
+1	nonsense_mediated_decay	exon	1190428	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; exon_number "8"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana"; exon_id "ENSE00001870151";
+1	nonsense_mediated_decay	UTR	1209046	1209244	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1192588	1192666	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1190428	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000464036"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-007"; transcript_source "havana";
+1	protein_coding	transcript	1190544	1209106	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14";
+1	protein_coding	exon	1208879	1209106	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00001479913";
+1	protein_coding	exon	1203242	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00003539153";
+1	protein_coding	CDS	1203242	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14"; protein_id "ENSP00000353653";
+1	protein_coding	start_codon	1203370	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14";
+1	protein_coding	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00003612818";
+1	protein_coding	CDS	1198726	1198766	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14"; protein_id "ENSP00000353653";
+1	protein_coding	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00003468437";
+1	protein_coding	CDS	1192588	1192690	.	-	2	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14"; protein_id "ENSP00000353653";
+1	protein_coding	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00003500691";
+1	protein_coding	CDS	1192372	1192510	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14"; protein_id "ENSP00000353653";
+1	protein_coding	exon	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00003570987";
+1	protein_coding	CDS	1191425	1191505	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14"; protein_id "ENSP00000353653";
+1	protein_coding	exon	1190544	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14"; exon_id "ENSE00001314685";
+1	protein_coding	CDS	1190586	1190867	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14"; protein_id "ENSP00000353653";
+1	protein_coding	stop_codon	1190583	1190585	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14";
+1	protein_coding	UTR	1208879	1209106	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14";
+1	protein_coding	UTR	1190544	1190582	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000360466"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-011"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS14";
+1	protein_coding	transcript	1190558	1209213	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15";
+1	protein_coding	exon	1209046	1209213	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; exon_id "ENSE00002063966";
+1	protein_coding	exon	1203242	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; exon_id "ENSE00003539153";
+1	protein_coding	CDS	1203242	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; protein_id "ENSP00000383719";
+1	protein_coding	start_codon	1203370	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15";
+1	protein_coding	exon	1200163	1200210	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; exon_id "ENSE00001479911";
+1	protein_coding	CDS	1200163	1200210	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; protein_id "ENSP00000383719";
+1	protein_coding	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; exon_id "ENSE00003612818";
+1	protein_coding	CDS	1198726	1198766	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; protein_id "ENSP00000383719";
+1	protein_coding	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; exon_id "ENSE00003468437";
+1	protein_coding	CDS	1192588	1192690	.	-	2	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; protein_id "ENSP00000383719";
+1	protein_coding	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; exon_id "ENSE00003500691";
+1	protein_coding	CDS	1192372	1192510	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; protein_id "ENSP00000383719";
+1	protein_coding	exon	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; exon_id "ENSE00003570987";
+1	protein_coding	CDS	1191425	1191505	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; protein_id "ENSP00000383719";
+1	protein_coding	exon	1190558	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "8"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; exon_id "ENSE00002076270";
+1	protein_coding	CDS	1190586	1190867	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "8"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15"; protein_id "ENSP00000383719";
+1	protein_coding	stop_codon	1190583	1190585	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; exon_number "8"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15";
+1	protein_coding	UTR	1209046	1209213	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15";
+1	protein_coding	UTR	1190558	1190582	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000400930"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS15";
+1	processed_transcript	transcript	1190644	1191715	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000467339"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-009"; transcript_source "havana";
+1	processed_transcript	exon	1191425	1191715	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000467339"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-009"; transcript_source "havana"; exon_id "ENSE00001851027";
+1	processed_transcript	exon	1190644	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000467339"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-009"; transcript_source "havana"; exon_id "ENSE00001931446";
+1	nonsense_mediated_decay	transcript	1190648	1209229	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1209046	1209229	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana"; exon_id "ENSE00001833135";
+1	nonsense_mediated_decay	exon	1203113	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana"; exon_id "ENSE00001479990";
+1	nonsense_mediated_decay	CDS	1203241	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana"; protein_id "ENSP00000427024";
+1	nonsense_mediated_decay	start_codon	1203370	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana";
+1	nonsense_mediated_decay	stop_codon	1203238	1203240	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana"; exon_id "ENSE00003572926";
+1	nonsense_mediated_decay	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana"; exon_id "ENSE00003628299";
+1	nonsense_mediated_decay	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana"; exon_id "ENSE00003609795";
+1	nonsense_mediated_decay	exon	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana"; exon_id "ENSE00003466253";
+1	nonsense_mediated_decay	exon	1190648	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana"; exon_id "ENSE00001860449";
+1	nonsense_mediated_decay	UTR	1209046	1209229	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1203113	1203237	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1190648	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000473215"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-003"; transcript_source "havana";
+1	protein_coding	transcript	1190775	1209224	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1208757	1209224	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; exon_id "ENSE00001690159"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1203242	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; exon_id "ENSE00003539153"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1203242	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; protein_id "ENSP00000393301"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; exon_id "ENSE00003612818"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1198726	1198766	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; protein_id "ENSP00000393301"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; exon_id "ENSE00003468437"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1192588	1192690	.	-	2	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; protein_id "ENSP00000393301"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; exon_id "ENSE00003500691"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1192372	1192510	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; protein_id "ENSP00000393301"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; exon_id "ENSE00003570987"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1191425	1191505	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; protein_id "ENSP00000393301"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1190775	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; exon_id "ENSE00001648675"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1190775	1190867	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; exon_number "7"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; protein_id "ENSP00000393301"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1208757	1209224	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000435198"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-010"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	1190819	1209207	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000509720"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-019"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1209046	1209207	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000509720"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-019"; transcript_source "havana"; exon_id "ENSE00002054307"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000509720"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-019"; transcript_source "havana"; exon_id "ENSE00003572926"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000509720"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-019"; transcript_source "havana"; exon_id "ENSE00003587032"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1192372	1192422	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000509720"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-019"; transcript_source "havana"; protein_id "ENSP00000425419"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1191425	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000509720"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-019"; transcript_source "havana"; exon_id "ENSE00003570987"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1191425	1191505	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000509720"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-019"; transcript_source "havana"; protein_id "ENSP00000425419"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1190819	1190867	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000509720"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-019"; transcript_source "havana"; exon_id "ENSE00002050047"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1190819	1190867	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000509720"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-019"; transcript_source "havana"; protein_id "ENSP00000425419"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1209046	1209207	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000509720"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-019"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000509720"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-019"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1192423	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000509720"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-019"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	processed_transcript	transcript	1191429	1209170	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000491779"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-012"; transcript_source "havana";
+1	processed_transcript	exon	1208879	1209170	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000491779"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-012"; transcript_source "havana"; exon_id "ENSE00001828278";
+1	processed_transcript	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000491779"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-012"; transcript_source "havana"; exon_id "ENSE00003628299";
+1	processed_transcript	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000491779"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-012"; transcript_source "havana"; exon_id "ENSE00003609795";
+1	processed_transcript	exon	1191429	1191505	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000491779"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-012"; transcript_source "havana"; exon_id "ENSE00001827818";
+1	nonsense_mediated_decay	transcript	1192372	1209195	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1209046	1209195	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana"; exon_id "ENSE00001921461";
+1	nonsense_mediated_decay	exon	1203113	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana"; exon_id "ENSE00001479990";
+1	nonsense_mediated_decay	CDS	1203241	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana"; protein_id "ENSP00000422103";
+1	nonsense_mediated_decay	start_codon	1203370	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	stop_codon	1203238	1203240	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1201478	1201670	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana"; exon_id "ENSE00003636899";
+1	nonsense_mediated_decay	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana"; exon_id "ENSE00003572926";
+1	nonsense_mediated_decay	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana"; exon_id "ENSE00003628299";
+1	nonsense_mediated_decay	exon	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana"; exon_id "ENSE00003609795";
+1	nonsense_mediated_decay	UTR	1209046	1209195	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1203113	1203237	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1201478	1201670	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1192372	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000466752"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	transcript	1192391	1209213	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1209046	1209213	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana"; exon_id "ENSE00002063966";
+1	nonsense_mediated_decay	exon	1203113	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana"; exon_id "ENSE00001479990";
+1	nonsense_mediated_decay	CDS	1203241	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana"; protein_id "ENSP00000425543";
+1	nonsense_mediated_decay	start_codon	1203370	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana";
+1	nonsense_mediated_decay	stop_codon	1203238	1203240	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana"; exon_id "ENSE00003572926";
+1	nonsense_mediated_decay	exon	1197649	1197770	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana"; exon_id "ENSE00003560771";
+1	nonsense_mediated_decay	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana"; exon_id "ENSE00003628299";
+1	nonsense_mediated_decay	exon	1192391	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana"; exon_id "ENSE00002050644";
+1	nonsense_mediated_decay	UTR	1209046	1209213	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1203113	1203237	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1197649	1197770	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1192391	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000503294"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-018"; transcript_source "havana";
+1	nonsense_mediated_decay	transcript	1192429	1209234	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1209046	1209234	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana"; exon_id "ENSE00001307335";
+1	nonsense_mediated_decay	exon	1203242	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana"; exon_id "ENSE00003539153";
+1	nonsense_mediated_decay	CDS	1203242	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana"; protein_id "ENSP00000423480";
+1	nonsense_mediated_decay	start_codon	1203370	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana"; exon_id "ENSE00003612818";
+1	nonsense_mediated_decay	CDS	1198726	1198766	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana"; protein_id "ENSP00000423480";
+1	nonsense_mediated_decay	exon	1197550	1197770	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana"; exon_id "ENSE00001847619";
+1	nonsense_mediated_decay	CDS	1197643	1197770	.	-	2	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana"; protein_id "ENSP00000423480";
+1	nonsense_mediated_decay	stop_codon	1197640	1197642	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana"; exon_id "ENSE00003628299";
+1	nonsense_mediated_decay	exon	1192429	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; exon_number "6"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana"; exon_id "ENSE00001853733";
+1	nonsense_mediated_decay	UTR	1209046	1209234	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1197550	1197639	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1192429	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000477894"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-006"; transcript_source "havana";
+1	retained_intron	transcript	1192502	1198949	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000471154"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-008"; transcript_source "havana";
+1	retained_intron	exon	1198726	1198949	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000471154"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-008"; transcript_source "havana"; exon_id "ENSE00001900744";
+1	retained_intron	exon	1192588	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000471154"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-008"; transcript_source "havana"; exon_id "ENSE00003628299";
+1	retained_intron	exon	1192502	1192510	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000471154"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-008"; transcript_source "havana"; exon_id "ENSE00001878613";
+1	protein_coding	transcript	1192607	1209217	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000422076"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-014"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1208879	1209217	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000422076"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-014"; transcript_source "havana"; exon_id "ENSE00001746323"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1203242	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000422076"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-014"; transcript_source "havana"; exon_id "ENSE00003539153"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1203242	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000422076"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-014"; transcript_source "havana"; protein_id "ENSP00000401898"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1200163	1200210	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000422076"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-014"; transcript_source "havana"; exon_id "ENSE00001479911"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1200163	1200210	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000422076"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-014"; transcript_source "havana"; protein_id "ENSP00000401898"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000422076"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-014"; transcript_source "havana"; exon_id "ENSE00003612818"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1198726	1198766	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000422076"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-014"; transcript_source "havana"; protein_id "ENSP00000401898"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1192607	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000422076"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-014"; transcript_source "havana"; exon_id "ENSE00001781528"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1192607	1192690	.	-	2	gene_id "ENSG00000160087"; transcript_id "ENST00000422076"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-014"; transcript_source "havana"; protein_id "ENSP00000401898"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1208879	1209217	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000422076"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-014"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	1192650	1209234	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000502382"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1209046	1209234	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000502382"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-017"; transcript_source "havana"; exon_id "ENSE00001307335"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1206890	1207017	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000502382"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-017"; transcript_source "havana"; exon_id "ENSE00002076504"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1203242	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000502382"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-017"; transcript_source "havana"; exon_id "ENSE00003539153"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1203242	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000502382"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-017"; transcript_source "havana"; protein_id "ENSP00000424342"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1198726	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000502382"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-017"; transcript_source "havana"; exon_id "ENSE00003612818"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1198726	1198766	.	-	1	gene_id "ENSG00000160087"; transcript_id "ENST00000502382"; exon_number "4"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-017"; transcript_source "havana"; protein_id "ENSP00000424342"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1192650	1192690	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000502382"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-017"; transcript_source "havana"; exon_id "ENSE00002065217"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1192650	1192690	.	-	2	gene_id "ENSG00000160087"; transcript_id "ENST00000502382"; exon_number "5"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-017"; transcript_source "havana"; protein_id "ENSP00000424342"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1209046	1209234	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000502382"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1206890	1207017	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000502382"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	retained_intron	transcript	1198233	1209217	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000461142"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-005"; transcript_source "havana";
+1	retained_intron	exon	1209046	1209217	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000461142"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-005"; transcript_source "havana"; exon_id "ENSE00001864277";
+1	retained_intron	exon	1203242	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000461142"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-005"; transcript_source "havana"; exon_id "ENSE00003598715";
+1	retained_intron	exon	1198233	1198766	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000461142"; exon_number "3"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-005"; transcript_source "havana"; exon_id "ENSE00001835048";
+1	protein_coding	transcript	1203242	1208851	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000488418"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-013"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1208233	1208851	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000488418"; exon_number "1"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-013"; transcript_source "havana"; exon_id "ENSE00001923175"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1203242	1203372	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000488418"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-013"; transcript_source "havana"; exon_id "ENSE00003598715"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1203242	1203372	.	-	0	gene_id "ENSG00000160087"; transcript_id "ENST00000488418"; exon_number "2"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-013"; transcript_source "havana"; protein_id "ENSP00000427244"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1208233	1208851	.	-	.	gene_id "ENSG00000160087"; transcript_id "ENST00000488418"; gene_name "UBE2J2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "UBE2J2-013"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	lincRNA	gene	1210603	1215800	.	+	.	gene_id "ENSG00000230415"; gene_name "RP5-902P8.10"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	1210603	1215800	.	+	.	gene_id "ENSG00000230415"; transcript_id "ENST00000434139"; gene_name "RP5-902P8.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-902P8.10-001"; transcript_source "havana";
+1	lincRNA	exon	1210603	1210679	.	+	.	gene_id "ENSG00000230415"; transcript_id "ENST00000434139"; exon_number "1"; gene_name "RP5-902P8.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-902P8.10-001"; transcript_source "havana"; exon_id "ENSE00001621398";
+1	lincRNA	exon	1214448	1214528	.	+	.	gene_id "ENSG00000230415"; transcript_id "ENST00000434139"; exon_number "2"; gene_name "RP5-902P8.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-902P8.10-001"; transcript_source "havana"; exon_id "ENSE00001598227";
+1	lincRNA	exon	1215691	1215800	.	+	.	gene_id "ENSG00000230415"; transcript_id "ENST00000434139"; exon_number "3"; gene_name "RP5-902P8.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-902P8.10-001"; transcript_source "havana"; exon_id "ENSE00001669179";
+1	lincRNA	transcript	1210617	1214773	.	+	.	gene_id "ENSG00000230415"; transcript_id "ENST00000453732"; gene_name "RP5-902P8.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-902P8.10-002"; transcript_source "havana";
+1	lincRNA	exon	1210617	1210679	.	+	.	gene_id "ENSG00000230415"; transcript_id "ENST00000453732"; exon_number "1"; gene_name "RP5-902P8.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-902P8.10-002"; transcript_source "havana"; exon_id "ENSE00001751999";
+1	lincRNA	exon	1214448	1214773	.	+	.	gene_id "ENSG00000230415"; transcript_id "ENST00000453732"; exon_number "2"; gene_name "RP5-902P8.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP5-902P8.10-002"; transcript_source "havana"; exon_id "ENSE00001545399";
+1	protein_coding	gene	1215816	1227409	.	+	.	gene_id "ENSG00000162572"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1215816	1227399	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037";
+1	protein_coding	exon	1215816	1216046	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00002414944";
+1	protein_coding	CDS	1216042	1216046	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	start_codon	1216042	1216044	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037";
+1	protein_coding	exon	1216606	1216677	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003396173";
+1	protein_coding	CDS	1216606	1216677	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1216791	1216990	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003253818";
+1	protein_coding	CDS	1216791	1216990	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1217622	1217695	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003562830";
+1	protein_coding	CDS	1217622	1217695	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1219358	1219470	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "5"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003683030";
+1	protein_coding	CDS	1219358	1219470	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "5"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1220951	1221044	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "6"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003412670";
+1	protein_coding	CDS	1220951	1221044	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "6"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1221306	1221658	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "7"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003681943";
+1	protein_coding	CDS	1221306	1221658	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "7"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1222148	1222355	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "8"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003580183";
+1	protein_coding	CDS	1222148	1222355	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "8"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1222489	1222679	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "9"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003620052";
+1	protein_coding	CDS	1222489	1222679	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "9"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1222888	1222976	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "10"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003678929";
+1	protein_coding	CDS	1222888	1222976	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "10"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1223053	1223216	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "11"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003480639";
+1	protein_coding	CDS	1223053	1223216	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "11"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1223319	1223417	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "12"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003559189";
+1	protein_coding	CDS	1223319	1223417	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "12"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1225651	1225768	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "13"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003669557";
+1	protein_coding	CDS	1225651	1225768	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "13"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1225857	1225935	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "14"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003623933";
+1	protein_coding	CDS	1225857	1225935	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "14"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1226017	1226074	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "15"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003503328";
+1	protein_coding	CDS	1226017	1226074	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "15"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1226275	1226333	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "16"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003689163";
+1	protein_coding	CDS	1226275	1226333	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "16"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1226445	1226520	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "17"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00003547655";
+1	protein_coding	CDS	1226445	1226520	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "17"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	exon	1226634	1227399	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "18"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; exon_id "ENSE00001562666";
+1	protein_coding	CDS	1226634	1226987	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "18"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037"; protein_id "ENSP00000368411";
+1	protein_coding	stop_codon	1226988	1226990	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; exon_number "18"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037";
+1	protein_coding	UTR	1215816	1216041	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037";
+1	protein_coding	UTR	1226991	1227399	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379116"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-008"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44037";
+1	nonsense_mediated_decay	transcript	1215852	1226753	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1215852	1216046	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00001895749";
+1	nonsense_mediated_decay	CDS	1216042	1216046	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; protein_id "ENSP00000449804";
+1	nonsense_mediated_decay	start_codon	1216042	1216044	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1216606	1216677	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003396173";
+1	nonsense_mediated_decay	CDS	1216606	1216677	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; protein_id "ENSP00000449804";
+1	nonsense_mediated_decay	exon	1216791	1216990	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003253818";
+1	nonsense_mediated_decay	CDS	1216791	1216990	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; protein_id "ENSP00000449804";
+1	nonsense_mediated_decay	exon	1217622	1217695	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003562830";
+1	nonsense_mediated_decay	CDS	1217622	1217695	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; protein_id "ENSP00000449804";
+1	nonsense_mediated_decay	exon	1219358	1219470	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "5"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003683030";
+1	nonsense_mediated_decay	CDS	1219358	1219470	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "5"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; protein_id "ENSP00000449804";
+1	nonsense_mediated_decay	exon	1221306	1221658	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "6"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003541360";
+1	nonsense_mediated_decay	CDS	1221306	1221658	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "6"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; protein_id "ENSP00000449804";
+1	nonsense_mediated_decay	exon	1222148	1222355	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "7"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003490508";
+1	nonsense_mediated_decay	CDS	1222148	1222314	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "7"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; protein_id "ENSP00000449804";
+1	nonsense_mediated_decay	stop_codon	1222315	1222317	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "7"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1222489	1222679	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "8"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003660672";
+1	nonsense_mediated_decay	exon	1222888	1222976	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "9"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003667683";
+1	nonsense_mediated_decay	exon	1223053	1223216	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "10"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003603048";
+1	nonsense_mediated_decay	exon	1223319	1223417	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "11"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003541629";
+1	nonsense_mediated_decay	exon	1225651	1225768	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "12"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003471804";
+1	nonsense_mediated_decay	exon	1225857	1225935	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "13"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003521404";
+1	nonsense_mediated_decay	exon	1226017	1226074	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "14"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003475844";
+1	nonsense_mediated_decay	exon	1226275	1226333	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "15"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003634905";
+1	nonsense_mediated_decay	exon	1226445	1226520	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "16"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00003626114";
+1	nonsense_mediated_decay	exon	1226634	1226753	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; exon_number "17"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana"; exon_id "ENSE00001953291";
+1	nonsense_mediated_decay	UTR	1215852	1216041	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1222318	1222355	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1222489	1222679	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1222888	1222976	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1223053	1223216	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1223319	1223417	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1225651	1225768	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1225857	1225935	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1226017	1226074	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1226275	1226333	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1226445	1226520	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1226634	1226753	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379101"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-002"; transcript_source "havana";
+1	protein_coding	transcript	1215968	1227404	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana";
+1	protein_coding	exon	1215968	1216990	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00001420939";
+1	protein_coding	exon	1217622	1217695	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00003604161";
+1	protein_coding	exon	1219358	1219470	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00003525260";
+1	protein_coding	CDS	1219405	1219470	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; protein_id "ENSP00000339504";
+1	protein_coding	start_codon	1219405	1219407	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana";
+1	protein_coding	exon	1221306	1221658	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00003681943";
+1	protein_coding	CDS	1221306	1221658	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; protein_id "ENSP00000339504";
+1	protein_coding	exon	1222148	1222355	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "5"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00003580183";
+1	protein_coding	CDS	1222148	1222355	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "5"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; protein_id "ENSP00000339504";
+1	protein_coding	exon	1222489	1222679	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "6"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00003620052";
+1	protein_coding	CDS	1222489	1222679	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "6"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; protein_id "ENSP00000339504";
+1	protein_coding	exon	1222888	1222976	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "7"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00003678929";
+1	protein_coding	CDS	1222888	1222976	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "7"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; protein_id "ENSP00000339504";
+1	protein_coding	exon	1223053	1223216	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "8"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00003480639";
+1	protein_coding	CDS	1223053	1223216	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "8"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; protein_id "ENSP00000339504";
+1	protein_coding	exon	1223319	1223417	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "9"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00003559189";
+1	protein_coding	CDS	1223319	1223417	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "9"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; protein_id "ENSP00000339504";
+1	protein_coding	exon	1225651	1225768	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "10"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00003669557";
+1	protein_coding	CDS	1225651	1225768	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "10"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; protein_id "ENSP00000339504";
+1	protein_coding	exon	1225857	1225935	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "11"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00003623933";
+1	protein_coding	CDS	1225857	1225935	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "11"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; protein_id "ENSP00000339504";
+1	protein_coding	exon	1226017	1226074	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "12"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00003503328";
+1	protein_coding	CDS	1226017	1226074	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "12"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; protein_id "ENSP00000339504";
+1	protein_coding	exon	1226275	1226333	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "13"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00003689163";
+1	protein_coding	CDS	1226275	1226333	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "13"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; protein_id "ENSP00000339504";
+1	protein_coding	exon	1226445	1226520	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "14"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00003547655";
+1	protein_coding	CDS	1226445	1226520	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "14"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; protein_id "ENSP00000339504";
+1	protein_coding	exon	1226634	1227404	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "15"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; exon_id "ENSE00001307311";
+1	protein_coding	CDS	1226634	1226987	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "15"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana"; protein_id "ENSP00000339504";
+1	protein_coding	stop_codon	1226988	1226990	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; exon_number "15"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana";
+1	protein_coding	UTR	1215968	1216990	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana";
+1	protein_coding	UTR	1217622	1217695	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana";
+1	protein_coding	UTR	1219358	1219404	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana";
+1	protein_coding	UTR	1226991	1227404	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000338555"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-001"; transcript_source "havana";
+1	protein_coding	transcript	1217305	1221548	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000470022"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1217305	1217390	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000470022"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-006"; transcript_source "havana"; exon_id "ENSE00001941972"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1217497	1217699	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000470022"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-006"; transcript_source "havana"; exon_id "ENSE00001834213"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1217639	1217699	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000470022"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-006"; transcript_source "havana"; protein_id "ENSP00000420548"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1219358	1219470	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000470022"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-006"; transcript_source "havana"; exon_id "ENSE00003517785"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1219358	1219470	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000470022"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-006"; transcript_source "havana"; protein_id "ENSP00000420548"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1221306	1221548	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000470022"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-006"; transcript_source "havana"; exon_id "ENSE00001834413"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1221306	1221548	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000470022"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-006"; transcript_source "havana"; protein_id "ENSP00000420548"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1217305	1217390	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000470022"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1217497	1217638	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000470022"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	1217489	1227404	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana";
+1	protein_coding	exon	1217489	1217695	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00002210815";
+1	protein_coding	CDS	1217639	1217695	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	start_codon	1217639	1217641	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana";
+1	protein_coding	exon	1219358	1219470	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003683030";
+1	protein_coding	CDS	1219358	1219470	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	exon	1220951	1221044	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003412670";
+1	protein_coding	CDS	1220951	1221044	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	exon	1221306	1221658	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003681943";
+1	protein_coding	CDS	1221306	1221658	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	exon	1222148	1222355	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "5"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003580183";
+1	protein_coding	CDS	1222148	1222355	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "5"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	exon	1222489	1222679	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "6"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003620052";
+1	protein_coding	CDS	1222489	1222679	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "6"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	exon	1222888	1222976	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "7"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003678929";
+1	protein_coding	CDS	1222888	1222976	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "7"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	exon	1223053	1223216	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "8"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003480639";
+1	protein_coding	CDS	1223053	1223216	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "8"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	exon	1223319	1223417	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "9"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003559189";
+1	protein_coding	CDS	1223319	1223417	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "9"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	exon	1225651	1225768	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "10"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003669557";
+1	protein_coding	CDS	1225651	1225768	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "10"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	exon	1225857	1225935	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "11"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003623933";
+1	protein_coding	CDS	1225857	1225935	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "11"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	exon	1226017	1226074	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "12"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003503328";
+1	protein_coding	CDS	1226017	1226074	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "12"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	exon	1226275	1226333	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "13"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003689163";
+1	protein_coding	CDS	1226275	1226333	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "13"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	exon	1226445	1226520	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "14"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003547655";
+1	protein_coding	CDS	1226445	1226520	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "14"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	exon	1226634	1227404	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "15"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001307311";
+1	protein_coding	CDS	1226634	1226987	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "15"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000321594";
+1	protein_coding	stop_codon	1226988	1226990	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; exon_number "15"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	1217489	1217638	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	1226991	1227404	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000325425"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-003"; transcript_source "ensembl_havana";
+1	processed_transcript	transcript	1217544	1220977	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000467651"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-007"; transcript_source "havana";
+1	processed_transcript	exon	1217544	1217567	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000467651"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-007"; transcript_source "havana"; exon_id "ENSE00001479778";
+1	processed_transcript	exon	1217656	1217695	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000467651"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-007"; transcript_source "havana"; exon_id "ENSE00001479777";
+1	processed_transcript	exon	1219358	1219470	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000467651"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-007"; transcript_source "havana"; exon_id "ENSE00003691178";
+1	processed_transcript	exon	1220951	1220977	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000467651"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-007"; transcript_source "havana"; exon_id "ENSE00001479773";
+1	protein_coding	transcript	1217576	1227409	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl";
+1	protein_coding	exon	1217576	1217695	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00002272366";
+1	protein_coding	exon	1219358	1219470	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00003525260";
+1	protein_coding	CDS	1219405	1219470	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; protein_id "ENSP00000383717";
+1	protein_coding	start_codon	1219405	1219407	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl";
+1	protein_coding	exon	1221306	1221658	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00003681943";
+1	protein_coding	CDS	1221306	1221658	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; protein_id "ENSP00000383717";
+1	protein_coding	exon	1222148	1222355	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00003580183";
+1	protein_coding	CDS	1222148	1222355	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; protein_id "ENSP00000383717";
+1	protein_coding	exon	1222489	1222679	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "5"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00003620052";
+1	protein_coding	CDS	1222489	1222679	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "5"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; protein_id "ENSP00000383717";
+1	protein_coding	exon	1222888	1222976	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "6"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00003678929";
+1	protein_coding	CDS	1222888	1222976	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "6"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; protein_id "ENSP00000383717";
+1	protein_coding	exon	1223053	1223216	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "7"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00003480639";
+1	protein_coding	CDS	1223053	1223216	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "7"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; protein_id "ENSP00000383717";
+1	protein_coding	exon	1223319	1223417	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "8"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00003559189";
+1	protein_coding	CDS	1223319	1223417	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "8"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; protein_id "ENSP00000383717";
+1	protein_coding	exon	1225651	1225768	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "9"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00003669557";
+1	protein_coding	CDS	1225651	1225768	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "9"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; protein_id "ENSP00000383717";
+1	protein_coding	exon	1225857	1225935	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "10"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00003623933";
+1	protein_coding	CDS	1225857	1225935	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "10"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; protein_id "ENSP00000383717";
+1	protein_coding	exon	1226017	1226074	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "11"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00003503328";
+1	protein_coding	CDS	1226017	1226074	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "11"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; protein_id "ENSP00000383717";
+1	protein_coding	exon	1226275	1226333	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "12"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00003689163";
+1	protein_coding	CDS	1226275	1226333	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "12"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; protein_id "ENSP00000383717";
+1	protein_coding	exon	1226445	1226520	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "13"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00003547655";
+1	protein_coding	CDS	1226445	1226520	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "13"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; protein_id "ENSP00000383717";
+1	protein_coding	exon	1226634	1227409	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "14"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; exon_id "ENSE00001545395";
+1	protein_coding	CDS	1226634	1226987	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "14"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl"; protein_id "ENSP00000383717";
+1	protein_coding	stop_codon	1226988	1226990	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; exon_number "14"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1217576	1217695	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1219358	1219404	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1226991	1227409	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000400928"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-201"; transcript_source "ensembl";
+1	protein_coding	transcript	1222489	1226323	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1222489	1222679	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; exon_id "ENSE00003636016"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1222489	1222679	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "1"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; protein_id "ENSP00000368393"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1222888	1223216	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; exon_id "ENSE00001479764"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1222888	1223216	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "2"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; protein_id "ENSP00000368393"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1223319	1223417	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; exon_id "ENSE00003559189"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1223319	1223417	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "3"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; protein_id "ENSP00000368393"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1225651	1225768	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; exon_id "ENSE00003669557"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1225651	1225768	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "4"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; protein_id "ENSP00000368393"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1225857	1225935	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "5"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; exon_id "ENSE00003623933"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1225857	1225935	.	+	2	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "5"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; protein_id "ENSP00000368393"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1226017	1226074	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "6"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; exon_id "ENSE00003503328"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1226017	1226074	.	+	1	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "6"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; protein_id "ENSP00000368393"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1226275	1226323	.	+	.	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "7"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; exon_id "ENSE00001595676"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1226275	1226323	.	+	0	gene_id "ENSG00000162572"; transcript_id "ENST00000379099"; exon_number "7"; gene_name "SCNN1D"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SCNN1D-005"; transcript_source "havana"; protein_id "ENSP00000368393"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	gene	1227756	1244989	.	-	.	gene_id "ENSG00000131584"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1227756	1243398	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19";
+1	protein_coding	exon	1243149	1243398	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00001927436";
+1	protein_coding	CDS	1243149	1243195	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	start_codon	1243193	1243195	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19";
+1	protein_coding	exon	1239466	1239523	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003556959";
+1	protein_coding	CDS	1239466	1239523	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1238542	1238661	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003487130";
+1	protein_coding	CDS	1238542	1238661	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1238302	1238355	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003522844";
+1	protein_coding	CDS	1238302	1238355	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1237368	1237426	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "5"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003555901";
+1	protein_coding	CDS	1237368	1237426	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "5"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1235889	1236072	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "6"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003517853";
+1	protein_coding	CDS	1235889	1236072	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "6"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1235538	1235582	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "7"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003622960";
+1	protein_coding	CDS	1235538	1235582	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "7"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1235353	1235448	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "8"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003673334";
+1	protein_coding	CDS	1235353	1235448	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "8"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1235211	1235285	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "9"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003515599";
+1	protein_coding	CDS	1235211	1235285	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "9"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1234725	1234736	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "10"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003582087";
+1	protein_coding	CDS	1234725	1234736	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "10"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1233947	1234059	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "11"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003547404";
+1	protein_coding	CDS	1233947	1234059	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "11"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1233750	1233801	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "12"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003640098";
+1	protein_coding	CDS	1233750	1233801	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "12"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1233393	1233493	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "13"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003689281";
+1	protein_coding	CDS	1233393	1233493	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "13"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1233202	1233313	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "14"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003615234";
+1	protein_coding	CDS	1233202	1233313	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "14"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1231805	1232013	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "15"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003563439";
+1	protein_coding	CDS	1231805	1232013	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "15"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1231591	1231660	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "16"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003655822";
+1	protein_coding	CDS	1231591	1231660	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "16"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1231395	1231489	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "17"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003591650";
+1	protein_coding	CDS	1231395	1231489	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "17"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1231116	1231318	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "18"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003576054";
+1	protein_coding	CDS	1231116	1231318	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "18"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1230827	1230934	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "19"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003582645";
+1	protein_coding	CDS	1230827	1230934	.	-	2	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "19"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1230098	1230196	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "20"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003524130";
+1	protein_coding	CDS	1230098	1230196	.	-	2	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "20"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1229782	1230008	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "21"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003673746";
+1	protein_coding	CDS	1229782	1230008	.	-	2	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "21"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1229470	1229579	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "22"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003495947";
+1	protein_coding	CDS	1229470	1229579	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "22"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1229203	1229313	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "23"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00003542543";
+1	protein_coding	CDS	1229203	1229313	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "23"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	exon	1227756	1229088	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "24"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; exon_id "ENSE00001889322";
+1	protein_coding	CDS	1228947	1229088	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "24"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19"; protein_id "ENSP00000346733";
+1	protein_coding	stop_codon	1228944	1228946	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; exon_number "24"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19";
+1	protein_coding	UTR	1243196	1243398	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19";
+1	protein_coding	UTR	1227756	1228943	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354700"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS19";
+1	protein_coding	transcript	1227764	1243269	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl";
+1	protein_coding	exon	1243149	1243269	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00001914196";
+1	protein_coding	exon	1239466	1239523	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003582207";
+1	protein_coding	exon	1238542	1238661	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003525949";
+1	protein_coding	CDS	1238542	1238640	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	start_codon	1238638	1238640	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl";
+1	protein_coding	exon	1238302	1238355	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003522844";
+1	protein_coding	CDS	1238302	1238355	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1237368	1237426	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "5"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003555901";
+1	protein_coding	CDS	1237368	1237426	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "5"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1235889	1236072	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "6"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003517853";
+1	protein_coding	CDS	1235889	1236072	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "6"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1235538	1235582	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "7"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003622960";
+1	protein_coding	CDS	1235538	1235582	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "7"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1235353	1235448	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "8"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003673334";
+1	protein_coding	CDS	1235353	1235448	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "8"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1235211	1235285	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "9"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003515599";
+1	protein_coding	CDS	1235211	1235285	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "9"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1234725	1234736	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "10"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003582087";
+1	protein_coding	CDS	1234725	1234736	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "10"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1233947	1234059	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "11"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003547404";
+1	protein_coding	CDS	1233947	1234059	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "11"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1233750	1233801	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "12"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003640098";
+1	protein_coding	CDS	1233750	1233801	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "12"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1233393	1233493	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "13"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003689281";
+1	protein_coding	CDS	1233393	1233493	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "13"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1233202	1233313	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "14"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003615234";
+1	protein_coding	CDS	1233202	1233313	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "14"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1231805	1232013	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "15"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003563439";
+1	protein_coding	CDS	1231805	1232013	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "15"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1231591	1231660	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "16"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003655822";
+1	protein_coding	CDS	1231591	1231660	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "16"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1231395	1231489	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "17"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003591650";
+1	protein_coding	CDS	1231395	1231489	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "17"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1231116	1231318	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "18"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003576054";
+1	protein_coding	CDS	1231116	1231318	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "18"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1230827	1230934	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "19"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003582645";
+1	protein_coding	CDS	1230827	1230934	.	-	2	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "19"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1229782	1230008	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "20"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003673746";
+1	protein_coding	CDS	1229782	1230008	.	-	2	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "20"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1229470	1229579	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "21"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003495947";
+1	protein_coding	CDS	1229470	1229579	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "21"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1229203	1229313	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "22"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00003542543";
+1	protein_coding	CDS	1229203	1229313	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "22"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	exon	1227764	1229088	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "23"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; exon_id "ENSE00001672523";
+1	protein_coding	CDS	1228947	1229088	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "23"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl"; protein_id "ENSP00000321139";
+1	protein_coding	stop_codon	1228944	1228946	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; exon_number "23"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1243149	1243269	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1239466	1239523	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1238641	1238661	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1227764	1228943	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000353662"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-201"; transcript_source "ensembl";
+1	retained_intron	transcript	1227770	1241309	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana";
+1	retained_intron	exon	1239466	1241309	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00001910258";
+1	retained_intron	exon	1238542	1238661	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003542144";
+1	retained_intron	exon	1238302	1238355	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003563137";
+1	retained_intron	exon	1237368	1237426	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003619724";
+1	retained_intron	exon	1235889	1236072	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "5"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003608200";
+1	retained_intron	exon	1235538	1235582	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "6"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003537879";
+1	retained_intron	exon	1235353	1235448	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "7"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003464945";
+1	retained_intron	exon	1235211	1235285	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "8"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003548682";
+1	retained_intron	exon	1234725	1234736	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "9"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003570614";
+1	retained_intron	exon	1233947	1234059	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "10"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003482315";
+1	retained_intron	exon	1233750	1233801	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "11"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003570562";
+1	retained_intron	exon	1233393	1233493	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "12"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003490799";
+1	retained_intron	exon	1233202	1233313	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "13"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003665800";
+1	retained_intron	exon	1231805	1232013	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "14"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003497211";
+1	retained_intron	exon	1231591	1231660	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "15"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003561535";
+1	retained_intron	exon	1231395	1231489	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "16"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003593884";
+1	retained_intron	exon	1231116	1231318	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "17"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003474340";
+1	retained_intron	exon	1230827	1230934	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "18"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003670156";
+1	retained_intron	exon	1229782	1230008	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "19"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003671184";
+1	retained_intron	exon	1229470	1229579	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "20"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003460068";
+1	retained_intron	exon	1229203	1229313	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "21"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00003593917";
+1	retained_intron	exon	1227770	1229088	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000492936"; exon_number "22"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-004"; transcript_source "havana"; exon_id "ENSE00001814384";
+1	retained_intron	transcript	1228250	1234335	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana";
+1	retained_intron	exon	1233947	1234335	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00001916381";
+1	retained_intron	exon	1233750	1233801	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00003570562";
+1	retained_intron	exon	1233393	1233493	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00003490799";
+1	retained_intron	exon	1233202	1233313	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00003665800";
+1	retained_intron	exon	1231805	1232013	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "5"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00003497211";
+1	retained_intron	exon	1231591	1231660	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "6"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00003561535";
+1	retained_intron	exon	1231395	1231489	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "7"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00003593884";
+1	retained_intron	exon	1231116	1231318	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "8"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00003474340";
+1	retained_intron	exon	1230827	1230934	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "9"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00003670156";
+1	retained_intron	exon	1230098	1230196	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "10"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00003582650";
+1	retained_intron	exon	1229782	1230008	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "11"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00003671184";
+1	retained_intron	exon	1229470	1229579	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "12"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00003460068";
+1	retained_intron	exon	1229203	1229313	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "13"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00003593917";
+1	retained_intron	exon	1228250	1229088	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000467278"; exon_number "14"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-003"; transcript_source "havana"; exon_id "ENSE00001879531";
+1	retained_intron	transcript	1229879	1230388	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000470659"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-010"; transcript_source "havana";
+1	retained_intron	exon	1230098	1230388	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000470659"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-010"; transcript_source "havana"; exon_id "ENSE00001865238";
+1	retained_intron	exon	1229879	1230008	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000470659"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-010"; transcript_source "havana"; exon_id "ENSE00001814268";
+1	processed_transcript	transcript	1231816	1233645	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000379037"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-009"; transcript_source "havana"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	processed_transcript	exon	1233565	1233645	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000379037"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-009"; transcript_source "havana"; exon_id "ENSE00001673337"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	processed_transcript	exon	1233393	1233493	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000379037"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-009"; transcript_source "havana"; exon_id "ENSE00003490799"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	processed_transcript	exon	1233202	1233313	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000379037"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-009"; transcript_source "havana"; exon_id "ENSE00003665800"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	processed_transcript	exon	1231816	1232013	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000379037"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-009"; transcript_source "havana"; exon_id "ENSE00001644252"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1231846	1234997	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000476572"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-011"; transcript_source "havana";
+1	retained_intron	exon	1234725	1234997	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000476572"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-011"; transcript_source "havana"; exon_id "ENSE00001889283";
+1	retained_intron	exon	1233947	1234059	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000476572"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-011"; transcript_source "havana"; exon_id "ENSE00003482315";
+1	retained_intron	exon	1233750	1233801	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000476572"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-011"; transcript_source "havana"; exon_id "ENSE00003570562";
+1	retained_intron	exon	1233393	1233493	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000476572"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-011"; transcript_source "havana"; exon_id "ENSE00003490799";
+1	retained_intron	exon	1233202	1233313	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000476572"; exon_number "5"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-011"; transcript_source "havana"; exon_id "ENSE00003665800";
+1	retained_intron	exon	1231846	1232013	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000476572"; exon_number "6"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-011"; transcript_source "havana"; exon_id "ENSE00001940526";
+1	retained_intron	transcript	1233217	1233621	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000493992"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-008"; transcript_source "havana";
+1	retained_intron	exon	1233393	1233621	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000493992"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-008"; transcript_source "havana"; exon_id "ENSE00001837351";
+1	retained_intron	exon	1233217	1233313	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000493992"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-008"; transcript_source "havana"; exon_id "ENSE00001878793";
+1	retained_intron	transcript	1234124	1244989	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000472541"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-002"; transcript_source "havana";
+1	retained_intron	exon	1244822	1244989	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000472541"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-002"; transcript_source "havana"; exon_id "ENSE00001836025";
+1	retained_intron	exon	1239466	1239523	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000472541"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-002"; transcript_source "havana"; exon_id "ENSE00003582207";
+1	retained_intron	exon	1238542	1238661	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000472541"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-002"; transcript_source "havana"; exon_id "ENSE00003542144";
+1	retained_intron	exon	1238302	1238355	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000472541"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-002"; transcript_source "havana"; exon_id "ENSE00003563137";
+1	retained_intron	exon	1237368	1237426	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000472541"; exon_number "5"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-002"; transcript_source "havana"; exon_id "ENSE00003619724";
+1	retained_intron	exon	1235889	1236072	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000472541"; exon_number "6"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-002"; transcript_source "havana"; exon_id "ENSE00003608200";
+1	retained_intron	exon	1235538	1235582	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000472541"; exon_number "7"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-002"; transcript_source "havana"; exon_id "ENSE00003537879";
+1	retained_intron	exon	1235353	1235448	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000472541"; exon_number "8"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-002"; transcript_source "havana"; exon_id "ENSE00003464945";
+1	retained_intron	exon	1234124	1235285	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000472541"; exon_number "9"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-002"; transcript_source "havana"; exon_id "ENSE00001898596";
+1	nonsense_mediated_decay	transcript	1235576	1243201	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1243149	1243201	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana"; exon_id "ENSE00001604555";
+1	nonsense_mediated_decay	CDS	1243149	1243195	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana"; protein_id "ENSP00000347075";
+1	nonsense_mediated_decay	start_codon	1243193	1243195	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1242717	1242763	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana"; exon_id "ENSE00001768153";
+1	nonsense_mediated_decay	CDS	1242717	1242763	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana"; protein_id "ENSP00000347075";
+1	nonsense_mediated_decay	exon	1239466	1239523	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana"; exon_id "ENSE00003694155";
+1	nonsense_mediated_decay	CDS	1239466	1239523	.	-	2	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana"; protein_id "ENSP00000347075";
+1	nonsense_mediated_decay	exon	1238542	1238661	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana"; exon_id "ENSE00003460775";
+1	nonsense_mediated_decay	CDS	1238658	1238661	.	-	1	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana"; protein_id "ENSP00000347075";
+1	nonsense_mediated_decay	stop_codon	1238655	1238657	.	-	0	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1238302	1238355	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "5"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana"; exon_id "ENSE00003563137";
+1	nonsense_mediated_decay	exon	1237368	1237426	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "6"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana"; exon_id "ENSE00003619724";
+1	nonsense_mediated_decay	exon	1235889	1236072	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "7"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana"; exon_id "ENSE00003608200";
+1	nonsense_mediated_decay	exon	1235576	1235582	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; exon_number "8"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana"; exon_id "ENSE00003435342";
+1	nonsense_mediated_decay	UTR	1243196	1243201	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1238542	1238654	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1238302	1238355	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1237368	1237426	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1235889	1236072	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1235576	1235582	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000354980"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-012"; transcript_source "havana";
+1	retained_intron	transcript	1236828	1240281	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000478065"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-007"; transcript_source "havana";
+1	retained_intron	exon	1238542	1240281	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000478065"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-007"; transcript_source "havana"; exon_id "ENSE00001918052";
+1	retained_intron	exon	1238302	1238355	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000478065"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-007"; transcript_source "havana"; exon_id "ENSE00003563137";
+1	retained_intron	exon	1236828	1237426	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000478065"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-007"; transcript_source "havana"; exon_id "ENSE00001941143";
+1	retained_intron	transcript	1237236	1243210	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000479108"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-006"; transcript_source "havana";
+1	retained_intron	exon	1243149	1243210	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000479108"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-006"; transcript_source "havana"; exon_id "ENSE00001936437";
+1	retained_intron	exon	1239466	1239523	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000479108"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-006"; transcript_source "havana"; exon_id "ENSE00003582207";
+1	retained_intron	exon	1238542	1238661	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000479108"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-006"; transcript_source "havana"; exon_id "ENSE00003542144";
+1	retained_intron	exon	1238302	1238355	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000479108"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-006"; transcript_source "havana"; exon_id "ENSE00003563137";
+1	retained_intron	exon	1237236	1237426	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000479108"; exon_number "5"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-006"; transcript_source "havana"; exon_id "ENSE00001896740";
+1	processed_transcript	transcript	1238590	1243198	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000438966"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-005"; transcript_source "havana";
+1	processed_transcript	exon	1243149	1243198	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000438966"; exon_number "1"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-005"; transcript_source "havana"; exon_id "ENSE00001614501";
+1	processed_transcript	exon	1242452	1242536	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000438966"; exon_number "2"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-005"; transcript_source "havana"; exon_id "ENSE00001711951";
+1	processed_transcript	exon	1239466	1239523	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000438966"; exon_number "3"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-005"; transcript_source "havana"; exon_id "ENSE00003582207";
+1	processed_transcript	exon	1238590	1238661	.	-	.	gene_id "ENSG00000131584"; transcript_id "ENST00000438966"; exon_number "4"; gene_name "ACAP3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACAP3-005"; transcript_source "havana"; exon_id "ENSE00001692196";
+1	protein_coding	gene	1243947	1247057	.	+	.	gene_id "ENSG00000169972"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1243947	1247057	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20";
+1	protein_coding	exon	1243947	1244100	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "1"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; exon_id "ENSE00001853015";
+1	protein_coding	CDS	1244024	1244100	.	+	0	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "1"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; protein_id "ENSP00000368318";
+1	protein_coding	start_codon	1244024	1244026	.	+	0	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "1"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20";
+1	protein_coding	exon	1244295	1244352	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "2"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; exon_id "ENSE00001225948";
+1	protein_coding	CDS	1244295	1244352	.	+	1	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "2"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; protein_id "ENSP00000368318";
+1	protein_coding	exon	1244466	1244653	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "3"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; exon_id "ENSE00003604149";
+1	protein_coding	CDS	1244466	1244653	.	+	0	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "3"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; protein_id "ENSP00000368318";
+1	protein_coding	exon	1244834	1244983	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "4"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; exon_id "ENSE00003688171";
+1	protein_coding	CDS	1244834	1244983	.	+	1	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "4"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; protein_id "ENSP00000368318";
+1	protein_coding	exon	1245061	1245231	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "5"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; exon_id "ENSE00003513130";
+1	protein_coding	CDS	1245061	1245231	.	+	1	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "5"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; protein_id "ENSP00000368318";
+1	protein_coding	exon	1246014	1246068	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "6"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; exon_id "ENSE00003668395";
+1	protein_coding	CDS	1246014	1246068	.	+	1	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "6"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; protein_id "ENSP00000368318";
+1	protein_coding	exon	1246289	1246451	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "7"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; exon_id "ENSE00001225918";
+1	protein_coding	CDS	1246289	1246451	.	+	0	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "7"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; protein_id "ENSP00000368318";
+1	protein_coding	exon	1246710	1247057	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "8"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; exon_id "ENSE00001893383";
+1	protein_coding	CDS	1246710	1246756	.	+	2	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "8"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20"; protein_id "ENSP00000368318";
+1	protein_coding	stop_codon	1246757	1246759	.	+	0	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; exon_number "8"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20";
+1	protein_coding	UTR	1243947	1244023	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20";
+1	protein_coding	UTR	1246760	1247057	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000379031"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS20";
+1	processed_transcript	transcript	1243991	1246408	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000470520"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-005"; transcript_source "havana";
+1	processed_transcript	exon	1243991	1244100	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000470520"; exon_number "1"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-005"; transcript_source "havana"; exon_id "ENSE00001479546";
+1	processed_transcript	exon	1244466	1244653	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000470520"; exon_number "2"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-005"; transcript_source "havana"; exon_id "ENSE00003506446";
+1	processed_transcript	exon	1244834	1244983	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000470520"; exon_number "3"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-005"; transcript_source "havana"; exon_id "ENSE00003662651";
+1	processed_transcript	exon	1245086	1245231	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000470520"; exon_number "4"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-005"; transcript_source "havana"; exon_id "ENSE00001871463";
+1	processed_transcript	exon	1246014	1246068	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000470520"; exon_number "5"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-005"; transcript_source "havana"; exon_id "ENSE00003461612";
+1	processed_transcript	exon	1246289	1246408	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000470520"; exon_number "6"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-005"; transcript_source "havana"; exon_id "ENSE00001896379";
+1	retained_intron	transcript	1244168	1245220	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000463758"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-004"; transcript_source "havana";
+1	retained_intron	exon	1244168	1244352	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000463758"; exon_number "1"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-004"; transcript_source "havana"; exon_id "ENSE00001948479";
+1	retained_intron	exon	1244466	1245220	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000463758"; exon_number "2"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-004"; transcript_source "havana"; exon_id "ENSE00001922706";
+1	protein_coding	transcript	1244201	1246449	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1244201	1244352	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; exon_number "1"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; exon_id "ENSE00001897134"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1244466	1244653	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; exon_number "2"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; exon_id "ENSE00003506446"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1244834	1244983	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; exon_number "3"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; exon_id "ENSE00003662651"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1245061	1245231	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; exon_number "4"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; exon_id "ENSE00003577140"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1245071	1245231	.	+	0	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; exon_number "4"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; protein_id "ENSP00000462968"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1246014	1246068	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; exon_number "5"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; exon_id "ENSE00003668395"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1246014	1246068	.	+	1	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; exon_number "5"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; protein_id "ENSP00000462968"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1246289	1246449	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; exon_number "6"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; exon_id "ENSE00001809847"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1246289	1246449	.	+	0	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; exon_number "6"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; protein_id "ENSP00000462968"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1244201	1244352	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1244466	1244653	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1244834	1244983	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1245061	1245070	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000467712"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	retained_intron	transcript	1244615	1247056	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000493657"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-002"; transcript_source "havana";
+1	retained_intron	exon	1244615	1244653	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000493657"; exon_number "1"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-002"; transcript_source "havana"; exon_id "ENSE00001827586";
+1	retained_intron	exon	1244834	1245194	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000493657"; exon_number "2"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-002"; transcript_source "havana"; exon_id "ENSE00001924037";
+1	retained_intron	exon	1245416	1246451	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000493657"; exon_number "3"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-002"; transcript_source "havana"; exon_id "ENSE00001892360";
+1	retained_intron	exon	1246710	1247056	.	+	.	gene_id "ENSG00000169972"; transcript_id "ENST00000493657"; exon_number "4"; gene_name "PUSL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PUSL1-002"; transcript_source "havana"; exon_id "ENSE00001479541";
+1	protein_coding	gene	1246965	1260071	.	-	.	gene_id "ENSG00000127054"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	retained_intron	transcript	1246965	1250813	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470030"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-008"; transcript_source "havana";
+1	retained_intron	exon	1250204	1250813	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470030"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-008"; transcript_source "havana"; exon_id "ENSE00002157633";
+1	retained_intron	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470030"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-008"; transcript_source "havana"; exon_id "ENSE00003464675";
+1	retained_intron	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470030"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-008"; transcript_source "havana"; exon_id "ENSE00003604060";
+1	retained_intron	exon	1248415	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470030"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-008"; transcript_source "havana"; exon_id "ENSE00001885934";
+1	retained_intron	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470030"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-008"; transcript_source "havana"; exon_id "ENSE00003654424";
+1	retained_intron	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470030"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-008"; transcript_source "havana"; exon_id "ENSE00003579189";
+1	retained_intron	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470030"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-008"; transcript_source "havana"; exon_id "ENSE00003588285";
+1	retained_intron	exon	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470030"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-008"; transcript_source "havana"; exon_id "ENSE00003564118";
+1	retained_intron	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470030"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-008"; transcript_source "havana"; exon_id "ENSE00003667474";
+1	retained_intron	exon	1246965	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470030"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-008"; transcript_source "havana"; exon_id "ENSE00001225702";
+1	protein_coding	transcript	1246977	1260071	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21";
+1	protein_coding	exon	1259961	1260071	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00001730173";
+1	protein_coding	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	start_codon	1259986	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21";
+1	protein_coding	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003594178";
+1	protein_coding	CDS	1256376	1256473	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003666435";
+1	protein_coding	CDS	1255836	1255909	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003522925";
+1	protein_coding	CDS	1254676	1254904	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003625354";
+1	protein_coding	CDS	1250900	1250998	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003562382";
+1	protein_coding	CDS	1250784	1250818	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003604585";
+1	protein_coding	CDS	1250204	1250342	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003481468";
+1	protein_coding	CDS	1249681	1249745	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003568595";
+1	protein_coding	CDS	1249112	1249301	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003692932";
+1	protein_coding	CDS	1248889	1248972	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003521162";
+1	protein_coding	CDS	1248415	1248504	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003480282";
+1	protein_coding	CDS	1248167	1248329	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003493216";
+1	protein_coding	CDS	1247973	1248080	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003642378";
+1	protein_coding	CDS	1247820	1247881	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003524405";
+1	protein_coding	CDS	1247606	1247748	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "16"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00003580641";
+1	protein_coding	CDS	1247398	1247527	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "16"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	exon	1246977	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "17"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; exon_id "ENSE00001606556";
+1	protein_coding	CDS	1247242	1247304	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "17"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21"; protein_id "ENSP00000413493";
+1	protein_coding	stop_codon	1247239	1247241	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; exon_number "17"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21";
+1	protein_coding	UTR	1259989	1260071	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21";
+1	protein_coding	UTR	1246977	1247238	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000435064"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS21";
+1	retained_intron	transcript	1246978	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000497304"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-021"; transcript_source "havana";
+1	retained_intron	exon	1247606	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000497304"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-021"; transcript_source "havana"; exon_id "ENSE00001849883";
+1	retained_intron	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000497304"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-021"; transcript_source "havana"; exon_id "ENSE00003667474";
+1	retained_intron	exon	1246978	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000497304"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-021"; transcript_source "havana"; exon_id "ENSE00001811528";
+1	retained_intron	transcript	1246980	1260001	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana";
+1	retained_intron	exon	1259961	1260001	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00001955950";
+1	retained_intron	exon	1255836	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00001824639";
+1	retained_intron	exon	1254676	1254813	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00003607355";
+1	retained_intron	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00003488128";
+1	retained_intron	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00003493634";
+1	retained_intron	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00003620245";
+1	retained_intron	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00003464675";
+1	retained_intron	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00003604060";
+1	retained_intron	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00003594177";
+1	retained_intron	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00003616764";
+1	retained_intron	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00003654424";
+1	retained_intron	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00003579189";
+1	retained_intron	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00003588285";
+1	retained_intron	exon	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00003564118";
+1	retained_intron	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00003667474";
+1	retained_intron	exon	1246980	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000323275"; exon_number "16"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-004"; transcript_source "havana"; exon_id "ENSE00001873980";
+1	protein_coding	transcript	1246981	1260053	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana";
+1	protein_coding	exon	1259961	1260053	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00001664761";
+1	protein_coding	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	start_codon	1259986	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana";
+1	protein_coding	exon	1258561	1258667	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00003473777";
+1	protein_coding	CDS	1258561	1258667	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00003625354";
+1	protein_coding	CDS	1250900	1250998	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00003562382";
+1	protein_coding	CDS	1250784	1250818	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00003604585";
+1	protein_coding	CDS	1250204	1250342	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00003481468";
+1	protein_coding	CDS	1249681	1249745	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00003568595";
+1	protein_coding	CDS	1249112	1249301	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00003692932";
+1	protein_coding	CDS	1248889	1248972	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00003521162";
+1	protein_coding	CDS	1248415	1248504	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00003480282";
+1	protein_coding	CDS	1248167	1248329	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00003493216";
+1	protein_coding	CDS	1247973	1248080	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00003642378";
+1	protein_coding	CDS	1247820	1247881	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	exon	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00003524405";
+1	protein_coding	CDS	1247606	1247748	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00003580641";
+1	protein_coding	CDS	1247398	1247527	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	exon	1246981	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; exon_id "ENSE00001684027";
+1	protein_coding	CDS	1247242	1247304	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana"; protein_id "ENSP00000400548";
+1	protein_coding	stop_codon	1247239	1247241	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana";
+1	protein_coding	UTR	1259989	1260053	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana";
+1	protein_coding	UTR	1246981	1247238	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000411962"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-011"; transcript_source "havana";
+1	processed_transcript	transcript	1246982	1252830	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana";
+1	processed_transcript	exon	1251537	1252830	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana"; exon_id "ENSE00001945772";
+1	processed_transcript	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana"; exon_id "ENSE00003488128";
+1	processed_transcript	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana"; exon_id "ENSE00003493634";
+1	processed_transcript	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana"; exon_id "ENSE00003620245";
+1	processed_transcript	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana"; exon_id "ENSE00003464675";
+1	processed_transcript	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana"; exon_id "ENSE00003604060";
+1	processed_transcript	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana"; exon_id "ENSE00003594177";
+1	processed_transcript	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana"; exon_id "ENSE00003616764";
+1	processed_transcript	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana"; exon_id "ENSE00003654424";
+1	processed_transcript	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana"; exon_id "ENSE00003579189";
+1	processed_transcript	exon	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana"; exon_id "ENSE00003564118";
+1	processed_transcript	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana"; exon_id "ENSE00003667474";
+1	processed_transcript	exon	1246982	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000462432"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-005"; transcript_source "havana"; exon_id "ENSE00001661816";
+1	retained_intron	transcript	1246986	1250550	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000478641"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-006"; transcript_source "havana";
+1	retained_intron	exon	1249112	1250550	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000478641"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-006"; transcript_source "havana"; exon_id "ENSE00001905465";
+1	retained_intron	exon	1248415	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000478641"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-006"; transcript_source "havana"; exon_id "ENSE00001885934";
+1	retained_intron	exon	1247973	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000478641"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-006"; transcript_source "havana"; exon_id "ENSE00001868536";
+1	retained_intron	exon	1247606	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000478641"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-006"; transcript_source "havana"; exon_id "ENSE00001816794";
+1	retained_intron	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000478641"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-006"; transcript_source "havana"; exon_id "ENSE00003667474";
+1	retained_intron	exon	1246986	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000478641"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-006"; transcript_source "havana"; exon_id "ENSE00003529299";
+1	protein_coding	transcript	1246986	1260017	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana";
+1	protein_coding	exon	1259961	1260017	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00001809564";
+1	protein_coding	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00003488128";
+1	protein_coding	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00003493634";
+1	protein_coding	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00003620245";
+1	protein_coding	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00003464675";
+1	protein_coding	exon	1249112	1249485	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00001847435";
+1	protein_coding	CDS	1249112	1249294	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; protein_id "ENSP00000464436";
+1	protein_coding	start_codon	1249292	1249294	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana";
+1	protein_coding	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00003692932";
+1	protein_coding	CDS	1248889	1248972	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; protein_id "ENSP00000464436";
+1	protein_coding	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00003521162";
+1	protein_coding	CDS	1248415	1248504	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; protein_id "ENSP00000464436";
+1	protein_coding	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00003480282";
+1	protein_coding	CDS	1248167	1248329	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; protein_id "ENSP00000464436";
+1	protein_coding	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00003493216";
+1	protein_coding	CDS	1247973	1248080	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; protein_id "ENSP00000464436";
+1	protein_coding	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00003642378";
+1	protein_coding	CDS	1247820	1247881	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; protein_id "ENSP00000464436";
+1	protein_coding	exon	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00003524405";
+1	protein_coding	CDS	1247606	1247748	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; protein_id "ENSP00000464436";
+1	protein_coding	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00003580641";
+1	protein_coding	CDS	1247398	1247527	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; protein_id "ENSP00000464436";
+1	protein_coding	exon	1246986	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; exon_id "ENSE00003465286";
+1	protein_coding	CDS	1247242	1247304	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana"; protein_id "ENSP00000464436";
+1	protein_coding	stop_codon	1247239	1247241	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana";
+1	protein_coding	UTR	1259961	1260017	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana";
+1	protein_coding	UTR	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana";
+1	protein_coding	UTR	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana";
+1	protein_coding	UTR	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana";
+1	protein_coding	UTR	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana";
+1	protein_coding	UTR	1249295	1249485	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana";
+1	protein_coding	UTR	1246986	1247238	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000421495"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-007"; transcript_source "havana";
+1	nonsense_mediated_decay	transcript	1246986	1260030	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1259961	1260030	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00002174405";
+1	nonsense_mediated_decay	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; protein_id "ENSP00000433930";
+1	nonsense_mediated_decay	start_codon	1259986	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1258272	1258667	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003515431";
+1	nonsense_mediated_decay	CDS	1258510	1258667	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; protein_id "ENSP00000433930";
+1	nonsense_mediated_decay	stop_codon	1258507	1258509	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1257288	1257364	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003636362";
+1	nonsense_mediated_decay	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003486767";
+1	nonsense_mediated_decay	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003591740";
+1	nonsense_mediated_decay	exon	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003495700";
+1	nonsense_mediated_decay	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003488128";
+1	nonsense_mediated_decay	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003493634";
+1	nonsense_mediated_decay	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003620245";
+1	nonsense_mediated_decay	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003464675";
+1	nonsense_mediated_decay	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003604060";
+1	nonsense_mediated_decay	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003594177";
+1	nonsense_mediated_decay	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003616764";
+1	nonsense_mediated_decay	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003654424";
+1	nonsense_mediated_decay	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003579189";
+1	nonsense_mediated_decay	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "16"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003588285";
+1	nonsense_mediated_decay	exon	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "17"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003564118";
+1	nonsense_mediated_decay	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "18"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003667474";
+1	nonsense_mediated_decay	exon	1246986	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; exon_number "19"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana"; exon_id "ENSE00003529299";
+1	nonsense_mediated_decay	UTR	1259989	1260030	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1258272	1258506	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1257288	1257364	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1246986	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000458452"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-012"; transcript_source "havana";
+1	protein_coding	transcript	1246986	1260033	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961";
+1	protein_coding	exon	1259961	1260033	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00001724349";
+1	protein_coding	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	start_codon	1259986	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961";
+1	protein_coding	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003594178";
+1	protein_coding	CDS	1256376	1256473	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003625354";
+1	protein_coding	CDS	1250900	1250998	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003562382";
+1	protein_coding	CDS	1250784	1250818	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003604585";
+1	protein_coding	CDS	1250204	1250342	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003481468";
+1	protein_coding	CDS	1249681	1249745	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003568595";
+1	protein_coding	CDS	1249112	1249301	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003692932";
+1	protein_coding	CDS	1248889	1248972	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003521162";
+1	protein_coding	CDS	1248415	1248504	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003480282";
+1	protein_coding	CDS	1248167	1248329	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003493216";
+1	protein_coding	CDS	1247973	1248080	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003642378";
+1	protein_coding	CDS	1247820	1247881	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	exon	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003524405";
+1	protein_coding	CDS	1247606	1247748	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003580641";
+1	protein_coding	CDS	1247398	1247527	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	exon	1246986	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; exon_id "ENSE00003465286";
+1	protein_coding	CDS	1247242	1247304	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961"; protein_id "ENSP00000404886";
+1	protein_coding	stop_codon	1247239	1247241	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961";
+1	protein_coding	UTR	1259989	1260033	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961";
+1	protein_coding	UTR	1246986	1247238	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000419704"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57961";
+1	protein_coding	transcript	1246986	1259989	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960";
+1	protein_coding	exon	1259961	1259989	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00002257542";
+1	protein_coding	exon	1258272	1258667	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003591275";
+1	protein_coding	exon	1257288	1257364	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003482551";
+1	protein_coding	CDS	1257288	1257333	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	start_codon	1257331	1257333	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960";
+1	protein_coding	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003594178";
+1	protein_coding	CDS	1256376	1256473	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003666435";
+1	protein_coding	CDS	1255836	1255909	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003522925";
+1	protein_coding	CDS	1254676	1254904	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003625354";
+1	protein_coding	CDS	1250900	1250998	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003562382";
+1	protein_coding	CDS	1250784	1250818	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003604585";
+1	protein_coding	CDS	1250204	1250342	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003481468";
+1	protein_coding	CDS	1249681	1249745	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003568595";
+1	protein_coding	CDS	1249112	1249301	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003692932";
+1	protein_coding	CDS	1248889	1248972	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003521162";
+1	protein_coding	CDS	1248415	1248504	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003480282";
+1	protein_coding	CDS	1248167	1248329	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003493216";
+1	protein_coding	CDS	1247973	1248080	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "16"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003642378";
+1	protein_coding	CDS	1247820	1247881	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "16"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "17"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003524405";
+1	protein_coding	CDS	1247606	1247748	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "17"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "18"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003580641";
+1	protein_coding	CDS	1247398	1247527	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "18"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	exon	1246986	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "19"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; exon_id "ENSE00003465286";
+1	protein_coding	CDS	1247242	1247304	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "19"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960"; protein_id "ENSP00000445001";
+1	protein_coding	stop_codon	1247239	1247241	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; exon_number "19"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960";
+1	protein_coding	UTR	1259961	1259989	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960";
+1	protein_coding	UTR	1258272	1258667	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960";
+1	protein_coding	UTR	1257334	1257364	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960";
+1	protein_coding	UTR	1246986	1247238	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000540437"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57960";
+1	nonsense_mediated_decay	transcript	1247007	1260008	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1259961	1260008	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; exon_id "ENSE00001936597";
+1	nonsense_mediated_decay	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; protein_id "ENSP00000431214";
+1	nonsense_mediated_decay	start_codon	1259986	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; exon_id "ENSE00003594178";
+1	nonsense_mediated_decay	CDS	1256376	1256473	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; protein_id "ENSP00000431214";
+1	nonsense_mediated_decay	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; exon_id "ENSE00003594658";
+1	nonsense_mediated_decay	CDS	1250331	1250342	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; protein_id "ENSP00000431214";
+1	nonsense_mediated_decay	stop_codon	1250328	1250330	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; exon_id "ENSE00003464675";
+1	nonsense_mediated_decay	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; exon_id "ENSE00003604060";
+1	nonsense_mediated_decay	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; exon_id "ENSE00003594177";
+1	nonsense_mediated_decay	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; exon_id "ENSE00003616764";
+1	nonsense_mediated_decay	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; exon_id "ENSE00003654424";
+1	nonsense_mediated_decay	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; exon_id "ENSE00003579189";
+1	nonsense_mediated_decay	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; exon_id "ENSE00003588285";
+1	nonsense_mediated_decay	exon	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; exon_id "ENSE00003564118";
+1	nonsense_mediated_decay	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; exon_id "ENSE00003667474";
+1	nonsense_mediated_decay	exon	1247007	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana"; exon_id "ENSE00001748935";
+1	nonsense_mediated_decay	UTR	1259989	1260008	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1250204	1250327	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247007	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532772"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-029"; transcript_source "havana";
+1	protein_coding	transcript	1247199	1260050	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana";
+1	protein_coding	exon	1259961	1260050	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00001742049";
+1	protein_coding	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	start_codon	1259986	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana";
+1	protein_coding	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003594178";
+1	protein_coding	CDS	1256376	1256473	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003666435";
+1	protein_coding	CDS	1255836	1255909	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003522925";
+1	protein_coding	CDS	1254676	1254904	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1250900	1250932	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00001669579";
+1	protein_coding	CDS	1250900	1250932	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003562382";
+1	protein_coding	CDS	1250784	1250818	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003604585";
+1	protein_coding	CDS	1250204	1250342	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003481468";
+1	protein_coding	CDS	1249681	1249745	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003568595";
+1	protein_coding	CDS	1249112	1249301	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003692932";
+1	protein_coding	CDS	1248889	1248972	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003521162";
+1	protein_coding	CDS	1248415	1248504	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003480282";
+1	protein_coding	CDS	1248167	1248329	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003493216";
+1	protein_coding	CDS	1247973	1248080	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003642378";
+1	protein_coding	CDS	1247820	1247881	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003524405";
+1	protein_coding	CDS	1247606	1247748	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "16"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00003580641";
+1	protein_coding	CDS	1247398	1247527	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "16"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	exon	1247199	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "17"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; exon_id "ENSE00001727517";
+1	protein_coding	CDS	1247242	1247304	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "17"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana"; protein_id "ENSP00000392848";
+1	protein_coding	stop_codon	1247239	1247241	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; exon_number "17"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana";
+1	protein_coding	UTR	1259989	1260050	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana";
+1	protein_coding	UTR	1247199	1247238	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000450926"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-023"; transcript_source "havana";
+1	nonsense_mediated_decay	transcript	1247203	1260046	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1259961	1260046	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003485533";
+1	nonsense_mediated_decay	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; protein_id "ENSP00000431952";
+1	nonsense_mediated_decay	start_codon	1259986	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1258561	1258667	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003473777";
+1	nonsense_mediated_decay	CDS	1258561	1258667	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; protein_id "ENSP00000431952";
+1	nonsense_mediated_decay	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003614649";
+1	nonsense_mediated_decay	CDS	1256376	1256473	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; protein_id "ENSP00000431952";
+1	nonsense_mediated_decay	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003666199";
+1	nonsense_mediated_decay	CDS	1255867	1255909	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; protein_id "ENSP00000431952";
+1	nonsense_mediated_decay	stop_codon	1255864	1255866	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003495700";
+1	nonsense_mediated_decay	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003488128";
+1	nonsense_mediated_decay	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003493634";
+1	nonsense_mediated_decay	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003620245";
+1	nonsense_mediated_decay	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003464675";
+1	nonsense_mediated_decay	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003604060";
+1	nonsense_mediated_decay	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003594177";
+1	nonsense_mediated_decay	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003616764";
+1	nonsense_mediated_decay	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003654424";
+1	nonsense_mediated_decay	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003579189";
+1	nonsense_mediated_decay	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003588285";
+1	nonsense_mediated_decay	exon	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "16"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003564118";
+1	nonsense_mediated_decay	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "17"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003667474";
+1	nonsense_mediated_decay	exon	1247203	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; exon_number "18"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana"; exon_id "ENSE00003571522";
+1	nonsense_mediated_decay	UTR	1259989	1260046	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1255836	1255863	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247203	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527098"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-024"; transcript_source "havana";
+1	protein_coding	transcript	1247203	1260017	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959";
+1	protein_coding	exon	1259961	1260017	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00001809564";
+1	protein_coding	exon	1258561	1258667	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003588592";
+1	protein_coding	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003677634";
+1	protein_coding	CDS	1256376	1256414	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	start_codon	1256412	1256414	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959";
+1	protein_coding	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003666435";
+1	protein_coding	CDS	1255836	1255909	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003522925";
+1	protein_coding	CDS	1254676	1254904	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003625354";
+1	protein_coding	CDS	1250900	1250998	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003562382";
+1	protein_coding	CDS	1250784	1250818	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003604585";
+1	protein_coding	CDS	1250204	1250342	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003481468";
+1	protein_coding	CDS	1249681	1249745	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003568595";
+1	protein_coding	CDS	1249112	1249301	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003692932";
+1	protein_coding	CDS	1248889	1248972	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003521162";
+1	protein_coding	CDS	1248415	1248504	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003480282";
+1	protein_coding	CDS	1248167	1248329	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003493216";
+1	protein_coding	CDS	1247973	1248080	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003642378";
+1	protein_coding	CDS	1247820	1247881	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "15"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1247606	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "16"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003524405";
+1	protein_coding	CDS	1247606	1247748	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "16"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1247398	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "17"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003580641";
+1	protein_coding	CDS	1247398	1247527	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "17"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	exon	1247203	1247304	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "18"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; exon_id "ENSE00003473046";
+1	protein_coding	CDS	1247242	1247304	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "18"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959"; protein_id "ENSP00000444672";
+1	protein_coding	stop_codon	1247239	1247241	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; exon_number "18"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959";
+1	protein_coding	UTR	1259961	1260017	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959";
+1	protein_coding	UTR	1258561	1258667	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959";
+1	protein_coding	UTR	1256415	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959";
+1	protein_coding	UTR	1247203	1247238	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000545578"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS57959";
+1	retained_intron	transcript	1247460	1249205	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000485710"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-022"; transcript_source "havana";
+1	retained_intron	exon	1249112	1249205	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000485710"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-022"; transcript_source "havana"; exon_id "ENSE00001864639";
+1	retained_intron	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000485710"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-022"; transcript_source "havana"; exon_id "ENSE00003594177";
+1	retained_intron	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000485710"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-022"; transcript_source "havana"; exon_id "ENSE00003616764";
+1	retained_intron	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000485710"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-022"; transcript_source "havana"; exon_id "ENSE00003654424";
+1	retained_intron	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000485710"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-022"; transcript_source "havana"; exon_id "ENSE00003579189";
+1	retained_intron	exon	1247606	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000485710"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-022"; transcript_source "havana"; exon_id "ENSE00001816794";
+1	retained_intron	exon	1247460	1247527	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000485710"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-022"; transcript_source "havana"; exon_id "ENSE00001922553";
+1	retained_intron	transcript	1247640	1249160	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000461514"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-020"; transcript_source "havana";
+1	retained_intron	exon	1249112	1249160	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000461514"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-020"; transcript_source "havana"; exon_id "ENSE00001859936";
+1	retained_intron	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000461514"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-020"; transcript_source "havana"; exon_id "ENSE00003594177";
+1	retained_intron	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000461514"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-020"; transcript_source "havana"; exon_id "ENSE00003616764";
+1	retained_intron	exon	1247640	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000461514"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-020"; transcript_source "havana"; exon_id "ENSE00001942828";
+1	retained_intron	transcript	1247645	1249145	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525164"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-048"; transcript_source "havana";
+1	retained_intron	exon	1249112	1249145	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525164"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-048"; transcript_source "havana"; exon_id "ENSE00002146829";
+1	retained_intron	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525164"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-048"; transcript_source "havana"; exon_id "ENSE00003594177";
+1	retained_intron	exon	1247973	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525164"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-048"; transcript_source "havana"; exon_id "ENSE00002186330";
+1	retained_intron	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525164"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-048"; transcript_source "havana"; exon_id "ENSE00003588285";
+1	retained_intron	exon	1247645	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525164"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-048"; transcript_source "havana"; exon_id "ENSE00002172959";
+1	nonsense_mediated_decay	transcript	1247664	1260028	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1259961	1260028	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00002165340";
+1	nonsense_mediated_decay	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; protein_id "ENSP00000432777";
+1	nonsense_mediated_decay	start_codon	1259986	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00003594178";
+1	nonsense_mediated_decay	CDS	1256376	1256473	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; protein_id "ENSP00000432777";
+1	nonsense_mediated_decay	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00003666435";
+1	nonsense_mediated_decay	CDS	1255836	1255909	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; protein_id "ENSP00000432777";
+1	nonsense_mediated_decay	exon	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00003522925";
+1	nonsense_mediated_decay	CDS	1254676	1254904	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; protein_id "ENSP00000432777";
+1	nonsense_mediated_decay	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00003625354";
+1	nonsense_mediated_decay	CDS	1250900	1250998	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; protein_id "ENSP00000432777";
+1	nonsense_mediated_decay	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00003562382";
+1	nonsense_mediated_decay	CDS	1250784	1250818	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; protein_id "ENSP00000432777";
+1	nonsense_mediated_decay	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00003604585";
+1	nonsense_mediated_decay	CDS	1250204	1250342	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; protein_id "ENSP00000432777";
+1	nonsense_mediated_decay	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00003655210";
+1	nonsense_mediated_decay	CDS	1249170	1249301	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; protein_id "ENSP00000432777";
+1	nonsense_mediated_decay	stop_codon	1249167	1249169	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00003594177";
+1	nonsense_mediated_decay	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "10"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00003616764";
+1	nonsense_mediated_decay	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "11"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00003654424";
+1	nonsense_mediated_decay	exon	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "12"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00003579189";
+1	nonsense_mediated_decay	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "13"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00003588285";
+1	nonsense_mediated_decay	exon	1247664	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; exon_number "14"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana"; exon_id "ENSE00002147922";
+1	nonsense_mediated_decay	UTR	1259989	1260028	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1249112	1249166	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247973	1248080	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1247664	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000528879"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-046"; transcript_source "havana";
+1	retained_intron	transcript	1247666	1249130	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525769"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-047"; transcript_source "havana";
+1	retained_intron	exon	1249112	1249130	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525769"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-047"; transcript_source "havana"; exon_id "ENSE00002185559";
+1	retained_intron	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525769"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-047"; transcript_source "havana"; exon_id "ENSE00003594177";
+1	retained_intron	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525769"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-047"; transcript_source "havana"; exon_id "ENSE00003616764";
+1	retained_intron	exon	1247973	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525769"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-047"; transcript_source "havana"; exon_id "ENSE00001868536";
+1	retained_intron	exon	1247820	1247881	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525769"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-047"; transcript_source "havana"; exon_id "ENSE00003588285";
+1	retained_intron	exon	1247666	1247748	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525769"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-047"; transcript_source "havana"; exon_id "ENSE00002145937";
+1	nonsense_mediated_decay	transcript	1248167	1254726	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1254676	1254726	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; exon_id "ENSE00002193286"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1254676	1254726	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; protein_id "ENSP00000433264"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; exon_id "ENSE00003625354"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1250900	1250998	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; protein_id "ENSP00000433264"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; exon_id "ENSE00003594658"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1250328	1250342	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; protein_id "ENSP00000433264"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; exon_id "ENSE00003604060"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; exon_id "ENSE00003594177"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; exon_id "ENSE00003616764"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; exon_id "ENSE00003654424"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1250204	1250327	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1248167	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531377"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-042"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	transcript	1248319	1250988	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1250900	1250988	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; exon_id "ENSE00001839639"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1250900	1250988	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; protein_id "ENSP00000431425"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; exon_id "ENSE00003594658"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1250328	1250342	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; protein_id "ENSP00000431425"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; exon_id "ENSE00003464675"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; exon_id "ENSE00003604060"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; exon_id "ENSE00003594177"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; exon_id "ENSE00003616764"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1248319	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; exon_id "ENSE00002167709"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1250204	1250327	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1248415	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1248319	1248329	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527383"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-043"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1248439	1250044	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531292"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-044"; transcript_source "havana";
+1	retained_intron	exon	1249681	1250044	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531292"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-044"; transcript_source "havana"; exon_id "ENSE00002150159";
+1	retained_intron	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531292"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-044"; transcript_source "havana"; exon_id "ENSE00003604060";
+1	retained_intron	exon	1248889	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531292"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-044"; transcript_source "havana"; exon_id "ENSE00003594177";
+1	retained_intron	exon	1248439	1248504	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531292"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-044"; transcript_source "havana"; exon_id "ENSE00002141665";
+1	retained_intron	transcript	1248926	1250981	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000467408"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-019"; transcript_source "havana";
+1	retained_intron	exon	1250784	1250981	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000467408"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-019"; transcript_source "havana"; exon_id "ENSE00001844031";
+1	retained_intron	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000467408"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-019"; transcript_source "havana"; exon_id "ENSE00003620245";
+1	retained_intron	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000467408"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-019"; transcript_source "havana"; exon_id "ENSE00003464675";
+1	retained_intron	exon	1249112	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000467408"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-019"; transcript_source "havana"; exon_id "ENSE00003604060";
+1	retained_intron	exon	1248926	1248972	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000467408"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-019"; transcript_source "havana"; exon_id "ENSE00001883392";
+1	protein_coding	transcript	1249125	1260010	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1259961	1260010	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; exon_id "ENSE00001653234"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; protein_id "ENSP00000411233"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; exon_id "ENSE00003594178"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1256376	1256473	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; protein_id "ENSP00000411233"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; exon_id "ENSE00003666435"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1255836	1255909	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; protein_id "ENSP00000411233"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1254452	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; exon_id "ENSE00001761855"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1254452	1254904	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; protein_id "ENSP00000411233"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; exon_id "ENSE00003604585"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1250204	1250342	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; protein_id "ENSP00000411233"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1249681	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; exon_id "ENSE00003481468"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1249681	1249745	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; protein_id "ENSP00000411233"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1249125	1249301	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; exon_id "ENSE00002198851"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1249125	1249301	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; protein_id "ENSP00000411233"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1259989	1260010	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000434694"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	retained_intron	transcript	1249516	1250521	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531020"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-045"; transcript_source "havana";
+1	retained_intron	exon	1250204	1250521	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531020"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-045"; transcript_source "havana"; exon_id "ENSE00001816125";
+1	retained_intron	exon	1249516	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531020"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-045"; transcript_source "havana"; exon_id "ENSE00002201896";
+1	retained_intron	transcript	1249693	1251077	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000533916"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-041"; transcript_source "havana";
+1	retained_intron	exon	1250900	1251077	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000533916"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-041"; transcript_source "havana"; exon_id "ENSE00002152656";
+1	retained_intron	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000533916"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-041"; transcript_source "havana"; exon_id "ENSE00003493634";
+1	retained_intron	exon	1250204	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000533916"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-041"; transcript_source "havana"; exon_id "ENSE00003620245";
+1	retained_intron	exon	1249693	1249745	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000533916"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-041"; transcript_source "havana"; exon_id "ENSE00002147734";
+1	retained_intron	transcript	1249793	1260009	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000488042"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-018"; transcript_source "havana";
+1	retained_intron	exon	1259961	1260009	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000488042"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-018"; transcript_source "havana"; exon_id "ENSE00002151791";
+1	retained_intron	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000488042"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-018"; transcript_source "havana"; exon_id "ENSE00003486767";
+1	retained_intron	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000488042"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-018"; transcript_source "havana"; exon_id "ENSE00003591740";
+1	retained_intron	exon	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000488042"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-018"; transcript_source "havana"; exon_id "ENSE00003495700";
+1	retained_intron	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000488042"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-018"; transcript_source "havana"; exon_id "ENSE00003488128";
+1	retained_intron	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000488042"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-018"; transcript_source "havana"; exon_id "ENSE00003493634";
+1	retained_intron	exon	1249793	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000488042"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-018"; transcript_source "havana"; exon_id "ENSE00001929252";
+1	nonsense_mediated_decay	transcript	1250206	1260038	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1259961	1260038	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana"; exon_id "ENSE00003692833";
+1	nonsense_mediated_decay	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana"; protein_id "ENSP00000435418";
+1	nonsense_mediated_decay	start_codon	1259986	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana"; exon_id "ENSE00003594178";
+1	nonsense_mediated_decay	CDS	1256376	1256473	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana"; protein_id "ENSP00000435418";
+1	nonsense_mediated_decay	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana"; exon_id "ENSE00003666435";
+1	nonsense_mediated_decay	CDS	1255836	1255909	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana"; protein_id "ENSP00000435418";
+1	nonsense_mediated_decay	exon	1254676	1254813	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana"; exon_id "ENSE00003481375";
+1	nonsense_mediated_decay	CDS	1254771	1254813	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana"; protein_id "ENSP00000435418";
+1	nonsense_mediated_decay	stop_codon	1254768	1254770	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana"; exon_id "ENSE00003488128";
+1	nonsense_mediated_decay	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana"; exon_id "ENSE00003493634";
+1	nonsense_mediated_decay	exon	1250206	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana"; exon_id "ENSE00002152448";
+1	nonsense_mediated_decay	UTR	1259989	1260038	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1254676	1254767	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1250206	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526797"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-037"; transcript_source "havana";
+1	protein_coding	transcript	1250207	1260040	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526332"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-038"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1259961	1260040	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526332"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-038"; transcript_source "havana"; exon_id "ENSE00003536642"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526332"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-038"; transcript_source "havana"; exon_id "ENSE00003586464"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1254676	1254732	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000526332"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-038"; transcript_source "havana"; protein_id "ENSP00000434790"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526332"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-038"; transcript_source "havana"; exon_id "ENSE00003625354"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1250900	1250998	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000526332"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-038"; transcript_source "havana"; protein_id "ENSP00000434790"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526332"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-038"; transcript_source "havana"; exon_id "ENSE00003562382"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1250784	1250818	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000526332"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-038"; transcript_source "havana"; protein_id "ENSP00000434790"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1250207	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526332"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-038"; transcript_source "havana"; exon_id "ENSE00002168847"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1250207	1250342	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000526332"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-038"; transcript_source "havana"; protein_id "ENSP00000434790"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1259961	1260040	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526332"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-038"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1254733	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526332"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-038"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	transcript	1250258	1260005	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1259961	1260005	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana"; exon_id "ENSE00001686285";
+1	nonsense_mediated_decay	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana"; protein_id "ENSP00000404012";
+1	nonsense_mediated_decay	start_codon	1259986	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1258561	1258667	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana"; exon_id "ENSE00003473777";
+1	nonsense_mediated_decay	CDS	1258561	1258667	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana"; protein_id "ENSP00000404012";
+1	nonsense_mediated_decay	exon	1257288	1257364	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana"; exon_id "ENSE00003568167";
+1	nonsense_mediated_decay	CDS	1257288	1257364	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana"; protein_id "ENSP00000404012";
+1	nonsense_mediated_decay	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana"; exon_id "ENSE00003600671";
+1	nonsense_mediated_decay	CDS	1256383	1256473	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana"; protein_id "ENSP00000404012";
+1	nonsense_mediated_decay	stop_codon	1256380	1256382	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana"; exon_id "ENSE00003591740";
+1	nonsense_mediated_decay	exon	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana"; exon_id "ENSE00003495700";
+1	nonsense_mediated_decay	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana"; exon_id "ENSE00003488128";
+1	nonsense_mediated_decay	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana"; exon_id "ENSE00003493634";
+1	nonsense_mediated_decay	exon	1250258	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; exon_number "9"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana"; exon_id "ENSE00001667422";
+1	nonsense_mediated_decay	UTR	1259989	1260005	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1256376	1256379	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1250258	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000430786"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-013"; transcript_source "havana";
+1	protein_coding	transcript	1250296	1260051	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1259961	1260051	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; exon_id "ENSE00003468818"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1257288	1257364	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; exon_id "ENSE00003482551"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1257288	1257333	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; protein_id "ENSP00000436743"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; exon_id "ENSE00003594178"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1256376	1256473	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; protein_id "ENSP00000436743"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; exon_id "ENSE00003666435"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1255836	1255909	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; protein_id "ENSP00000436743"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; exon_id "ENSE00003522925"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1254676	1254904	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; protein_id "ENSP00000436743"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; exon_id "ENSE00003625354"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1250900	1250998	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; protein_id "ENSP00000436743"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; exon_id "ENSE00003562382"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1250784	1250818	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; protein_id "ENSP00000436743"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1250296	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; exon_id "ENSE00002147870"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1250296	1250342	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; protein_id "ENSP00000436743"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1259961	1260051	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1257334	1257364	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000527719"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-030"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	1250298	1260039	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1259961	1260039	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; exon_id "ENSE00002145067"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; protein_id "ENSP00000432009"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1258527	1258667	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; exon_id "ENSE00001630838"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1258527	1258667	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; protein_id "ENSP00000432009"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; exon_id "ENSE00003594178"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1256376	1256473	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; protein_id "ENSP00000432009"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; exon_id "ENSE00003666435"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1255836	1255909	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; protein_id "ENSP00000432009"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; exon_id "ENSE00003522925"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1254676	1254904	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; protein_id "ENSP00000432009"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; exon_id "ENSE00003625354"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1250900	1250998	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; protein_id "ENSP00000432009"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1250784	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; exon_id "ENSE00003562382"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1250784	1250818	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "7"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; protein_id "ENSP00000432009"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1250298	1250342	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; exon_id "ENSE00002181264"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1250298	1250342	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; exon_number "8"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; protein_id "ENSP00000432009"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1259989	1260039	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000530031"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-034"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	retained_intron	transcript	1250384	1260017	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526113"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-040"; transcript_source "havana";
+1	retained_intron	exon	1259961	1260017	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526113"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-040"; transcript_source "havana"; exon_id "ENSE00001809564";
+1	retained_intron	exon	1250900	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526113"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-040"; transcript_source "havana"; exon_id "ENSE00003488128";
+1	retained_intron	exon	1250384	1250818	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526113"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-040"; transcript_source "havana"; exon_id "ENSE00001816452";
+1	retained_intron	transcript	1250526	1260038	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526904"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-039"; transcript_source "havana";
+1	retained_intron	exon	1259961	1260038	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526904"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-039"; transcript_source "havana"; exon_id "ENSE00003592609";
+1	retained_intron	exon	1250526	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000526904"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-039"; transcript_source "havana"; exon_id "ENSE00002145806";
+1	retained_intron	transcript	1250940	1256285	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525603"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-026"; transcript_source "havana";
+1	retained_intron	exon	1255836	1256285	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525603"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-026"; transcript_source "havana"; exon_id "ENSE00002189391";
+1	retained_intron	exon	1254676	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525603"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-026"; transcript_source "havana"; exon_id "ENSE00003495700";
+1	retained_intron	exon	1250940	1250998	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525603"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-026"; transcript_source "havana"; exon_id "ENSE00002176219";
+1	retained_intron	transcript	1254059	1260046	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000429572"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-016"; transcript_source "havana";
+1	retained_intron	exon	1259961	1260046	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000429572"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-016"; transcript_source "havana"; exon_id "ENSE00003519074";
+1	retained_intron	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000429572"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-016"; transcript_source "havana"; exon_id "ENSE00003486767";
+1	retained_intron	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000429572"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-016"; transcript_source "havana"; exon_id "ENSE00003591740";
+1	retained_intron	exon	1254059	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000429572"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-016"; transcript_source "havana"; exon_id "ENSE00001781356";
+1	retained_intron	transcript	1254061	1260067	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000498173"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-002"; transcript_source "havana";
+1	retained_intron	exon	1259961	1260067	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000498173"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-002"; transcript_source "havana"; exon_id "ENSE00002149815";
+1	retained_intron	exon	1255836	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000498173"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-002"; transcript_source "havana"; exon_id "ENSE00001824639";
+1	retained_intron	exon	1254061	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000498173"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-002"; transcript_source "havana"; exon_id "ENSE00001837856";
+1	retained_intron	transcript	1254077	1259991	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000496353"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-003"; transcript_source "havana";
+1	retained_intron	exon	1259961	1259991	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000496353"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-003"; transcript_source "havana"; exon_id "ENSE00001834473";
+1	retained_intron	exon	1254077	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000496353"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-003"; transcript_source "havana"; exon_id "ENSE00001905866";
+1	processed_transcript	transcript	1254440	1260038	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000493534"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-015"; transcript_source "havana";
+1	processed_transcript	exon	1259961	1260038	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000493534"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-015"; transcript_source "havana"; exon_id "ENSE00003592609";
+1	processed_transcript	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000493534"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-015"; transcript_source "havana"; exon_id "ENSE00003486767";
+1	processed_transcript	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000493534"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-015"; transcript_source "havana"; exon_id "ENSE00003591740";
+1	processed_transcript	exon	1254440	1255085	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000493534"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-015"; transcript_source "havana"; exon_id "ENSE00001838790";
+1	protein_coding	transcript	1254686	1260051	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000534345"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-032"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1259961	1260051	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000534345"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-032"; transcript_source "havana"; exon_id "ENSE00003494638"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000534345"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-032"; transcript_source "havana"; protein_id "ENSP00000435772"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1256376	1256476	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000534345"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-032"; transcript_source "havana"; exon_id "ENSE00002146563"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1256376	1256476	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000534345"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-032"; transcript_source "havana"; protein_id "ENSP00000435772"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000534345"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-032"; transcript_source "havana"; exon_id "ENSE00003666435"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1255836	1255909	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000534345"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-032"; transcript_source "havana"; protein_id "ENSP00000435772"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1254686	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000534345"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-032"; transcript_source "havana"; exon_id "ENSE00002184519"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1254686	1254904	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000534345"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-032"; transcript_source "havana"; protein_id "ENSP00000435772"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1259989	1260051	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000534345"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-032"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	processed_transcript	transcript	1254727	1260022	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532952"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-027"; transcript_source "havana";
+1	processed_transcript	exon	1259961	1260022	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532952"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-027"; transcript_source "havana"; exon_id "ENSE00002155378";
+1	processed_transcript	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532952"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-027"; transcript_source "havana"; exon_id "ENSE00003486767";
+1	processed_transcript	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532952"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-027"; transcript_source "havana"; exon_id "ENSE00003591740";
+1	processed_transcript	exon	1254727	1255265	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000532952"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-027"; transcript_source "havana"; exon_id "ENSE00002197854";
+1	processed_transcript	transcript	1254761	1260029	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000490853"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-014"; transcript_source "havana";
+1	processed_transcript	exon	1259961	1260029	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000490853"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-014"; transcript_source "havana"; exon_id "ENSE00002715890";
+1	processed_transcript	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000490853"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-014"; transcript_source "havana"; exon_id "ENSE00003486767";
+1	processed_transcript	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000490853"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-014"; transcript_source "havana"; exon_id "ENSE00003591740";
+1	processed_transcript	exon	1254761	1255223	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000490853"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-014"; transcript_source "havana"; exon_id "ENSE00001944541";
+1	nonsense_mediated_decay	transcript	1254761	1260040	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531019"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-033"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1259961	1260040	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531019"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-033"; transcript_source "havana"; exon_id "ENSE00003484340";
+1	nonsense_mediated_decay	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000531019"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-033"; transcript_source "havana"; protein_id "ENSP00000433733";
+1	nonsense_mediated_decay	start_codon	1259986	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000531019"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-033"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531019"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-033"; transcript_source "havana"; exon_id "ENSE00003594178";
+1	nonsense_mediated_decay	CDS	1256376	1256473	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000531019"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-033"; transcript_source "havana"; protein_id "ENSP00000433733";
+1	nonsense_mediated_decay	exon	1255836	1256062	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531019"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-033"; transcript_source "havana"; exon_id "ENSE00001918561";
+1	nonsense_mediated_decay	CDS	1256021	1256062	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000531019"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-033"; transcript_source "havana"; protein_id "ENSP00000433733";
+1	nonsense_mediated_decay	stop_codon	1256018	1256020	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000531019"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-033"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1254761	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531019"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-033"; transcript_source "havana"; exon_id "ENSE00002172604";
+1	nonsense_mediated_decay	UTR	1259989	1260040	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531019"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-033"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1255836	1256017	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531019"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-033"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1254761	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000531019"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-033"; transcript_source "havana";
+1	protein_coding	transcript	1254783	1260040	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1259961	1260040	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; exon_id "ENSE00003484340"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1259961	1259988	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; protein_id "ENSP00000436824"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1258561	1258667	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; exon_id "ENSE00003473777"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1258561	1258667	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; protein_id "ENSP00000436824"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1257288	1257360	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; exon_id "ENSE00002161615"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1257288	1257360	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; protein_id "ENSP00000436824"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; exon_id "ENSE00003594178"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1256376	1256473	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; protein_id "ENSP00000436824"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1255836	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; exon_id "ENSE00003666435"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1255836	1255909	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; exon_number "5"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; protein_id "ENSP00000436824"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1254783	1254904	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; exon_id "ENSE00001863018"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1254783	1254904	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; exon_number "6"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; protein_id "ENSP00000436824"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1259989	1260040	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000498476"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-031"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	transcript	1254850	1259983	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470679"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-025"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1259961	1259983	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470679"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-025"; transcript_source "havana"; exon_id "ENSE00001931302"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1259961	1259983	.	-	1	gene_id "ENSG00000127054"; transcript_id "ENST00000470679"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-025"; transcript_source "havana"; protein_id "ENSP00000434782"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470679"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-025"; transcript_source "havana"; exon_id "ENSE00003594178"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1256376	1256473	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000470679"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-025"; transcript_source "havana"; protein_id "ENSP00000434782"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1255836	1256062	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470679"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-025"; transcript_source "havana"; exon_id "ENSE00001918561"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1256018	1256062	.	-	0	gene_id "ENSG00000127054"; transcript_id "ENST00000470679"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-025"; transcript_source "havana"; protein_id "ENSP00000434782"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1254850	1255085	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470679"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-025"; transcript_source "havana"; exon_id "ENSE00001919990"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1255836	1256017	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470679"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-025"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1254850	1255085	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000470679"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-025"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	transcript	1255858	1259993	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525285"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-036"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1259961	1259993	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525285"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-036"; transcript_source "havana"; exon_id "ENSE00001925356"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1259961	1259993	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000525285"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-036"; transcript_source "havana"; protein_id "ENSP00000436396"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1258272	1258667	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525285"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-036"; transcript_source "havana"; exon_id "ENSE00003515431"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1258507	1258667	.	-	2	gene_id "ENSG00000127054"; transcript_id "ENST00000525285"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-036"; transcript_source "havana"; protein_id "ENSP00000436396"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525285"; exon_number "3"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-036"; transcript_source "havana"; exon_id "ENSE00003486767"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1255858	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525285"; exon_number "4"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-036"; transcript_source "havana"; exon_id "ENSE00002192624"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1258272	1258506	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525285"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-036"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1256376	1256473	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525285"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-036"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1255858	1255909	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000525285"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-036"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1258151	1260038	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000530233"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-035"; transcript_source "havana";
+1	retained_intron	exon	1259961	1260038	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000530233"; exon_number "1"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-035"; transcript_source "havana"; exon_id "ENSE00003592609";
+1	retained_intron	exon	1258151	1258667	.	-	.	gene_id "ENSG00000127054"; transcript_id "ENST00000530233"; exon_number "2"; gene_name "CPSF3L"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CPSF3L-035"; transcript_source "havana"; exon_id "ENSE00002159906";
+1	sense_intronic	gene	1252961	1254069	.	-	.	gene_id "ENSG00000240731"; gene_name "RP5-890O3.9"; gene_source "havana"; gene_biotype "sense_intronic";
+1	sense_intronic	transcript	1252961	1254069	.	-	.	gene_id "ENSG00000240731"; transcript_id "ENST00000444968"; gene_name "RP5-890O3.9"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP5-890O3.9-001"; transcript_source "havana";
+1	sense_intronic	exon	1254003	1254069	.	-	.	gene_id "ENSG00000240731"; transcript_id "ENST00000444968"; exon_number "1"; gene_name "RP5-890O3.9"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP5-890O3.9-001"; transcript_source "havana"; exon_id "ENSE00001634414";
+1	sense_intronic	exon	1252961	1253279	.	-	.	gene_id "ENSG00000240731"; transcript_id "ENST00000444968"; exon_number "2"; gene_name "RP5-890O3.9"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP5-890O3.9-001"; transcript_source "havana"; exon_id "ENSE00001597157";
+1	protein_coding	gene	1260136	1264277	.	+	.	gene_id "ENSG00000224051"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	processed_transcript	transcript	1260136	1263374	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000464957"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-002"; transcript_source "havana";
+1	processed_transcript	exon	1260136	1260482	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000464957"; exon_number "1"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-002"; transcript_source "havana"; exon_id "ENSE00001924799";
+1	processed_transcript	exon	1262621	1263374	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000464957"; exon_number "2"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-002"; transcript_source "havana"; exon_id "ENSE00001873557";
+1	protein_coding	transcript	1260147	1264277	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000343938"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30555";
+1	protein_coding	exon	1260147	1260482	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000343938"; exon_number "1"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30555"; exon_id "ENSE00001831550";
+1	protein_coding	exon	1262216	1262412	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000343938"; exon_number "2"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30555"; exon_id "ENSE00002725815";
+1	protein_coding	CDS	1262291	1262412	.	+	0	gene_id "ENSG00000224051"; transcript_id "ENST00000343938"; exon_number "2"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30555"; protein_id "ENSP00000343890";
+1	protein_coding	start_codon	1262291	1262293	.	+	0	gene_id "ENSG00000224051"; transcript_id "ENST00000343938"; exon_number "2"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30555";
+1	protein_coding	exon	1262621	1264277	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000343938"; exon_number "3"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30555"; exon_id "ENSE00001714593";
+1	protein_coding	CDS	1262621	1263140	.	+	1	gene_id "ENSG00000224051"; transcript_id "ENST00000343938"; exon_number "3"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30555"; protein_id "ENSP00000343890";
+1	protein_coding	stop_codon	1263141	1263143	.	+	0	gene_id "ENSG00000224051"; transcript_id "ENST00000343938"; exon_number "3"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30555";
+1	protein_coding	UTR	1260147	1260482	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000343938"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30555";
+1	protein_coding	UTR	1262216	1262290	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000343938"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30555";
+1	protein_coding	UTR	1263144	1264277	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000343938"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30555";
+1	protein_coding	transcript	1260621	1262851	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000488011"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1260621	1260975	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000488011"; exon_number "1"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-003"; transcript_source "havana"; exon_id "ENSE00001872334"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1262216	1262412	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000488011"; exon_number "2"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-003"; transcript_source "havana"; exon_id "ENSE00002725815"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1262291	1262412	.	+	0	gene_id "ENSG00000224051"; transcript_id "ENST00000488011"; exon_number "2"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-003"; transcript_source "havana"; protein_id "ENSP00000462636"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1262621	1262851	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000488011"; exon_number "3"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-003"; transcript_source "havana"; exon_id "ENSE00001930047"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1262621	1262851	.	+	1	gene_id "ENSG00000224051"; transcript_id "ENST00000488011"; exon_number "3"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-003"; transcript_source "havana"; protein_id "ENSP00000462636"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1260621	1260975	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000488011"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1262216	1262290	.	+	.	gene_id "ENSG00000224051"; transcript_id "ENST00000488011"; gene_name "GLTPD1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GLTPD1-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	gene	1266694	1270686	.	+	.	gene_id "ENSG00000169962"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1266694	1270686	.	+	.	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556";
+1	protein_coding	exon	1266694	1266916	.	+	.	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "1"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556"; exon_id "ENSE00001691126";
+1	protein_coding	CDS	1266726	1266916	.	+	0	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "1"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556"; protein_id "ENSP00000344411";
+1	protein_coding	start_codon	1266726	1266728	.	+	0	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "1"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556";
+1	protein_coding	exon	1267018	1267318	.	+	.	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "2"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556"; exon_id "ENSE00001779983";
+1	protein_coding	CDS	1267018	1267318	.	+	1	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "2"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556"; protein_id "ENSP00000344411";
+1	protein_coding	exon	1267404	1268186	.	+	.	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "3"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556"; exon_id "ENSE00001130446";
+1	protein_coding	CDS	1267404	1268186	.	+	0	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "3"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556"; protein_id "ENSP00000344411";
+1	protein_coding	exon	1268301	1268504	.	+	.	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "4"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556"; exon_id "ENSE00001694801";
+1	protein_coding	CDS	1268301	1268504	.	+	0	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "4"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556"; protein_id "ENSP00000344411";
+1	protein_coding	exon	1268639	1268759	.	+	.	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "5"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556"; exon_id "ENSE00001627951";
+1	protein_coding	CDS	1268639	1268759	.	+	0	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "5"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556"; protein_id "ENSP00000344411";
+1	protein_coding	exon	1268886	1270686	.	+	.	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "6"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556"; exon_id "ENSE00001379118";
+1	protein_coding	CDS	1268886	1269841	.	+	2	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "6"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556"; protein_id "ENSP00000344411";
+1	protein_coding	stop_codon	1269842	1269844	.	+	0	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; exon_number "6"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556";
+1	protein_coding	UTR	1266694	1266725	.	+	.	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556";
+1	protein_coding	UTR	1269845	1270686	.	+	.	gene_id "ENSG00000169962"; transcript_id "ENST00000339381"; gene_name "TAS1R3"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TAS1R3-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30556";
+1	protein_coding	gene	1270656	1284730	.	-	.	gene_id "ENSG00000107404"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1270656	1284492	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22";
+1	protein_coding	exon	1284276	1284492	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "1"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00001479184";
+1	protein_coding	CDS	1284276	1284445	.	-	0	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "1"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	start_codon	1284443	1284445	.	-	0	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "1"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22";
+1	protein_coding	exon	1278069	1278138	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "2"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00003672937";
+1	protein_coding	CDS	1278069	1278138	.	-	1	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "2"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	exon	1277743	1277864	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "3"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00003642103";
+1	protein_coding	CDS	1277743	1277864	.	-	0	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "3"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	exon	1277433	1277536	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "4"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00000955181";
+1	protein_coding	CDS	1277433	1277536	.	-	1	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "4"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	exon	1277047	1277185	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "5"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00001316141";
+1	protein_coding	CDS	1277047	1277185	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "5"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	exon	1275790	1275883	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "6"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00000955183";
+1	protein_coding	CDS	1275790	1275883	.	-	1	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "6"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	exon	1275627	1275696	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "7"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00000955184";
+1	protein_coding	CDS	1275627	1275696	.	-	0	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "7"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	exon	1275418	1275557	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "8"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00001762921";
+1	protein_coding	CDS	1275418	1275557	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "8"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	exon	1275116	1275192	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "9"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00001784308";
+1	protein_coding	CDS	1275116	1275192	.	-	0	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "9"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	exon	1274962	1275029	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "10"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00001224879";
+1	protein_coding	CDS	1274962	1275029	.	-	1	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "10"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	exon	1274742	1274819	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "11"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00001637956";
+1	protein_coding	CDS	1274742	1274819	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "11"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	exon	1273902	1274033	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "12"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00001604958";
+1	protein_coding	CDS	1273902	1274033	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "12"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	exon	1273649	1273816	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "13"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00001713781";
+1	protein_coding	CDS	1273649	1273816	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "13"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	exon	1273357	1273563	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "14"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00001637986";
+1	protein_coding	CDS	1273357	1273563	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "14"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	exon	1270656	1271895	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "15"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; exon_id "ENSE00001809764";
+1	protein_coding	CDS	1271525	1271895	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "15"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22"; protein_id "ENSP00000368169";
+1	protein_coding	stop_codon	1271522	1271524	.	-	0	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; exon_number "15"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22";
+1	protein_coding	UTR	1284446	1284492	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22";
+1	protein_coding	UTR	1270656	1271521	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378891"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS22";
+1	protein_coding	transcript	1270656	1284730	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana";
+1	protein_coding	exon	1284276	1284730	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "1"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001857962";
+1	protein_coding	CDS	1284276	1284445	.	-	0	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "1"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	start_codon	1284443	1284445	.	-	0	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "1"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana";
+1	protein_coding	exon	1278069	1278138	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "2"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003672937";
+1	protein_coding	CDS	1278069	1278138	.	-	1	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "2"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	exon	1277743	1277864	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "3"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003642103";
+1	protein_coding	CDS	1277743	1277864	.	-	0	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "3"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	exon	1277433	1277536	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "4"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00000955181";
+1	protein_coding	CDS	1277433	1277536	.	-	1	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "4"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	exon	1277047	1277185	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "5"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001316141";
+1	protein_coding	CDS	1277047	1277185	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "5"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	exon	1275790	1275883	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "6"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00000955183";
+1	protein_coding	CDS	1275790	1275883	.	-	1	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "6"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	exon	1275627	1275696	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "7"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00000955184";
+1	protein_coding	CDS	1275627	1275696	.	-	0	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "7"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	exon	1275418	1275557	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "8"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001762921";
+1	protein_coding	CDS	1275418	1275557	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "8"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	exon	1275116	1275192	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "9"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001784308";
+1	protein_coding	CDS	1275116	1275192	.	-	0	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "9"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	exon	1274962	1275029	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "10"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001224879";
+1	protein_coding	CDS	1274962	1275029	.	-	1	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "10"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	exon	1274667	1274819	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "11"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001388177";
+1	protein_coding	CDS	1274667	1274819	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "11"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	exon	1273902	1274033	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "12"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001604958";
+1	protein_coding	CDS	1273902	1274033	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "12"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	exon	1273649	1273816	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "13"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001713781";
+1	protein_coding	CDS	1273649	1273816	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "13"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	exon	1273357	1273563	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "14"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001637986";
+1	protein_coding	CDS	1273357	1273563	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "14"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	exon	1270656	1271895	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "15"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001809764";
+1	protein_coding	CDS	1271525	1271895	.	-	2	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "15"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000368166";
+1	protein_coding	stop_codon	1271522	1271524	.	-	0	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; exon_number "15"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	1284446	1284730	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	1270656	1271521	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000378888"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-004"; transcript_source "ensembl_havana";
+1	retained_intron	transcript	1277150	1284335	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000472445"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-005"; transcript_source "havana";
+1	retained_intron	exon	1284276	1284335	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000472445"; exon_number "1"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-005"; transcript_source "havana"; exon_id "ENSE00001834829";
+1	retained_intron	exon	1278069	1278138	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000472445"; exon_number "2"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-005"; transcript_source "havana"; exon_id "ENSE00003623488";
+1	retained_intron	exon	1277743	1277864	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000472445"; exon_number "3"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-005"; transcript_source "havana"; exon_id "ENSE00003563611";
+1	retained_intron	exon	1277150	1277536	.	-	.	gene_id "ENSG00000107404"; transcript_id "ENST00000472445"; exon_number "4"; gene_name "DVL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "DVL1-005"; transcript_source "havana"; exon_id "ENSE00001840109";
+1	protein_coding	gene	1288069	1297157	.	-	.	gene_id "ENSG00000162576"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	retained_intron	transcript	1288069	1289644	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000474033"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-004"; transcript_source "havana";
+1	retained_intron	exon	1289573	1289644	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000474033"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-004"; transcript_source "havana"; exon_id "ENSE00001920432";
+1	retained_intron	exon	1289410	1289486	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000474033"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-004"; transcript_source "havana"; exon_id "ENSE00003470821";
+1	retained_intron	exon	1289228	1289308	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000474033"; exon_number "3"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-004"; transcript_source "havana"; exon_id "ENSE00003596190";
+1	retained_intron	exon	1288069	1289009	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000474033"; exon_number "4"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-004"; transcript_source "havana"; exon_id "ENSE00001902265";
+1	protein_coding	transcript	1288071	1293915	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24";
+1	protein_coding	exon	1293836	1293915	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; exon_id "ENSE00001829673";
+1	protein_coding	CDS	1293836	1293884	.	-	0	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; protein_id "ENSP00000307887";
+1	protein_coding	start_codon	1293882	1293884	.	-	0	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24";
+1	protein_coding	exon	1292061	1292084	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; exon_id "ENSE00001224378";
+1	protein_coding	CDS	1292061	1292084	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; protein_id "ENSP00000307887";
+1	protein_coding	exon	1290830	1291132	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "3"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; exon_id "ENSE00001208985";
+1	protein_coding	CDS	1290830	1291132	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "3"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; protein_id "ENSP00000307887";
+1	protein_coding	exon	1290624	1290725	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "4"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; exon_id "ENSE00001130277";
+1	protein_coding	CDS	1290624	1290725	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "4"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; protein_id "ENSP00000307887";
+1	protein_coding	exon	1290062	1290532	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "5"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; exon_id "ENSE00001224365";
+1	protein_coding	CDS	1290062	1290532	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "5"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; protein_id "ENSP00000307887";
+1	protein_coding	exon	1289734	1289889	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "6"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; exon_id "ENSE00001066499";
+1	protein_coding	CDS	1289734	1289889	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "6"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; protein_id "ENSP00000307887";
+1	protein_coding	exon	1289573	1289612	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "7"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; exon_id "ENSE00003469474";
+1	protein_coding	CDS	1289573	1289612	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "7"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; protein_id "ENSP00000307887";
+1	protein_coding	exon	1289410	1289486	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "8"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; exon_id "ENSE00003558812";
+1	protein_coding	CDS	1289410	1289486	.	-	1	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "8"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; protein_id "ENSP00000307887";
+1	protein_coding	exon	1289228	1289308	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "9"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; exon_id "ENSE00003672275";
+1	protein_coding	CDS	1289228	1289308	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "9"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; protein_id "ENSP00000307887";
+1	protein_coding	exon	1288071	1289009	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "10"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; exon_id "ENSE00001829761";
+1	protein_coding	CDS	1288987	1289009	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "10"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24"; protein_id "ENSP00000307887";
+1	protein_coding	stop_codon	1288984	1288986	.	-	0	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; exon_number "10"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24";
+1	protein_coding	UTR	1293885	1293915	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24";
+1	protein_coding	UTR	1288071	1288983	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000309212"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS24";
+1	protein_coding	transcript	1288072	1293923	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951";
+1	protein_coding	exon	1293836	1293923	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; exon_id "ENSE00001859189";
+1	protein_coding	CDS	1293836	1293884	.	-	0	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; protein_id "ENSP00000399229";
+1	protein_coding	start_codon	1293882	1293884	.	-	0	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951";
+1	protein_coding	exon	1292061	1292084	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; exon_id "ENSE00001224378";
+1	protein_coding	CDS	1292061	1292084	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; protein_id "ENSP00000399229";
+1	protein_coding	exon	1290830	1291132	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "3"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; exon_id "ENSE00001208985";
+1	protein_coding	CDS	1290830	1291132	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "3"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; protein_id "ENSP00000399229";
+1	protein_coding	exon	1290624	1290725	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "4"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; exon_id "ENSE00001130277";
+1	protein_coding	CDS	1290624	1290725	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "4"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; protein_id "ENSP00000399229";
+1	protein_coding	exon	1290062	1290532	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "5"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; exon_id "ENSE00001224365";
+1	protein_coding	CDS	1290062	1290532	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "5"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; protein_id "ENSP00000399229";
+1	protein_coding	exon	1289734	1289889	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "6"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; exon_id "ENSE00001066499";
+1	protein_coding	CDS	1289734	1289889	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "6"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; protein_id "ENSP00000399229";
+1	protein_coding	exon	1289573	1289612	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "7"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; exon_id "ENSE00003469474";
+1	protein_coding	CDS	1289573	1289612	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "7"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; protein_id "ENSP00000399229";
+1	protein_coding	exon	1289410	1289486	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "8"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; exon_id "ENSE00003558812";
+1	protein_coding	CDS	1289410	1289486	.	-	1	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "8"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; protein_id "ENSP00000399229";
+1	protein_coding	exon	1289228	1289326	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "9"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; exon_id "ENSE00001377018";
+1	protein_coding	CDS	1289228	1289326	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "9"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; protein_id "ENSP00000399229";
+1	protein_coding	exon	1288072	1288712	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "10"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; exon_id "ENSE00001793089";
+1	protein_coding	CDS	1288684	1288712	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "10"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951"; protein_id "ENSP00000399229";
+1	protein_coding	stop_codon	1288681	1288683	.	-	0	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; exon_number "10"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951";
+1	protein_coding	UTR	1293885	1293923	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951";
+1	protein_coding	UTR	1288072	1288680	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000445648"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59951";
+1	protein_coding	transcript	1288072	1297157	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952";
+1	protein_coding	exon	1296622	1297157	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; exon_id "ENSE00001847926";
+1	protein_coding	CDS	1296622	1296643	.	-	0	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; protein_id "ENSP00000436135";
+1	protein_coding	start_codon	1296641	1296643	.	-	0	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952";
+1	protein_coding	exon	1292061	1292084	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; exon_id "ENSE00001224378";
+1	protein_coding	CDS	1292061	1292084	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; protein_id "ENSP00000436135";
+1	protein_coding	exon	1290830	1291132	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "3"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; exon_id "ENSE00001208985";
+1	protein_coding	CDS	1290830	1291132	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "3"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; protein_id "ENSP00000436135";
+1	protein_coding	exon	1290624	1290725	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "4"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; exon_id "ENSE00001130277";
+1	protein_coding	CDS	1290624	1290725	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "4"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; protein_id "ENSP00000436135";
+1	protein_coding	exon	1290062	1290532	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "5"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; exon_id "ENSE00001224365";
+1	protein_coding	CDS	1290062	1290532	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "5"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; protein_id "ENSP00000436135";
+1	protein_coding	exon	1289734	1289889	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "6"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; exon_id "ENSE00001066499";
+1	protein_coding	CDS	1289734	1289889	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "6"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; protein_id "ENSP00000436135";
+1	protein_coding	exon	1289573	1289612	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "7"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; exon_id "ENSE00003469474";
+1	protein_coding	CDS	1289573	1289612	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "7"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; protein_id "ENSP00000436135";
+1	protein_coding	exon	1289410	1289486	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "8"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; exon_id "ENSE00003558812";
+1	protein_coding	CDS	1289410	1289486	.	-	1	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "8"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; protein_id "ENSP00000436135";
+1	protein_coding	exon	1289228	1289308	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "9"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; exon_id "ENSE00003672275";
+1	protein_coding	CDS	1289228	1289308	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "9"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; protein_id "ENSP00000436135";
+1	protein_coding	exon	1288072	1289009	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "10"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; exon_id "ENSE00001208989";
+1	protein_coding	CDS	1288987	1289009	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "10"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952"; protein_id "ENSP00000436135";
+1	protein_coding	stop_codon	1288984	1288986	.	-	0	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; exon_number "10"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952";
+1	protein_coding	UTR	1296644	1297157	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952";
+1	protein_coding	UTR	1288072	1288983	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000477278"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS59952";
+1	protein_coding	transcript	1288072	1293920	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950";
+1	protein_coding	exon	1293836	1293920	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; exon_id "ENSE00001340941";
+1	protein_coding	CDS	1293836	1293884	.	-	0	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; protein_id "ENSP00000344998";
+1	protein_coding	start_codon	1293882	1293884	.	-	0	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950";
+1	protein_coding	exon	1292061	1292084	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; exon_id "ENSE00001224378";
+1	protein_coding	CDS	1292061	1292084	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; protein_id "ENSP00000344998";
+1	protein_coding	exon	1290624	1290725	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "3"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; exon_id "ENSE00001130277";
+1	protein_coding	CDS	1290624	1290725	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "3"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; protein_id "ENSP00000344998";
+1	protein_coding	exon	1290062	1290532	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "4"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; exon_id "ENSE00001224365";
+1	protein_coding	CDS	1290062	1290532	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "4"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; protein_id "ENSP00000344998";
+1	protein_coding	exon	1289734	1289889	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "5"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; exon_id "ENSE00001066499";
+1	protein_coding	CDS	1289734	1289889	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "5"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; protein_id "ENSP00000344998";
+1	protein_coding	exon	1289573	1289612	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "6"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; exon_id "ENSE00003469474";
+1	protein_coding	CDS	1289573	1289612	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "6"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; protein_id "ENSP00000344998";
+1	protein_coding	exon	1289410	1289486	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "7"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; exon_id "ENSE00003558812";
+1	protein_coding	CDS	1289410	1289486	.	-	1	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "7"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; protein_id "ENSP00000344998";
+1	protein_coding	exon	1289228	1289308	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "8"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; exon_id "ENSE00003672275";
+1	protein_coding	CDS	1289228	1289308	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "8"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; protein_id "ENSP00000344998";
+1	protein_coding	exon	1288072	1289009	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "9"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; exon_id "ENSE00001208989";
+1	protein_coding	CDS	1288987	1289009	.	-	2	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "9"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950"; protein_id "ENSP00000344998";
+1	protein_coding	stop_codon	1288984	1288986	.	-	0	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; exon_number "9"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950";
+1	protein_coding	UTR	1293885	1293920	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950";
+1	protein_coding	UTR	1288072	1288983	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000342753"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59950";
+1	retained_intron	transcript	1288572	1289854	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000473097"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-007"; transcript_source "havana";
+1	retained_intron	exon	1289734	1289854	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000473097"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-007"; transcript_source "havana"; exon_id "ENSE00001875866";
+1	retained_intron	exon	1289573	1289612	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000473097"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-007"; transcript_source "havana"; exon_id "ENSE00003645842";
+1	retained_intron	exon	1289410	1289486	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000473097"; exon_number "3"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-007"; transcript_source "havana"; exon_id "ENSE00003470821";
+1	retained_intron	exon	1288572	1289308	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000473097"; exon_number "4"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-007"; transcript_source "havana"; exon_id "ENSE00001851517";
+1	retained_intron	transcript	1288595	1289627	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000478517"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-008"; transcript_source "havana";
+1	retained_intron	exon	1289573	1289627	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000478517"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-008"; transcript_source "havana"; exon_id "ENSE00001928812";
+1	retained_intron	exon	1289410	1289486	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000478517"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-008"; transcript_source "havana"; exon_id "ENSE00003470821";
+1	retained_intron	exon	1288595	1289308	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000478517"; exon_number "3"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-008"; transcript_source "havana"; exon_id "ENSE00001887336";
+1	retained_intron	transcript	1288819	1290396	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000476718"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-009"; transcript_source "havana";
+1	retained_intron	exon	1290062	1290396	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000476718"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-009"; transcript_source "havana"; exon_id "ENSE00001841635";
+1	retained_intron	exon	1289573	1289889	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000476718"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-009"; transcript_source "havana"; exon_id "ENSE00001847494";
+1	retained_intron	exon	1289410	1289486	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000476718"; exon_number "3"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-009"; transcript_source "havana"; exon_id "ENSE00003470821";
+1	retained_intron	exon	1289228	1289308	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000476718"; exon_number "4"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-009"; transcript_source "havana"; exon_id "ENSE00003596190";
+1	retained_intron	exon	1288819	1289009	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000476718"; exon_number "5"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-009"; transcript_source "havana"; exon_id "ENSE00001841755";
+1	retained_intron	transcript	1290384	1290892	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000464351"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-006"; transcript_source "havana";
+1	retained_intron	exon	1290830	1290892	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000464351"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-006"; transcript_source "havana"; exon_id "ENSE00001825793";
+1	retained_intron	exon	1290384	1290725	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000464351"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-006"; transcript_source "havana"; exon_id "ENSE00001852376";
+1	retained_intron	transcript	1290463	1290892	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000460473"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-005"; transcript_source "havana";
+1	retained_intron	exon	1290624	1290892	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000460473"; exon_number "1"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-005"; transcript_source "havana"; exon_id "ENSE00001862431";
+1	retained_intron	exon	1290463	1290532	.	-	.	gene_id "ENSG00000162576"; transcript_id "ENST00000460473"; exon_number "2"; gene_name "MXRA8"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MXRA8-005"; transcript_source "havana"; exon_id "ENSE00001953304";
+1	protein_coding	gene	1309110	1310875	.	-	.	gene_id "ENSG00000175756"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1309110	1310537	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338370"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	exon	1310085	1310537	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338370"; exon_number "1"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001223521";
+1	protein_coding	CDS	1310085	1310136	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000338370"; exon_number "1"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; protein_id "ENSP00000342676";
+1	protein_coding	start_codon	1310134	1310136	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000338370"; exon_number "1"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	exon	1309380	1309825	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338370"; exon_number "2"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001629775";
+1	protein_coding	CDS	1309380	1309825	.	-	2	gene_id "ENSG00000175756"; transcript_id "ENST00000338370"; exon_number "2"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; protein_id "ENSP00000342676";
+1	protein_coding	exon	1309110	1309282	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338370"; exon_number "3"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001611509";
+1	protein_coding	CDS	1309184	1309282	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000338370"; exon_number "3"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; protein_id "ENSP00000342676";
+1	protein_coding	stop_codon	1309181	1309183	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000338370"; exon_number "3"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	UTR	1310137	1310537	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338370"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	UTR	1309110	1309180	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338370"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	transcript	1309110	1310875	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338338"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	exon	1310534	1310875	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338338"; exon_number "1"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001697866";
+1	protein_coding	exon	1310085	1310170	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338338"; exon_number "2"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001789693";
+1	protein_coding	CDS	1310085	1310136	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000338338"; exon_number "2"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS25"; protein_id "ENSP00000340656";
+1	protein_coding	start_codon	1310134	1310136	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000338338"; exon_number "2"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	exon	1309380	1309825	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338338"; exon_number "3"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001629775";
+1	protein_coding	CDS	1309380	1309825	.	-	2	gene_id "ENSG00000175756"; transcript_id "ENST00000338338"; exon_number "3"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS25"; protein_id "ENSP00000340656";
+1	protein_coding	exon	1309110	1309282	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338338"; exon_number "4"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001611509";
+1	protein_coding	CDS	1309184	1309282	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000338338"; exon_number "4"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS25"; protein_id "ENSP00000340656";
+1	protein_coding	stop_codon	1309181	1309183	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000338338"; exon_number "4"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	UTR	1310534	1310875	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338338"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	UTR	1310137	1310170	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338338"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	UTR	1309110	1309180	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000338338"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	transcript	1309112	1310549	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000321751"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	exon	1310455	1310549	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000321751"; exon_number "1"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001479027";
+1	protein_coding	exon	1310085	1310170	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000321751"; exon_number "2"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001789693";
+1	protein_coding	CDS	1310085	1310136	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000321751"; exon_number "2"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; protein_id "ENSP00000319778";
+1	protein_coding	start_codon	1310134	1310136	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000321751"; exon_number "2"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	exon	1309380	1309825	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000321751"; exon_number "3"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001629775";
+1	protein_coding	CDS	1309380	1309825	.	-	2	gene_id "ENSG00000175756"; transcript_id "ENST00000321751"; exon_number "3"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; protein_id "ENSP00000319778";
+1	protein_coding	exon	1309112	1309282	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000321751"; exon_number "4"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001790281";
+1	protein_coding	CDS	1309184	1309282	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000321751"; exon_number "4"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; protein_id "ENSP00000319778";
+1	protein_coding	stop_codon	1309181	1309183	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000321751"; exon_number "4"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	UTR	1310455	1310549	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000321751"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	UTR	1310137	1310170	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000321751"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	UTR	1309112	1309180	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000321751"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	transcript	1309117	1310553	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000378853"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	exon	1310377	1310553	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000378853"; exon_number "1"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001479025";
+1	protein_coding	exon	1310085	1310170	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000378853"; exon_number "2"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001789693";
+1	protein_coding	CDS	1310085	1310136	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000378853"; exon_number "2"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; protein_id "ENSP00000368130";
+1	protein_coding	start_codon	1310134	1310136	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000378853"; exon_number "2"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	exon	1309380	1309825	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000378853"; exon_number "3"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001629775";
+1	protein_coding	CDS	1309380	1309825	.	-	2	gene_id "ENSG00000175756"; transcript_id "ENST00000378853"; exon_number "3"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; protein_id "ENSP00000368130";
+1	protein_coding	exon	1309117	1309282	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000378853"; exon_number "4"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; exon_id "ENSE00001842703";
+1	protein_coding	CDS	1309184	1309282	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000378853"; exon_number "4"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25"; protein_id "ENSP00000368130";
+1	protein_coding	stop_codon	1309181	1309183	.	-	0	gene_id "ENSG00000175756"; transcript_id "ENST00000378853"; exon_number "4"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	UTR	1310377	1310553	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000378853"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	UTR	1310137	1310170	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000378853"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	protein_coding	UTR	1309117	1309180	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000378853"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS25";
+1	processed_transcript	transcript	1309624	1310524	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000489799"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-005"; transcript_source "havana";
+1	processed_transcript	exon	1310377	1310524	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000489799"; exon_number "1"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-005"; transcript_source "havana"; exon_id "ENSE00001921648";
+1	processed_transcript	exon	1309624	1310170	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000489799"; exon_number "2"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-005"; transcript_source "havana"; exon_id "ENSE00001922199";
+1	processed_transcript	transcript	1309818	1310539	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000496905"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-004"; transcript_source "havana";
+1	processed_transcript	exon	1310085	1310539	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000496905"; exon_number "1"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-004"; transcript_source "havana"; exon_id "ENSE00001896016";
+1	processed_transcript	exon	1309818	1309970	.	-	.	gene_id "ENSG00000175756"; transcript_id "ENST00000496905"; exon_number "2"; gene_name "AURKAIP1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "AURKAIP1-004"; transcript_source "havana"; exon_id "ENSE00001821535";
+1	pseudogene	gene	1314046	1314412	.	+	.	gene_id "ENSG00000223663"; gene_name "RP5-890O3.3"; gene_source "havana"; gene_biotype "pseudogene";
+1	processed_pseudogene	transcript	1314046	1314412	.	+	.	gene_id "ENSG00000223663"; transcript_id "ENST00000435351"; gene_name "RP5-890O3.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP5-890O3.3-001"; transcript_source "havana";
+1	processed_pseudogene	exon	1314046	1314412	.	+	.	gene_id "ENSG00000223663"; transcript_id "ENST00000435351"; exon_number "1"; gene_name "RP5-890O3.3"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP5-890O3.3-001"; transcript_source "havana"; exon_id "ENSE00001626665";
+1	protein_coding	gene	1321091	1334708	.	-	.	gene_id "ENSG00000221978"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	retained_intron	transcript	1321091	1326476	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480479"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-013"; transcript_source "havana";
+1	retained_intron	exon	1326146	1326476	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480479"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-013"; transcript_source "havana"; exon_id "ENSE00001899896";
+1	retained_intron	exon	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480479"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-013"; transcript_source "havana"; exon_id "ENSE00003551360";
+1	retained_intron	exon	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480479"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-013"; transcript_source "havana"; exon_id "ENSE00003623120";
+1	retained_intron	exon	1324006	1324123	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480479"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-013"; transcript_source "havana"; exon_id "ENSE00001916118";
+1	retained_intron	exon	1323872	1323890	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480479"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-013"; transcript_source "havana"; exon_id "ENSE00001860300";
+1	retained_intron	exon	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480479"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-013"; transcript_source "havana"; exon_id "ENSE00003664122";
+1	retained_intron	exon	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480479"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-013"; transcript_source "havana"; exon_id "ENSE00003635706";
+1	retained_intron	exon	1321091	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480479"; exon_number "8"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-013"; transcript_source "havana"; exon_id "ENSE00001743668";
+1	nonsense_mediated_decay	transcript	1321862	1333684	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1333613	1333684	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; exon_id "ENSE00003643279"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1333613	1333684	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; protein_id "ENSP00000462056"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1330774	1330917	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; exon_id "ENSE00003644776"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1330851	1330917	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; protein_id "ENSP00000462056"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1328776	1328840	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; exon_id "ENSE00003610127"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1328059	1328183	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; exon_id "ENSE00001643347"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1326146	1326245	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; exon_id "ENSE00003629248"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; exon_id "ENSE00003551360"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; exon_id "ENSE00003623120"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; exon_number "8"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; exon_id "ENSE00003664122"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; exon_number "9"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; exon_id "ENSE00003635706"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1321862	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; exon_number "10"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; exon_id "ENSE00003634204"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1330774	1330850	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1328776	1328840	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1328059	1328183	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1326146	1326245	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1321862	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482621"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1321862	1333684	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl";
+1	protein_coding	exon	1333613	1333684	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; exon_id "ENSE00003650213";
+1	protein_coding	exon	1330774	1330917	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; exon_id "ENSE00003610031";
+1	protein_coding	exon	1328776	1328840	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; exon_id "ENSE00003610127";
+1	protein_coding	exon	1328059	1328183	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; exon_id "ENSE00001643347";
+1	protein_coding	exon	1326146	1326245	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; exon_id "ENSE00003596066";
+1	protein_coding	CDS	1326146	1326238	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; protein_id "ENSP00000386132";
+1	protein_coding	start_codon	1326236	1326238	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl";
+1	protein_coding	exon	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; exon_id "ENSE00003459548";
+1	protein_coding	CDS	1325839	1325943	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; protein_id "ENSP00000386132";
+1	protein_coding	exon	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; exon_id "ENSE00003481685";
+1	protein_coding	CDS	1325610	1325751	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; protein_id "ENSP00000386132";
+1	protein_coding	exon	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "8"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; exon_id "ENSE00003490441";
+1	protein_coding	CDS	1323334	1323445	.	-	2	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "8"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; protein_id "ENSP00000386132";
+1	protein_coding	exon	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "9"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; exon_id "ENSE00003503679";
+1	protein_coding	CDS	1323157	1323249	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "9"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; protein_id "ENSP00000386132";
+1	protein_coding	exon	1321862	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "10"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; exon_id "ENSE00003676233";
+1	protein_coding	CDS	1322614	1322962	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "10"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl"; protein_id "ENSP00000386132";
+1	protein_coding	stop_codon	1322611	1322613	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; exon_number "10"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1333613	1333684	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1330774	1330917	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1328776	1328840	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1328059	1328183	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1326239	1326245	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1321862	1322610	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408952"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-201"; transcript_source "ensembl";
+1	retained_intron	transcript	1321875	1324093	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000463260"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-016"; transcript_source "havana";
+1	retained_intron	exon	1323334	1324093	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000463260"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-016"; transcript_source "havana"; exon_id "ENSE00001893481";
+1	retained_intron	exon	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000463260"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-016"; transcript_source "havana"; exon_id "ENSE00003635706";
+1	retained_intron	exon	1321875	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000463260"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-016"; transcript_source "havana"; exon_id "ENSE00003690515";
+1	protein_coding	transcript	1321875	1334692	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557";
+1	protein_coding	exon	1334399	1334692	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; exon_id "ENSE00001589041";
+1	protein_coding	CDS	1334399	1334686	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; protein_id "ENSP00000383611";
+1	protein_coding	start_codon	1334684	1334686	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557";
+1	protein_coding	exon	1333977	1334051	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; exon_id "ENSE00003497083";
+1	protein_coding	CDS	1333977	1334051	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; protein_id "ENSP00000383611";
+1	protein_coding	exon	1333613	1333722	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; exon_id "ENSE00003666121";
+1	protein_coding	CDS	1333613	1333722	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; protein_id "ENSP00000383611";
+1	protein_coding	exon	1330774	1330894	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; exon_id "ENSE00003636572";
+1	protein_coding	CDS	1330774	1330894	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; protein_id "ENSP00000383611";
+1	protein_coding	exon	1328776	1328840	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; exon_id "ENSE00003583101";
+1	protein_coding	CDS	1328776	1328840	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; protein_id "ENSP00000383611";
+1	protein_coding	exon	1326146	1326245	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; exon_id "ENSE00003578981";
+1	protein_coding	CDS	1326146	1326245	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; protein_id "ENSP00000383611";
+1	protein_coding	exon	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; exon_id "ENSE00003459548";
+1	protein_coding	CDS	1325839	1325943	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; protein_id "ENSP00000383611";
+1	protein_coding	exon	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "8"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; exon_id "ENSE00003481685";
+1	protein_coding	CDS	1325610	1325751	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "8"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; protein_id "ENSP00000383611";
+1	protein_coding	exon	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "9"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; exon_id "ENSE00003490441";
+1	protein_coding	CDS	1323334	1323445	.	-	2	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "9"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; protein_id "ENSP00000383611";
+1	protein_coding	exon	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "10"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; exon_id "ENSE00003503679";
+1	protein_coding	CDS	1323157	1323249	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "10"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; protein_id "ENSP00000383611";
+1	protein_coding	exon	1321875	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "11"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; exon_id "ENSE00003539724";
+1	protein_coding	CDS	1322614	1322962	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "11"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557"; protein_id "ENSP00000383611";
+1	protein_coding	stop_codon	1322611	1322613	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; exon_number "11"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557";
+1	protein_coding	UTR	1334687	1334692	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557";
+1	protein_coding	UTR	1321875	1322610	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000400809"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30557";
+1	retained_intron	transcript	1321879	1334689	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana";
+1	retained_intron	exon	1334399	1334689	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana"; exon_id "ENSE00002034270";
+1	retained_intron	exon	1333977	1334051	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana"; exon_id "ENSE00003479392";
+1	retained_intron	exon	1333613	1333722	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana"; exon_id "ENSE00003513155";
+1	retained_intron	exon	1330774	1330894	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana"; exon_id "ENSE00003495041";
+1	retained_intron	exon	1328776	1328840	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana"; exon_id "ENSE00003610127";
+1	retained_intron	exon	1326146	1328183	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana"; exon_id "ENSE00001575891";
+1	retained_intron	exon	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana"; exon_id "ENSE00003551360";
+1	retained_intron	exon	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; exon_number "8"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana"; exon_id "ENSE00003623120";
+1	retained_intron	exon	1324330	1324427	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; exon_number "9"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana"; exon_id "ENSE00001928567";
+1	retained_intron	exon	1324006	1324123	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; exon_number "10"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana"; exon_id "ENSE00001916118";
+1	retained_intron	exon	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; exon_number "11"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana"; exon_id "ENSE00003664122";
+1	retained_intron	exon	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; exon_number "12"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana"; exon_id "ENSE00003635706";
+1	retained_intron	exon	1321879	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000496007"; exon_number "13"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-003"; transcript_source "havana"; exon_id "ENSE00001570934";
+1	retained_intron	transcript	1321882	1327134	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482365"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-014"; transcript_source "havana";
+1	retained_intron	exon	1326146	1327134	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482365"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-014"; transcript_source "havana"; exon_id "ENSE00001824585";
+1	retained_intron	exon	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482365"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-014"; transcript_source "havana"; exon_id "ENSE00003551360";
+1	retained_intron	exon	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482365"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-014"; transcript_source "havana"; exon_id "ENSE00003623120";
+1	retained_intron	exon	1324330	1324427	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482365"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-014"; transcript_source "havana"; exon_id "ENSE00001928567";
+1	retained_intron	exon	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482365"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-014"; transcript_source "havana"; exon_id "ENSE00003664122";
+1	retained_intron	exon	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482365"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-014"; transcript_source "havana"; exon_id "ENSE00003635706";
+1	retained_intron	exon	1321882	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000482365"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-014"; transcript_source "havana"; exon_id "ENSE00001925561";
+1	nonsense_mediated_decay	transcript	1322088	1334691	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1334399	1334691	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; exon_id "ENSE00002205462";
+1	nonsense_mediated_decay	CDS	1334399	1334686	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; protein_id "ENSP00000423734";
+1	nonsense_mediated_decay	start_codon	1334684	1334686	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1333977	1334051	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; exon_id "ENSE00003497083";
+1	nonsense_mediated_decay	CDS	1333977	1334051	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; protein_id "ENSP00000423734";
+1	nonsense_mediated_decay	exon	1333613	1333722	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; exon_id "ENSE00003666121";
+1	nonsense_mediated_decay	CDS	1333613	1333722	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; protein_id "ENSP00000423734";
+1	nonsense_mediated_decay	exon	1330774	1330894	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; exon_id "ENSE00003636572";
+1	nonsense_mediated_decay	CDS	1330774	1330894	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; protein_id "ENSP00000423734";
+1	nonsense_mediated_decay	exon	1328776	1328840	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; exon_id "ENSE00003583101";
+1	nonsense_mediated_decay	CDS	1328776	1328840	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; protein_id "ENSP00000423734";
+1	nonsense_mediated_decay	exon	1328170	1328183	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; exon_id "ENSE00001784177";
+1	nonsense_mediated_decay	CDS	1328170	1328183	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; protein_id "ENSP00000423734";
+1	nonsense_mediated_decay	exon	1326146	1326955	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; exon_id "ENSE00001650168";
+1	nonsense_mediated_decay	CDS	1326921	1326955	.	-	2	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; protein_id "ENSP00000423734";
+1	nonsense_mediated_decay	stop_codon	1326918	1326920	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "8"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; exon_id "ENSE00003551360";
+1	nonsense_mediated_decay	exon	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "9"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; exon_id "ENSE00003623120";
+1	nonsense_mediated_decay	exon	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "10"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; exon_id "ENSE00003664122";
+1	nonsense_mediated_decay	exon	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "11"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; exon_id "ENSE00003635706";
+1	nonsense_mediated_decay	exon	1322088	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; exon_number "12"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana"; exon_id "ENSE00001886165";
+1	nonsense_mediated_decay	UTR	1334687	1334691	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1326146	1326917	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1322088	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000481223"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-004"; transcript_source "havana";
+1	retained_intron	transcript	1322093	1327905	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000418865"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-017"; transcript_source "havana";
+1	retained_intron	exon	1326146	1327905	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000418865"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-017"; transcript_source "havana"; exon_id "ENSE00002704354";
+1	retained_intron	exon	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000418865"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-017"; transcript_source "havana"; exon_id "ENSE00003551360";
+1	retained_intron	exon	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000418865"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-017"; transcript_source "havana"; exon_id "ENSE00003623120";
+1	retained_intron	exon	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000418865"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-017"; transcript_source "havana"; exon_id "ENSE00003664122";
+1	retained_intron	exon	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000418865"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-017"; transcript_source "havana"; exon_id "ENSE00003635706";
+1	retained_intron	exon	1322093	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000418865"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-017"; transcript_source "havana"; exon_id "ENSE00001769117";
+1	processed_transcript	transcript	1322502	1327029	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000505849"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-018"; transcript_source "ensembl_havana"; tag "mRNA_end_NF";
+1	processed_transcript	exon	1326677	1327029	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000505849"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-018"; transcript_source "ensembl_havana"; exon_id "ENSE00001837934"; tag "mRNA_end_NF";
+1	processed_transcript	exon	1326146	1326245	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000505849"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-018"; transcript_source "ensembl_havana"; exon_id "ENSE00003629248"; tag "mRNA_end_NF";
+1	processed_transcript	exon	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000505849"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-018"; transcript_source "ensembl_havana"; exon_id "ENSE00003551360"; tag "mRNA_end_NF";
+1	processed_transcript	exon	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000505849"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-018"; transcript_source "ensembl_havana"; exon_id "ENSE00003623120"; tag "mRNA_end_NF";
+1	processed_transcript	exon	1324006	1324123	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000505849"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-018"; transcript_source "ensembl_havana"; exon_id "ENSE00001916118"; tag "mRNA_end_NF";
+1	processed_transcript	exon	1323872	1323890	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000505849"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-018"; transcript_source "ensembl_havana"; exon_id "ENSE00001860300"; tag "mRNA_end_NF";
+1	processed_transcript	exon	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000505849"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-018"; transcript_source "ensembl_havana"; exon_id "ENSE00003664122"; tag "mRNA_end_NF";
+1	processed_transcript	exon	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000505849"; exon_number "8"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-018"; transcript_source "ensembl_havana"; exon_id "ENSE00003635706"; tag "mRNA_end_NF";
+1	processed_transcript	exon	1322502	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000505849"; exon_number "9"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-018"; transcript_source "ensembl_havana"; exon_id "ENSE00002078067"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	transcript	1322612	1334708	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1334399	1334708	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; exon_id "ENSE00001841969";
+1	nonsense_mediated_decay	CDS	1334399	1334686	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; protein_id "ENSP00000424647";
+1	nonsense_mediated_decay	start_codon	1334684	1334686	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1333977	1334051	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; exon_id "ENSE00003497083";
+1	nonsense_mediated_decay	CDS	1333977	1334051	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; protein_id "ENSP00000424647";
+1	nonsense_mediated_decay	exon	1333613	1333722	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; exon_id "ENSE00003666121";
+1	nonsense_mediated_decay	CDS	1333613	1333722	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; protein_id "ENSP00000424647";
+1	nonsense_mediated_decay	exon	1330774	1330894	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; exon_id "ENSE00003636572";
+1	nonsense_mediated_decay	CDS	1330774	1330894	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; protein_id "ENSP00000424647";
+1	nonsense_mediated_decay	exon	1328776	1328840	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; exon_id "ENSE00003583101";
+1	nonsense_mediated_decay	CDS	1328776	1328840	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; protein_id "ENSP00000424647";
+1	nonsense_mediated_decay	exon	1328170	1328183	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; exon_id "ENSE00001784177";
+1	nonsense_mediated_decay	CDS	1328170	1328183	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; protein_id "ENSP00000424647";
+1	nonsense_mediated_decay	exon	1326146	1326245	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; exon_id "ENSE00003528783";
+1	nonsense_mediated_decay	CDS	1326238	1326245	.	-	2	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; protein_id "ENSP00000424647";
+1	nonsense_mediated_decay	stop_codon	1326235	1326237	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "8"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; exon_id "ENSE00003551360";
+1	nonsense_mediated_decay	exon	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "9"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; exon_id "ENSE00003623120";
+1	nonsense_mediated_decay	exon	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "10"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; exon_id "ENSE00003664122";
+1	nonsense_mediated_decay	exon	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "11"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; exon_id "ENSE00003635706";
+1	nonsense_mediated_decay	exon	1322612	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; exon_number "12"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana"; exon_id "ENSE00001939057";
+1	nonsense_mediated_decay	UTR	1334687	1334708	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1326146	1326234	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1322612	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000488340"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-012"; transcript_source "havana";
+1	retained_intron	transcript	1322923	1326280	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000492998"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-015"; transcript_source "havana";
+1	retained_intron	exon	1326146	1326280	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000492998"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-015"; transcript_source "havana"; exon_id "ENSE00001886972";
+1	retained_intron	exon	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000492998"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-015"; transcript_source "havana"; exon_id "ENSE00003551360";
+1	retained_intron	exon	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000492998"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-015"; transcript_source "havana"; exon_id "ENSE00003623120";
+1	retained_intron	exon	1324006	1324123	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000492998"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-015"; transcript_source "havana"; exon_id "ENSE00001916118";
+1	retained_intron	exon	1323334	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000492998"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-015"; transcript_source "havana"; exon_id "ENSE00003664122";
+1	retained_intron	exon	1323157	1323249	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000492998"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-015"; transcript_source "havana"; exon_id "ENSE00003635706";
+1	retained_intron	exon	1322923	1322962	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000492998"; exon_number "7"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-015"; transcript_source "havana"; exon_id "ENSE00001838357";
+1	processed_transcript	transcript	1323403	1328096	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000469113"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-009"; transcript_source "havana";
+1	processed_transcript	exon	1328059	1328096	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000469113"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-009"; transcript_source "havana"; exon_id "ENSE00001818177";
+1	processed_transcript	exon	1326677	1326955	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000469113"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-009"; transcript_source "havana"; exon_id "ENSE00001880644";
+1	processed_transcript	exon	1326146	1326245	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000469113"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-009"; transcript_source "havana"; exon_id "ENSE00003629248";
+1	processed_transcript	exon	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000469113"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-009"; transcript_source "havana"; exon_id "ENSE00003551360";
+1	processed_transcript	exon	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000469113"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-009"; transcript_source "havana"; exon_id "ENSE00003623120";
+1	processed_transcript	exon	1323403	1323445	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000469113"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-009"; transcript_source "havana"; exon_id "ENSE00001825926";
+1	retained_intron	transcript	1324726	1326384	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480646"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-008"; transcript_source "havana";
+1	retained_intron	exon	1326146	1326384	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480646"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-008"; transcript_source "havana"; exon_id "ENSE00001909250";
+1	retained_intron	exon	1325839	1325943	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480646"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-008"; transcript_source "havana"; exon_id "ENSE00003551360";
+1	retained_intron	exon	1325610	1325751	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480646"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-008"; transcript_source "havana"; exon_id "ENSE00003623120";
+1	retained_intron	exon	1324726	1324853	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000480646"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-008"; transcript_source "havana"; exon_id "ENSE00001944549";
+1	processed_transcript	transcript	1326533	1333746	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000471930"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-010"; transcript_source "havana";
+1	processed_transcript	exon	1333613	1333746	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000471930"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-010"; transcript_source "havana"; exon_id "ENSE00001912585";
+1	processed_transcript	exon	1330774	1330894	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000471930"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-010"; transcript_source "havana"; exon_id "ENSE00003495041";
+1	processed_transcript	exon	1328776	1328840	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000471930"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-010"; transcript_source "havana"; exon_id "ENSE00003610127";
+1	processed_transcript	exon	1328059	1328183	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000471930"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-010"; transcript_source "havana"; exon_id "ENSE00001643347";
+1	processed_transcript	exon	1326533	1326933	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000471930"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-010"; transcript_source "havana"; exon_id "ENSE00001940824";
+1	protein_coding	transcript	1327668	1334697	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558";
+1	protein_coding	exon	1334399	1334697	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558"; exon_id "ENSE00001817425";
+1	protein_coding	CDS	1334399	1334686	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558"; protein_id "ENSP00000386158";
+1	protein_coding	start_codon	1334684	1334686	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558";
+1	protein_coding	exon	1333977	1334051	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558"; exon_id "ENSE00003497083";
+1	protein_coding	CDS	1333977	1334051	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558"; protein_id "ENSP00000386158";
+1	protein_coding	exon	1333613	1333722	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558"; exon_id "ENSE00003666121";
+1	protein_coding	CDS	1333613	1333722	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558"; protein_id "ENSP00000386158";
+1	protein_coding	exon	1330774	1330894	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558"; exon_id "ENSE00003636572";
+1	protein_coding	CDS	1330774	1330894	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558"; protein_id "ENSP00000386158";
+1	protein_coding	exon	1328776	1328840	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558"; exon_id "ENSE00003583101";
+1	protein_coding	CDS	1328776	1328840	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558"; protein_id "ENSP00000386158";
+1	protein_coding	exon	1327668	1328183	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558"; exon_id "ENSE00001868627";
+1	protein_coding	CDS	1328165	1328183	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558"; protein_id "ENSP00000386158";
+1	protein_coding	stop_codon	1328162	1328164	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; exon_number "6"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558";
+1	protein_coding	UTR	1334687	1334697	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558";
+1	protein_coding	UTR	1327668	1328161	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000408918"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30558";
+1	retained_intron	transcript	1328460	1333667	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000473872"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-007"; transcript_source "havana";
+1	retained_intron	exon	1333613	1333667	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000473872"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-007"; transcript_source "havana"; exon_id "ENSE00001839608";
+1	retained_intron	exon	1330774	1330894	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000473872"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-007"; transcript_source "havana"; exon_id "ENSE00003495041";
+1	retained_intron	exon	1328460	1328840	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000473872"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-007"; transcript_source "havana"; exon_id "ENSE00001900889";
+1	nonsense_mediated_decay	transcript	1328824	1334705	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1334368	1334705	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana"; exon_id "ENSE00002044113";
+1	nonsense_mediated_decay	CDS	1334368	1334686	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana"; protein_id "ENSP00000392899";
+1	nonsense_mediated_decay	start_codon	1334684	1334686	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1333977	1334051	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana"; exon_id "ENSE00003506951";
+1	nonsense_mediated_decay	CDS	1333977	1334051	.	-	2	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana"; protein_id "ENSP00000392899";
+1	nonsense_mediated_decay	exon	1333613	1333722	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana"; exon_id "ENSE00003509225";
+1	nonsense_mediated_decay	CDS	1333613	1333722	.	-	2	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana"; protein_id "ENSP00000392899";
+1	nonsense_mediated_decay	exon	1330774	1330894	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana"; exon_id "ENSE00003660249";
+1	nonsense_mediated_decay	CDS	1330859	1330894	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana"; protein_id "ENSP00000392899";
+1	nonsense_mediated_decay	stop_codon	1330856	1330858	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; exon_number "4"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1328824	1328840	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; exon_number "5"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana"; exon_id "ENSE00002051631";
+1	nonsense_mediated_decay	UTR	1334687	1334705	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1330774	1330855	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1328824	1328840	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000425598"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-019"; transcript_source "havana";
+1	retained_intron	transcript	1330565	1333667	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000463895"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-006"; transcript_source "havana";
+1	retained_intron	exon	1333613	1333667	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000463895"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-006"; transcript_source "havana"; exon_id "ENSE00001839608";
+1	retained_intron	exon	1330565	1330894	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000463895"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-006"; transcript_source "havana"; exon_id "ENSE00001885104";
+1	protein_coding	transcript	1330817	1334336	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000497013"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1333977	1334336	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000497013"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-011"; transcript_source "havana"; exon_id "ENSE00001818452"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1333977	1334045	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000497013"; exon_number "1"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-011"; transcript_source "havana"; protein_id "ENSP00000464685"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1333613	1333722	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000497013"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-011"; transcript_source "havana"; exon_id "ENSE00003666121"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1333613	1333722	.	-	0	gene_id "ENSG00000221978"; transcript_id "ENST00000497013"; exon_number "2"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-011"; transcript_source "havana"; protein_id "ENSP00000464685"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1330817	1330894	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000497013"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-011"; transcript_source "havana"; exon_id "ENSE00001951077"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1330817	1330894	.	-	1	gene_id "ENSG00000221978"; transcript_id "ENST00000497013"; exon_number "3"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-011"; transcript_source "havana"; protein_id "ENSP00000464685"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1334046	1334336	.	-	.	gene_id "ENSG00000221978"; transcript_id "ENST00000497013"; gene_name "CCNL2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CCNL2-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	gene	1334902	1337426	.	+	.	gene_id "ENSG00000224870"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1334902	1336467	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000448629"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-004"; transcript_source "ensembl_havana";
+1	protein_coding	exon	1334902	1335069	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000448629"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001785095";
+1	protein_coding	CDS	1334932	1335069	.	+	0	gene_id "ENSG00000224870"; transcript_id "ENST00000448629"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000460786";
+1	protein_coding	start_codon	1334932	1334934	.	+	0	gene_id "ENSG00000224870"; transcript_id "ENST00000448629"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-004"; transcript_source "ensembl_havana";
+1	protein_coding	exon	1335538	1335683	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000448629"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003542209";
+1	protein_coding	CDS	1335538	1335683	.	+	0	gene_id "ENSG00000224870"; transcript_id "ENST00000448629"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000460786";
+1	protein_coding	exon	1335985	1336467	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000448629"; exon_number "3"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001721893";
+1	protein_coding	CDS	1335985	1336111	.	+	1	gene_id "ENSG00000224870"; transcript_id "ENST00000448629"; exon_number "3"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-004"; transcript_source "ensembl_havana"; protein_id "ENSP00000460786";
+1	protein_coding	stop_codon	1336112	1336114	.	+	0	gene_id "ENSG00000224870"; transcript_id "ENST00000448629"; exon_number "3"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-004"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	1334902	1334931	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000448629"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-004"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	1336115	1336467	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000448629"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-004"; transcript_source "ensembl_havana";
+1	protein_coding	transcript	1334907	1337426	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000444362"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-001"; transcript_source "havana";
+1	protein_coding	exon	1334907	1335065	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000444362"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-001"; transcript_source "havana"; exon_id "ENSE00001681264";
+1	protein_coding	CDS	1334932	1335065	.	+	0	gene_id "ENSG00000224870"; transcript_id "ENST00000444362"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-001"; transcript_source "havana"; protein_id "ENSP00000461720";
+1	protein_coding	start_codon	1334932	1334934	.	+	0	gene_id "ENSG00000224870"; transcript_id "ENST00000444362"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-001"; transcript_source "havana";
+1	protein_coding	exon	1335538	1335683	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000444362"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-001"; transcript_source "havana"; exon_id "ENSE00003673595";
+1	protein_coding	CDS	1335538	1335667	.	+	1	gene_id "ENSG00000224870"; transcript_id "ENST00000444362"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-001"; transcript_source "havana"; protein_id "ENSP00000461720";
+1	protein_coding	stop_codon	1335668	1335670	.	+	0	gene_id "ENSG00000224870"; transcript_id "ENST00000444362"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-001"; transcript_source "havana";
+1	protein_coding	exon	1335985	1337426	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000444362"; exon_number "3"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-001"; transcript_source "havana"; exon_id "ENSE00001663483";
+1	protein_coding	UTR	1334907	1334931	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000444362"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-001"; transcript_source "havana";
+1	protein_coding	UTR	1335671	1335683	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000444362"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-001"; transcript_source "havana";
+1	protein_coding	UTR	1335985	1337426	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000444362"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-001"; transcript_source "havana";
+1	retained_intron	transcript	1334910	1337406	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000418833"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-003"; transcript_source "havana";
+1	retained_intron	exon	1334910	1335683	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000418833"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-003"; transcript_source "havana"; exon_id "ENSE00001677315";
+1	retained_intron	exon	1335985	1337406	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000418833"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-003"; transcript_source "havana"; exon_id "ENSE00002666913";
+1	protein_coding	transcript	1334932	1335988	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000576232"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-008"; transcript_source "havana";
+1	protein_coding	exon	1334932	1335065	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000576232"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-008"; transcript_source "havana"; exon_id "ENSE00001726115";
+1	protein_coding	CDS	1334932	1335065	.	+	0	gene_id "ENSG00000224870"; transcript_id "ENST00000576232"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-008"; transcript_source "havana"; protein_id "ENSP00000464028";
+1	protein_coding	start_codon	1334932	1334934	.	+	0	gene_id "ENSG00000224870"; transcript_id "ENST00000576232"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-008"; transcript_source "havana";
+1	protein_coding	exon	1335538	1335988	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000576232"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-008"; transcript_source "havana"; exon_id "ENSE00002676517";
+1	protein_coding	CDS	1335538	1335667	.	+	1	gene_id "ENSG00000224870"; transcript_id "ENST00000576232"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-008"; transcript_source "havana"; protein_id "ENSP00000464028";
+1	protein_coding	stop_codon	1335668	1335670	.	+	0	gene_id "ENSG00000224870"; transcript_id "ENST00000576232"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-008"; transcript_source "havana";
+1	protein_coding	UTR	1335671	1335988	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000576232"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-008"; transcript_source "havana";
+1	protein_coding	transcript	1334942	1335924	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000570344"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-009"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1334942	1335069	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000570344"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-009"; transcript_source "havana"; exon_id "ENSE00002667055"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1334942	1335069	.	+	2	gene_id "ENSG00000224870"; transcript_id "ENST00000570344"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-009"; transcript_source "havana"; protein_id "ENSP00000464245"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1335538	1335924	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000570344"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-009"; transcript_source "havana"; exon_id "ENSE00002637634"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1335538	1335687	.	+	0	gene_id "ENSG00000224870"; transcript_id "ENST00000570344"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-009"; transcript_source "havana"; protein_id "ENSP00000464245"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1335688	1335924	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000570344"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-009"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	transcript	1334952	1337386	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000447725"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-007"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1334952	1335069	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000447725"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-007"; transcript_source "havana"; exon_id "ENSE00002648368"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1334952	1335069	.	+	0	gene_id "ENSG00000224870"; transcript_id "ENST00000447725"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-007"; transcript_source "havana"; protein_id "ENSP00000461798"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1335361	1335683	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000447725"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-007"; transcript_source "havana"; exon_id "ENSE00002679587"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1335361	1335509	.	+	2	gene_id "ENSG00000224870"; transcript_id "ENST00000447725"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-007"; transcript_source "havana"; protein_id "ENSP00000461798"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1335985	1337386	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000447725"; exon_number "3"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-007"; transcript_source "havana"; exon_id "ENSE00002675095"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1335510	1335683	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000447725"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-007"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1335985	1337386	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000447725"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-007"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1335186	1337413	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000572242"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-006"; transcript_source "havana";
+1	retained_intron	exon	1335186	1337413	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000572242"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-006"; transcript_source "havana"; exon_id "ENSE00002631179";
+1	processed_transcript	transcript	1335799	1337426	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000453521"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-002"; transcript_source "havana";
+1	processed_transcript	exon	1335799	1335852	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000453521"; exon_number "1"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-002"; transcript_source "havana"; exon_id "ENSE00001614095";
+1	processed_transcript	exon	1336623	1337426	.	+	.	gene_id "ENSG00000224870"; transcript_id "ENST00000453521"; exon_number "2"; gene_name "RP4-758J18.2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RP4-758J18.2-002"; transcript_source "havana"; exon_id "ENSE00001657730";
+1	protein_coding	gene	1337288	1342693	.	-	.	gene_id "ENSG00000242485"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1337288	1342693	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000344843"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS26";
+1	protein_coding	exon	1342511	1342693	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000344843"; exon_number "1"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS26"; exon_id "ENSE00001735034";
+1	protein_coding	CDS	1342511	1342597	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000344843"; exon_number "1"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS26"; protein_id "ENSP00000341082";
+1	protein_coding	start_codon	1342595	1342597	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000344843"; exon_number "1"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS26";
+1	protein_coding	exon	1342289	1342399	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000344843"; exon_number "2"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS26"; exon_id "ENSE00003480468";
+1	protein_coding	CDS	1342289	1342399	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000344843"; exon_number "2"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS26"; protein_id "ENSP00000341082";
+1	protein_coding	exon	1341189	1341266	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000344843"; exon_number "3"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS26"; exon_id "ENSE00003478955";
+1	protein_coding	CDS	1341189	1341266	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000344843"; exon_number "3"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS26"; protein_id "ENSP00000341082";
+1	protein_coding	exon	1337288	1337636	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000344843"; exon_number "4"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS26"; exon_id "ENSE00001940545";
+1	protein_coding	CDS	1337466	1337636	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000344843"; exon_number "4"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS26"; protein_id "ENSP00000341082";
+1	protein_coding	stop_codon	1337463	1337465	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000344843"; exon_number "4"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS26";
+1	protein_coding	UTR	1342598	1342693	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000344843"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS26";
+1	protein_coding	UTR	1337288	1337462	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000344843"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS26";
+1	processed_transcript	transcript	1337293	1341687	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000493287"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-006"; transcript_source "havana";
+1	processed_transcript	exon	1341606	1341687	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000493287"; exon_number "1"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-006"; transcript_source "havana"; exon_id "ENSE00001939039";
+1	processed_transcript	exon	1341189	1341266	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000493287"; exon_number "2"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-006"; transcript_source "havana"; exon_id "ENSE00003482356";
+1	processed_transcript	exon	1337293	1337636	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000493287"; exon_number "3"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-006"; transcript_source "havana"; exon_id "ENSE00001859456";
+1	retained_intron	transcript	1337293	1342648	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000487659"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-002"; transcript_source "havana";
+1	retained_intron	exon	1342511	1342648	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000487659"; exon_number "1"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-002"; transcript_source "havana"; exon_id "ENSE00001936270";
+1	retained_intron	exon	1341189	1342399	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000487659"; exon_number "2"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-002"; transcript_source "havana"; exon_id "ENSE00001832471";
+1	retained_intron	exon	1337293	1337636	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000487659"; exon_number "3"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-002"; transcript_source "havana"; exon_id "ENSE00001859456";
+1	protein_coding	transcript	1337562	1342378	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000492508"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1342289	1342378	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000492508"; exon_number "1"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-004"; transcript_source "havana"; exon_id "ENSE00001827496"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1342289	1342378	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000492508"; exon_number "1"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-004"; transcript_source "havana"; protein_id "ENSP00000459994"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1341189	1341266	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000492508"; exon_number "2"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-004"; transcript_source "havana"; exon_id "ENSE00003478955"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1341189	1341266	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000492508"; exon_number "2"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-004"; transcript_source "havana"; protein_id "ENSP00000459994"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1337562	1337981	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000492508"; exon_number "3"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-004"; transcript_source "havana"; exon_id "ENSE00001857938"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1337949	1337981	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000492508"; exon_number "3"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-004"; transcript_source "havana"; protein_id "ENSP00000459994"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1337562	1337948	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000492508"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1340489	1342670	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000482352"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-003"; transcript_source "ensembl_havana";
+1	protein_coding	exon	1342511	1342670	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000482352"; exon_number "1"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001889498";
+1	protein_coding	CDS	1342511	1342597	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000482352"; exon_number "1"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000460924";
+1	protein_coding	start_codon	1342595	1342597	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000482352"; exon_number "1"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-003"; transcript_source "ensembl_havana";
+1	protein_coding	exon	1342289	1342399	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000482352"; exon_number "2"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003480468";
+1	protein_coding	CDS	1342289	1342399	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000482352"; exon_number "2"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000460924";
+1	protein_coding	exon	1340489	1341266	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000482352"; exon_number "3"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001858761";
+1	protein_coding	CDS	1341000	1341266	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000482352"; exon_number "3"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-003"; transcript_source "ensembl_havana"; protein_id "ENSP00000460924";
+1	protein_coding	stop_codon	1340997	1340999	.	-	0	gene_id "ENSG00000242485"; transcript_id "ENST00000482352"; exon_number "3"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-003"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	1342598	1342670	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000482352"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-003"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	1340489	1340996	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000482352"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-003"; transcript_source "ensembl_havana";
+1	processed_transcript	transcript	1341629	1342615	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000477686"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-005"; transcript_source "havana";
+1	processed_transcript	exon	1342511	1342615	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000477686"; exon_number "1"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-005"; transcript_source "havana"; exon_id "ENSE00001878027";
+1	processed_transcript	exon	1342289	1342399	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000477686"; exon_number "2"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-005"; transcript_source "havana"; exon_id "ENSE00003460121";
+1	processed_transcript	exon	1341629	1341726	.	-	.	gene_id "ENSG00000242485"; transcript_id "ENST00000477686"; exon_number "3"; gene_name "MRPL20"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MRPL20-005"; transcript_source "havana"; exon_id "ENSE00001825740";
+1	misc_RNA	gene	1340841	1341132	.	-	.	gene_id "ENSG00000264293"; gene_name "RN7SL657P"; gene_source "ensembl"; gene_biotype "misc_RNA";
+1	misc_RNA	transcript	1340841	1341132	.	-	.	gene_id "ENSG00000264293"; transcript_id "ENST00000582431"; gene_name "RN7SL657P"; gene_source "ensembl"; gene_biotype "misc_RNA"; transcript_name "RN7SL657P-201"; transcript_source "ensembl";
+1	misc_RNA	exon	1340841	1341132	.	-	.	gene_id "ENSG00000264293"; transcript_id "ENST00000582431"; exon_number "1"; gene_name "RN7SL657P"; gene_source "ensembl"; gene_biotype "misc_RNA"; transcript_name "RN7SL657P-201"; transcript_source "ensembl"; exon_id "ENSE00002720632";
+1	lincRNA	gene	1344476	1345998	.	+	.	gene_id "ENSG00000272455"; gene_name "RP4-758J18.13"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	1344476	1345998	.	+	.	gene_id "ENSG00000272455"; transcript_id "ENST00000607307"; gene_name "RP4-758J18.13"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.13-001"; transcript_source "havana";
+1	lincRNA	exon	1344476	1345998	.	+	.	gene_id "ENSG00000272455"; transcript_id "ENST00000607307"; exon_number "1"; gene_name "RP4-758J18.13"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.13-001"; transcript_source "havana"; exon_id "ENSE00003697251";
+1	protein_coding	gene	1353800	1357149	.	-	.	gene_id "ENSG00000235098"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1353800	1356824	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000520296"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-005"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57963";
+1	protein_coding	exon	1356513	1356824	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000520296"; exon_number "1"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-005"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57963"; exon_id "ENSE00002132615";
+1	protein_coding	exon	1356196	1356385	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000520296"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-005"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57963"; exon_id "ENSE00002091680";
+1	protein_coding	CDS	1356196	1356385	.	-	0	gene_id "ENSG00000235098"; transcript_id "ENST00000520296"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-005"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57963"; protein_id "ENSP00000429035";
+1	protein_coding	start_codon	1356383	1356385	.	-	0	gene_id "ENSG00000235098"; transcript_id "ENST00000520296"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-005"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57963";
+1	protein_coding	exon	1353800	1354929	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000520296"; exon_number "3"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-005"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57963"; exon_id "ENSE00003617803";
+1	protein_coding	CDS	1354925	1354929	.	-	2	gene_id "ENSG00000235098"; transcript_id "ENST00000520296"; exon_number "3"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-005"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57963"; protein_id "ENSP00000429035";
+1	protein_coding	stop_codon	1354922	1354924	.	-	0	gene_id "ENSG00000235098"; transcript_id "ENST00000520296"; exon_number "3"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-005"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57963";
+1	protein_coding	UTR	1356513	1356824	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000520296"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-005"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57963";
+1	protein_coding	UTR	1353800	1354921	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000520296"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-005"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57963";
+1	protein_coding	transcript	1353800	1357149	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000427211"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962";
+1	protein_coding	exon	1356513	1357149	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000427211"; exon_number "1"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962"; exon_id "ENSE00001776663";
+1	protein_coding	exon	1356177	1356385	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000427211"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962"; exon_id "ENSE00003556722";
+1	protein_coding	CDS	1356177	1356385	.	-	0	gene_id "ENSG00000235098"; transcript_id "ENST00000427211"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962"; protein_id "ENSP00000428419";
+1	protein_coding	start_codon	1356383	1356385	.	-	0	gene_id "ENSG00000235098"; transcript_id "ENST00000427211"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962";
+1	protein_coding	exon	1353800	1354929	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000427211"; exon_number "3"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962"; exon_id "ENSE00003635074";
+1	protein_coding	CDS	1354617	1354929	.	-	1	gene_id "ENSG00000235098"; transcript_id "ENST00000427211"; exon_number "3"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962"; protein_id "ENSP00000428419";
+1	protein_coding	stop_codon	1354614	1354616	.	-	0	gene_id "ENSG00000235098"; transcript_id "ENST00000427211"; exon_number "3"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962";
+1	protein_coding	UTR	1356513	1357149	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000427211"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962";
+1	protein_coding	UTR	1353800	1354613	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000427211"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962";
+1	protein_coding	transcript	1353804	1356650	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000537107"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55558";
+1	protein_coding	exon	1356513	1356650	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000537107"; exon_number "1"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55558"; exon_id "ENSE00002286380";
+1	protein_coding	exon	1356177	1356385	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000537107"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55558"; exon_id "ENSE00003609724";
+1	protein_coding	CDS	1356177	1356385	.	-	0	gene_id "ENSG00000235098"; transcript_id "ENST00000537107"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55558"; protein_id "ENSP00000445688";
+1	protein_coding	start_codon	1356383	1356385	.	-	0	gene_id "ENSG00000235098"; transcript_id "ENST00000537107"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55558";
+1	protein_coding	exon	1355432	1355972	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000537107"; exon_number "3"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55558"; exon_id "ENSE00002204959";
+1	protein_coding	CDS	1355432	1355972	.	-	1	gene_id "ENSG00000235098"; transcript_id "ENST00000537107"; exon_number "3"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55558"; protein_id "ENSP00000445688";
+1	protein_coding	exon	1353804	1354929	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000537107"; exon_number "4"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55558"; exon_id "ENSE00002229397";
+1	protein_coding	CDS	1354483	1354929	.	-	0	gene_id "ENSG00000235098"; transcript_id "ENST00000537107"; exon_number "4"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55558"; protein_id "ENSP00000445688";
+1	protein_coding	stop_codon	1354480	1354482	.	-	0	gene_id "ENSG00000235098"; transcript_id "ENST00000537107"; exon_number "4"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55558";
+1	protein_coding	UTR	1356513	1356650	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000537107"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55558";
+1	protein_coding	UTR	1353804	1354479	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000537107"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55558";
+1	processed_transcript	transcript	1354260	1355533	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000454272"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-004"; transcript_source "havana";
+1	processed_transcript	exon	1355432	1355533	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000454272"; exon_number "1"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-004"; transcript_source "havana"; exon_id "ENSE00001712877";
+1	processed_transcript	exon	1354260	1354929	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000454272"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-004"; transcript_source "havana"; exon_id "ENSE00001784050";
+1	protein_coding	transcript	1354518	1356640	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000442470"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962";
+1	protein_coding	exon	1356177	1356640	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000442470"; exon_number "1"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962"; exon_id "ENSE00001782757";
+1	protein_coding	CDS	1356177	1356385	.	-	0	gene_id "ENSG00000235098"; transcript_id "ENST00000442470"; exon_number "1"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962"; protein_id "ENSP00000428201";
+1	protein_coding	start_codon	1356383	1356385	.	-	0	gene_id "ENSG00000235098"; transcript_id "ENST00000442470"; exon_number "1"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962";
+1	protein_coding	exon	1354518	1354929	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000442470"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962"; exon_id "ENSE00001641431";
+1	protein_coding	CDS	1354617	1354929	.	-	1	gene_id "ENSG00000235098"; transcript_id "ENST00000442470"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962"; protein_id "ENSP00000428201";
+1	protein_coding	stop_codon	1354614	1354616	.	-	0	gene_id "ENSG00000235098"; transcript_id "ENST00000442470"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962";
+1	protein_coding	UTR	1356386	1356640	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000442470"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962";
+1	protein_coding	UTR	1354518	1354613	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000442470"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57962";
+1	protein_coding	transcript	1355625	1356272	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000436362"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-003"; transcript_source "havana"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1356177	1356272	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000436362"; exon_number "1"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-003"; transcript_source "havana"; exon_id "ENSE00001676303"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1356177	1356272	.	-	1	gene_id "ENSG00000235098"; transcript_id "ENST00000436362"; exon_number "1"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-003"; transcript_source "havana"; protein_id "ENSP00000427903"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1355625	1355972	.	-	.	gene_id "ENSG00000235098"; transcript_id "ENST00000436362"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-003"; transcript_source "havana"; exon_id "ENSE00001705321"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1355625	1355972	.	-	1	gene_id "ENSG00000235098"; transcript_id "ENST00000436362"; exon_number "2"; gene_name "ANKRD65"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ANKRD65-003"; transcript_source "havana"; protein_id "ENSP00000427903"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	antisense	gene	1355625	1358071	.	+	.	gene_id "ENSG00000225905"; gene_name "RP4-758J18.7"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	1355625	1358071	.	+	.	gene_id "ENSG00000225905"; transcript_id "ENST00000428932"; gene_name "RP4-758J18.7"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP4-758J18.7-001"; transcript_source "havana";
+1	antisense	exon	1355625	1355944	.	+	.	gene_id "ENSG00000225905"; transcript_id "ENST00000428932"; exon_number "1"; gene_name "RP4-758J18.7"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP4-758J18.7-001"; transcript_source "havana"; exon_id "ENSE00001629158";
+1	antisense	exon	1357849	1358071	.	+	.	gene_id "ENSG00000225905"; transcript_id "ENST00000428932"; exon_number "2"; gene_name "RP4-758J18.7"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP4-758J18.7-001"; transcript_source "havana"; exon_id "ENSE00001670961";
+1	protein_coding	gene	1361508	1363167	.	+	.	gene_id "ENSG00000205116"; gene_name "TMEM88B"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1361508	1363167	.	+	.	gene_id "ENSG00000205116"; transcript_id "ENST00000378821"; gene_name "TMEM88B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM88B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57964";
+1	protein_coding	exon	1361508	1361765	.	+	.	gene_id "ENSG00000205116"; transcript_id "ENST00000378821"; exon_number "1"; gene_name "TMEM88B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM88B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57964"; exon_id "ENSE00001478869";
+1	protein_coding	CDS	1361508	1361765	.	+	0	gene_id "ENSG00000205116"; transcript_id "ENST00000378821"; exon_number "1"; gene_name "TMEM88B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM88B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57964"; protein_id "ENSP00000455099";
+1	protein_coding	start_codon	1361508	1361510	.	+	0	gene_id "ENSG00000205116"; transcript_id "ENST00000378821"; exon_number "1"; gene_name "TMEM88B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM88B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57964";
+1	protein_coding	exon	1362934	1363167	.	+	.	gene_id "ENSG00000205116"; transcript_id "ENST00000378821"; exon_number "2"; gene_name "TMEM88B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM88B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57964"; exon_id "ENSE00001751391";
+1	protein_coding	CDS	1362934	1363164	.	+	0	gene_id "ENSG00000205116"; transcript_id "ENST00000378821"; exon_number "2"; gene_name "TMEM88B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM88B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57964"; protein_id "ENSP00000455099";
+1	protein_coding	stop_codon	1363165	1363167	.	+	0	gene_id "ENSG00000205116"; transcript_id "ENST00000378821"; exon_number "2"; gene_name "TMEM88B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM88B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS57964";
+1	lincRNA	gene	1365919	1369953	.	-	.	gene_id "ENSG00000225285"; gene_name "RP4-758J18.10"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	1365919	1369953	.	-	.	gene_id "ENSG00000225285"; transcript_id "ENST00000430109"; gene_name "RP4-758J18.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.10-001"; transcript_source "havana";
+1	lincRNA	exon	1369568	1369953	.	-	.	gene_id "ENSG00000225285"; transcript_id "ENST00000430109"; exon_number "1"; gene_name "RP4-758J18.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.10-001"; transcript_source "havana"; exon_id "ENSE00001701668";
+1	lincRNA	exon	1365919	1366042	.	-	.	gene_id "ENSG00000225285"; transcript_id "ENST00000430109"; exon_number "2"; gene_name "RP4-758J18.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.10-001"; transcript_source "havana"; exon_id "ENSE00001673280";
+1	lincRNA	transcript	1365930	1367223	.	-	.	gene_id "ENSG00000225285"; transcript_id "ENST00000434150"; gene_name "RP4-758J18.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.10-003"; transcript_source "havana";
+1	lincRNA	exon	1367185	1367223	.	-	.	gene_id "ENSG00000225285"; transcript_id "ENST00000434150"; exon_number "1"; gene_name "RP4-758J18.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.10-003"; transcript_source "havana"; exon_id "ENSE00001723054";
+1	lincRNA	exon	1365930	1366334	.	-	.	gene_id "ENSG00000225285"; transcript_id "ENST00000434150"; exon_number "2"; gene_name "RP4-758J18.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.10-003"; transcript_source "havana"; exon_id "ENSE00001706940";
+1	lincRNA	transcript	1365930	1369868	.	-	.	gene_id "ENSG00000225285"; transcript_id "ENST00000454562"; gene_name "RP4-758J18.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.10-004"; transcript_source "havana";
+1	lincRNA	exon	1369558	1369868	.	-	.	gene_id "ENSG00000225285"; transcript_id "ENST00000454562"; exon_number "1"; gene_name "RP4-758J18.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.10-004"; transcript_source "havana"; exon_id "ENSE00001747438";
+1	lincRNA	exon	1365930	1366042	.	-	.	gene_id "ENSG00000225285"; transcript_id "ENST00000454562"; exon_number "2"; gene_name "RP4-758J18.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.10-004"; transcript_source "havana"; exon_id "ENSE00001675580";
+1	lincRNA	transcript	1366044	1369900	.	-	.	gene_id "ENSG00000225285"; transcript_id "ENST00000417917"; gene_name "RP4-758J18.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.10-002"; transcript_source "havana";
+1	lincRNA	exon	1369558	1369900	.	-	.	gene_id "ENSG00000225285"; transcript_id "ENST00000417917"; exon_number "1"; gene_name "RP4-758J18.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.10-002"; transcript_source "havana"; exon_id "ENSE00001605018";
+1	lincRNA	exon	1366044	1366334	.	-	.	gene_id "ENSG00000225285"; transcript_id "ENST00000417917"; exon_number "2"; gene_name "RP4-758J18.10"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP4-758J18.10-002"; transcript_source "havana"; exon_id "ENSE00001617687";
+1	protein_coding	gene	1370241	1378262	.	+	.	gene_id "ENSG00000179403"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1370241	1372839	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000495558"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1370241	1370526	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000495558"; exon_number "1"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-003"; transcript_source "havana"; exon_id "ENSE00001920985"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1372307	1372839	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000495558"; exon_number "2"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-003"; transcript_source "havana"; exon_id "ENSE00001914811"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1372339	1372839	.	+	0	gene_id "ENSG00000179403"; transcript_id "ENST00000495558"; exon_number "2"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-003"; transcript_source "havana"; protein_id "ENSP00000463643"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1370241	1370526	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000495558"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1372307	1372338	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000495558"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	1370903	1376145	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000338660"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS28";
+1	protein_coding	exon	1370903	1371201	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000338660"; exon_number "1"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS28"; exon_id "ENSE00003653683";
+1	protein_coding	CDS	1371129	1371201	.	+	0	gene_id "ENSG00000179403"; transcript_id "ENST00000338660"; exon_number "1"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS28"; protein_id "ENSP00000423404";
+1	protein_coding	start_codon	1371129	1371131	.	+	0	gene_id "ENSG00000179403"; transcript_id "ENST00000338660"; exon_number "1"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS28";
+1	protein_coding	exon	1372702	1372864	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000338660"; exon_number "2"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS28"; exon_id "ENSE00003596987";
+1	protein_coding	CDS	1372702	1372820	.	+	2	gene_id "ENSG00000179403"; transcript_id "ENST00000338660"; exon_number "2"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS28"; protein_id "ENSP00000423404";
+1	protein_coding	stop_codon	1372821	1372823	.	+	0	gene_id "ENSG00000179403"; transcript_id "ENST00000338660"; exon_number "2"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS28";
+1	protein_coding	exon	1374461	1376145	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000338660"; exon_number "3"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS28"; exon_id "ENSE00002235940";
+1	protein_coding	UTR	1370903	1371128	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000338660"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS28";
+1	protein_coding	UTR	1372824	1372864	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000338660"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS28";
+1	protein_coding	UTR	1374461	1376145	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000338660"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS28";
+1	protein_coding	transcript	1370903	1378262	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000404702"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-201"; transcript_source "ensembl";
+1	protein_coding	exon	1370903	1371201	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000404702"; exon_number "1"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-201"; transcript_source "ensembl"; exon_id "ENSE00003507427";
+1	protein_coding	exon	1372702	1372864	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000404702"; exon_number "2"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-201"; transcript_source "ensembl"; exon_id "ENSE00003477779";
+1	protein_coding	exon	1374461	1378262	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000404702"; exon_number "3"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-201"; transcript_source "ensembl"; exon_id "ENSE00003518123";
+1	protein_coding	CDS	1374466	1375164	.	+	0	gene_id "ENSG00000179403"; transcript_id "ENST00000404702"; exon_number "3"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-201"; transcript_source "ensembl"; protein_id "ENSP00000385008";
+1	protein_coding	start_codon	1374466	1374468	.	+	0	gene_id "ENSG00000179403"; transcript_id "ENST00000404702"; exon_number "3"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-201"; transcript_source "ensembl";
+1	protein_coding	stop_codon	1375165	1375167	.	+	0	gene_id "ENSG00000179403"; transcript_id "ENST00000404702"; exon_number "3"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1370903	1371201	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000404702"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1372702	1372864	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000404702"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1374461	1374465	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000404702"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1375168	1378262	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000404702"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-201"; transcript_source "ensembl";
+1	protein_coding	transcript	1371051	1378262	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000476993"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS27";
+1	protein_coding	exon	1371051	1371201	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000476993"; exon_number "1"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS27"; exon_id "ENSE00001939478";
+1	protein_coding	CDS	1371129	1371201	.	+	0	gene_id "ENSG00000179403"; transcript_id "ENST00000476993"; exon_number "1"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS27"; protein_id "ENSP00000417185";
+1	protein_coding	start_codon	1371129	1371131	.	+	0	gene_id "ENSG00000179403"; transcript_id "ENST00000476993"; exon_number "1"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS27";
+1	protein_coding	exon	1372307	1372864	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000476993"; exon_number "2"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS27"; exon_id "ENSE00001632631";
+1	protein_coding	CDS	1372307	1372864	.	+	2	gene_id "ENSG00000179403"; transcript_id "ENST00000476993"; exon_number "2"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS27"; protein_id "ENSP00000417185";
+1	protein_coding	exon	1374461	1378262	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000476993"; exon_number "3"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS27"; exon_id "ENSE00003684888";
+1	protein_coding	CDS	1374461	1375164	.	+	2	gene_id "ENSG00000179403"; transcript_id "ENST00000476993"; exon_number "3"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS27"; protein_id "ENSP00000417185";
+1	protein_coding	stop_codon	1375165	1375167	.	+	0	gene_id "ENSG00000179403"; transcript_id "ENST00000476993"; exon_number "3"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS27";
+1	protein_coding	UTR	1371051	1371128	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000476993"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS27";
+1	protein_coding	UTR	1375168	1378262	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000476993"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS27";
+1	protein_coding	transcript	1371115	1372557	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000471398"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-004"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1371115	1371201	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000471398"; exon_number "1"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-004"; transcript_source "havana"; exon_id "ENSE00001928822"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1371129	1371201	.	+	0	gene_id "ENSG00000179403"; transcript_id "ENST00000471398"; exon_number "1"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-004"; transcript_source "havana"; protein_id "ENSP00000464343"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1372187	1372557	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000471398"; exon_number "2"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-004"; transcript_source "havana"; exon_id "ENSE00001810384"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1372187	1372557	.	+	2	gene_id "ENSG00000179403"; transcript_id "ENST00000471398"; exon_number "2"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-004"; transcript_source "havana"; protein_id "ENSP00000464343"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1371115	1371128	.	+	.	gene_id "ENSG00000179403"; transcript_id "ENST00000471398"; gene_name "VWA1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "VWA1-004"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	gene	1385069	1405538	.	+	.	gene_id "ENSG00000215915"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1385069	1405538	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039";
+1	protein_coding	exon	1385069	1386138	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "1"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; exon_id "ENSE00002305764";
+1	protein_coding	CDS	1386064	1386138	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "1"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; protein_id "ENSP00000368062";
+1	protein_coding	start_codon	1386064	1386066	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "1"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039";
+1	protein_coding	exon	1387426	1387502	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "2"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; exon_id "ENSE00001738634";
+1	protein_coding	CDS	1387426	1387502	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "2"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; protein_id "ENSP00000368062";
+1	protein_coding	exon	1387745	1387814	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "3"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; exon_id "ENSE00001678337";
+1	protein_coding	CDS	1387745	1387814	.	+	1	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "3"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; protein_id "ENSP00000368062";
+1	protein_coding	exon	1389725	1389880	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "4"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; exon_id "ENSE00001789344";
+1	protein_coding	CDS	1389725	1389880	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "4"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; protein_id "ENSP00000368062";
+1	protein_coding	exon	1390840	1390899	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "5"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; exon_id "ENSE00001654495";
+1	protein_coding	CDS	1390840	1390899	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "5"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; protein_id "ENSP00000368062";
+1	protein_coding	exon	1391171	1391296	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "6"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; exon_id "ENSE00001705599";
+1	protein_coding	CDS	1391171	1391296	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "6"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; protein_id "ENSP00000368062";
+1	protein_coding	exon	1391605	1391729	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "7"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; exon_id "ENSE00001711558";
+1	protein_coding	CDS	1391605	1391729	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "7"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; protein_id "ENSP00000368062";
+1	protein_coding	exon	1392509	1392560	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "8"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; exon_id "ENSE00001780250";
+1	protein_coding	CDS	1392509	1392560	.	+	1	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "8"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; protein_id "ENSP00000368062";
+1	protein_coding	exon	1394541	1394611	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "9"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; exon_id "ENSE00001645375";
+1	protein_coding	CDS	1394541	1394611	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "9"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; protein_id "ENSP00000368062";
+1	protein_coding	exon	1396130	1396297	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "10"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; exon_id "ENSE00001802162";
+1	protein_coding	CDS	1396130	1396297	.	+	1	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "10"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; protein_id "ENSP00000368062";
+1	protein_coding	exon	1397980	1398088	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "11"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; exon_id "ENSE00001735727";
+1	protein_coding	CDS	1397980	1398088	.	+	1	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "11"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; protein_id "ENSP00000368062";
+1	protein_coding	exon	1403764	1405538	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "12"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; exon_id "ENSE00001478728";
+1	protein_coding	CDS	1403764	1403907	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "12"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039"; protein_id "ENSP00000368062";
+1	protein_coding	stop_codon	1403908	1403910	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; exon_number "12"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039";
+1	protein_coding	UTR	1385069	1386063	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039";
+1	protein_coding	UTR	1403911	1405538	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000378785"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44039";
+1	protein_coding	transcript	1385294	1391282	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1385294	1385421	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; exon_number "1"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; exon_id "ENSE00001813046"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1386061	1386138	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; exon_number "2"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; exon_id "ENSE00001907803"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1386064	1386138	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; exon_number "2"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; protein_id "ENSP00000464661"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1387426	1387502	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; exon_number "3"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; exon_id "ENSE00001738634"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1387426	1387502	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; exon_number "3"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; protein_id "ENSP00000464661"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1387745	1387814	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; exon_number "4"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; exon_id "ENSE00001678337"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1387745	1387814	.	+	1	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; exon_number "4"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; protein_id "ENSP00000464661"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1390840	1390899	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; exon_number "5"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; exon_id "ENSE00001654495"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1390840	1390899	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; exon_number "5"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; protein_id "ENSP00000464661"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1391171	1391282	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; exon_number "6"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; exon_id "ENSE00001859235"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1391171	1391282	.	+	0	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; exon_number "6"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; protein_id "ENSP00000464661"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1385294	1385421	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1386061	1386063	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000475091"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	retained_intron	transcript	1397863	1404043	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000484537"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-004"; transcript_source "havana"; tag "mRNA_start_NF";
+1	retained_intron	exon	1397863	1398088	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000484537"; exon_number "1"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-004"; transcript_source "havana"; exon_id "ENSE00001906548"; tag "mRNA_start_NF";
+1	retained_intron	exon	1403764	1404043	.	+	.	gene_id "ENSG00000215915"; transcript_id "ENST00000484537"; exon_number "2"; gene_name "ATAD3C"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3C-004"; transcript_source "havana"; exon_id "ENSE00001902384"; tag "mRNA_start_NF";
+1	protein_coding	gene	1407143	1433228	.	+	.	gene_id "ENSG00000160072"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1407143	1418486	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl";
+1	protein_coding	exon	1407143	1407469	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "1"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl"; exon_id "ENSE00002693608";
+1	protein_coding	exon	1412654	1412730	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "2"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl"; exon_id "ENSE00003586811";
+1	protein_coding	exon	1414024	1414125	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "3"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl"; exon_id "ENSE00003585959";
+1	protein_coding	exon	1414429	1414488	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "4"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl"; exon_id "ENSE00003589422";
+1	protein_coding	exon	1416247	1416316	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "5"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl"; exon_id "ENSE00003668575";
+1	protein_coding	CDS	1416307	1416316	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "5"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl"; protein_id "ENSP00000368015";
+1	protein_coding	start_codon	1416307	1416309	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "5"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl";
+1	protein_coding	exon	1417518	1417683	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "6"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl"; exon_id "ENSE00003654064";
+1	protein_coding	CDS	1417518	1417683	.	+	2	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "6"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl"; protein_id "ENSP00000368015";
+1	protein_coding	exon	1417925	1418042	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "7"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl"; exon_id "ENSE00003492143";
+1	protein_coding	CDS	1417925	1418042	.	+	1	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "7"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl"; protein_id "ENSP00000368015";
+1	protein_coding	exon	1418427	1418486	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "8"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl"; exon_id "ENSE00001478581";
+1	protein_coding	CDS	1418427	1418483	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "8"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl"; protein_id "ENSP00000368015";
+1	protein_coding	stop_codon	1418484	1418486	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; exon_number "8"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1407143	1407469	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1412654	1412730	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1414024	1414125	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1414429	1414488	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1416247	1416306	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378741"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-201"; transcript_source "ensembl";
+1	protein_coding	transcript	1407149	1431582	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30";
+1	protein_coding	exon	1407149	1407469	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "1"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00001833190";
+1	protein_coding	CDS	1407265	1407469	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "1"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	start_codon	1407265	1407267	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "1"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30";
+1	protein_coding	exon	1412654	1412730	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "2"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003467707";
+1	protein_coding	CDS	1412654	1412730	.	+	2	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "2"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1414024	1414125	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "3"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003569130";
+1	protein_coding	CDS	1414024	1414125	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "3"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1414429	1414488	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "4"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003608502";
+1	protein_coding	CDS	1414429	1414488	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "4"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1416247	1416316	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "5"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003474888";
+1	protein_coding	CDS	1416247	1416316	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "5"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1417518	1417683	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "6"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003654064";
+1	protein_coding	CDS	1417518	1417683	.	+	2	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "6"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1417925	1417994	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "7"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003510521";
+1	protein_coding	CDS	1417925	1417994	.	+	1	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "7"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1420396	1420551	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "8"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003459370";
+1	protein_coding	CDS	1420396	1420551	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "8"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1421162	1421218	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "9"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003655926";
+1	protein_coding	CDS	1421162	1421218	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "9"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1421490	1421615	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "10"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003594545";
+1	protein_coding	CDS	1421490	1421615	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "10"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1421924	1422048	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "11"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003662125";
+1	protein_coding	CDS	1421924	1422048	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "11"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1423243	1423294	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "12"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003689846";
+1	protein_coding	CDS	1423243	1423294	.	+	1	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "12"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1424584	1424654	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "13"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003670332";
+1	protein_coding	CDS	1424584	1424654	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "13"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1425637	1425804	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "14"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003505365";
+1	protein_coding	CDS	1425637	1425804	.	+	1	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "14"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1425943	1426051	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "15"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003497242";
+1	protein_coding	CDS	1425943	1426051	.	+	1	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "15"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	exon	1430865	1431582	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "16"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; exon_id "ENSE00003481470";
+1	protein_coding	CDS	1430865	1431194	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "16"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30"; protein_id "ENSP00000311766";
+1	protein_coding	stop_codon	1431195	1431197	.	+	0	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; exon_number "16"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30";
+1	protein_coding	UTR	1407149	1407264	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30";
+1	protein_coding	UTR	1431198	1431582	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000308647"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30";
+1	retained_intron	transcript	1413406	1433228	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana";
+1	retained_intron	exon	1413406	1414125	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "1"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00001943609";
+1	retained_intron	exon	1414429	1414488	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "2"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00003589422";
+1	retained_intron	exon	1416247	1416316	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "3"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00003672769";
+1	retained_intron	exon	1417518	1417683	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "4"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00003661157";
+1	retained_intron	exon	1417925	1417994	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "5"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00003517812";
+1	retained_intron	exon	1420396	1420551	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "6"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00003542737";
+1	retained_intron	exon	1421162	1421218	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "7"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00003479480";
+1	retained_intron	exon	1421490	1421615	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "8"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00003503434";
+1	retained_intron	exon	1421924	1422048	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "9"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00003513162";
+1	retained_intron	exon	1423243	1423294	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "10"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00003528975";
+1	retained_intron	exon	1424584	1424654	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "11"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00003611023";
+1	retained_intron	exon	1425637	1425804	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "12"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00003653402";
+1	retained_intron	exon	1425943	1426051	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "13"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00003486643";
+1	retained_intron	exon	1430865	1433228	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000472194"; exon_number "14"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-002"; transcript_source "havana"; exon_id "ENSE00001863816";
+1	processed_transcript	transcript	1414429	1418042	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378736"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-006"; transcript_source "havana";
+1	processed_transcript	exon	1414429	1414488	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378736"; exon_number "1"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-006"; transcript_source "havana"; exon_id "ENSE00003589422";
+1	processed_transcript	exon	1416247	1416316	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378736"; exon_number "2"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-006"; transcript_source "havana"; exon_id "ENSE00003672769";
+1	processed_transcript	exon	1417518	1417683	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378736"; exon_number "3"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-006"; transcript_source "havana"; exon_id "ENSE00003661157";
+1	processed_transcript	exon	1417925	1418042	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000378736"; exon_number "4"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-006"; transcript_source "havana"; exon_id "ENSE00003614529";
+1	retained_intron	transcript	1418865	1431582	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000485748"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-003"; transcript_source "havana";
+1	retained_intron	exon	1418865	1420551	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000485748"; exon_number "1"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-003"; transcript_source "havana"; exon_id "ENSE00001893282";
+1	retained_intron	exon	1421162	1421218	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000485748"; exon_number "2"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-003"; transcript_source "havana"; exon_id "ENSE00003479480";
+1	retained_intron	exon	1421490	1421615	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000485748"; exon_number "3"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-003"; transcript_source "havana"; exon_id "ENSE00003503434";
+1	retained_intron	exon	1421924	1422048	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000485748"; exon_number "4"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-003"; transcript_source "havana"; exon_id "ENSE00003513162";
+1	retained_intron	exon	1423243	1423294	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000485748"; exon_number "5"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-003"; transcript_source "havana"; exon_id "ENSE00003528975";
+1	retained_intron	exon	1424584	1424654	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000485748"; exon_number "6"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-003"; transcript_source "havana"; exon_id "ENSE00003611023";
+1	retained_intron	exon	1425072	1425191	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000485748"; exon_number "7"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-003"; transcript_source "havana"; exon_id "ENSE00001885858";
+1	retained_intron	exon	1425637	1425804	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000485748"; exon_number "8"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-003"; transcript_source "havana"; exon_id "ENSE00003653402";
+1	retained_intron	exon	1425943	1426051	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000485748"; exon_number "9"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-003"; transcript_source "havana"; exon_id "ENSE00003486643";
+1	retained_intron	exon	1430865	1431582	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000485748"; exon_number "10"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-003"; transcript_source "havana"; exon_id "ENSE00003689276";
+1	retained_intron	transcript	1419949	1431581	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000474481"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-004"; transcript_source "havana";
+1	retained_intron	exon	1419949	1420551	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000474481"; exon_number "1"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-004"; transcript_source "havana"; exon_id "ENSE00001844843";
+1	retained_intron	exon	1421162	1421615	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000474481"; exon_number "2"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-004"; transcript_source "havana"; exon_id "ENSE00001818637";
+1	retained_intron	exon	1421924	1422048	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000474481"; exon_number "3"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-004"; transcript_source "havana"; exon_id "ENSE00003513162";
+1	retained_intron	exon	1424584	1426051	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000474481"; exon_number "4"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-004"; transcript_source "havana"; exon_id "ENSE00001832340";
+1	retained_intron	exon	1430865	1431581	.	+	.	gene_id "ENSG00000160072"; transcript_id "ENST00000474481"; exon_number "5"; gene_name "ATAD3B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3B-004"; transcript_source "havana"; exon_id "ENSE00001844973";
+1	protein_coding	gene	1447531	1470067	.	+	.	gene_id "ENSG00000197785"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1447531	1470065	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259";
+1	protein_coding	exon	1447531	1447853	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "1"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00001948795";
+1	protein_coding	CDS	1447649	1447853	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "1"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	start_codon	1447649	1447651	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "1"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259";
+1	protein_coding	exon	1451392	1451468	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "2"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00003592232";
+1	protein_coding	CDS	1451392	1451468	.	+	2	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "2"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1452691	1452792	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "3"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00001769953";
+1	protein_coding	CDS	1452691	1452792	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "3"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1453096	1453155	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "4"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00003689904";
+1	protein_coding	CDS	1453096	1453155	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "4"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1454301	1454370	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "5"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00003620804";
+1	protein_coding	CDS	1454301	1454370	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "5"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1455521	1455686	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "6"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00003607995";
+1	protein_coding	CDS	1455521	1455686	.	+	2	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "6"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1455928	1455997	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "7"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00003505667";
+1	protein_coding	CDS	1455928	1455997	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "7"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1458124	1458279	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "8"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00001615816";
+1	protein_coding	CDS	1458124	1458279	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "8"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1458891	1458947	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "9"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00001745869";
+1	protein_coding	CDS	1458891	1458947	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "9"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1459219	1459344	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "10"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00001784657";
+1	protein_coding	CDS	1459219	1459344	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "10"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1459653	1459777	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "11"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00001792016";
+1	protein_coding	CDS	1459653	1459777	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "11"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1460620	1460671	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "12"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00000875540";
+1	protein_coding	CDS	1460620	1460671	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "12"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1461841	1461911	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "13"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00001664426";
+1	protein_coding	CDS	1461841	1461911	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "13"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1463075	1463242	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "14"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00001304286";
+1	protein_coding	CDS	1463075	1463242	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "14"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1464603	1464711	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "15"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00003686145";
+1	protein_coding	CDS	1464603	1464711	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "15"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	exon	1469306	1470065	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "16"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; exon_id "ENSE00001386419";
+1	protein_coding	CDS	1469306	1469449	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "16"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259"; protein_id "ENSP00000368031";
+1	protein_coding	stop_codon	1469450	1469452	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; exon_number "16"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259";
+1	protein_coding	UTR	1447531	1447648	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259";
+1	protein_coding	UTR	1469453	1470065	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378756"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53259";
+1	protein_coding	transcript	1447555	1470065	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31";
+1	protein_coding	exon	1447555	1447853	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "1"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00002685283";
+1	protein_coding	CDS	1447649	1447853	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "1"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	start_codon	1447649	1447651	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "1"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31";
+1	protein_coding	exon	1451392	1451468	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "2"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00003592232";
+1	protein_coding	CDS	1451392	1451468	.	+	2	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "2"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1452547	1452792	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "3"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00001624063";
+1	protein_coding	CDS	1452547	1452792	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "3"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1453096	1453155	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "4"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00003689904";
+1	protein_coding	CDS	1453096	1453155	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "4"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1454301	1454370	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "5"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00003620804";
+1	protein_coding	CDS	1454301	1454370	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "5"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1455521	1455686	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "6"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00003607995";
+1	protein_coding	CDS	1455521	1455686	.	+	2	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "6"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1455928	1455997	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "7"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00003505667";
+1	protein_coding	CDS	1455928	1455997	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "7"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1458124	1458279	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "8"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00001615816";
+1	protein_coding	CDS	1458124	1458279	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "8"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1458891	1458947	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "9"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00001745869";
+1	protein_coding	CDS	1458891	1458947	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "9"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1459219	1459344	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "10"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00001784657";
+1	protein_coding	CDS	1459219	1459344	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "10"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1459653	1459777	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "11"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00001792016";
+1	protein_coding	CDS	1459653	1459777	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "11"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1460620	1460671	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "12"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00000875540";
+1	protein_coding	CDS	1460620	1460671	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "12"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1461841	1461911	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "13"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00001664426";
+1	protein_coding	CDS	1461841	1461911	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "13"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1463075	1463242	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "14"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00001304286";
+1	protein_coding	CDS	1463075	1463242	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "14"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1464603	1464711	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "15"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00003686145";
+1	protein_coding	CDS	1464603	1464711	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "15"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	exon	1469306	1470065	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "16"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; exon_id "ENSE00001386419";
+1	protein_coding	CDS	1469306	1469449	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "16"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31"; protein_id "ENSP00000368030";
+1	protein_coding	stop_codon	1469450	1469452	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; exon_number "16"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31";
+1	protein_coding	UTR	1447555	1447648	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31";
+1	protein_coding	UTR	1469453	1470065	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000378755"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS31";
+1	protein_coding	transcript	1447910	1470065	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1447910	1448070	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "1"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00003520187"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1447910	1448070	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "1"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1451392	1451468	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "2"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00003592232"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1451392	1451468	.	+	2	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "2"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1452691	1452792	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "3"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00001769953"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1452691	1452792	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "3"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1453096	1453155	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "4"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00003689904"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1453096	1453155	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "4"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1454301	1454370	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "5"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00003620804"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1454301	1454370	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "5"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1455521	1455686	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "6"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00003607995"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1455521	1455686	.	+	2	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "6"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1455928	1455997	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "7"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00003505667"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1455928	1455997	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "7"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1458124	1458279	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "8"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00001615816"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1458124	1458279	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "8"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1458891	1458947	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "9"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00001745869"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1458891	1458947	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "9"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1459219	1459344	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "10"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00001784657"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1459219	1459344	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "10"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1459653	1459777	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "11"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00001792016"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1459653	1459777	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "11"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1460620	1460671	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "12"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00000875540"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1460620	1460671	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "12"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1461841	1461911	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "13"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00001664426"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1461841	1461911	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "13"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1463075	1463242	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "14"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00001304286"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1463075	1463242	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "14"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1464603	1464711	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "15"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00003686145"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1464603	1464711	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "15"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1469306	1470065	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "16"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; exon_id "ENSE00001386419"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1469306	1469452	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; exon_number "16"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; protein_id "ENSP00000339421"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1469453	1470065	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000339113"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1447910	1470067	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260";
+1	protein_coding	exon	1447910	1448070	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "1"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00003549567";
+1	protein_coding	exon	1451392	1451468	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "2"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00003601804";
+1	protein_coding	CDS	1451424	1451468	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "2"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	start_codon	1451424	1451426	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "2"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260";
+1	protein_coding	exon	1452691	1452792	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "3"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00001769953";
+1	protein_coding	CDS	1452691	1452792	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "3"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	exon	1453096	1453155	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "4"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00003689904";
+1	protein_coding	CDS	1453096	1453155	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "4"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	exon	1454301	1454370	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "5"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00003620804";
+1	protein_coding	CDS	1454301	1454370	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "5"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	exon	1455521	1455686	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "6"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00003607995";
+1	protein_coding	CDS	1455521	1455686	.	+	2	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "6"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	exon	1455928	1455997	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "7"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00003505667";
+1	protein_coding	CDS	1455928	1455997	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "7"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	exon	1458124	1458279	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "8"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00001615816";
+1	protein_coding	CDS	1458124	1458279	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "8"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	exon	1458891	1458947	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "9"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00001745869";
+1	protein_coding	CDS	1458891	1458947	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "9"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	exon	1459219	1459344	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "10"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00001784657";
+1	protein_coding	CDS	1459219	1459344	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "10"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	exon	1459653	1459777	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "11"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00001792016";
+1	protein_coding	CDS	1459653	1459777	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "11"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	exon	1460620	1460671	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "12"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00000875540";
+1	protein_coding	CDS	1460620	1460671	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "12"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	exon	1461841	1461911	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "13"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00001664426";
+1	protein_coding	CDS	1461841	1461911	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "13"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	exon	1463075	1463242	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "14"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00001304286";
+1	protein_coding	CDS	1463075	1463242	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "14"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	exon	1464603	1464711	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "15"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00003686145";
+1	protein_coding	CDS	1464603	1464711	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "15"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	exon	1469306	1470067	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "16"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; exon_id "ENSE00002313718";
+1	protein_coding	CDS	1469306	1469449	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "16"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260"; protein_id "ENSP00000439290";
+1	protein_coding	stop_codon	1469450	1469452	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; exon_number "16"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260";
+1	protein_coding	UTR	1447910	1448070	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260";
+1	protein_coding	UTR	1451392	1451423	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260";
+1	protein_coding	UTR	1469453	1470067	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000536055"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS53260";
+1	retained_intron	transcript	1452450	1453155	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000439513"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-004"; transcript_source "havana";
+1	retained_intron	exon	1452450	1452792	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000439513"; exon_number "1"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-004"; transcript_source "havana"; exon_id "ENSE00001604321";
+1	retained_intron	exon	1453096	1453155	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000439513"; exon_number "2"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-004"; transcript_source "havana"; exon_id "ENSE00003608277";
+1	retained_intron	transcript	1453001	1458160	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000429957"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-005"; transcript_source "havana";
+1	retained_intron	exon	1453001	1453155	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000429957"; exon_number "1"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-005"; transcript_source "havana"; exon_id "ENSE00001707811";
+1	retained_intron	exon	1454301	1454370	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000429957"; exon_number "2"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-005"; transcript_source "havana"; exon_id "ENSE00003565591";
+1	retained_intron	exon	1455521	1455686	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000429957"; exon_number "3"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-005"; transcript_source "havana"; exon_id "ENSE00003525769";
+1	retained_intron	exon	1455928	1455997	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000429957"; exon_number "4"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-005"; transcript_source "havana"; exon_id "ENSE00003542920";
+1	retained_intron	exon	1458124	1458160	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000429957"; exon_number "5"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-005"; transcript_source "havana"; exon_id "ENSE00001735655";
+1	protein_coding	transcript	1459653	1464711	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000400830"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-006"; transcript_source "havana"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1459653	1459777	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000400830"; exon_number "1"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-006"; transcript_source "havana"; exon_id "ENSE00001792016"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1459653	1459777	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000400830"; exon_number "1"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-006"; transcript_source "havana"; protein_id "ENSP00000383631"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1460620	1460671	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000400830"; exon_number "2"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-006"; transcript_source "havana"; exon_id "ENSE00000875540"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1460620	1460671	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000400830"; exon_number "2"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-006"; transcript_source "havana"; protein_id "ENSP00000383631"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1461841	1461911	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000400830"; exon_number "3"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-006"; transcript_source "havana"; exon_id "ENSE00001664426"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1461841	1461911	.	+	0	gene_id "ENSG00000197785"; transcript_id "ENST00000400830"; exon_number "3"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-006"; transcript_source "havana"; protein_id "ENSP00000383631"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1462541	1462618	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000400830"; exon_number "4"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-006"; transcript_source "havana"; exon_id "ENSE00001478653"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1462541	1462618	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000400830"; exon_number "4"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-006"; transcript_source "havana"; protein_id "ENSP00000383631"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1463075	1463242	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000400830"; exon_number "5"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-006"; transcript_source "havana"; exon_id "ENSE00001304286"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1463075	1463242	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000400830"; exon_number "5"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-006"; transcript_source "havana"; protein_id "ENSP00000383631"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1464603	1464711	.	+	.	gene_id "ENSG00000197785"; transcript_id "ENST00000400830"; exon_number "6"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-006"; transcript_source "havana"; exon_id "ENSE00003464316"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1464603	1464711	.	+	1	gene_id "ENSG00000197785"; transcript_id "ENST00000400830"; exon_number "6"; gene_name "ATAD3A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ATAD3A-006"; transcript_source "havana"; protein_id "ENSP00000383631"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	gene	1470554	1475833	.	-	.	gene_id "ENSG00000205090"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1470554	1475737	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000378733"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44040";
+1	protein_coding	exon	1475670	1475737	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000378733"; exon_number "1"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44040"; exon_id "ENSE00001478557";
+1	protein_coding	CDS	1475670	1475726	.	-	0	gene_id "ENSG00000205090"; transcript_id "ENST00000378733"; exon_number "1"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44040"; protein_id "ENSP00000368007";
+1	protein_coding	start_codon	1475724	1475726	.	-	0	gene_id "ENSG00000205090"; transcript_id "ENST00000378733"; exon_number "1"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44040";
+1	protein_coding	exon	1475064	1475170	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000378733"; exon_number "2"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44040"; exon_id "ENSE00001661100";
+1	protein_coding	CDS	1475064	1475170	.	-	0	gene_id "ENSG00000205090"; transcript_id "ENST00000378733"; exon_number "2"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44040"; protein_id "ENSP00000368007";
+1	protein_coding	exon	1470969	1471177	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000378733"; exon_number "3"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44040"; exon_id "ENSE00001658110";
+1	protein_coding	CDS	1470969	1471177	.	-	1	gene_id "ENSG00000205090"; transcript_id "ENST00000378733"; exon_number "3"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44040"; protein_id "ENSP00000368007";
+1	protein_coding	exon	1470554	1470887	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000378733"; exon_number "4"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44040"; exon_id "ENSE00001478554";
+1	protein_coding	CDS	1470742	1470887	.	-	2	gene_id "ENSG00000205090"; transcript_id "ENST00000378733"; exon_number "4"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44040"; protein_id "ENSP00000368007";
+1	protein_coding	stop_codon	1470739	1470741	.	-	0	gene_id "ENSG00000205090"; transcript_id "ENST00000378733"; exon_number "4"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44040";
+1	protein_coding	UTR	1475727	1475737	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000378733"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44040";
+1	protein_coding	UTR	1470554	1470738	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000378733"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44040";
+1	protein_coding	transcript	1470587	1475833	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040";
+1	protein_coding	exon	1475800	1475833	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; exon_number "1"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040"; exon_id "ENSE00001669329";
+1	protein_coding	exon	1475670	1475735	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; exon_number "2"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040"; exon_id "ENSE00001748844";
+1	protein_coding	CDS	1475670	1475726	.	-	0	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; exon_number "2"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040"; protein_id "ENSP00000400311";
+1	protein_coding	start_codon	1475724	1475726	.	-	0	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; exon_number "2"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040";
+1	protein_coding	exon	1475064	1475170	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; exon_number "3"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040"; exon_id "ENSE00001661100";
+1	protein_coding	CDS	1475064	1475170	.	-	0	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; exon_number "3"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040"; protein_id "ENSP00000400311";
+1	protein_coding	exon	1470969	1471177	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; exon_number "4"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040"; exon_id "ENSE00001658110";
+1	protein_coding	CDS	1470969	1471177	.	-	1	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; exon_number "4"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040"; protein_id "ENSP00000400311";
+1	protein_coding	exon	1470587	1470887	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; exon_number "5"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040"; exon_id "ENSE00001754649";
+1	protein_coding	CDS	1470742	1470887	.	-	2	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; exon_number "5"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040"; protein_id "ENSP00000400311";
+1	protein_coding	stop_codon	1470739	1470741	.	-	0	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; exon_number "5"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040";
+1	protein_coding	UTR	1475800	1475833	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040";
+1	protein_coding	UTR	1475727	1475735	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040";
+1	protein_coding	UTR	1470587	1470738	.	-	.	gene_id "ENSG00000205090"; transcript_id "ENST00000425828"; gene_name "TMEM240"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM240-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS44040";
+1	protein_coding	gene	1477053	1510249	.	-	.	gene_id "ENSG00000160075"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1477053	1510249	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32";
+1	protein_coding	exon	1509858	1510249	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; exon_number "1"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32"; exon_id "ENSE00001478524";
+1	protein_coding	CDS	1509858	1509937	.	-	0	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; exon_number "1"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32"; protein_id "ENSP00000291386";
+1	protein_coding	start_codon	1509935	1509937	.	-	0	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; exon_number "1"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32";
+1	protein_coding	exon	1500153	1500296	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; exon_number "2"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32"; exon_id "ENSE00003470831";
+1	protein_coding	CDS	1500153	1500296	.	-	1	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; exon_number "2"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32"; protein_id "ENSP00000291386";
+1	protein_coding	exon	1480243	1480382	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; exon_number "3"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32"; exon_id "ENSE00001049594";
+1	protein_coding	CDS	1480243	1480382	.	-	1	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; exon_number "3"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32"; protein_id "ENSP00000291386";
+1	protein_coding	exon	1479249	1479367	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; exon_number "4"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32"; exon_id "ENSE00003590028";
+1	protein_coding	CDS	1479249	1479367	.	-	2	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; exon_number "4"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32"; protein_id "ENSP00000291386";
+1	protein_coding	exon	1477053	1477547	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; exon_number "5"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32"; exon_id "ENSE00001824181";
+1	protein_coding	CDS	1477449	1477547	.	-	0	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; exon_number "5"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32"; protein_id "ENSP00000291386";
+1	protein_coding	stop_codon	1477446	1477448	.	-	0	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; exon_number "5"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32";
+1	protein_coding	UTR	1509938	1510249	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32";
+1	protein_coding	UTR	1477053	1477445	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000291386"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS32";
+1	retained_intron	transcript	1477054	1481867	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000378726"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-002"; transcript_source "havana";
+1	retained_intron	exon	1480243	1481867	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000378726"; exon_number "1"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-002"; transcript_source "havana"; exon_id "ENSE00001478526";
+1	retained_intron	exon	1479249	1479367	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000378726"; exon_number "2"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-002"; transcript_source "havana"; exon_id "ENSE00003682698";
+1	retained_intron	exon	1477054	1477547	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000378726"; exon_number "3"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-002"; transcript_source "havana"; exon_id "ENSE00001208251";
+1	retained_intron	transcript	1480018	1509967	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000378725"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-004"; transcript_source "havana";
+1	retained_intron	exon	1509858	1509967	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000378725"; exon_number "1"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-004"; transcript_source "havana"; exon_id "ENSE00001900966";
+1	retained_intron	exon	1500153	1500296	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000378725"; exon_number "2"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-004"; transcript_source "havana"; exon_id "ENSE00003495478";
+1	retained_intron	exon	1480018	1480382	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000378725"; exon_number "3"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-004"; transcript_source "havana"; exon_id "ENSE00001478522";
+1	protein_coding	transcript	1497725	1509964	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000359060"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-003"; transcript_source "havana";
+1	protein_coding	exon	1509858	1509964	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000359060"; exon_number "1"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-003"; transcript_source "havana"; exon_id "ENSE00001849845";
+1	protein_coding	CDS	1509858	1509937	.	-	0	gene_id "ENSG00000160075"; transcript_id "ENST00000359060"; exon_number "1"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-003"; transcript_source "havana"; protein_id "ENSP00000351955";
+1	protein_coding	start_codon	1509935	1509937	.	-	0	gene_id "ENSG00000160075"; transcript_id "ENST00000359060"; exon_number "1"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-003"; transcript_source "havana";
+1	protein_coding	exon	1497725	1500296	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000359060"; exon_number "2"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-003"; transcript_source "havana"; exon_id "ENSE00001794493";
+1	protein_coding	CDS	1499918	1500296	.	-	1	gene_id "ENSG00000160075"; transcript_id "ENST00000359060"; exon_number "2"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-003"; transcript_source "havana"; protein_id "ENSP00000351955";
+1	protein_coding	stop_codon	1499915	1499917	.	-	0	gene_id "ENSG00000160075"; transcript_id "ENST00000359060"; exon_number "2"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-003"; transcript_source "havana";
+1	protein_coding	UTR	1509938	1509964	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000359060"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-003"; transcript_source "havana";
+1	protein_coding	UTR	1497725	1499914	.	-	.	gene_id "ENSG00000160075"; transcript_id "ENST00000359060"; gene_name "SSU72"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SSU72-003"; transcript_source "havana";
+1	pseudogene	gene	1497726	1499904	.	-	.	gene_id "ENSG00000215791"; gene_name "AL645728.2"; gene_source "ensembl"; gene_biotype "pseudogene";
+1	pseudogene	transcript	1497726	1499904	.	-	.	gene_id "ENSG00000215791"; transcript_id "ENST00000539195"; gene_name "AL645728.2"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL645728.2-201"; transcript_source "ensembl";
+1	pseudogene	exon	1498937	1499904	.	-	.	gene_id "ENSG00000215791"; transcript_id "ENST00000539195"; exon_number "1"; gene_name "AL645728.2"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL645728.2-201"; transcript_source "ensembl"; exon_id "ENSE00001545366";
+1	pseudogene	exon	1497726	1498935	.	-	.	gene_id "ENSG00000215791"; transcript_id "ENST00000539195"; exon_number "2"; gene_name "AL645728.2"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL645728.2-201"; transcript_source "ensembl"; exon_id "ENSE00001545365";
+1	protein_coding	gene	1510355	1511373	.	+	.	gene_id "ENSG00000215014"; gene_name "AL645728.1"; gene_source "ensembl"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1510355	1511373	.	+	.	gene_id "ENSG00000215014"; transcript_id "ENST00000366221"; gene_name "AL645728.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645728.1-201"; transcript_source "ensembl";
+1	protein_coding	exon	1510355	1511373	.	+	.	gene_id "ENSG00000215014"; transcript_id "ENST00000366221"; exon_number "1"; gene_name "AL645728.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645728.1-201"; transcript_source "ensembl"; exon_id "ENSE00001700637";
+1	protein_coding	CDS	1510357	1510656	.	+	0	gene_id "ENSG00000215014"; transcript_id "ENST00000366221"; exon_number "1"; gene_name "AL645728.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645728.1-201"; transcript_source "ensembl"; protein_id "ENSP00000407048";
+1	protein_coding	stop_codon	1510657	1510659	.	+	0	gene_id "ENSG00000215014"; transcript_id "ENST00000366221"; exon_number "1"; gene_name "AL645728.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645728.1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1510355	1510356	.	+	.	gene_id "ENSG00000215014"; transcript_id "ENST00000366221"; gene_name "AL645728.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645728.1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1510660	1511373	.	+	.	gene_id "ENSG00000215014"; transcript_id "ENST00000366221"; gene_name "AL645728.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL645728.1-201"; transcript_source "ensembl";
+1	pseudogene	gene	1515136	1515379	.	+	.	gene_id "ENSG00000236684"; gene_name "AL645728.3"; gene_source "ensembl"; gene_biotype "pseudogene";
+1	pseudogene	transcript	1515136	1515379	.	+	.	gene_id "ENSG00000236684"; transcript_id "ENST00000426195"; gene_name "AL645728.3"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL645728.3-201"; transcript_source "ensembl";
+1	pseudogene	exon	1515136	1515312	.	+	.	gene_id "ENSG00000236684"; transcript_id "ENST00000426195"; exon_number "1"; gene_name "AL645728.3"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL645728.3-201"; transcript_source "ensembl"; exon_id "ENSE00001440911";
+1	pseudogene	exon	1515314	1515379	.	+	.	gene_id "ENSG00000236684"; transcript_id "ENST00000426195"; exon_number "2"; gene_name "AL645728.3"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL645728.3-201"; transcript_source "ensembl"; exon_id "ENSE00001607093";
+1	protein_coding	gene	1533392	1535476	.	-	.	gene_id "ENSG00000228594"; gene_name "C1orf233"; gene_source "havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1533392	1535476	.	-	.	gene_id "ENSG00000228594"; transcript_id "ENST00000422725"; gene_name "C1orf233"; gene_source "havana"; gene_biotype "protein_coding"; transcript_name "C1orf233-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55559";
+1	protein_coding	exon	1533392	1535476	.	-	.	gene_id "ENSG00000228594"; transcript_id "ENST00000422725"; exon_number "1"; gene_name "C1orf233"; gene_source "havana"; gene_biotype "protein_coding"; transcript_name "C1orf233-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55559"; exon_id "ENSE00001792737";
+1	protein_coding	CDS	1534718	1535395	.	-	0	gene_id "ENSG00000228594"; transcript_id "ENST00000422725"; exon_number "1"; gene_name "C1orf233"; gene_source "havana"; gene_biotype "protein_coding"; transcript_name "C1orf233-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55559"; protein_id "ENSP00000389111";
+1	protein_coding	start_codon	1535393	1535395	.	-	0	gene_id "ENSG00000228594"; transcript_id "ENST00000422725"; exon_number "1"; gene_name "C1orf233"; gene_source "havana"; gene_biotype "protein_coding"; transcript_name "C1orf233-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55559";
+1	protein_coding	stop_codon	1534715	1534717	.	-	0	gene_id "ENSG00000228594"; transcript_id "ENST00000422725"; exon_number "1"; gene_name "C1orf233"; gene_source "havana"; gene_biotype "protein_coding"; transcript_name "C1orf233-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55559";
+1	protein_coding	UTR	1535396	1535476	.	-	.	gene_id "ENSG00000228594"; transcript_id "ENST00000422725"; gene_name "C1orf233"; gene_source "havana"; gene_biotype "protein_coding"; transcript_name "C1orf233-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55559";
+1	protein_coding	UTR	1533392	1534714	.	-	.	gene_id "ENSG00000228594"; transcript_id "ENST00000422725"; gene_name "C1orf233"; gene_source "havana"; gene_biotype "protein_coding"; transcript_name "C1orf233-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55559";
+1	antisense	gene	1549138	1551175	.	-	.	gene_id "ENSG00000272106"; gene_name "RP11-345P4.9"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	1549138	1551175	.	-	.	gene_id "ENSG00000272106"; transcript_id "ENST00000607222"; gene_name "RP11-345P4.9"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-345P4.9-001"; transcript_source "havana";
+1	antisense	exon	1549138	1551175	.	-	.	gene_id "ENSG00000272106"; transcript_id "ENST00000607222"; exon_number "1"; gene_name "RP11-345P4.9"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-345P4.9-001"; transcript_source "havana"; exon_id "ENSE00003696327";
+1	protein_coding	gene	1550795	1565990	.	+	.	gene_id "ENSG00000197530"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1550795	1565985	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261";
+1	protein_coding	exon	1550795	1551013	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00002119068";
+1	protein_coding	CDS	1550840	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	start_codon	1550840	1550842	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261";
+1	protein_coding	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003651550";
+1	protein_coding	CDS	1551888	1551994	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1558769	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003615197";
+1	protein_coding	CDS	1558769	1559079	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003537484";
+1	protein_coding	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003631294";
+1	protein_coding	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003548099";
+1	protein_coding	CDS	1560371	1560565	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003508056";
+1	protein_coding	CDS	1560666	1560808	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1560938	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00002028782";
+1	protein_coding	CDS	1560938	1561033	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003525913";
+1	protein_coding	CDS	1562030	1562134	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003667001";
+1	protein_coding	CDS	1562217	1562379	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003656004";
+1	protein_coding	CDS	1562454	1562587	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003650046";
+1	protein_coding	CDS	1562676	1562824	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003590159";
+1	protein_coding	CDS	1563053	1563209	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003674348";
+1	protein_coding	CDS	1563399	1563559	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003653398";
+1	protein_coding	CDS	1563653	1563779	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003601252";
+1	protein_coding	CDS	1563869	1564102	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003667800";
+1	protein_coding	CDS	1564513	1564691	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003658755";
+1	protein_coding	CDS	1564765	1564946	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003502987";
+1	protein_coding	CDS	1565019	1565084	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	exon	1565672	1565985	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; exon_id "ENSE00003554681";
+1	protein_coding	CDS	1565672	1565907	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261"; protein_id "ENSP00000428660";
+1	protein_coding	stop_codon	1565908	1565910	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261";
+1	protein_coding	UTR	1550795	1550839	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261";
+1	protein_coding	UTR	1565911	1565985	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000520777"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-022"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53261";
+1	protein_coding	transcript	1550795	1565990	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl";
+1	protein_coding	exon	1550795	1551013	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00002119068";
+1	protein_coding	CDS	1551011	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	start_codon	1551011	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl";
+1	protein_coding	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003651550";
+1	protein_coding	CDS	1551888	1551994	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1558769	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003615197";
+1	protein_coding	CDS	1558769	1559079	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003537484";
+1	protein_coding	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003631294";
+1	protein_coding	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003548099";
+1	protein_coding	CDS	1560371	1560565	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003508056";
+1	protein_coding	CDS	1560666	1560808	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1560926	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003646402";
+1	protein_coding	CDS	1560926	1561033	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003525913";
+1	protein_coding	CDS	1562030	1562134	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003667001";
+1	protein_coding	CDS	1562217	1562379	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003656004";
+1	protein_coding	CDS	1562454	1562587	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003650046";
+1	protein_coding	CDS	1562676	1562824	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003590159";
+1	protein_coding	CDS	1563053	1563209	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003674348";
+1	protein_coding	CDS	1563399	1563559	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003653398";
+1	protein_coding	CDS	1563653	1563779	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003601252";
+1	protein_coding	CDS	1563869	1564102	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003667800";
+1	protein_coding	CDS	1564513	1564691	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003658755";
+1	protein_coding	CDS	1564765	1564946	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00003502987";
+1	protein_coding	CDS	1565019	1565084	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	exon	1565672	1565990	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; exon_id "ENSE00001425690";
+1	protein_coding	CDS	1565672	1565907	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl"; protein_id "ENSP00000349741";
+1	protein_coding	stop_codon	1565908	1565910	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1550795	1551010	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1565911	1565990	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000357210"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-201"; transcript_source "ensembl";
+1	protein_coding	transcript	1550795	1565990	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl";
+1	protein_coding	exon	1550795	1551013	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00002119068";
+1	protein_coding	CDS	1551011	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	start_codon	1551011	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl";
+1	protein_coding	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003651550";
+1	protein_coding	CDS	1551888	1551994	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1558769	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003615197";
+1	protein_coding	CDS	1558769	1559079	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003537484";
+1	protein_coding	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003631294";
+1	protein_coding	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003548099";
+1	protein_coding	CDS	1560371	1560565	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003508056";
+1	protein_coding	CDS	1560666	1560808	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1560926	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003646402";
+1	protein_coding	CDS	1560926	1561033	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003667001";
+1	protein_coding	CDS	1562217	1562379	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003656004";
+1	protein_coding	CDS	1562454	1562587	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003650046";
+1	protein_coding	CDS	1562676	1562824	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003590159";
+1	protein_coding	CDS	1563053	1563209	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003674348";
+1	protein_coding	CDS	1563399	1563559	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003653398";
+1	protein_coding	CDS	1563653	1563779	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003601252";
+1	protein_coding	CDS	1563869	1564102	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003667800";
+1	protein_coding	CDS	1564513	1564691	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003658755";
+1	protein_coding	CDS	1564765	1564946	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00003502987";
+1	protein_coding	CDS	1565019	1565084	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	exon	1565672	1565990	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; exon_id "ENSE00001425690";
+1	protein_coding	CDS	1565672	1565907	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl"; protein_id "ENSP00000353713";
+1	protein_coding	stop_codon	1565908	1565910	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl";
+1	protein_coding	UTR	1550795	1551010	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl";
+1	protein_coding	UTR	1565911	1565990	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000360522"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-202"; transcript_source "ensembl";
+1	protein_coding	transcript	1550795	1565990	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl";
+1	protein_coding	exon	1550795	1551013	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00002119068";
+1	protein_coding	CDS	1551011	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	start_codon	1551011	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl";
+1	protein_coding	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003651550";
+1	protein_coding	CDS	1551888	1551994	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1558769	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003615197";
+1	protein_coding	CDS	1558769	1559079	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003537484";
+1	protein_coding	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003631294";
+1	protein_coding	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003548099";
+1	protein_coding	CDS	1560371	1560565	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003508056";
+1	protein_coding	CDS	1560666	1560808	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003525913";
+1	protein_coding	CDS	1562030	1562134	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003667001";
+1	protein_coding	CDS	1562217	1562379	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003656004";
+1	protein_coding	CDS	1562454	1562587	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003650046";
+1	protein_coding	CDS	1562676	1562824	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003590159";
+1	protein_coding	CDS	1563053	1563209	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003674348";
+1	protein_coding	CDS	1563399	1563559	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003653398";
+1	protein_coding	CDS	1563653	1563779	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003601252";
+1	protein_coding	CDS	1563869	1564102	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003667800";
+1	protein_coding	CDS	1564513	1564691	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003658755";
+1	protein_coding	CDS	1564765	1564946	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00003502987";
+1	protein_coding	CDS	1565019	1565084	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	exon	1565672	1565990	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; exon_id "ENSE00001425690";
+1	protein_coding	CDS	1565672	1565907	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl"; protein_id "ENSP00000367982";
+1	protein_coding	stop_codon	1565908	1565910	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl";
+1	protein_coding	UTR	1550795	1551010	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl";
+1	protein_coding	UTR	1565911	1565990	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378710"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-203"; transcript_source "ensembl";
+1	protein_coding	transcript	1550801	1565990	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263";
+1	protein_coding	exon	1550801	1551013	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00001786384";
+1	protein_coding	CDS	1550840	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	start_codon	1550840	1550842	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263";
+1	protein_coding	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003651550";
+1	protein_coding	CDS	1551888	1551994	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1558811	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003686148";
+1	protein_coding	CDS	1558811	1559079	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003537484";
+1	protein_coding	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003631294";
+1	protein_coding	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003548099";
+1	protein_coding	CDS	1560371	1560565	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003508056";
+1	protein_coding	CDS	1560666	1560808	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1560926	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003646402";
+1	protein_coding	CDS	1560926	1561033	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003525913";
+1	protein_coding	CDS	1562030	1562134	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003667001";
+1	protein_coding	CDS	1562217	1562379	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003656004";
+1	protein_coding	CDS	1562454	1562587	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003650046";
+1	protein_coding	CDS	1562676	1562824	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003590159";
+1	protein_coding	CDS	1563053	1563209	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003674348";
+1	protein_coding	CDS	1563399	1563559	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003653398";
+1	protein_coding	CDS	1563653	1563779	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003601252";
+1	protein_coding	CDS	1563869	1564102	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003667800";
+1	protein_coding	CDS	1564513	1564691	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003658755";
+1	protein_coding	CDS	1564765	1564946	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00003502987";
+1	protein_coding	CDS	1565019	1565084	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	exon	1565672	1565990	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; exon_id "ENSE00001425690";
+1	protein_coding	CDS	1565672	1565907	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263"; protein_id "ENSP00000348081";
+1	protein_coding	stop_codon	1565908	1565910	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263";
+1	protein_coding	UTR	1550801	1550839	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263";
+1	protein_coding	UTR	1565911	1565990	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000355826"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS53263";
+1	protein_coding	transcript	1550817	1565985	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262";
+1	protein_coding	exon	1550817	1551013	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00002098531";
+1	protein_coding	CDS	1550840	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	start_codon	1550840	1550842	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262";
+1	protein_coding	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003651550";
+1	protein_coding	CDS	1551888	1551994	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1558769	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003615197";
+1	protein_coding	CDS	1558769	1559079	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003537484";
+1	protein_coding	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003631294";
+1	protein_coding	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003508056";
+1	protein_coding	CDS	1560666	1560808	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1560926	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003646402";
+1	protein_coding	CDS	1560926	1561033	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003525913";
+1	protein_coding	CDS	1562030	1562134	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003667001";
+1	protein_coding	CDS	1562217	1562379	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003656004";
+1	protein_coding	CDS	1562454	1562587	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003650046";
+1	protein_coding	CDS	1562676	1562824	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003590159";
+1	protein_coding	CDS	1563053	1563209	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003674348";
+1	protein_coding	CDS	1563399	1563559	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003653398";
+1	protein_coding	CDS	1563653	1563779	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003601252";
+1	protein_coding	CDS	1563869	1564102	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003667800";
+1	protein_coding	CDS	1564513	1564691	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003658755";
+1	protein_coding	CDS	1564765	1564946	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003502987";
+1	protein_coding	CDS	1565019	1565084	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	exon	1565672	1565985	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; exon_id "ENSE00003554681";
+1	protein_coding	CDS	1565672	1565907	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262"; protein_id "ENSP00000428264";
+1	protein_coding	stop_codon	1565908	1565910	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262";
+1	protein_coding	UTR	1550817	1550839	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262";
+1	protein_coding	UTR	1565911	1565985	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000518681"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53262";
+1	protein_coding	transcript	1550823	1565985	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224";
+1	protein_coding	exon	1550823	1551013	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00002129565";
+1	protein_coding	CDS	1550840	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	start_codon	1550840	1550842	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224";
+1	protein_coding	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003651550";
+1	protein_coding	CDS	1551888	1551994	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1558769	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003615197";
+1	protein_coding	CDS	1558769	1559079	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003537484";
+1	protein_coding	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003631294";
+1	protein_coding	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003548099";
+1	protein_coding	CDS	1560371	1560565	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003508056";
+1	protein_coding	CDS	1560666	1560808	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1560926	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003646402";
+1	protein_coding	CDS	1560926	1561033	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003525913";
+1	protein_coding	CDS	1562030	1562134	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003667001";
+1	protein_coding	CDS	1562217	1562379	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003656004";
+1	protein_coding	CDS	1562454	1562587	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003650046";
+1	protein_coding	CDS	1562676	1562824	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003590159";
+1	protein_coding	CDS	1563053	1563209	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003674348";
+1	protein_coding	CDS	1563399	1563559	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003653398";
+1	protein_coding	CDS	1563653	1563779	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003601252";
+1	protein_coding	CDS	1563869	1564102	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003667800";
+1	protein_coding	CDS	1564513	1564691	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003658755";
+1	protein_coding	CDS	1564765	1564946	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003502987";
+1	protein_coding	CDS	1565019	1565084	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	exon	1565672	1565985	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; exon_id "ENSE00003554681";
+1	protein_coding	CDS	1565672	1565907	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224"; protein_id "ENSP00000426103";
+1	protein_coding	stop_codon	1565908	1565910	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224";
+1	protein_coding	UTR	1550823	1550839	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224";
+1	protein_coding	UTR	1565911	1565985	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505820"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-016"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41224";
+1	retained_intron	transcript	1550834	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana";
+1	retained_intron	exon	1550834	1551013	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00001918760";
+1	retained_intron	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003509279";
+1	retained_intron	exon	1558811	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003495309";
+1	retained_intron	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003663924";
+1	retained_intron	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003612945";
+1	retained_intron	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003521364";
+1	retained_intron	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003489309";
+1	retained_intron	exon	1560926	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00001916122";
+1	retained_intron	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003465448";
+1	retained_intron	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003535804";
+1	retained_intron	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003597629";
+1	retained_intron	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003532727";
+1	retained_intron	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003523686";
+1	retained_intron	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003544629";
+1	retained_intron	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003489920";
+1	retained_intron	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003524235";
+1	retained_intron	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003523737";
+1	retained_intron	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003506674";
+1	retained_intron	exon	1565672	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000479659"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-002"; transcript_source "havana"; exon_id "ENSE00003627077";
+1	nonsense_mediated_decay	transcript	1550876	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1550876	1551013	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00001935998";
+1	nonsense_mediated_decay	CDS	1551011	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; protein_id "ENSP00000426007";
+1	nonsense_mediated_decay	start_codon	1551011	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003651550";
+1	nonsense_mediated_decay	CDS	1551888	1551994	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; protein_id "ENSP00000426007";
+1	nonsense_mediated_decay	exon	1558769	1558862	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00001914249";
+1	nonsense_mediated_decay	CDS	1558769	1558862	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; protein_id "ENSP00000426007";
+1	nonsense_mediated_decay	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003486923";
+1	nonsense_mediated_decay	CDS	1559154	1559325	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; protein_id "ENSP00000426007";
+1	nonsense_mediated_decay	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003479957";
+1	nonsense_mediated_decay	CDS	1560175	1560182	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; protein_id "ENSP00000426007";
+1	nonsense_mediated_decay	stop_codon	1560183	1560185	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003521364";
+1	nonsense_mediated_decay	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003489309";
+1	nonsense_mediated_decay	exon	1560926	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003554834";
+1	nonsense_mediated_decay	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003681989";
+1	nonsense_mediated_decay	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003465448";
+1	nonsense_mediated_decay	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003535804";
+1	nonsense_mediated_decay	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003597629";
+1	nonsense_mediated_decay	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003532727";
+1	nonsense_mediated_decay	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003523686";
+1	nonsense_mediated_decay	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003544629";
+1	nonsense_mediated_decay	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003489920";
+1	nonsense_mediated_decay	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003524235";
+1	nonsense_mediated_decay	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003523737";
+1	nonsense_mediated_decay	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003506674";
+1	nonsense_mediated_decay	exon	1565672	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana"; exon_id "ENSE00003627077";
+1	nonsense_mediated_decay	UTR	1550876	1551010	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1560186	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1560926	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1565672	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000489635"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-004"; transcript_source "havana";
+1	retained_intron	transcript	1550894	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana";
+1	retained_intron	exon	1550894	1551013	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00002051808";
+1	retained_intron	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003509279";
+1	retained_intron	exon	1558769	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003673805";
+1	retained_intron	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003663924";
+1	retained_intron	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003612945";
+1	retained_intron	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003521364";
+1	retained_intron	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003489309";
+1	retained_intron	exon	1560926	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003554834";
+1	retained_intron	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003681989";
+1	retained_intron	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003465448";
+1	retained_intron	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003535804";
+1	retained_intron	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003597629";
+1	retained_intron	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003532727";
+1	retained_intron	exon	1563399	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00001904646";
+1	retained_intron	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003489920";
+1	retained_intron	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003524235";
+1	retained_intron	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003523737";
+1	retained_intron	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003506674";
+1	retained_intron	exon	1565672	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511502"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-017"; transcript_source "havana"; exon_id "ENSE00003627077";
+1	retained_intron	transcript	1550896	1554590	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000477990"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-005"; transcript_source "havana";
+1	retained_intron	exon	1550896	1551013	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000477990"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-005"; transcript_source "havana"; exon_id "ENSE00001940844";
+1	retained_intron	exon	1551888	1554590	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000477990"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-005"; transcript_source "havana"; exon_id "ENSE00001921686";
+1	nonsense_mediated_decay	transcript	1550910	1560420	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1550910	1551013	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana"; exon_id "ENSE00002032407";
+1	nonsense_mediated_decay	CDS	1551011	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana"; protein_id "ENSP00000420935";
+1	nonsense_mediated_decay	start_codon	1551011	1551013	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana"; exon_id "ENSE00003651550";
+1	nonsense_mediated_decay	CDS	1551888	1551994	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana"; protein_id "ENSP00000420935";
+1	nonsense_mediated_decay	exon	1558811	1558862	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana"; exon_id "ENSE00002066147";
+1	nonsense_mediated_decay	CDS	1558811	1558862	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana"; protein_id "ENSP00000420935";
+1	nonsense_mediated_decay	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana"; exon_id "ENSE00003486923";
+1	nonsense_mediated_decay	CDS	1559154	1559325	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana"; protein_id "ENSP00000420935";
+1	nonsense_mediated_decay	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana"; exon_id "ENSE00003479957";
+1	nonsense_mediated_decay	CDS	1560175	1560182	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana"; protein_id "ENSP00000420935";
+1	nonsense_mediated_decay	stop_codon	1560183	1560185	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1560371	1560420	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana"; exon_id "ENSE00002081549";
+1	nonsense_mediated_decay	UTR	1550910	1551010	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1560186	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1560371	1560420	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514363"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-027"; transcript_source "havana";
+1	nonsense_mediated_decay	transcript	1551259	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1551259	1551480	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00001896578";
+1	nonsense_mediated_decay	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003509279";
+1	nonsense_mediated_decay	exon	1558769	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003657471";
+1	nonsense_mediated_decay	CDS	1558791	1559079	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	start_codon	1558791	1558793	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003537484";
+1	nonsense_mediated_decay	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003631294";
+1	nonsense_mediated_decay	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003548099";
+1	nonsense_mediated_decay	CDS	1560371	1560565	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003508056";
+1	nonsense_mediated_decay	CDS	1560666	1560808	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1560926	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003646402";
+1	nonsense_mediated_decay	CDS	1560926	1561033	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003525913";
+1	nonsense_mediated_decay	CDS	1562030	1562134	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003667001";
+1	nonsense_mediated_decay	CDS	1562217	1562379	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003656004";
+1	nonsense_mediated_decay	CDS	1562454	1562587	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003650046";
+1	nonsense_mediated_decay	CDS	1562676	1562824	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003590159";
+1	nonsense_mediated_decay	CDS	1563053	1563209	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003674348";
+1	nonsense_mediated_decay	CDS	1563399	1563559	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003653398";
+1	nonsense_mediated_decay	CDS	1563653	1563779	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003601252";
+1	nonsense_mediated_decay	CDS	1563869	1564102	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003667800";
+1	nonsense_mediated_decay	CDS	1564513	1564691	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1564765	1564784	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00001835685";
+1	nonsense_mediated_decay	CDS	1564765	1564784	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	exon	1564868	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00001933242";
+1	nonsense_mediated_decay	CDS	1564868	1564872	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; protein_id "ENSP00000424615";
+1	nonsense_mediated_decay	stop_codon	1564873	1564875	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "20"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003506674";
+1	nonsense_mediated_decay	exon	1565672	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; exon_number "21"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana"; exon_id "ENSE00003627077";
+1	nonsense_mediated_decay	UTR	1551259	1551480	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1558769	1558790	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1564876	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1565672	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000487053"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-007"; transcript_source "havana";
+1	nonsense_mediated_decay	transcript	1551267	1560212	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1551267	1551480	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana"; exon_id "ENSE00002049469";
+1	nonsense_mediated_decay	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana"; exon_id "ENSE00003509279";
+1	nonsense_mediated_decay	exon	1558811	1559059	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana"; exon_id "ENSE00002048817";
+1	nonsense_mediated_decay	CDS	1558833	1559059	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana"; protein_id "ENSP00000423221";
+1	nonsense_mediated_decay	start_codon	1558833	1558835	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana"; exon_id "ENSE00003649169";
+1	nonsense_mediated_decay	CDS	1559154	1559178	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana"; protein_id "ENSP00000423221";
+1	nonsense_mediated_decay	stop_codon	1559179	1559181	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1560175	1560212	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana"; exon_id "ENSE00002044269";
+1	nonsense_mediated_decay	UTR	1551267	1551480	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1558811	1558832	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1559182	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1560175	1560212	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000502470"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-025"; transcript_source "havana";
+1	protein_coding	transcript	1551285	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264";
+1	protein_coding	exon	1551285	1551480	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00001478469";
+1	protein_coding	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003509279";
+1	protein_coding	exon	1558811	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003506180";
+1	protein_coding	CDS	1558833	1559079	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	start_codon	1558833	1558835	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264";
+1	protein_coding	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003537484";
+1	protein_coding	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003631294";
+1	protein_coding	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003508056";
+1	protein_coding	CDS	1560666	1560808	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1560926	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003646402";
+1	protein_coding	CDS	1560926	1561033	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003525913";
+1	protein_coding	CDS	1562030	1562134	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003667001";
+1	protein_coding	CDS	1562217	1562379	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003656004";
+1	protein_coding	CDS	1562454	1562587	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003650046";
+1	protein_coding	CDS	1562676	1562824	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003590159";
+1	protein_coding	CDS	1563053	1563209	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003674348";
+1	protein_coding	CDS	1563399	1563559	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003653398";
+1	protein_coding	CDS	1563653	1563779	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003601252";
+1	protein_coding	CDS	1563869	1564102	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003667800";
+1	protein_coding	CDS	1564513	1564691	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003565195";
+1	protein_coding	CDS	1565019	1565084	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	exon	1565672	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; exon_id "ENSE00003655453";
+1	protein_coding	CDS	1565672	1565678	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264"; protein_id "ENSP00000367984";
+1	protein_coding	stop_codon	1565679	1565681	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264";
+1	protein_coding	UTR	1551285	1551480	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264";
+1	protein_coding	UTR	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264";
+1	protein_coding	UTR	1558811	1558832	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264";
+1	protein_coding	UTR	1565682	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378712"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-006"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS53264";
+1	retained_intron	transcript	1551294	1553278	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507082"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-018"; transcript_source "havana";
+1	retained_intron	exon	1551294	1551480	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507082"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-018"; transcript_source "havana"; exon_id "ENSE00002070245";
+1	retained_intron	exon	1551888	1553278	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507082"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-018"; transcript_source "havana"; exon_id "ENSE00002020089";
+1	processed_transcript	transcript	1551348	1552703	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000463492"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-009"; transcript_source "havana";
+1	processed_transcript	exon	1551348	1551480	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000463492"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-009"; transcript_source "havana"; exon_id "ENSE00001849040";
+1	processed_transcript	exon	1551888	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000463492"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-009"; transcript_source "havana"; exon_id "ENSE00003509279";
+1	processed_transcript	exon	1552458	1552703	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000463492"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-009"; transcript_source "havana"; exon_id "ENSE00001875600";
+1	protein_coding	transcript	1551654	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000510793"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-026"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1551654	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000510793"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-026"; transcript_source "havana"; exon_id "ENSE00002037912"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1558811	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000510793"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-026"; transcript_source "havana"; exon_id "ENSE00003506180"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1558833	1559079	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000510793"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-026"; transcript_source "havana"; protein_id "ENSP00000426865"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000510793"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-026"; transcript_source "havana"; exon_id "ENSE00003537484"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000510793"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-026"; transcript_source "havana"; protein_id "ENSP00000426865"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000510793"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-026"; transcript_source "havana"; exon_id "ENSE00003627351"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000510793"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-026"; transcript_source "havana"; protein_id "ENSP00000426865"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1551654	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000510793"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-026"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1558811	1558832	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000510793"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-026"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	1551690	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana";
+1	protein_coding	exon	1551690	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00002062285";
+1	protein_coding	exon	1558769	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003657471";
+1	protein_coding	CDS	1558791	1559079	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	start_codon	1558791	1558793	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana";
+1	protein_coding	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003537484";
+1	protein_coding	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003631294";
+1	protein_coding	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003548099";
+1	protein_coding	CDS	1560371	1560565	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003508056";
+1	protein_coding	CDS	1560666	1560808	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1560926	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003646402";
+1	protein_coding	CDS	1560926	1561033	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003525913";
+1	protein_coding	CDS	1562030	1562134	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003667001";
+1	protein_coding	CDS	1562217	1562379	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003656004";
+1	protein_coding	CDS	1562454	1562587	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003650046";
+1	protein_coding	CDS	1562676	1562824	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003590159";
+1	protein_coding	CDS	1563053	1563209	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003674348";
+1	protein_coding	CDS	1563399	1563559	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003653398";
+1	protein_coding	CDS	1563653	1563779	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003601252";
+1	protein_coding	CDS	1563869	1564102	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003667800";
+1	protein_coding	CDS	1564513	1564691	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003658755";
+1	protein_coding	CDS	1564765	1564946	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003502987";
+1	protein_coding	CDS	1565019	1565084	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	exon	1565672	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; exon_id "ENSE00003569212";
+1	protein_coding	CDS	1565672	1565907	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana"; protein_id "ENSP00000426128";
+1	protein_coding	stop_codon	1565908	1565910	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; exon_number "19"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana";
+1	protein_coding	UTR	1551690	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana";
+1	protein_coding	UTR	1558769	1558790	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana";
+1	protein_coding	UTR	1565911	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000504599"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-019"; transcript_source "havana";
+1	retained_intron	transcript	1551691	1564543	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana";
+1	retained_intron	exon	1551691	1551994	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00002060829";
+1	retained_intron	exon	1558769	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00003673805";
+1	retained_intron	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00003663924";
+1	retained_intron	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00003612945";
+1	retained_intron	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00003521364";
+1	retained_intron	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00003489309";
+1	retained_intron	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00003681989";
+1	retained_intron	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00003465448";
+1	retained_intron	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00003535804";
+1	retained_intron	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00003597629";
+1	retained_intron	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00003532727";
+1	retained_intron	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00003523686";
+1	retained_intron	exon	1563653	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00002045885";
+1	retained_intron	exon	1564513	1564543	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000507229"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-020"; transcript_source "havana"; exon_id "ENSE00002035628";
+1	protein_coding	transcript	1552788	1560201	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000503789"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-028"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1552788	1552895	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000503789"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-028"; transcript_source "havana"; exon_id "ENSE00002029486"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1558811	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000503789"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-028"; transcript_source "havana"; exon_id "ENSE00003506180"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1558833	1559079	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000503789"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-028"; transcript_source "havana"; protein_id "ENSP00000426603"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000503789"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-028"; transcript_source "havana"; exon_id "ENSE00003537484"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000503789"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-028"; transcript_source "havana"; protein_id "ENSP00000426603"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1560175	1560201	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000503789"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-028"; transcript_source "havana"; exon_id "ENSE00002062696"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1560175	1560201	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000503789"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-028"; transcript_source "havana"; protein_id "ENSP00000426603"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1552788	1552895	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000503789"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-028"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1558811	1558832	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000503789"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-028"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	1552940	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana";
+1	protein_coding	exon	1552940	1553095	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00001478453";
+1	protein_coding	exon	1558811	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003506180";
+1	protein_coding	CDS	1558833	1559079	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	start_codon	1558833	1558835	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana";
+1	protein_coding	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003537484";
+1	protein_coding	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003631294";
+1	protein_coding	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003548099";
+1	protein_coding	CDS	1560371	1560565	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003508056";
+1	protein_coding	CDS	1560666	1560808	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003525913";
+1	protein_coding	CDS	1562030	1562134	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003667001";
+1	protein_coding	CDS	1562217	1562379	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003656004";
+1	protein_coding	CDS	1562454	1562587	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003650046";
+1	protein_coding	CDS	1562676	1562824	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003590159";
+1	protein_coding	CDS	1563053	1563209	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003674348";
+1	protein_coding	CDS	1563399	1563559	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003653398";
+1	protein_coding	CDS	1563653	1563779	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003601252";
+1	protein_coding	CDS	1563869	1564102	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003667800";
+1	protein_coding	CDS	1564513	1564691	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003658755";
+1	protein_coding	CDS	1564765	1564946	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003502987";
+1	protein_coding	CDS	1565019	1565084	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	exon	1565672	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; exon_id "ENSE00003569212";
+1	protein_coding	CDS	1565672	1565907	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana"; protein_id "ENSP00000367980";
+1	protein_coding	stop_codon	1565908	1565910	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; exon_number "18"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana";
+1	protein_coding	UTR	1552940	1553095	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana";
+1	protein_coding	UTR	1558811	1558832	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana";
+1	protein_coding	UTR	1565911	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000378708"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-008"; transcript_source "havana";
+1	nonsense_mediated_decay	transcript	1552957	1565912	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1552957	1553095	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00002042127";
+1	nonsense_mediated_decay	exon	1558811	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003506180";
+1	nonsense_mediated_decay	CDS	1558833	1559079	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; protein_id "ENSP00000425032";
+1	nonsense_mediated_decay	start_codon	1558833	1558835	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003537484";
+1	nonsense_mediated_decay	CDS	1559154	1559325	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; protein_id "ENSP00000425032";
+1	nonsense_mediated_decay	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003631294";
+1	nonsense_mediated_decay	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; protein_id "ENSP00000425032";
+1	nonsense_mediated_decay	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003548099";
+1	nonsense_mediated_decay	CDS	1560371	1560565	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; protein_id "ENSP00000425032";
+1	nonsense_mediated_decay	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003508056";
+1	nonsense_mediated_decay	CDS	1560666	1560808	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; protein_id "ENSP00000425032";
+1	nonsense_mediated_decay	exon	1562030	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003525913";
+1	nonsense_mediated_decay	CDS	1562030	1562134	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; protein_id "ENSP00000425032";
+1	nonsense_mediated_decay	exon	1562217	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00002070802";
+1	nonsense_mediated_decay	CDS	1562217	1562432	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; protein_id "ENSP00000425032";
+1	nonsense_mediated_decay	stop_codon	1562433	1562435	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003597629";
+1	nonsense_mediated_decay	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003532727";
+1	nonsense_mediated_decay	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003523686";
+1	nonsense_mediated_decay	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003544629";
+1	nonsense_mediated_decay	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003489920";
+1	nonsense_mediated_decay	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003524235";
+1	nonsense_mediated_decay	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003523737";
+1	nonsense_mediated_decay	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00003506674";
+1	nonsense_mediated_decay	exon	1565672	1565912	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; exon_number "17"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana"; exon_id "ENSE00002081984";
+1	nonsense_mediated_decay	UTR	1552957	1553095	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1558811	1558832	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1562436	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1565672	1565912	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000506488"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-023"; transcript_source "havana";
+1	processed_transcript	transcript	1558502	1560239	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000512004"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-029"; transcript_source "havana";
+1	processed_transcript	exon	1558502	1558862	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000512004"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-029"; transcript_source "havana"; exon_id "ENSE00002063066";
+1	processed_transcript	exon	1559154	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000512004"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-029"; transcript_source "havana"; exon_id "ENSE00003663924";
+1	processed_transcript	exon	1560175	1560239	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000512004"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-029"; transcript_source "havana"; exon_id "ENSE00002031085";
+1	retained_intron	transcript	1558961	1559589	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000508455"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-030"; transcript_source "havana";
+1	retained_intron	exon	1558961	1559079	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000508455"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-030"; transcript_source "havana"; exon_id "ENSE00002068875";
+1	retained_intron	exon	1559154	1559589	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000508455"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-030"; transcript_source "havana"; exon_id "ENSE00002022585";
+1	protein_coding	transcript	1559182	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1559182	1559325	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00002052272"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1559182	1559325	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1560175	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003631294"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1560175	1560281	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1560371	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003548099"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1560371	1560565	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003508056"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1560666	1560808	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1560926	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003646402"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1560926	1561033	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1562217	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003667001"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1562217	1562379	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "6"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003656004"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1562454	1562587	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "7"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1562676	1562824	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003650046"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1562676	1562824	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "8"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1563053	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003590159"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1563053	1563209	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "9"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003674348"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1563399	1563559	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "10"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003653398"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1563653	1563779	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "11"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003601252"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1563869	1564102	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "12"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003667800"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1564513	1564691	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "13"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003658755"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1564765	1564946	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "14"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003502987"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1565019	1565084	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "15"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1565672	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; exon_id "ENSE00003569212"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1565672	1565910	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; exon_number "16"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; protein_id "ENSP00000427680"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1565911	1565984	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000514234"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-021"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1560124	1561179	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000467597"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-010"; transcript_source "havana";
+1	retained_intron	exon	1560124	1560281	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000467597"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-010"; transcript_source "havana"; exon_id "ENSE00001928859";
+1	retained_intron	exon	1560345	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000467597"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-010"; transcript_source "havana"; exon_id "ENSE00001885463";
+1	retained_intron	exon	1560666	1560808	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000467597"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-010"; transcript_source "havana"; exon_id "ENSE00003489309";
+1	retained_intron	exon	1560926	1561179	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000467597"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-010"; transcript_source "havana"; exon_id "ENSE00001903655";
+1	retained_intron	transcript	1560467	1561143	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000508148"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-031"; transcript_source "havana";
+1	retained_intron	exon	1560467	1560565	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000508148"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-031"; transcript_source "havana"; exon_id "ENSE00002061674";
+1	retained_intron	exon	1560666	1561143	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000508148"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-031"; transcript_source "havana"; exon_id "ENSE00002067702";
+1	nonsense_mediated_decay	transcript	1560947	1562309	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000486072"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-011"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1560947	1561033	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000486072"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-011"; transcript_source "havana"; exon_id "ENSE00001858565"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1560947	1561033	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000486072"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-011"; transcript_source "havana"; protein_id "ENSP00000463504"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1561747	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000486072"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-011"; transcript_source "havana"; exon_id "ENSE00001888195"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1561747	1561833	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000486072"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-011"; transcript_source "havana"; protein_id "ENSP00000463504"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1562217	1562309	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000486072"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-011"; transcript_source "havana"; exon_id "ENSE00001927673"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1561834	1562134	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000486072"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-011"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1562217	1562309	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000486072"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-011"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1562240	1563210	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505370"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-032"; transcript_source "havana";
+1	retained_intron	exon	1562240	1562379	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505370"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-032"; transcript_source "havana"; exon_id "ENSE00002050046";
+1	retained_intron	exon	1562454	1562587	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505370"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-032"; transcript_source "havana"; exon_id "ENSE00003535804";
+1	retained_intron	exon	1562676	1563210	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000505370"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-032"; transcript_source "havana"; exon_id "ENSE00002084228";
+1	retained_intron	transcript	1562840	1564932	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000473511"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-013"; transcript_source "havana";
+1	retained_intron	exon	1562840	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000473511"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-013"; transcript_source "havana"; exon_id "ENSE00001955794";
+1	retained_intron	exon	1563399	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000473511"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-013"; transcript_source "havana"; exon_id "ENSE00001904646";
+1	retained_intron	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000473511"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-013"; transcript_source "havana"; exon_id "ENSE00003489920";
+1	retained_intron	exon	1564513	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000473511"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-013"; transcript_source "havana"; exon_id "ENSE00003524235";
+1	retained_intron	exon	1564765	1564932	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000473511"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-013"; transcript_source "havana"; exon_id "ENSE00001852001";
+1	retained_intron	transcript	1562902	1564650	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000464570"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-012"; transcript_source "havana";
+1	retained_intron	exon	1562902	1563209	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000464570"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-012"; transcript_source "havana"; exon_id "ENSE00001844296";
+1	retained_intron	exon	1563399	1563559	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000464570"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-012"; transcript_source "havana"; exon_id "ENSE00003523686";
+1	retained_intron	exon	1563653	1563779	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000464570"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-012"; transcript_source "havana"; exon_id "ENSE00003544629";
+1	retained_intron	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000464570"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-012"; transcript_source "havana"; exon_id "ENSE00003489920";
+1	retained_intron	exon	1564513	1564650	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000464570"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-012"; transcript_source "havana"; exon_id "ENSE00001852042";
+1	protein_coding	transcript	1563869	1565969	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000483015"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-014"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1563869	1564102	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000483015"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-014"; transcript_source "havana"; exon_id "ENSE00003601252"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1563869	1564102	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000483015"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-014"; transcript_source "havana"; protein_id "ENSP00000464106"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1564414	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000483015"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-014"; transcript_source "havana"; exon_id "ENSE00001832847"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1564414	1564691	.	+	0	gene_id "ENSG00000197530"; transcript_id "ENST00000483015"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-014"; transcript_source "havana"; protein_id "ENSP00000464106"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1564765	1564946	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000483015"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-014"; transcript_source "havana"; exon_id "ENSE00003658755"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1564765	1564946	.	+	1	gene_id "ENSG00000197530"; transcript_id "ENST00000483015"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-014"; transcript_source "havana"; protein_id "ENSP00000464106"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000483015"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-014"; transcript_source "havana"; exon_id "ENSE00003502987"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1565019	1565084	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000483015"; exon_number "4"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-014"; transcript_source "havana"; protein_id "ENSP00000464106"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1565672	1565969	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000483015"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-014"; transcript_source "havana"; exon_id "ENSE00001913847"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1565672	1565910	.	+	2	gene_id "ENSG00000197530"; transcript_id "ENST00000483015"; exon_number "5"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-014"; transcript_source "havana"; protein_id "ENSP00000464106"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1565911	1565969	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000483015"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-014"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1564486	1565983	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511910"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-024"; transcript_source "havana";
+1	retained_intron	exon	1564486	1564691	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511910"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-024"; transcript_source "havana"; exon_id "ENSE00002069168";
+1	retained_intron	exon	1565019	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511910"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-024"; transcript_source "havana"; exon_id "ENSE00003506674";
+1	retained_intron	exon	1565672	1565983	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000511910"; exon_number "3"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-024"; transcript_source "havana"; exon_id "ENSE00001754490";
+1	retained_intron	transcript	1564853	1565985	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000470373"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-015"; transcript_source "havana";
+1	retained_intron	exon	1564853	1565084	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000470373"; exon_number "1"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-015"; transcript_source "havana"; exon_id "ENSE00001902576";
+1	retained_intron	exon	1565672	1565985	.	+	.	gene_id "ENSG00000197530"; transcript_id "ENST00000470373"; exon_number "2"; gene_name "MIB2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MIB2-015"; transcript_source "havana"; exon_id "ENSE00003671720";
+1	protein_coding	gene	1567474	1570639	.	+	.	gene_id "ENSG00000189409"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1567474	1570030	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559";
+1	protein_coding	exon	1567474	1567753	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; exon_id "ENSE00001927041";
+1	protein_coding	CDS	1567598	1567753	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; protein_id "ENSP00000348308";
+1	protein_coding	start_codon	1567598	1567600	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559";
+1	protein_coding	exon	1568162	1568292	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; exon_id "ENSE00001765095";
+1	protein_coding	CDS	1568162	1568292	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; protein_id "ENSP00000348308";
+1	protein_coding	exon	1568360	1568499	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; exon_id "ENSE00003464913";
+1	protein_coding	CDS	1568360	1568499	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; protein_id "ENSP00000348308";
+1	protein_coding	exon	1568567	1568734	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; exon_id "ENSE00003557679";
+1	protein_coding	CDS	1568567	1568734	.	+	2	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; protein_id "ENSP00000348308";
+1	protein_coding	exon	1569127	1569291	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "5"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; exon_id "ENSE00003567941";
+1	protein_coding	CDS	1569127	1569291	.	+	2	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "5"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; protein_id "ENSP00000348308";
+1	protein_coding	exon	1569368	1569478	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "6"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; exon_id "ENSE00003520085";
+1	protein_coding	CDS	1569368	1569478	.	+	2	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "6"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; protein_id "ENSP00000348308";
+1	protein_coding	exon	1569581	1569707	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "7"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; exon_id "ENSE00003510374";
+1	protein_coding	CDS	1569581	1569707	.	+	2	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "7"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; protein_id "ENSP00000348308";
+1	protein_coding	exon	1569827	1570030	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "8"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; exon_id "ENSE00003691124";
+1	protein_coding	CDS	1569827	1569998	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "8"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559"; protein_id "ENSP00000348308";
+1	protein_coding	stop_codon	1569999	1570001	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; exon_number "8"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559";
+1	protein_coding	UTR	1567474	1567597	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559";
+1	protein_coding	UTR	1570002	1570030	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000356026"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30559";
+1	protein_coding	transcript	1567542	1568499	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000472264"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-005"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1567542	1567753	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000472264"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-005"; transcript_source "havana"; exon_id "ENSE00001855647"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1567598	1567753	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000472264"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-005"; transcript_source "havana"; protein_id "ENSP00000424976"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1568089	1568292	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000472264"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-005"; transcript_source "havana"; exon_id "ENSE00001859944"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1568089	1568292	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000472264"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-005"; transcript_source "havana"; protein_id "ENSP00000424976"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1568360	1568499	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000472264"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-005"; transcript_source "havana"; exon_id "ENSE00003550252"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1568360	1568499	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000472264"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-005"; transcript_source "havana"; protein_id "ENSP00000424976"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1567542	1567597	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000472264"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-005"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	transcript	1567557	1569850	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1567557	1567753	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana"; exon_id "ENSE00002053363";
+1	nonsense_mediated_decay	CDS	1567598	1567753	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana"; protein_id "ENSP00000423780";
+1	nonsense_mediated_decay	start_codon	1567598	1567600	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1568162	1568292	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana"; exon_id "ENSE00001765095";
+1	nonsense_mediated_decay	CDS	1568162	1568292	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana"; protein_id "ENSP00000423780";
+1	nonsense_mediated_decay	exon	1568360	1568499	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana"; exon_id "ENSE00003464913";
+1	nonsense_mediated_decay	CDS	1568360	1568499	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana"; protein_id "ENSP00000423780";
+1	nonsense_mediated_decay	exon	1568567	1569478	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana"; exon_id "ENSE00001843622";
+1	nonsense_mediated_decay	CDS	1568567	1568853	.	+	2	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana"; protein_id "ENSP00000423780";
+1	nonsense_mediated_decay	stop_codon	1568854	1568856	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1569581	1569707	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; exon_number "5"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana"; exon_id "ENSE00003681644";
+1	nonsense_mediated_decay	exon	1569827	1569850	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; exon_number "6"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana"; exon_id "ENSE00002029580";
+1	nonsense_mediated_decay	UTR	1567557	1567597	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1568857	1569478	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1569581	1569707	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1569827	1569850	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000512731"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-009"; transcript_source "havana";
+1	protein_coding	transcript	1567558	1570030	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana";
+1	protein_coding	exon	1567558	1567753	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; exon_id "ENSE00001615009";
+1	protein_coding	CDS	1567598	1567753	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367945";
+1	protein_coding	start_codon	1567598	1567600	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana";
+1	protein_coding	exon	1568162	1568292	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; exon_id "ENSE00001765095";
+1	protein_coding	CDS	1568162	1568292	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367945";
+1	protein_coding	exon	1568360	1568734	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; exon_id "ENSE00001478357";
+1	protein_coding	CDS	1568360	1568734	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367945";
+1	protein_coding	exon	1569127	1569291	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003630792";
+1	protein_coding	CDS	1569127	1569291	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367945";
+1	protein_coding	exon	1569368	1569478	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "5"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003691379";
+1	protein_coding	CDS	1569368	1569478	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "5"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367945";
+1	protein_coding	exon	1569581	1569707	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "6"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003637376";
+1	protein_coding	CDS	1569581	1569707	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "6"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367945";
+1	protein_coding	exon	1569827	1570030	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "7"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003658242";
+1	protein_coding	CDS	1569827	1569919	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "7"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367945";
+1	protein_coding	stop_codon	1569920	1569922	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; exon_number "7"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	1567558	1567597	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	1569923	1570030	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000378675"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-002"; transcript_source "ensembl_havana";
+1	protein_coding	transcript	1568162	1570027	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1568162	1568292	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; exon_id "ENSE00001765095"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1568162	1568292	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; protein_id "ENSP00000426293"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1568567	1568734	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; exon_id "ENSE00003587094"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1568567	1568734	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; protein_id "ENSP00000426293"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1569127	1569291	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; exon_id "ENSE00003630792"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1569127	1569291	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; protein_id "ENSP00000426293"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1569368	1569478	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; exon_id "ENSE00003691379"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1569368	1569478	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; protein_id "ENSP00000426293"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1569581	1569707	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; exon_number "5"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; exon_id "ENSE00003637376"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1569581	1569707	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; exon_number "5"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; protein_id "ENSP00000426293"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1569827	1570027	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; exon_number "6"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; exon_id "ENSE00001840128"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1569827	1569922	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; exon_number "6"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; protein_id "ENSP00000426293"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1569923	1570027	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000479814"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-003"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1568582	1569944	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000435358"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1568582	1568734	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000435358"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-004"; transcript_source "havana"; exon_id "ENSE00001634460"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1568582	1568734	.	+	2	gene_id "ENSG00000189409"; transcript_id "ENST00000435358"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-004"; transcript_source "havana"; protein_id "ENSP00000405867"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1569127	1569478	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000435358"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-004"; transcript_source "havana"; exon_id "ENSE00001775722"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1569127	1569478	.	+	2	gene_id "ENSG00000189409"; transcript_id "ENST00000435358"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-004"; transcript_source "havana"; protein_id "ENSP00000405867"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1569581	1569707	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000435358"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-004"; transcript_source "havana"; exon_id "ENSE00003637376"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1569581	1569707	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000435358"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-004"; transcript_source "havana"; protein_id "ENSP00000405867"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1569827	1569944	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000435358"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-004"; transcript_source "havana"; exon_id "ENSE00001599621"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1569827	1569922	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000435358"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-004"; transcript_source "havana"; protein_id "ENSP00000405867"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1569923	1569944	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000435358"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1568582	1569944	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000503792"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-010"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1568582	1568859	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000503792"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-010"; transcript_source "havana"; exon_id "ENSE00002082413"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1568582	1568859	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000503792"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-010"; transcript_source "havana"; protein_id "ENSP00000426857"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1569127	1569291	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000503792"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-010"; transcript_source "havana"; exon_id "ENSE00003630792"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1569127	1569291	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000503792"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-010"; transcript_source "havana"; protein_id "ENSP00000426857"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1569368	1569478	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000503792"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-010"; transcript_source "havana"; exon_id "ENSE00003691379"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1569368	1569478	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000503792"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-010"; transcript_source "havana"; protein_id "ENSP00000426857"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1569581	1569707	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000503792"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-010"; transcript_source "havana"; exon_id "ENSE00003637376"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1569581	1569707	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000503792"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-010"; transcript_source "havana"; protein_id "ENSP00000426857"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1569827	1569944	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000503792"; exon_number "5"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-010"; transcript_source "havana"; exon_id "ENSE00001599621"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1569827	1569922	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000503792"; exon_number "5"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-010"; transcript_source "havana"; protein_id "ENSP00000426857"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1569923	1569944	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000503792"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-010"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1569058	1569980	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000489782"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-006"; transcript_source "havana";
+1	retained_intron	exon	1569058	1569291	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000489782"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-006"; transcript_source "havana"; exon_id "ENSE00001953567";
+1	retained_intron	exon	1569368	1569478	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000489782"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-006"; transcript_source "havana"; exon_id "ENSE00003653506";
+1	retained_intron	exon	1569581	1569707	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000489782"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-006"; transcript_source "havana"; exon_id "ENSE00003681644";
+1	retained_intron	exon	1569827	1569980	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000489782"; exon_number "4"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-006"; transcript_source "havana"; exon_id "ENSE00001934244";
+1	retained_intron	transcript	1569381	1569984	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000486400"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-007"; transcript_source "havana";
+1	retained_intron	exon	1569381	1569707	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000486400"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-007"; transcript_source "havana"; exon_id "ENSE00001888063";
+1	retained_intron	exon	1569827	1569984	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000486400"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-007"; transcript_source "havana"; exon_id "ENSE00001828122";
+1	nonsense_mediated_decay	transcript	1569619	1570639	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000490017"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1569619	1569707	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000490017"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-008"; transcript_source "havana"; exon_id "ENSE00001858688"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1569619	1569707	.	+	0	gene_id "ENSG00000189409"; transcript_id "ENST00000490017"; exon_number "1"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-008"; transcript_source "havana"; protein_id "ENSP00000462142"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1569827	1570162	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000490017"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-008"; transcript_source "havana"; exon_id "ENSE00001816263"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1569827	1570001	.	+	1	gene_id "ENSG00000189409"; transcript_id "ENST00000490017"; exon_number "2"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-008"; transcript_source "havana"; protein_id "ENSP00000462142"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1570535	1570639	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000490017"; exon_number "3"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-008"; transcript_source "havana"; exon_id "ENSE00001897135"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1570002	1570162	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000490017"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1570535	1570639	.	+	.	gene_id "ENSG00000189409"; transcript_id "ENST00000490017"; gene_name "MMP23B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMP23B-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	gene	1570603	1590473	.	-	.	gene_id "ENSG00000248333"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1570603	1580623	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1580487	1580623	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001608656"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1580487	1580623	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1577747	1577869	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "2"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001609289"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1577747	1577869	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "2"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1577267	1577362	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "3"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001780919"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1577267	1577362	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "3"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1577023	1577181	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "4"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001609765"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1577023	1577181	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "4"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1576409	1576474	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "5"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001603328"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1576409	1576474	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "5"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1575638	1575813	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "6"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001648532"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1575638	1575813	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "6"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1573862	1573952	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "7"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001649685"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1573862	1573952	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "7"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1573124	1573245	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "8"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001772575"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1573124	1573245	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "8"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1572770	1572875	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "9"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001617779"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1572770	1572875	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "9"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1572443	1572564	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "10"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001673993"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1572443	1572564	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "10"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1572259	1572366	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "11"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001658779"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1572259	1572366	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "11"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1572044	1572160	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "12"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001615731"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1572044	1572160	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "12"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1571695	1571843	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "13"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001642055"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1571695	1571843	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "13"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1571299	1571488	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "14"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00001761950"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1571299	1571488	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "14"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1570603	1571218	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "15"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; exon_id "ENSE00002067085"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1571126	1571218	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; exon_number "15"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; protein_id "ENSP00000463404"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1570603	1571125	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000513088"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1571100	1588935	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl";
+1	protein_coding	exon	1588825	1588935	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001626980";
+1	protein_coding	CDS	1588825	1588935	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	start_codon	1588933	1588935	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl";
+1	protein_coding	exon	1586823	1586938	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "2"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00003633361";
+1	protein_coding	CDS	1586823	1586938	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "2"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1581359	1581409	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "3"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00002228794";
+1	protein_coding	CDS	1581359	1581409	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "3"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1581134	1581245	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "4"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00002309961";
+1	protein_coding	CDS	1581134	1581245	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "4"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1580972	1581004	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "5"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00002276259";
+1	protein_coding	CDS	1580972	1581004	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "5"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1580821	1580858	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "6"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00002310686";
+1	protein_coding	CDS	1580821	1580858	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "6"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1580487	1580665	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "7"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001764427";
+1	protein_coding	CDS	1580487	1580665	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "7"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1577747	1577869	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "8"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001609289";
+1	protein_coding	CDS	1577747	1577869	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "8"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1577267	1577362	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "9"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001780919";
+1	protein_coding	CDS	1577267	1577362	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "9"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1577023	1577181	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "10"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001609765";
+1	protein_coding	CDS	1577023	1577181	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "10"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1576409	1576474	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "11"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001603328";
+1	protein_coding	CDS	1576409	1576474	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "11"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1575638	1575813	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "12"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001648532";
+1	protein_coding	CDS	1575638	1575813	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "12"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1573862	1573952	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "13"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001649685";
+1	protein_coding	CDS	1573862	1573952	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "13"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1573124	1573245	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "14"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001772575";
+1	protein_coding	CDS	1573124	1573245	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "14"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1572770	1572875	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "15"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001617779";
+1	protein_coding	CDS	1572770	1572875	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "15"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1572443	1572564	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "16"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001673993";
+1	protein_coding	CDS	1572443	1572564	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "16"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1572259	1572366	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "17"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001658779";
+1	protein_coding	CDS	1572259	1572366	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "17"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1572044	1572160	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "18"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001615731";
+1	protein_coding	CDS	1572044	1572160	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "18"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1571695	1571843	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "19"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001642055";
+1	protein_coding	CDS	1571695	1571843	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "19"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1571299	1571488	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "20"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001761950";
+1	protein_coding	CDS	1571299	1571488	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "20"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	exon	1571100	1571218	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "21"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; exon_id "ENSE00001594002";
+1	protein_coding	CDS	1571129	1571218	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "21"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl"; protein_id "ENSP00000464036";
+1	protein_coding	stop_codon	1571126	1571128	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; exon_number "21"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl";
+1	protein_coding	UTR	1571100	1571125	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000407249"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-204"; transcript_source "ensembl";
+1	protein_coding	transcript	1571100	1588935	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl";
+1	protein_coding	exon	1588825	1588935	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001626980";
+1	protein_coding	CDS	1588825	1588935	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	start_codon	1588933	1588935	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl";
+1	protein_coding	exon	1586823	1586938	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "2"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00003633361";
+1	protein_coding	CDS	1586823	1586938	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "2"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1581472	1581539	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "3"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00002305216";
+1	protein_coding	CDS	1581472	1581539	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "3"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1581314	1581330	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "4"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00002319148";
+1	protein_coding	CDS	1581314	1581330	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "4"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1581134	1581227	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "5"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00002251057";
+1	protein_coding	CDS	1581134	1581227	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "5"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1580821	1580869	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "6"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00002229414";
+1	protein_coding	CDS	1580821	1580869	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "6"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1580487	1580665	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "7"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001764427";
+1	protein_coding	CDS	1580487	1580665	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "7"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1577747	1577869	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "8"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001609289";
+1	protein_coding	CDS	1577747	1577869	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "8"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1577267	1577362	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "9"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001780919";
+1	protein_coding	CDS	1577267	1577362	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "9"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1577023	1577181	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "10"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001609765";
+1	protein_coding	CDS	1577023	1577181	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "10"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1576409	1576474	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "11"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001603328";
+1	protein_coding	CDS	1576409	1576474	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "11"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1575638	1575813	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "12"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001648532";
+1	protein_coding	CDS	1575638	1575813	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "12"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1573862	1573952	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "13"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001649685";
+1	protein_coding	CDS	1573862	1573952	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "13"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1573124	1573245	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "14"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001772575";
+1	protein_coding	CDS	1573124	1573245	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "14"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1572770	1572875	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "15"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001617779";
+1	protein_coding	CDS	1572770	1572875	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "15"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1572443	1572564	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "16"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001673993";
+1	protein_coding	CDS	1572443	1572564	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "16"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1572259	1572366	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "17"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001658779";
+1	protein_coding	CDS	1572259	1572366	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "17"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1572044	1572160	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "18"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001615731";
+1	protein_coding	CDS	1572044	1572160	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "18"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1571695	1571843	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "19"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001642055";
+1	protein_coding	CDS	1571695	1571843	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "19"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1571299	1571488	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "20"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001761950";
+1	protein_coding	CDS	1571299	1571488	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "20"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	exon	1571100	1571218	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "21"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; exon_id "ENSE00001594002";
+1	protein_coding	CDS	1571129	1571218	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "21"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl"; protein_id "ENSP00000463200";
+1	protein_coding	stop_codon	1571126	1571128	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; exon_number "21"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1571100	1571125	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000317673"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-201"; transcript_source "ensembl";
+1	protein_coding	transcript	1571100	1588935	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl";
+1	protein_coding	exon	1588825	1588935	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001626980";
+1	protein_coding	CDS	1588825	1588935	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	start_codon	1588933	1588935	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl";
+1	protein_coding	exon	1586823	1586938	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "2"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00003633361";
+1	protein_coding	CDS	1586823	1586938	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "2"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1581487	1581504	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "3"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00002303290";
+1	protein_coding	CDS	1581487	1581504	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "3"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1581134	1581245	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "4"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00002309961";
+1	protein_coding	CDS	1581134	1581245	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "4"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1580940	1581004	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "5"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00002225125";
+1	protein_coding	CDS	1580940	1581004	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "5"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1580487	1580665	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "6"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001764427";
+1	protein_coding	CDS	1580487	1580665	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "6"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1577747	1577869	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "7"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001609289";
+1	protein_coding	CDS	1577747	1577869	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "7"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1577267	1577362	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "8"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001780919";
+1	protein_coding	CDS	1577267	1577362	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "8"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1577023	1577181	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "9"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001609765";
+1	protein_coding	CDS	1577023	1577181	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "9"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1576409	1576474	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "10"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001603328";
+1	protein_coding	CDS	1576409	1576474	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "10"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1575638	1575813	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "11"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001648532";
+1	protein_coding	CDS	1575638	1575813	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "11"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1573862	1573952	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "12"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001649685";
+1	protein_coding	CDS	1573862	1573952	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "12"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1573124	1573245	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "13"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001772575";
+1	protein_coding	CDS	1573124	1573245	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "13"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1572770	1572875	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "14"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001617779";
+1	protein_coding	CDS	1572770	1572875	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "14"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1572443	1572564	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "15"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001673993";
+1	protein_coding	CDS	1572443	1572564	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "15"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1572259	1572366	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "16"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001658779";
+1	protein_coding	CDS	1572259	1572366	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "16"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1572044	1572160	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "17"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001615731";
+1	protein_coding	CDS	1572044	1572160	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "17"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1571695	1571843	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "18"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001642055";
+1	protein_coding	CDS	1571695	1571843	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "18"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1571299	1571488	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "19"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001761950";
+1	protein_coding	CDS	1571299	1571488	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "19"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	exon	1571100	1571218	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "20"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; exon_id "ENSE00001594002";
+1	protein_coding	CDS	1571129	1571218	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "20"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl"; protein_id "ENSP00000464016";
+1	protein_coding	stop_codon	1571126	1571128	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; exon_number "20"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl";
+1	protein_coding	UTR	1571100	1571125	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000340677"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-202"; transcript_source "ensembl";
+1	protein_coding	transcript	1571100	1588714	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl";
+1	protein_coding	exon	1588706	1588714	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00002319782";
+1	protein_coding	CDS	1588706	1588714	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	start_codon	1588712	1588714	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl";
+1	protein_coding	exon	1586823	1586938	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "2"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00003633361";
+1	protein_coding	CDS	1586823	1586938	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "2"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1581487	1581504	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "3"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00002303290";
+1	protein_coding	CDS	1581487	1581504	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "3"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1581134	1581245	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "4"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00002309961";
+1	protein_coding	CDS	1581134	1581245	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "4"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1580940	1581004	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "5"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00002225125";
+1	protein_coding	CDS	1580940	1581004	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "5"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1580487	1580665	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "6"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001764427";
+1	protein_coding	CDS	1580487	1580665	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "6"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1577747	1577869	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "7"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001609289";
+1	protein_coding	CDS	1577747	1577869	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "7"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1577267	1577362	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "8"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001780919";
+1	protein_coding	CDS	1577267	1577362	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "8"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1577023	1577181	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "9"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001609765";
+1	protein_coding	CDS	1577023	1577181	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "9"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1576409	1576474	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "10"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001603328";
+1	protein_coding	CDS	1576409	1576474	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "10"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1575638	1575813	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "11"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001648532";
+1	protein_coding	CDS	1575638	1575813	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "11"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1573862	1573952	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "12"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001649685";
+1	protein_coding	CDS	1573862	1573952	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "12"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1573124	1573245	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "13"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001772575";
+1	protein_coding	CDS	1573124	1573245	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "13"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1572770	1572875	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "14"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001617779";
+1	protein_coding	CDS	1572770	1572875	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "14"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1572443	1572564	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "15"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001673993";
+1	protein_coding	CDS	1572443	1572564	.	-	2	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "15"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1572259	1572366	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "16"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001658779";
+1	protein_coding	CDS	1572259	1572366	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "16"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1572044	1572160	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "17"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001615731";
+1	protein_coding	CDS	1572044	1572160	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "17"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1571695	1571843	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "18"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001642055";
+1	protein_coding	CDS	1571695	1571843	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "18"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1571299	1571488	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "19"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001761950";
+1	protein_coding	CDS	1571299	1571488	.	-	1	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "19"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	exon	1571100	1571218	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "20"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; exon_id "ENSE00001594002";
+1	protein_coding	CDS	1571129	1571218	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "20"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl"; protein_id "ENSP00000463048";
+1	protein_coding	stop_codon	1571126	1571128	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; exon_number "20"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl";
+1	protein_coding	UTR	1571100	1571125	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341832"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-203"; transcript_source "ensembl";
+1	protein_coding	transcript	1586823	1590473	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341028"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-001"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1590375	1590473	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341028"; exon_number "1"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-001"; transcript_source "havana"; exon_id "ENSE00001680503"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1588825	1588948	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341028"; exon_number "2"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-001"; transcript_source "havana"; exon_id "ENSE00002722827"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1588825	1588935	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000341028"; exon_number "2"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-001"; transcript_source "havana"; protein_id "ENSP00000344418"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1586823	1586938	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341028"; exon_number "3"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-001"; transcript_source "havana"; exon_id "ENSE00003584256"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1586823	1586938	.	-	0	gene_id "ENSG00000248333"; transcript_id "ENST00000341028"; exon_number "3"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-001"; transcript_source "havana"; protein_id "ENSP00000344418"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1590375	1590473	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341028"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-001"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1588936	1588948	.	-	.	gene_id "ENSG00000248333"; transcript_id "ENST00000341028"; gene_name "CDK11B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11B-001"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	antisense	gene	1590786	1594063	.	+	.	gene_id "ENSG00000272004"; gene_name "RP11-345P4.10"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	1590786	1594063	.	+	.	gene_id "ENSG00000272004"; transcript_id "ENST00000607013"; gene_name "RP11-345P4.10"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-345P4.10-001"; transcript_source "havana";
+1	antisense	exon	1590786	1590913	.	+	.	gene_id "ENSG00000272004"; transcript_id "ENST00000607013"; exon_number "1"; gene_name "RP11-345P4.10"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-345P4.10-001"; transcript_source "havana"; exon_id "ENSE00003698006";
+1	antisense	exon	1593792	1594063	.	+	.	gene_id "ENSG00000272004"; transcript_id "ENST00000607013"; exon_number "2"; gene_name "RP11-345P4.10"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-345P4.10-001"; transcript_source "havana"; exon_id "ENSE00003694999";
+1	protein_coding	gene	1592939	1624167	.	-	.	gene_id "ENSG00000189339"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1592939	1624083	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041";
+1	protein_coding	exon	1623888	1624083	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "1"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00001685601";
+1	protein_coding	exon	1622415	1622832	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "2"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00001715700";
+1	protein_coding	exon	1607817	1608285	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "3"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00003563952";
+1	protein_coding	CDS	1607817	1608138	.	-	0	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "3"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000367931";
+1	protein_coding	start_codon	1608136	1608138	.	-	0	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "3"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041";
+1	protein_coding	exon	1607503	1607638	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "4"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00003693828";
+1	protein_coding	CDS	1607503	1607638	.	-	2	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "4"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000367931";
+1	protein_coding	exon	1606902	1607029	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "5"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00003652751";
+1	protein_coding	CDS	1606902	1607029	.	-	1	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "5"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000367931";
+1	protein_coding	exon	1602948	1603068	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "6"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00001478293";
+1	protein_coding	CDS	1602948	1603068	.	-	2	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "6"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000367931";
+1	protein_coding	exon	1601537	1601590	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "7"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00001478290";
+1	protein_coding	CDS	1601537	1601590	.	-	1	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "7"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000367931";
+1	protein_coding	exon	1601103	1601175	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "8"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00001478289";
+1	protein_coding	CDS	1601103	1601175	.	-	1	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "8"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000367931";
+1	protein_coding	exon	1599766	1599911	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "9"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00003534079";
+1	protein_coding	CDS	1599766	1599911	.	-	0	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "9"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000367931";
+1	protein_coding	exon	1592939	1597458	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "10"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00001478286";
+1	protein_coding	CDS	1597224	1597458	.	-	1	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "10"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000367931";
+1	protein_coding	stop_codon	1597221	1597223	.	-	0	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; exon_number "10"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041";
+1	protein_coding	UTR	1623888	1624083	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041";
+1	protein_coding	UTR	1622415	1622832	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041";
+1	protein_coding	UTR	1608139	1608285	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041";
+1	protein_coding	UTR	1592939	1597220	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000378662"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44041";
+1	protein_coding	transcript	1592940	1624167	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041";
+1	protein_coding	exon	1623888	1624167	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "1"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00001722848";
+1	protein_coding	exon	1607817	1608285	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "2"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00003563952";
+1	protein_coding	CDS	1607817	1608138	.	-	0	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "2"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000234800";
+1	protein_coding	start_codon	1608136	1608138	.	-	0	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "2"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041";
+1	protein_coding	exon	1607503	1607638	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "3"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00003693828";
+1	protein_coding	CDS	1607503	1607638	.	-	2	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "3"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000234800";
+1	protein_coding	exon	1606902	1607029	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "4"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00003652751";
+1	protein_coding	CDS	1606902	1607029	.	-	1	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "4"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000234800";
+1	protein_coding	exon	1602948	1603068	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "5"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00001478293";
+1	protein_coding	CDS	1602948	1603068	.	-	2	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "5"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000234800";
+1	protein_coding	exon	1601537	1601590	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "6"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00001478290";
+1	protein_coding	CDS	1601537	1601590	.	-	1	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "6"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000234800";
+1	protein_coding	exon	1601103	1601175	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "7"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00001478289";
+1	protein_coding	CDS	1601103	1601175	.	-	1	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "7"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000234800";
+1	protein_coding	exon	1599766	1599911	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "8"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00003534079";
+1	protein_coding	CDS	1599766	1599911	.	-	0	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "8"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000234800";
+1	protein_coding	exon	1592940	1597458	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "9"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; exon_id "ENSE00001365206";
+1	protein_coding	CDS	1597224	1597458	.	-	1	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "9"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041"; protein_id "ENSP00000234800";
+1	protein_coding	stop_codon	1597221	1597223	.	-	0	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; exon_number "9"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041";
+1	protein_coding	UTR	1623888	1624167	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041";
+1	protein_coding	UTR	1608139	1608285	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041";
+1	protein_coding	UTR	1592940	1597220	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000234800"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44041";
+1	retained_intron	transcript	1595221	1601578	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000480991"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-002"; transcript_source "havana";
+1	retained_intron	exon	1601103	1601578	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000480991"; exon_number "1"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-002"; transcript_source "havana"; exon_id "ENSE00001874632";
+1	retained_intron	exon	1599766	1599911	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000480991"; exon_number "2"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-002"; transcript_source "havana"; exon_id "ENSE00003500296";
+1	retained_intron	exon	1595221	1597458	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000480991"; exon_number "3"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-002"; transcript_source "havana"; exon_id "ENSE00001934783";
+1	retained_intron	transcript	1601864	1624148	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000481276"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-004"; transcript_source "havana";
+1	retained_intron	exon	1623888	1624148	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000481276"; exon_number "1"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-004"; transcript_source "havana"; exon_id "ENSE00001944091";
+1	retained_intron	exon	1607817	1608285	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000481276"; exon_number "2"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-004"; transcript_source "havana"; exon_id "ENSE00003579641";
+1	retained_intron	exon	1607503	1607638	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000481276"; exon_number "3"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-004"; transcript_source "havana"; exon_id "ENSE00003621007";
+1	retained_intron	exon	1606902	1607029	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000481276"; exon_number "4"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-004"; transcript_source "havana"; exon_id "ENSE00003658300";
+1	retained_intron	exon	1601864	1603068	.	-	.	gene_id "ENSG00000189339"; transcript_id "ENST00000481276"; exon_number "5"; gene_name "SLC35E2B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2B-004"; transcript_source "havana"; exon_id "ENSE00001942870";
+1	antisense	gene	1603429	1604850	.	+	.	gene_id "ENSG00000269737"; gene_name "RP11-345P4.7"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	1603429	1604850	.	+	.	gene_id "ENSG00000269737"; transcript_id "ENST00000596308"; gene_name "RP11-345P4.7"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-345P4.7-001"; transcript_source "havana";
+1	antisense	exon	1603429	1604850	.	+	.	gene_id "ENSG00000269737"; transcript_id "ENST00000596308"; exon_number "1"; gene_name "RP11-345P4.7"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-345P4.7-001"; transcript_source "havana"; exon_id "ENSE00003127845";
+1	pseudogene	gene	1604714	1605836	.	+	.	gene_id "ENSG00000269227"; gene_name "RP11-345P4.6"; gene_source "havana"; gene_biotype "pseudogene";
+1	transcribed_processed_pseudogene	transcript	1604714	1605836	.	+	.	gene_id "ENSG00000269227"; transcript_id "ENST00000597891"; gene_name "RP11-345P4.6"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-345P4.6-001"; transcript_source "havana";
+1	transcribed_processed_pseudogene	exon	1604714	1604818	.	+	.	gene_id "ENSG00000269227"; transcript_id "ENST00000597891"; exon_number "1"; gene_name "RP11-345P4.6"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-345P4.6-001"; transcript_source "havana"; exon_id "ENSE00003208342";
+1	transcribed_processed_pseudogene	exon	1605440	1605836	.	+	.	gene_id "ENSG00000269227"; transcript_id "ENST00000597891"; exon_number "2"; gene_name "RP11-345P4.6"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP11-345P4.6-001"; transcript_source "havana"; exon_id "ENSE00003215682";
+1	pseudogene	gene	1631369	1633249	.	+	.	gene_id "ENSG00000215914"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene";
+1	unprocessed_pseudogene	transcript	1631369	1633249	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000412810"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-201"; transcript_source "ensembl";
+1	unprocessed_pseudogene	exon	1631369	1631511	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000412810"; exon_number "1"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-201"; transcript_source "ensembl"; exon_id "ENSE00002263975";
+1	unprocessed_pseudogene	exon	1631579	1631953	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000412810"; exon_number "2"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-201"; transcript_source "ensembl"; exon_id "ENSE00001767697";
+1	unprocessed_pseudogene	exon	1632346	1632510	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000412810"; exon_number "3"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-201"; transcript_source "ensembl"; exon_id "ENSE00003562856";
+1	unprocessed_pseudogene	exon	1632587	1632697	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000412810"; exon_number "4"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-201"; transcript_source "ensembl"; exon_id "ENSE00003666950";
+1	unprocessed_pseudogene	exon	1632800	1632926	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000412810"; exon_number "5"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-201"; transcript_source "ensembl"; exon_id "ENSE00003613704";
+1	unprocessed_pseudogene	exon	1633047	1633249	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000412810"; exon_number "6"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-201"; transcript_source "ensembl"; exon_id "ENSE00001798352";
+1	unprocessed_pseudogene	transcript	1631381	1633221	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000234610"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-001"; transcript_source "havana";
+1	unprocessed_pseudogene	exon	1631381	1631511	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000234610"; exon_number "1"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-001"; transcript_source "havana"; exon_id "ENSE00001614351";
+1	unprocessed_pseudogene	exon	1631579	1631718	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000234610"; exon_number "2"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-001"; transcript_source "havana"; exon_id "ENSE00001732078";
+1	unprocessed_pseudogene	exon	1631786	1631953	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000234610"; exon_number "3"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-001"; transcript_source "havana"; exon_id "ENSE00001640553";
+1	unprocessed_pseudogene	exon	1632346	1632510	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000234610"; exon_number "4"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-001"; transcript_source "havana"; exon_id "ENSE00003466417";
+1	unprocessed_pseudogene	exon	1632587	1632697	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000234610"; exon_number "5"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-001"; transcript_source "havana"; exon_id "ENSE00003519648";
+1	unprocessed_pseudogene	exon	1632800	1632926	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000234610"; exon_number "6"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-001"; transcript_source "havana"; exon_id "ENSE00003582241";
+1	unprocessed_pseudogene	exon	1633047	1633221	.	+	.	gene_id "ENSG00000215914"; transcript_id "ENST00000234610"; exon_number "7"; gene_name "MMP23A"; gene_source "ensembl_havana"; gene_biotype "pseudogene"; transcript_name "MMP23A-001"; transcript_source "havana"; exon_id "ENSE00001740586";
+1	protein_coding	gene	1634169	1655766	.	-	.	gene_id "ENSG00000008128"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1634169	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana";
+1	protein_coding	exon	1654027	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003500548";
+1	protein_coding	CDS	1654027	1654035	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	start_codon	1654033	1654035	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana";
+1	protein_coding	exon	1653035	1653150	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003525046";
+1	protein_coding	CDS	1653035	1653150	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1650767	1650894	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00001714517";
+1	protein_coding	CDS	1650767	1650894	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1647785	1647917	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003647264";
+1	protein_coding	CDS	1647785	1647917	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1643703	1643839	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003466910";
+1	protein_coding	CDS	1643703	1643839	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1640957	1641079	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003532668";
+1	protein_coding	CDS	1640957	1641079	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1640477	1640572	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003493098";
+1	protein_coding	CDS	1640477	1640572	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1640233	1640391	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003540484";
+1	protein_coding	CDS	1640233	1640391	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1639619	1639684	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003490604";
+1	protein_coding	CDS	1639619	1639684	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1638848	1639023	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003573320";
+1	protein_coding	CDS	1638848	1639023	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1637081	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003484918";
+1	protein_coding	CDS	1637081	1637171	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1636343	1636464	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003673770";
+1	protein_coding	CDS	1636343	1636464	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1635989	1636094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003629837";
+1	protein_coding	CDS	1635989	1636094	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1635662	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003538477";
+1	protein_coding	CDS	1635662	1635783	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1635478	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003476013";
+1	protein_coding	CDS	1635478	1635585	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1635263	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003507378";
+1	protein_coding	CDS	1635263	1635379	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1634915	1635063	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003652156";
+1	protein_coding	CDS	1634915	1635063	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1634519	1634708	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00003646560";
+1	protein_coding	CDS	1634519	1634708	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	exon	1634169	1634438	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; exon_id "ENSE00001425777";
+1	protein_coding	CDS	1634349	1634438	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana"; protein_id "ENSP00000348529";
+1	protein_coding	stop_codon	1634346	1634348	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana";
+1	protein_coding	UTR	1654036	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana";
+1	protein_coding	UTR	1634169	1634345	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356200"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-008"; transcript_source "havana";
+1	retained_intron	transcript	1634205	1635692	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000463652"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-021"; transcript_source "havana";
+1	retained_intron	exon	1635662	1635692	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000463652"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-021"; transcript_source "havana"; exon_id "ENSE00001906116";
+1	retained_intron	exon	1635478	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000463652"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-021"; transcript_source "havana"; exon_id "ENSE00003555976";
+1	retained_intron	exon	1634915	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000463652"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-021"; transcript_source "havana"; exon_id "ENSE00001824684";
+1	retained_intron	exon	1634519	1634708	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000463652"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-021"; transcript_source "havana"; exon_id "ENSE00003535326";
+1	retained_intron	exon	1634205	1634438	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000463652"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-021"; transcript_source "havana"; exon_id "ENSE00001592881";
+1	retained_intron	transcript	1634320	1653094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana";
+1	retained_intron	exon	1653035	1653094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00001949489";
+1	retained_intron	exon	1650797	1650894	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003579874";
+1	retained_intron	exon	1647785	1647917	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003575760";
+1	retained_intron	exon	1643703	1643866	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003547984";
+1	retained_intron	exon	1640957	1641079	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003592140";
+1	retained_intron	exon	1640477	1640572	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003568909";
+1	retained_intron	exon	1640233	1640391	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003459912";
+1	retained_intron	exon	1639619	1639684	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003502274";
+1	retained_intron	exon	1638848	1639023	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003621129";
+1	retained_intron	exon	1637081	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003591780";
+1	retained_intron	exon	1636343	1636464	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003594351";
+1	retained_intron	exon	1635989	1636094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003645656";
+1	retained_intron	exon	1635478	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00001876481";
+1	retained_intron	exon	1635263	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003468898";
+1	retained_intron	exon	1634915	1635063	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003477001";
+1	retained_intron	exon	1634519	1634708	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003535326";
+1	retained_intron	exon	1634320	1634438	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000356937"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-010"; transcript_source "havana"; exon_id "ENSE00003646300";
+1	protein_coding	transcript	1634320	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana";
+1	protein_coding	exon	1654147	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003490829";
+1	protein_coding	exon	1654027	1654073	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00001478182";
+1	protein_coding	CDS	1654027	1654035	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	start_codon	1654033	1654035	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana";
+1	protein_coding	exon	1653035	1653150	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003525046";
+1	protein_coding	CDS	1653035	1653150	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1650767	1650894	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00001714517";
+1	protein_coding	CDS	1650767	1650894	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1647785	1647917	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003647264";
+1	protein_coding	CDS	1647785	1647917	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1643703	1643839	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003466910";
+1	protein_coding	CDS	1643703	1643839	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1640957	1641079	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003532668";
+1	protein_coding	CDS	1640957	1641079	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1640477	1640572	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003493098";
+1	protein_coding	CDS	1640477	1640572	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1640233	1640391	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003540484";
+1	protein_coding	CDS	1640233	1640391	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1639619	1639684	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003490604";
+1	protein_coding	CDS	1639619	1639684	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1638848	1639023	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003573320";
+1	protein_coding	CDS	1638848	1639023	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1637081	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003484918";
+1	protein_coding	CDS	1637081	1637171	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1636343	1636464	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003673770";
+1	protein_coding	CDS	1636343	1636464	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1635989	1636094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003629837";
+1	protein_coding	CDS	1635989	1636094	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1635662	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003538477";
+1	protein_coding	CDS	1635662	1635783	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1635478	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003476013";
+1	protein_coding	CDS	1635478	1635585	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1635263	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003507378";
+1	protein_coding	CDS	1635263	1635379	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1634915	1635063	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003652156";
+1	protein_coding	CDS	1634915	1635063	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1634519	1634708	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003646560";
+1	protein_coding	CDS	1634519	1634708	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	exon	1634320	1634438	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; exon_id "ENSE00003675617";
+1	protein_coding	CDS	1634349	1634438	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana"; protein_id "ENSP00000367905";
+1	protein_coding	stop_codon	1634346	1634348	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana";
+1	protein_coding	UTR	1654147	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana";
+1	protein_coding	UTR	1654036	1654073	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana";
+1	protein_coding	UTR	1634320	1634345	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378638"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-027"; transcript_source "havana";
+1	nonsense_mediated_decay	transcript	1634320	1654271	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1654147	1654271	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00002060556";
+1	nonsense_mediated_decay	CDS	1654147	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; protein_id "ENSP00000422149";
+1	nonsense_mediated_decay	start_codon	1654255	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1653035	1653150	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003525046";
+1	nonsense_mediated_decay	CDS	1653035	1653150	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; protein_id "ENSP00000422149";
+1	nonsense_mediated_decay	exon	1650767	1650894	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00001714517";
+1	nonsense_mediated_decay	CDS	1650767	1650894	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; protein_id "ENSP00000422149";
+1	nonsense_mediated_decay	exon	1647785	1647917	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003647264";
+1	nonsense_mediated_decay	CDS	1647785	1647917	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; protein_id "ENSP00000422149";
+1	nonsense_mediated_decay	exon	1643703	1643839	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003466910";
+1	nonsense_mediated_decay	CDS	1643703	1643839	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; protein_id "ENSP00000422149";
+1	nonsense_mediated_decay	exon	1640918	1641079	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00001643586";
+1	nonsense_mediated_decay	CDS	1640918	1641079	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; protein_id "ENSP00000422149";
+1	nonsense_mediated_decay	exon	1640477	1640572	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003493098";
+1	nonsense_mediated_decay	CDS	1640477	1640572	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; protein_id "ENSP00000422149";
+1	nonsense_mediated_decay	exon	1640233	1640391	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003540484";
+1	nonsense_mediated_decay	CDS	1640233	1640391	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; protein_id "ENSP00000422149";
+1	nonsense_mediated_decay	exon	1639619	1639684	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003490604";
+1	nonsense_mediated_decay	CDS	1639619	1639684	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; protein_id "ENSP00000422149";
+1	nonsense_mediated_decay	exon	1638964	1639023	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003557609";
+1	nonsense_mediated_decay	CDS	1638964	1639023	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; protein_id "ENSP00000422149";
+1	nonsense_mediated_decay	exon	1637081	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003648668";
+1	nonsense_mediated_decay	CDS	1637081	1637171	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; protein_id "ENSP00000422149";
+1	nonsense_mediated_decay	exon	1636343	1636464	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003649099";
+1	nonsense_mediated_decay	CDS	1636464	1636464	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; protein_id "ENSP00000422149";
+1	nonsense_mediated_decay	stop_codon	1636461	1636463	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1635989	1636094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003645656";
+1	nonsense_mediated_decay	exon	1635662	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003612771";
+1	nonsense_mediated_decay	exon	1635478	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003555976";
+1	nonsense_mediated_decay	exon	1635263	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003468898";
+1	nonsense_mediated_decay	exon	1634915	1635063	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003477001";
+1	nonsense_mediated_decay	exon	1634519	1634708	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003535326";
+1	nonsense_mediated_decay	exon	1634320	1634438	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana"; exon_id "ENSE00003646300";
+1	nonsense_mediated_decay	UTR	1654258	1654271	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1636343	1636460	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1635989	1636094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1635662	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1635478	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1635263	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1634915	1635063	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1634519	1634708	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1634320	1634438	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000509982"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-026"; transcript_source "havana";
+1	protein_coding	transcript	1634320	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042";
+1	protein_coding	exon	1655697	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00001357141";
+1	protein_coding	exon	1654147	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003563203";
+1	protein_coding	CDS	1654147	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	start_codon	1654255	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042";
+1	protein_coding	exon	1653035	1653150	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003525046";
+1	protein_coding	CDS	1653035	1653150	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1650767	1650894	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00001714517";
+1	protein_coding	CDS	1650767	1650894	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1647785	1647917	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003647264";
+1	protein_coding	CDS	1647785	1647917	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1643703	1643839	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003466910";
+1	protein_coding	CDS	1643703	1643839	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1640957	1641079	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003532668";
+1	protein_coding	CDS	1640957	1641079	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1640477	1640572	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003493098";
+1	protein_coding	CDS	1640477	1640572	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1640233	1640391	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003540484";
+1	protein_coding	CDS	1640233	1640391	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1639619	1639684	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003490604";
+1	protein_coding	CDS	1639619	1639684	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1638848	1639023	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003573320";
+1	protein_coding	CDS	1638848	1639023	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1637081	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003484918";
+1	protein_coding	CDS	1637081	1637171	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1636343	1636464	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003673770";
+1	protein_coding	CDS	1636343	1636464	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1635989	1636094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003629837";
+1	protein_coding	CDS	1635989	1636094	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1635662	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003538477";
+1	protein_coding	CDS	1635662	1635783	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1635478	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003476013";
+1	protein_coding	CDS	1635478	1635585	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1635263	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003507378";
+1	protein_coding	CDS	1635263	1635379	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1634915	1635063	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003652156";
+1	protein_coding	CDS	1634915	1635063	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1634519	1634708	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003646560";
+1	protein_coding	CDS	1634519	1634708	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	exon	1634320	1634438	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; exon_id "ENSE00003675617";
+1	protein_coding	CDS	1634349	1634438	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042"; protein_id "ENSP00000384442";
+1	protein_coding	stop_codon	1634346	1634348	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042";
+1	protein_coding	UTR	1655697	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042";
+1	protein_coding	UTR	1654258	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042";
+1	protein_coding	UTR	1634320	1634345	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000404249"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44042";
+1	nonsense_mediated_decay	transcript	1634320	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1655697	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00001357141";
+1	nonsense_mediated_decay	exon	1654147	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003563203";
+1	nonsense_mediated_decay	CDS	1654147	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; protein_id "ENSP00000462289";
+1	nonsense_mediated_decay	start_codon	1654255	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1653035	1653150	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003525046";
+1	nonsense_mediated_decay	CDS	1653035	1653150	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; protein_id "ENSP00000462289";
+1	nonsense_mediated_decay	exon	1650767	1650894	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00001714517";
+1	nonsense_mediated_decay	CDS	1650767	1650894	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; protein_id "ENSP00000462289";
+1	nonsense_mediated_decay	exon	1647785	1647917	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003647264";
+1	nonsense_mediated_decay	CDS	1647785	1647917	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; protein_id "ENSP00000462289";
+1	nonsense_mediated_decay	exon	1643703	1643839	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003466910";
+1	nonsense_mediated_decay	CDS	1643703	1643839	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; protein_id "ENSP00000462289";
+1	nonsense_mediated_decay	exon	1640957	1641079	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003532668";
+1	nonsense_mediated_decay	CDS	1640957	1641079	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; protein_id "ENSP00000462289";
+1	nonsense_mediated_decay	exon	1640477	1640572	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003493098";
+1	nonsense_mediated_decay	CDS	1640477	1640572	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; protein_id "ENSP00000462289";
+1	nonsense_mediated_decay	exon	1640233	1640391	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003540484";
+1	nonsense_mediated_decay	CDS	1640233	1640391	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; protein_id "ENSP00000462289";
+1	nonsense_mediated_decay	exon	1639619	1639684	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003490604";
+1	nonsense_mediated_decay	CDS	1639619	1639684	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; protein_id "ENSP00000462289";
+1	nonsense_mediated_decay	exon	1638964	1639023	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003557609";
+1	nonsense_mediated_decay	CDS	1638964	1639023	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; protein_id "ENSP00000462289";
+1	nonsense_mediated_decay	exon	1637081	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003648668";
+1	nonsense_mediated_decay	CDS	1637081	1637171	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; protein_id "ENSP00000462289";
+1	nonsense_mediated_decay	exon	1636343	1636464	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003649099";
+1	nonsense_mediated_decay	CDS	1636464	1636464	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; protein_id "ENSP00000462289";
+1	nonsense_mediated_decay	stop_codon	1636461	1636463	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1635989	1636094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003645656";
+1	nonsense_mediated_decay	exon	1635662	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003612771";
+1	nonsense_mediated_decay	exon	1635478	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003555976";
+1	nonsense_mediated_decay	exon	1635263	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003468898";
+1	nonsense_mediated_decay	exon	1634915	1635063	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003477001";
+1	nonsense_mediated_decay	exon	1634519	1634708	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003535326";
+1	nonsense_mediated_decay	exon	1634320	1634438	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana"; exon_id "ENSE00003646300";
+1	nonsense_mediated_decay	UTR	1655697	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1654258	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1636343	1636460	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1635989	1636094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1635662	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1635478	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1635263	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1634915	1635063	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1634519	1634708	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1634320	1634438	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000460465"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-002"; transcript_source "havana";
+1	protein_coding	transcript	1634320	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana";
+1	protein_coding	exon	1655697	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00001357141";
+1	protein_coding	exon	1654147	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003563203";
+1	protein_coding	CDS	1654147	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	start_codon	1654255	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana";
+1	protein_coding	exon	1653035	1653150	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003525046";
+1	protein_coding	CDS	1653035	1653150	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1650797	1650894	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003479970";
+1	protein_coding	CDS	1650797	1650894	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1647785	1647917	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003647264";
+1	protein_coding	CDS	1647785	1647917	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1643703	1643866	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003642139";
+1	protein_coding	CDS	1643703	1643866	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1640957	1641079	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003532668";
+1	protein_coding	CDS	1640957	1641079	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1640477	1640572	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003493098";
+1	protein_coding	CDS	1640477	1640572	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1640233	1640391	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003540484";
+1	protein_coding	CDS	1640233	1640391	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1639619	1639684	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003490604";
+1	protein_coding	CDS	1639619	1639684	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1638848	1639023	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003573320";
+1	protein_coding	CDS	1638848	1639023	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1637081	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003484918";
+1	protein_coding	CDS	1637081	1637171	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1636343	1636464	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003673770";
+1	protein_coding	CDS	1636343	1636464	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1635989	1636094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003629837";
+1	protein_coding	CDS	1635989	1636094	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1635662	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003538477";
+1	protein_coding	CDS	1635662	1635783	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1635478	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003476013";
+1	protein_coding	CDS	1635478	1635585	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1635263	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003507378";
+1	protein_coding	CDS	1635263	1635379	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1634915	1635063	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003652156";
+1	protein_coding	CDS	1634915	1635063	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1634519	1634708	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003646560";
+1	protein_coding	CDS	1634519	1634708	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	exon	1634320	1634438	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; exon_id "ENSE00003675617";
+1	protein_coding	CDS	1634349	1634438	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana"; protein_id "ENSP00000350403";
+1	protein_coding	stop_codon	1634346	1634348	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana";
+1	protein_coding	UTR	1655697	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana";
+1	protein_coding	UTR	1654258	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana";
+1	protein_coding	UTR	1634320	1634345	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000357760"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-003"; transcript_source "havana";
+1	protein_coding	transcript	1634320	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043";
+1	protein_coding	exon	1655697	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00001357141";
+1	protein_coding	exon	1654147	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003563203";
+1	protein_coding	CDS	1654147	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	start_codon	1654255	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043";
+1	protein_coding	exon	1653035	1653150	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003525046";
+1	protein_coding	CDS	1653035	1653150	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1650797	1650894	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003479970";
+1	protein_coding	CDS	1650797	1650894	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1647785	1647917	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003647264";
+1	protein_coding	CDS	1647785	1647917	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1643703	1643839	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003466910";
+1	protein_coding	CDS	1643703	1643839	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1640957	1641079	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003532668";
+1	protein_coding	CDS	1640957	1641079	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1640477	1640572	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003493098";
+1	protein_coding	CDS	1640477	1640572	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1640233	1640391	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003540484";
+1	protein_coding	CDS	1640233	1640391	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1639619	1639684	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003490604";
+1	protein_coding	CDS	1639619	1639684	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1638848	1639023	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003573320";
+1	protein_coding	CDS	1638848	1639023	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1637081	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003484918";
+1	protein_coding	CDS	1637081	1637171	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1636343	1636464	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003673770";
+1	protein_coding	CDS	1636343	1636464	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1635989	1636094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003629837";
+1	protein_coding	CDS	1635989	1636094	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1635662	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003538477";
+1	protein_coding	CDS	1635662	1635783	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1635478	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003476013";
+1	protein_coding	CDS	1635478	1635585	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1635263	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003507378";
+1	protein_coding	CDS	1635263	1635379	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1634915	1635063	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003652156";
+1	protein_coding	CDS	1634915	1635063	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1634519	1634708	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003646560";
+1	protein_coding	CDS	1634519	1634708	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	exon	1634320	1634438	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; exon_id "ENSE00003675617";
+1	protein_coding	CDS	1634349	1634438	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043"; protein_id "ENSP00000351629";
+1	protein_coding	stop_codon	1634346	1634348	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043";
+1	protein_coding	UTR	1655697	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043";
+1	protein_coding	UTR	1654258	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043";
+1	protein_coding	UTR	1634320	1634345	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000358779"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44043";
+1	protein_coding	transcript	1634320	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana";
+1	protein_coding	exon	1655697	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00001357141";
+1	protein_coding	exon	1654147	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003563203";
+1	protein_coding	CDS	1654147	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	start_codon	1654255	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana";
+1	protein_coding	exon	1653035	1653150	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003525046";
+1	protein_coding	CDS	1653035	1653150	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1650797	1650894	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003479970";
+1	protein_coding	CDS	1650797	1650894	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1647785	1647917	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003647264";
+1	protein_coding	CDS	1647785	1647917	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1643703	1643839	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003466910";
+1	protein_coding	CDS	1643703	1643839	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1640918	1641079	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00001643586";
+1	protein_coding	CDS	1640918	1641079	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1640477	1640572	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003493098";
+1	protein_coding	CDS	1640477	1640572	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1640233	1640391	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003540484";
+1	protein_coding	CDS	1640233	1640391	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1639619	1639684	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003490604";
+1	protein_coding	CDS	1639619	1639684	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1638848	1639023	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003573320";
+1	protein_coding	CDS	1638848	1639023	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1637081	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003484918";
+1	protein_coding	CDS	1637081	1637171	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "12"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1636343	1636464	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003673770";
+1	protein_coding	CDS	1636343	1636464	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "13"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1635989	1636094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003629837";
+1	protein_coding	CDS	1635989	1636094	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "14"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1635662	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003538477";
+1	protein_coding	CDS	1635662	1635783	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "15"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1635478	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003476013";
+1	protein_coding	CDS	1635478	1635585	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "16"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1635263	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003507378";
+1	protein_coding	CDS	1635263	1635379	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "17"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1634915	1635063	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003652156";
+1	protein_coding	CDS	1634915	1635063	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "18"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1634519	1634708	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003646560";
+1	protein_coding	CDS	1634519	1634708	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "19"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	exon	1634320	1634438	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; exon_id "ENSE00003675617";
+1	protein_coding	CDS	1634349	1634438	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana"; protein_id "ENSP00000367900";
+1	protein_coding	stop_codon	1634346	1634348	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; exon_number "20"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana";
+1	protein_coding	UTR	1655697	1655763	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana";
+1	protein_coding	UTR	1654258	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana";
+1	protein_coding	UTR	1634320	1634345	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378633"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-005"; transcript_source "havana";
+1	retained_intron	transcript	1634527	1635555	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000478901"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-020"; transcript_source "havana";
+1	retained_intron	exon	1635478	1635555	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000478901"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-020"; transcript_source "havana"; exon_id "ENSE00001849224";
+1	retained_intron	exon	1634527	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000478901"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-020"; transcript_source "havana"; exon_id "ENSE00001923743";
+1	retained_intron	transcript	1634527	1635994	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000468397"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-022"; transcript_source "havana";
+1	retained_intron	exon	1635662	1635994	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000468397"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-022"; transcript_source "havana"; exon_id "ENSE00001834859";
+1	retained_intron	exon	1635263	1635434	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000468397"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-022"; transcript_source "havana"; exon_id "ENSE00003637284";
+1	retained_intron	exon	1634915	1635063	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000468397"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-022"; transcript_source "havana"; exon_id "ENSE00003477001";
+1	retained_intron	exon	1634527	1634708	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000468397"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-022"; transcript_source "havana"; exon_id "ENSE00001850578";
+1	retained_intron	transcript	1635043	1636041	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000491311"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-019"; transcript_source "havana";
+1	retained_intron	exon	1635662	1636041	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000491311"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-019"; transcript_source "havana"; exon_id "ENSE00001945500";
+1	retained_intron	exon	1635478	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000491311"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-019"; transcript_source "havana"; exon_id "ENSE00003555976";
+1	retained_intron	exon	1635263	1635379	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000491311"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-019"; transcript_source "havana"; exon_id "ENSE00003468898";
+1	retained_intron	exon	1635043	1635063	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000491311"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-019"; transcript_source "havana"; exon_id "ENSE00001821492";
+1	processed_transcript	transcript	1635307	1636024	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000495016"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-023"; transcript_source "havana";
+1	processed_transcript	exon	1635989	1636024	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000495016"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-023"; transcript_source "havana"; exon_id "ENSE00001939832";
+1	processed_transcript	exon	1635662	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000495016"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-023"; transcript_source "havana"; exon_id "ENSE00003612771";
+1	processed_transcript	exon	1635307	1635434	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000495016"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-023"; transcript_source "havana"; exon_id "ENSE00001933962";
+1	retained_intron	transcript	1635488	1639000	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000468800"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-024"; transcript_source "havana";
+1	retained_intron	exon	1638848	1639000	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000468800"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-024"; transcript_source "havana"; exon_id "ENSE00001952547";
+1	retained_intron	exon	1637081	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000468800"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-024"; transcript_source "havana"; exon_id "ENSE00003591780";
+1	retained_intron	exon	1636343	1636464	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000468800"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-024"; transcript_source "havana"; exon_id "ENSE00003594351";
+1	retained_intron	exon	1635662	1636094	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000468800"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-024"; transcript_source "havana"; exon_id "ENSE00001844397";
+1	retained_intron	exon	1635488	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000468800"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-024"; transcript_source "havana"; exon_id "ENSE00001830515";
+1	retained_intron	transcript	1635538	1636199	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000464748"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-025"; transcript_source "havana";
+1	retained_intron	exon	1635989	1636199	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000464748"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-025"; transcript_source "havana"; exon_id "ENSE00001890298";
+1	retained_intron	exon	1635662	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000464748"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-025"; transcript_source "havana"; exon_id "ENSE00003612771";
+1	retained_intron	exon	1635538	1635585	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000464748"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-025"; transcript_source "havana"; exon_id "ENSE00001953892";
+1	retained_intron	transcript	1635682	1636463	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000489300"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-018"; transcript_source "havana";
+1	retained_intron	exon	1635989	1636463	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000489300"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-018"; transcript_source "havana"; exon_id "ENSE00001829595";
+1	retained_intron	exon	1635682	1635783	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000489300"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-018"; transcript_source "havana"; exon_id "ENSE00001917300";
+1	retained_intron	transcript	1635789	1640315	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000492390"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-016"; transcript_source "havana";
+1	retained_intron	exon	1640233	1640315	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000492390"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-016"; transcript_source "havana"; exon_id "ENSE00001920872";
+1	retained_intron	exon	1639619	1639684	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000492390"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-016"; transcript_source "havana"; exon_id "ENSE00003502274";
+1	retained_intron	exon	1638964	1639023	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000492390"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-016"; transcript_source "havana"; exon_id "ENSE00003518081";
+1	retained_intron	exon	1637081	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000492390"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-016"; transcript_source "havana"; exon_id "ENSE00003591780";
+1	retained_intron	exon	1635789	1636464	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000492390"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-016"; transcript_source "havana"; exon_id "ENSE00001825330";
+1	retained_intron	transcript	1636047	1639670	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000474916"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-017"; transcript_source "havana";
+1	retained_intron	exon	1639619	1639670	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000474916"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-017"; transcript_source "havana"; exon_id "ENSE00001901801";
+1	retained_intron	exon	1638848	1639038	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000474916"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-017"; transcript_source "havana"; exon_id "ENSE00001867539";
+1	retained_intron	exon	1637081	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000474916"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-017"; transcript_source "havana"; exon_id "ENSE00003591780";
+1	retained_intron	exon	1636047	1636464	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000474916"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-017"; transcript_source "havana"; exon_id "ENSE00001828587";
+1	protein_coding	transcript	1637078	1655766	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl";
+1	protein_coding	exon	1655697	1655766	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; exon_id "ENSE00001641107";
+1	protein_coding	exon	1654147	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; exon_id "ENSE00003563203";
+1	protein_coding	CDS	1654147	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; protein_id "ENSP00000367902";
+1	protein_coding	start_codon	1654255	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl";
+1	protein_coding	exon	1653035	1653150	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; exon_id "ENSE00003525046";
+1	protein_coding	CDS	1653035	1653150	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; protein_id "ENSP00000367902";
+1	protein_coding	exon	1650797	1650894	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; exon_id "ENSE00003479970";
+1	protein_coding	CDS	1650797	1650894	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; protein_id "ENSP00000367902";
+1	protein_coding	exon	1647785	1647917	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; exon_id "ENSE00003647264";
+1	protein_coding	CDS	1647785	1647917	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; protein_id "ENSP00000367902";
+1	protein_coding	exon	1640957	1641079	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; exon_id "ENSE00003510874";
+1	protein_coding	CDS	1640957	1641079	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "6"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; protein_id "ENSP00000367902";
+1	protein_coding	exon	1640477	1640572	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; exon_id "ENSE00003671995";
+1	protein_coding	CDS	1640477	1640572	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "7"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; protein_id "ENSP00000367902";
+1	protein_coding	exon	1640233	1640391	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; exon_id "ENSE00003689137";
+1	protein_coding	CDS	1640373	1640391	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; protein_id "ENSP00000367902";
+1	protein_coding	stop_codon	1640370	1640372	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "8"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl";
+1	protein_coding	exon	1639619	1639684	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "9"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; exon_id "ENSE00003502274";
+1	protein_coding	exon	1638848	1639023	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "10"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; exon_id "ENSE00003621129";
+1	protein_coding	exon	1637078	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; exon_number "11"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl"; exon_id "ENSE00002293157";
+1	protein_coding	UTR	1655697	1655766	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1654258	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1640233	1640369	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1639619	1639684	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1638848	1639023	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1637078	1637171	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000378635"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-201"; transcript_source "ensembl";
+1	protein_coding	transcript	1647789	1655471	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000479362"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1655239	1655471	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000479362"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-007"; transcript_source "havana"; exon_id "ENSE00001880057"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1654147	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000479362"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-007"; transcript_source "havana"; exon_id "ENSE00003563203"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1654147	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000479362"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-007"; transcript_source "havana"; protein_id "ENSP00000423900"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1653035	1653150	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000479362"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-007"; transcript_source "havana"; exon_id "ENSE00003525046"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1653035	1653150	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000479362"; exon_number "3"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-007"; transcript_source "havana"; protein_id "ENSP00000423900"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1650797	1650894	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000479362"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-007"; transcript_source "havana"; exon_id "ENSE00003479970"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1650797	1650894	.	-	1	gene_id "ENSG00000008128"; transcript_id "ENST00000479362"; exon_number "4"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-007"; transcript_source "havana"; protein_id "ENSP00000423900"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1647789	1647917	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000479362"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-007"; transcript_source "havana"; exon_id "ENSE00001928126"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1647789	1647917	.	-	2	gene_id "ENSG00000008128"; transcript_id "ENST00000479362"; exon_number "5"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-007"; transcript_source "havana"; protein_id "ENSP00000423900"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1655239	1655471	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000479362"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1654258	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000479362"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	retained_intron	transcript	1650605	1653318	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000498810"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-014"; transcript_source "havana";
+1	retained_intron	exon	1653035	1653318	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000498810"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-014"; transcript_source "havana"; exon_id "ENSE00001912903";
+1	retained_intron	exon	1650605	1650894	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000498810"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-014"; transcript_source "havana"; exon_id "ENSE00001832645";
+1	retained_intron	transcript	1653905	1655458	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000487462"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-013"; transcript_source "havana";
+1	retained_intron	exon	1655388	1655458	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000487462"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-013"; transcript_source "havana"; exon_id "ENSE00001891905";
+1	retained_intron	exon	1653905	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000487462"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-013"; transcript_source "havana"; exon_id "ENSE00001895232";
+1	protein_coding	transcript	1654147	1655713	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000401096"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1655388	1655713	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000401096"; exon_number "1"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-011"; transcript_source "havana"; exon_id "ENSE00001546407"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1654147	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000401096"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-011"; transcript_source "havana"; exon_id "ENSE00003490829"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1654147	1654257	.	-	0	gene_id "ENSG00000008128"; transcript_id "ENST00000401096"; exon_number "2"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-011"; transcript_source "havana"; protein_id "ENSP00000383874"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1655388	1655713	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000401096"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1654258	1654270	.	-	.	gene_id "ENSG00000008128"; transcript_id "ENST00000401096"; gene_name "CDK11A"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CDK11A-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	processed_transcript	gene	1634175	1669127	.	-	.	gene_id "ENSG00000268575"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript";
+1	processed_transcript	transcript	1634175	1669127	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana";
+1	processed_transcript	exon	1666643	1669127	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "1"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003226367";
+1	processed_transcript	exon	1666129	1666274	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "2"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003556340";
+1	processed_transcript	exon	1654027	1654270	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "3"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003575907";
+1	processed_transcript	exon	1653035	1653150	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "4"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003634757";
+1	processed_transcript	exon	1650797	1650894	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "5"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003637566";
+1	processed_transcript	exon	1647785	1647917	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "6"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003672483";
+1	processed_transcript	exon	1643703	1643839	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "7"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003468921";
+1	processed_transcript	exon	1640957	1641079	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "8"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003461022";
+1	processed_transcript	exon	1640477	1640572	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "9"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003636205";
+1	processed_transcript	exon	1640233	1640391	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "10"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003590009";
+1	processed_transcript	exon	1639619	1639684	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "11"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003558967";
+1	processed_transcript	exon	1638964	1639023	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "12"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003663196";
+1	processed_transcript	exon	1637081	1637171	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "13"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003582288";
+1	processed_transcript	exon	1636343	1636464	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "14"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003496413";
+1	processed_transcript	exon	1635989	1636094	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "15"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003604931";
+1	processed_transcript	exon	1635662	1635783	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "16"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003549784";
+1	processed_transcript	exon	1635263	1635434	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "17"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003467598";
+1	processed_transcript	exon	1634915	1635063	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "18"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003579997";
+1	processed_transcript	exon	1634519	1634708	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "19"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003525671";
+1	processed_transcript	exon	1634175	1634438	.	-	.	gene_id "ENSG00000268575"; transcript_id "ENST00000598846"; exon_number "20"; gene_name "RP1-283E3.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP1-283E3.8-001"; transcript_source "havana"; exon_id "ENSE00003169804";
+1	pseudogene	gene	1655951	1668690	.	+	.	gene_id "ENSG00000227775"; gene_name "RP1-283E3.4"; gene_source "havana"; gene_biotype "pseudogene";
+1	processed_transcript	transcript	1655951	1667412	.	+	.	gene_id "ENSG00000227775"; transcript_id "ENST00000577672"; gene_name "RP1-283E3.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP1-283E3.4-004"; transcript_source "havana";
+1	processed_transcript	exon	1655951	1656202	.	+	.	gene_id "ENSG00000227775"; transcript_id "ENST00000577672"; exon_number "1"; gene_name "RP1-283E3.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP1-283E3.4-004"; transcript_source "havana"; exon_id "ENSE00002720775";
+1	processed_transcript	exon	1667256	1667412	.	+	.	gene_id "ENSG00000227775"; transcript_id "ENST00000577672"; exon_number "2"; gene_name "RP1-283E3.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP1-283E3.4-004"; transcript_source "havana"; exon_id "ENSE00002717178";
+1	processed_transcript	transcript	1656054	1663343	.	+	.	gene_id "ENSG00000227775"; transcript_id "ENST00000417099"; gene_name "RP1-283E3.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP1-283E3.4-002"; transcript_source "havana";
+1	processed_transcript	exon	1656054	1656202	.	+	.	gene_id "ENSG00000227775"; transcript_id "ENST00000417099"; exon_number "1"; gene_name "RP1-283E3.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP1-283E3.4-002"; transcript_source "havana"; exon_id "ENSE00001797457";
+1	processed_transcript	exon	1661685	1663343	.	+	.	gene_id "ENSG00000227775"; transcript_id "ENST00000417099"; exon_number "2"; gene_name "RP1-283E3.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP1-283E3.4-002"; transcript_source "havana"; exon_id "ENSE00001683746";
+1	processed_transcript	transcript	1663993	1667414	.	+	.	gene_id "ENSG00000227775"; transcript_id "ENST00000424604"; gene_name "RP1-283E3.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP1-283E3.4-003"; transcript_source "havana";
+1	processed_transcript	exon	1663993	1664283	.	+	.	gene_id "ENSG00000227775"; transcript_id "ENST00000424604"; exon_number "1"; gene_name "RP1-283E3.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP1-283E3.4-003"; transcript_source "havana"; exon_id "ENSE00001693999";
+1	processed_transcript	exon	1667256	1667414	.	+	.	gene_id "ENSG00000227775"; transcript_id "ENST00000424604"; exon_number "2"; gene_name "RP1-283E3.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP1-283E3.4-003"; transcript_source "havana"; exon_id "ENSE00001616987";
+1	transcribed_processed_pseudogene	transcript	1667256	1668690	.	+	.	gene_id "ENSG00000227775"; transcript_id "ENST00000418950"; gene_name "RP1-283E3.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP1-283E3.4-001"; transcript_source "havana";
+1	transcribed_processed_pseudogene	exon	1667256	1667354	.	+	.	gene_id "ENSG00000227775"; transcript_id "ENST00000418950"; exon_number "1"; gene_name "RP1-283E3.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP1-283E3.4-001"; transcript_source "havana"; exon_id "ENSE00001742285";
+1	transcribed_processed_pseudogene	exon	1668293	1668690	.	+	.	gene_id "ENSG00000227775"; transcript_id "ENST00000418950"; exon_number "2"; gene_name "RP1-283E3.4"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP1-283E3.4-001"; transcript_source "havana"; exon_id "ENSE00001661417";
+1	protein_coding	gene	1656277	1677431	.	-	.	gene_id "ENSG00000215790"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1656277	1677358	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560";
+1	protein_coding	exon	1677163	1677358	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "1"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560"; exon_id "ENSE00001720150";
+1	protein_coding	exon	1675690	1676107	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "2"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560"; exon_id "ENSE00001728189";
+1	protein_coding	exon	1670675	1671143	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "3"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560"; exon_id "ENSE00001609389";
+1	protein_coding	CDS	1670675	1670996	.	-	0	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "3"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560"; protein_id "ENSP00000347614";
+1	protein_coding	start_codon	1670994	1670996	.	-	0	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "3"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560";
+1	protein_coding	exon	1670361	1670496	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "4"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560"; exon_id "ENSE00001787684";
+1	protein_coding	CDS	1670361	1670496	.	-	2	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "4"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560"; protein_id "ENSP00000347614";
+1	protein_coding	exon	1669760	1669887	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "5"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560"; exon_id "ENSE00001656322";
+1	protein_coding	CDS	1669760	1669887	.	-	1	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "5"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560"; protein_id "ENSP00000347614";
+1	protein_coding	exon	1666129	1666274	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "6"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560"; exon_id "ENSE00003571993";
+1	protein_coding	CDS	1666129	1666274	.	-	2	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "6"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560"; protein_id "ENSP00000347614";
+1	protein_coding	exon	1656277	1656861	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "7"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560"; exon_id "ENSE00001478266";
+1	protein_coding	CDS	1656856	1656861	.	-	0	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "7"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560"; protein_id "ENSP00000347614";
+1	protein_coding	stop_codon	1656853	1656855	.	-	0	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; exon_number "7"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560";
+1	protein_coding	UTR	1677163	1677358	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560";
+1	protein_coding	UTR	1675690	1676107	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560";
+1	protein_coding	UTR	1670997	1671143	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560";
+1	protein_coding	UTR	1656277	1656852	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000355439"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-002"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS55560";
+1	protein_coding	transcript	1656853	1677431	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560";
+1	protein_coding	exon	1677163	1677431	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; exon_number "1"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560"; exon_id "ENSE00001356879";
+1	protein_coding	exon	1670675	1671143	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; exon_number "2"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560"; exon_id "ENSE00001609389";
+1	protein_coding	CDS	1670675	1670996	.	-	0	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; exon_number "2"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560"; protein_id "ENSP00000383714";
+1	protein_coding	start_codon	1670994	1670996	.	-	0	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; exon_number "2"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560";
+1	protein_coding	exon	1670361	1670496	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; exon_number "3"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560"; exon_id "ENSE00001787684";
+1	protein_coding	CDS	1670361	1670496	.	-	2	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; exon_number "3"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560"; protein_id "ENSP00000383714";
+1	protein_coding	exon	1669760	1669887	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; exon_number "4"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560"; exon_id "ENSE00001656322";
+1	protein_coding	CDS	1669760	1669887	.	-	1	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; exon_number "4"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560"; protein_id "ENSP00000383714";
+1	protein_coding	exon	1666129	1666274	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; exon_number "5"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560"; exon_id "ENSE00003571993";
+1	protein_coding	CDS	1666129	1666274	.	-	2	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; exon_number "5"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560"; protein_id "ENSP00000383714";
+1	protein_coding	exon	1656853	1656861	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; exon_number "6"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560"; exon_id "ENSE00001674056";
+1	protein_coding	CDS	1656856	1656861	.	-	0	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; exon_number "6"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560"; protein_id "ENSP00000383714";
+1	protein_coding	stop_codon	1656853	1656855	.	-	0	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; exon_number "6"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560";
+1	protein_coding	UTR	1677163	1677431	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560";
+1	protein_coding	UTR	1670997	1671143	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000400924"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55560";
+1	protein_coding	transcript	1663681	1677431	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33";
+1	protein_coding	exon	1677163	1677431	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; exon_number "1"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33"; exon_id "ENSE00001356879";
+1	protein_coding	exon	1670675	1671143	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; exon_number "2"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33"; exon_id "ENSE00001609389";
+1	protein_coding	CDS	1670675	1670996	.	-	0	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; exon_number "2"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33"; protein_id "ENSP00000246421";
+1	protein_coding	start_codon	1670994	1670996	.	-	0	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; exon_number "2"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33";
+1	protein_coding	exon	1670361	1670496	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; exon_number "3"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33"; exon_id "ENSE00001787684";
+1	protein_coding	CDS	1670361	1670496	.	-	2	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; exon_number "3"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33"; protein_id "ENSP00000246421";
+1	protein_coding	exon	1669760	1669887	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; exon_number "4"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33"; exon_id "ENSE00001656322";
+1	protein_coding	CDS	1669760	1669887	.	-	1	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; exon_number "4"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33"; protein_id "ENSP00000246421";
+1	protein_coding	exon	1666129	1666274	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; exon_number "5"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33"; exon_id "ENSE00003571993";
+1	protein_coding	CDS	1666129	1666274	.	-	2	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; exon_number "5"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33"; protein_id "ENSP00000246421";
+1	protein_coding	exon	1663681	1663962	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; exon_number "6"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33"; exon_id "ENSE00001356860";
+1	protein_coding	CDS	1663897	1663962	.	-	0	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; exon_number "6"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33"; protein_id "ENSP00000246421";
+1	protein_coding	stop_codon	1663894	1663896	.	-	0	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; exon_number "6"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33";
+1	protein_coding	UTR	1677163	1677431	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33";
+1	protein_coding	UTR	1670997	1671143	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33";
+1	protein_coding	UTR	1663681	1663893	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000246421"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS33";
+1	processed_transcript	transcript	1663697	1666713	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000475229"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-004"; transcript_source "havana";
+1	processed_transcript	exon	1666643	1666713	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000475229"; exon_number "1"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-004"; transcript_source "havana"; exon_id "ENSE00001957028";
+1	processed_transcript	exon	1666129	1666274	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000475229"; exon_number "2"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-004"; transcript_source "havana"; exon_id "ENSE00003545640";
+1	processed_transcript	exon	1663697	1663962	.	-	.	gene_id "ENSG00000215790"; transcript_id "ENST00000475229"; exon_number "3"; gene_name "SLC35E2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SLC35E2-004"; transcript_source "havana"; exon_id "ENSE00001954110";
+1	protein_coding	gene	1682671	1711896	.	-	.	gene_id "ENSG00000008130"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1682671	1709909	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565";
+1	protein_coding	exon	1709728	1709909	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00001430349";
+1	protein_coding	exon	1696667	1696885	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003541571";
+1	protein_coding	CDS	1696667	1696845	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000341679";
+1	protein_coding	start_codon	1696843	1696845	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565";
+1	protein_coding	exon	1693391	1693474	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003487616";
+1	protein_coding	CDS	1693391	1693474	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000341679";
+1	protein_coding	exon	1688620	1688749	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003606510";
+1	protein_coding	CDS	1688620	1688749	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000341679";
+1	protein_coding	exon	1687942	1688047	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003537469";
+1	protein_coding	CDS	1687942	1688047	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000341679";
+1	protein_coding	exon	1687697	1687782	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003692625";
+1	protein_coding	CDS	1687697	1687782	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000341679";
+1	protein_coding	exon	1686813	1686915	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "7"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003498213";
+1	protein_coding	CDS	1686813	1686915	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "7"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000341679";
+1	protein_coding	exon	1685983	1686137	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "8"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003514689";
+1	protein_coding	CDS	1685983	1686137	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "8"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000341679";
+1	protein_coding	exon	1685723	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "9"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003693808";
+1	protein_coding	CDS	1685723	1685822	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "9"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000341679";
+1	protein_coding	exon	1685490	1685647	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "10"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00001704992";
+1	protein_coding	CDS	1685490	1685647	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "10"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000341679";
+1	protein_coding	exon	1685006	1685088	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "11"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003520839";
+1	protein_coding	CDS	1685006	1685088	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "11"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000341679";
+1	protein_coding	exon	1682671	1684499	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "12"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00001425950";
+1	protein_coding	CDS	1684346	1684499	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "12"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000341679";
+1	protein_coding	stop_codon	1684343	1684345	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; exon_number "12"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565";
+1	protein_coding	UTR	1709728	1709909	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565";
+1	protein_coding	UTR	1696846	1696885	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565";
+1	protein_coding	UTR	1682671	1684342	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341426"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-003"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565";
+1	protein_coding	transcript	1682671	1710229	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565";
+1	protein_coding	exon	1710185	1710229	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00001399432";
+1	protein_coding	exon	1696667	1696885	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003541571";
+1	protein_coding	CDS	1696667	1696845	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000344340";
+1	protein_coding	start_codon	1696843	1696845	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565";
+1	protein_coding	exon	1693391	1693474	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003487616";
+1	protein_coding	CDS	1693391	1693474	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000344340";
+1	protein_coding	exon	1688620	1688749	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003606510";
+1	protein_coding	CDS	1688620	1688749	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000344340";
+1	protein_coding	exon	1687942	1688047	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003537469";
+1	protein_coding	CDS	1687942	1688047	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000344340";
+1	protein_coding	exon	1687697	1687782	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003692625";
+1	protein_coding	CDS	1687697	1687782	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000344340";
+1	protein_coding	exon	1686813	1686915	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "7"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003498213";
+1	protein_coding	CDS	1686813	1686915	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "7"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000344340";
+1	protein_coding	exon	1685983	1686137	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "8"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003514689";
+1	protein_coding	CDS	1685983	1686137	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "8"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000344340";
+1	protein_coding	exon	1685723	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "9"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003693808";
+1	protein_coding	CDS	1685723	1685822	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "9"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000344340";
+1	protein_coding	exon	1685490	1685647	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "10"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00001704992";
+1	protein_coding	CDS	1685490	1685647	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "10"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000344340";
+1	protein_coding	exon	1685006	1685088	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "11"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00003520839";
+1	protein_coding	CDS	1685006	1685088	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "11"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000344340";
+1	protein_coding	exon	1682671	1684499	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "12"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; exon_id "ENSE00001425950";
+1	protein_coding	CDS	1684346	1684499	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "12"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565"; protein_id "ENSP00000344340";
+1	protein_coding	stop_codon	1684343	1684345	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; exon_number "12"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565";
+1	protein_coding	UTR	1710185	1710229	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565";
+1	protein_coding	UTR	1696846	1696885	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565";
+1	protein_coding	UTR	1682671	1684342	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000341991"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30565";
+1	protein_coding	transcript	1682671	1711508	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562";
+1	protein_coding	exon	1711344	1711508	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00001036406";
+1	protein_coding	exon	1696667	1696885	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003541571";
+1	protein_coding	CDS	1696667	1696845	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000367890";
+1	protein_coding	start_codon	1696843	1696845	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562";
+1	protein_coding	exon	1693391	1693474	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003487616";
+1	protein_coding	CDS	1693391	1693474	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000367890";
+1	protein_coding	exon	1691173	1691341	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00000862097";
+1	protein_coding	CDS	1691173	1691341	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000367890";
+1	protein_coding	exon	1690540	1690682	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00000862098";
+1	protein_coding	CDS	1690540	1690682	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000367890";
+1	protein_coding	exon	1688546	1688749	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00000862099";
+1	protein_coding	CDS	1688546	1688749	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000367890";
+1	protein_coding	exon	1687942	1688096	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "7"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00000862102";
+1	protein_coding	CDS	1687942	1688096	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "7"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000367890";
+1	protein_coding	exon	1687697	1687782	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "8"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003692625";
+1	protein_coding	CDS	1687697	1687782	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "8"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000367890";
+1	protein_coding	exon	1686813	1686915	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "9"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003498213";
+1	protein_coding	CDS	1686813	1686915	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "9"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000367890";
+1	protein_coding	exon	1685983	1686137	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "10"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003514689";
+1	protein_coding	CDS	1685983	1686137	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "10"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000367890";
+1	protein_coding	exon	1685723	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "11"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003693808";
+1	protein_coding	CDS	1685723	1685822	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "11"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000367890";
+1	protein_coding	exon	1685490	1685647	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "12"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00001704992";
+1	protein_coding	CDS	1685490	1685647	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "12"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000367890";
+1	protein_coding	exon	1685006	1685088	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "13"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003520839";
+1	protein_coding	CDS	1685006	1685088	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "13"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000367890";
+1	protein_coding	exon	1682671	1684499	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "14"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00001425950";
+1	protein_coding	CDS	1684346	1684499	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "14"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000367890";
+1	protein_coding	stop_codon	1684343	1684345	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; exon_number "14"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562";
+1	protein_coding	UTR	1711344	1711508	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562";
+1	protein_coding	UTR	1696846	1696885	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562";
+1	protein_coding	UTR	1682671	1684342	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000378625"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55562";
+1	protein_coding	transcript	1682678	1709909	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562";
+1	protein_coding	exon	1709728	1709909	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00001430349";
+1	protein_coding	exon	1696667	1696885	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003541571";
+1	protein_coding	CDS	1696667	1696845	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000340925";
+1	protein_coding	start_codon	1696843	1696845	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562";
+1	protein_coding	exon	1693391	1693474	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003487616";
+1	protein_coding	CDS	1693391	1693474	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000340925";
+1	protein_coding	exon	1691173	1691341	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00000862097";
+1	protein_coding	CDS	1691173	1691341	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000340925";
+1	protein_coding	exon	1690540	1690682	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00000862098";
+1	protein_coding	CDS	1690540	1690682	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000340925";
+1	protein_coding	exon	1688546	1688749	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00000862099";
+1	protein_coding	CDS	1688546	1688749	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000340925";
+1	protein_coding	exon	1687942	1688096	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "7"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00000862102";
+1	protein_coding	CDS	1687942	1688096	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "7"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000340925";
+1	protein_coding	exon	1687697	1687782	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "8"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003692625";
+1	protein_coding	CDS	1687697	1687782	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "8"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000340925";
+1	protein_coding	exon	1686813	1686915	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "9"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003498213";
+1	protein_coding	CDS	1686813	1686915	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "9"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000340925";
+1	protein_coding	exon	1685983	1686137	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "10"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003514689";
+1	protein_coding	CDS	1685983	1686137	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "10"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000340925";
+1	protein_coding	exon	1685723	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "11"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003693808";
+1	protein_coding	CDS	1685723	1685822	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "11"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000340925";
+1	protein_coding	exon	1685490	1685647	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "12"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00001704992";
+1	protein_coding	CDS	1685490	1685647	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "12"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000340925";
+1	protein_coding	exon	1685006	1685088	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "13"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00003520839";
+1	protein_coding	CDS	1685006	1685088	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "13"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000340925";
+1	protein_coding	exon	1682678	1684499	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "14"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; exon_id "ENSE00001627098";
+1	protein_coding	CDS	1684346	1684499	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "14"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562"; protein_id "ENSP00000340925";
+1	protein_coding	stop_codon	1684343	1684345	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; exon_number "14"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562";
+1	protein_coding	UTR	1709728	1709909	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562";
+1	protein_coding	UTR	1696846	1696885	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562";
+1	protein_coding	UTR	1682678	1684342	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000344463"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55562";
+1	protein_coding	transcript	1683910	1690081	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561";
+1	protein_coding	exon	1689804	1690081	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; exon_id "ENSE00001478092";
+1	protein_coding	CDS	1689804	1689970	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; protein_id "ENSP00000339727";
+1	protein_coding	start_codon	1689968	1689970	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561";
+1	protein_coding	exon	1688620	1688749	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; exon_id "ENSE00003606510";
+1	protein_coding	CDS	1688620	1688749	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; protein_id "ENSP00000339727";
+1	protein_coding	exon	1687942	1688047	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; exon_id "ENSE00003537469";
+1	protein_coding	CDS	1687942	1688047	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; protein_id "ENSP00000339727";
+1	protein_coding	exon	1687697	1687782	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; exon_id "ENSE00003692625";
+1	protein_coding	CDS	1687697	1687782	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; protein_id "ENSP00000339727";
+1	protein_coding	exon	1686813	1686915	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; exon_id "ENSE00003498213";
+1	protein_coding	CDS	1686813	1686915	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; protein_id "ENSP00000339727";
+1	protein_coding	exon	1685983	1686137	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; exon_id "ENSE00003514689";
+1	protein_coding	CDS	1685983	1686137	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; protein_id "ENSP00000339727";
+1	protein_coding	exon	1685723	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "7"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; exon_id "ENSE00003693808";
+1	protein_coding	CDS	1685723	1685822	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "7"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; protein_id "ENSP00000339727";
+1	protein_coding	exon	1685490	1685647	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "8"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; exon_id "ENSE00001704992";
+1	protein_coding	CDS	1685490	1685647	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "8"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; protein_id "ENSP00000339727";
+1	protein_coding	exon	1685006	1685088	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "9"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; exon_id "ENSE00003520839";
+1	protein_coding	CDS	1685006	1685088	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "9"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; protein_id "ENSP00000339727";
+1	protein_coding	exon	1683910	1684499	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "10"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; exon_id "ENSE00001545357";
+1	protein_coding	CDS	1684346	1684499	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "10"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561"; protein_id "ENSP00000339727";
+1	protein_coding	stop_codon	1684343	1684345	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; exon_number "10"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561";
+1	protein_coding	UTR	1689971	1690081	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561";
+1	protein_coding	UTR	1683910	1684342	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000342348"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55561";
+1	nonsense_mediated_decay	transcript	1684414	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000498806"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-012"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1685723	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000498806"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-012"; transcript_source "havana"; exon_id "ENSE00003693808"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1685723	1685822	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000498806"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-012"; transcript_source "havana"; protein_id "ENSP00000464137"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1685006	1685088	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000498806"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-012"; transcript_source "havana"; exon_id "ENSE00003580405"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1685072	1685088	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000498806"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-012"; transcript_source "havana"; protein_id "ENSP00000464137"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1684414	1684499	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000498806"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-012"; transcript_source "havana"; exon_id "ENSE00001824402"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1685006	1685071	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000498806"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-012"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1684414	1684499	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000498806"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-012"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1685500	1688707	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1688620	1688707	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; exon_id "ENSE00001846753"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1688620	1688707	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; protein_id "ENSP00000462589"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1688218	1688321	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; exon_id "ENSE00001907368"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1688277	1688321	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; protein_id "ENSP00000462589"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1687942	1688047	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; exon_id "ENSE00003542699"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1687697	1687782	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; exon_id "ENSE00003646914"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1686813	1686915	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; exon_id "ENSE00003660860"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1685983	1686137	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; exon_id "ENSE00003563592"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1685723	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; exon_number "7"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; exon_id "ENSE00003552425"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1685500	1685647	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; exon_number "8"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; exon_id "ENSE00001889162"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1688218	1688276	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1687942	1688047	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1687697	1687782	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1686813	1686915	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1685983	1686137	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1685723	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1685500	1685647	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000469045"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-016"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1685602	1687766	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000480499"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-013"; transcript_source "havana";
+1	retained_intron	exon	1687697	1687766	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000480499"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-013"; transcript_source "havana"; exon_id "ENSE00001935920";
+1	retained_intron	exon	1686813	1686915	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000480499"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-013"; transcript_source "havana"; exon_id "ENSE00003660860";
+1	retained_intron	exon	1685983	1686137	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000480499"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-013"; transcript_source "havana"; exon_id "ENSE00003563592";
+1	retained_intron	exon	1685602	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000480499"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-013"; transcript_source "havana"; exon_id "ENSE00001833463";
+1	retained_intron	transcript	1685604	1686305	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497747"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-010"; transcript_source "havana";
+1	retained_intron	exon	1685983	1686305	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497747"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-010"; transcript_source "havana"; exon_id "ENSE00001867642";
+1	retained_intron	exon	1685723	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497747"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-010"; transcript_source "havana"; exon_id "ENSE00003552425";
+1	retained_intron	exon	1685604	1685647	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497747"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-010"; transcript_source "havana"; exon_id "ENSE00001854922";
+1	retained_intron	transcript	1685610	1688463	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000477235"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-009"; transcript_source "havana";
+1	retained_intron	exon	1687942	1688463	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000477235"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-009"; transcript_source "havana"; exon_id "ENSE00001870563";
+1	retained_intron	exon	1687697	1687782	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000477235"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-009"; transcript_source "havana"; exon_id "ENSE00003646914";
+1	retained_intron	exon	1686813	1686915	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000477235"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-009"; transcript_source "havana"; exon_id "ENSE00003660860";
+1	retained_intron	exon	1685983	1686137	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000477235"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-009"; transcript_source "havana"; exon_id "ENSE00003563592";
+1	retained_intron	exon	1685723	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000477235"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-009"; transcript_source "havana"; exon_id "ENSE00003552425";
+1	retained_intron	exon	1685610	1685647	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000477235"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-009"; transcript_source "havana"; exon_id "ENSE00001875142";
+1	nonsense_mediated_decay	transcript	1685620	1688047	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000489538"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-014"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1687942	1688047	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000489538"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-014"; transcript_source "havana"; exon_id "ENSE00003537469"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1687942	1688047	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000489538"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-014"; transcript_source "havana"; protein_id "ENSP00000462999"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1687697	1687782	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000489538"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-014"; transcript_source "havana"; exon_id "ENSE00003692625"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1687697	1687782	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000489538"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-014"; transcript_source "havana"; protein_id "ENSP00000462999"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1685983	1686137	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000489538"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-014"; transcript_source "havana"; exon_id "ENSE00003552703"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1686105	1686137	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000489538"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-014"; transcript_source "havana"; protein_id "ENSP00000462999"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1685723	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000489538"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-014"; transcript_source "havana"; exon_id "ENSE00003552425"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1685620	1685647	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000489538"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-014"; transcript_source "havana"; exon_id "ENSE00001949887"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1685983	1686104	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000489538"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-014"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1685723	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000489538"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-014"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1685620	1685647	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000489538"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-014"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1685642	1686335	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497615"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-011"; transcript_source "havana";
+1	retained_intron	exon	1685983	1686335	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497615"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-011"; transcript_source "havana"; exon_id "ENSE00001830936";
+1	retained_intron	exon	1685642	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497615"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-011"; transcript_source "havana"; exon_id "ENSE00001828299";
+1	nonsense_mediated_decay	transcript	1685782	1688667	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1688620	1688667	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; exon_id "ENSE00001916343"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1688620	1688667	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; protein_id "ENSP00000464096"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1688178	1688321	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; exon_id "ENSE00001856899"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	1688277	1688321	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; protein_id "ENSP00000464096"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1687942	1688047	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; exon_id "ENSE00003542699"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1687697	1687782	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; exon_id "ENSE00003646914"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1686813	1686915	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; exon_id "ENSE00003660860"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1685983	1686137	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; exon_id "ENSE00003563592"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	1685782	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; exon_number "7"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; exon_id "ENSE00001875307"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1688178	1688276	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1687942	1688047	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1687697	1687782	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1686813	1686915	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1685983	1686137	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	1685782	1685822	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000497186"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1686111	1690014	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1689804	1690014	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; exon_id "ENSE00001772556"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1689804	1689970	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; protein_id "ENSP00000383713"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1688620	1688749	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; exon_id "ENSE00003606510"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1688620	1688749	.	-	1	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; protein_id "ENSP00000383713"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1687942	1688047	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; exon_id "ENSE00003537469"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1687942	1688047	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; protein_id "ENSP00000383713"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1687697	1687782	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; exon_id "ENSE00003692625"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1687697	1687782	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; protein_id "ENSP00000383713"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1686813	1686915	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; exon_id "ENSE00003498213"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1686813	1686915	.	-	0	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; protein_id "ENSP00000383713"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1686111	1686137	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; exon_id "ENSE00001753440"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1686111	1686137	.	-	2	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; protein_id "ENSP00000383713"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1689971	1690014	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000400922"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	retained_intron	transcript	1687443	1711401	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000492845"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-015"; transcript_source "havana";
+1	retained_intron	exon	1711344	1711401	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000492845"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-015"; transcript_source "havana"; exon_id "ENSE00001852077";
+1	retained_intron	exon	1696667	1696885	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000492845"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-015"; transcript_source "havana"; exon_id "ENSE00003630732";
+1	retained_intron	exon	1693391	1693474	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000492845"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-015"; transcript_source "havana"; exon_id "ENSE00003514867";
+1	retained_intron	exon	1688620	1688749	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000492845"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-015"; transcript_source "havana"; exon_id "ENSE00003688059";
+1	retained_intron	exon	1687942	1688047	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000492845"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-015"; transcript_source "havana"; exon_id "ENSE00003542699";
+1	retained_intron	exon	1687443	1687782	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000492845"; exon_number "6"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-015"; transcript_source "havana"; exon_id "ENSE00001889981";
+1	processed_transcript	transcript	1688027	1709858	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000492768"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-007"; transcript_source "havana";
+1	processed_transcript	exon	1709728	1709858	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000492768"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-007"; transcript_source "havana"; exon_id "ENSE00001850055";
+1	processed_transcript	exon	1696667	1696885	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000492768"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-007"; transcript_source "havana"; exon_id "ENSE00003630732";
+1	processed_transcript	exon	1693391	1693474	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000492768"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-007"; transcript_source "havana"; exon_id "ENSE00003514867";
+1	processed_transcript	exon	1688620	1688749	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000492768"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-007"; transcript_source "havana"; exon_id "ENSE00003688059";
+1	processed_transcript	exon	1688027	1688321	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000492768"; exon_number "5"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-007"; transcript_source "havana"; exon_id "ENSE00001818075";
+1	retained_intron	transcript	1688210	1709858	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000460602"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-006"; transcript_source "havana";
+1	retained_intron	exon	1709728	1709858	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000460602"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-006"; transcript_source "havana"; exon_id "ENSE00001850055";
+1	retained_intron	exon	1696667	1696885	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000460602"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-006"; transcript_source "havana"; exon_id "ENSE00003630732";
+1	retained_intron	exon	1693391	1693474	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000460602"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-006"; transcript_source "havana"; exon_id "ENSE00003514867";
+1	retained_intron	exon	1688210	1688749	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000460602"; exon_number "4"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-006"; transcript_source "havana"; exon_id "ENSE00001874216";
+1	retained_intron	transcript	1693104	1709859	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000464373"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-005"; transcript_source "havana";
+1	retained_intron	exon	1709728	1709859	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000464373"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-005"; transcript_source "havana"; exon_id "ENSE00001882130";
+1	retained_intron	exon	1696667	1696885	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000464373"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-005"; transcript_source "havana"; exon_id "ENSE00003630732";
+1	retained_intron	exon	1693104	1693474	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000464373"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-005"; transcript_source "havana"; exon_id "ENSE00001838549";
+1	processed_transcript	transcript	1710596	1711896	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000480542"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-004"; transcript_source "havana";
+1	processed_transcript	exon	1711721	1711896	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000480542"; exon_number "1"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-004"; transcript_source "havana"; exon_id "ENSE00001874664";
+1	processed_transcript	exon	1711344	1711468	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000480542"; exon_number "2"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-004"; transcript_source "havana"; exon_id "ENSE00001831578";
+1	processed_transcript	exon	1710596	1710635	.	-	.	gene_id "ENSG00000008130"; transcript_id "ENST00000480542"; exon_number "3"; gene_name "NADK"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "NADK-004"; transcript_source "havana"; exon_id "ENSE00001914004";
+1	protein_coding	gene	1716729	1822495	.	-	.	gene_id "ENSG00000078369"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1716729	1822495	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34";
+1	protein_coding	exon	1822259	1822495	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "1"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; exon_id "ENSE00001370751";
+1	protein_coding	exon	1770629	1770677	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "2"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; exon_id "ENSE00001356799";
+1	protein_coding	exon	1756836	1756938	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "3"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; exon_id "ENSE00003268669";
+1	protein_coding	CDS	1756836	1756892	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "3"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; protein_id "ENSP00000367872";
+1	protein_coding	start_codon	1756890	1756892	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "3"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34";
+1	protein_coding	exon	1749276	1749314	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "4"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; exon_id "ENSE00001066529";
+1	protein_coding	CDS	1749276	1749314	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "4"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; protein_id "ENSP00000367872";
+1	protein_coding	exon	1747195	1747301	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "5"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; exon_id "ENSE00003465100";
+1	protein_coding	CDS	1747195	1747301	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "5"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; protein_id "ENSP00000367872";
+1	protein_coding	exon	1737914	1737977	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "6"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; exon_id "ENSE00003629446";
+1	protein_coding	CDS	1737914	1737977	.	-	1	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "6"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; protein_id "ENSP00000367872";
+1	protein_coding	exon	1735858	1736020	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "7"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; exon_id "ENSE00003609842";
+1	protein_coding	CDS	1735858	1736020	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "7"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; protein_id "ENSP00000367872";
+1	protein_coding	exon	1724684	1724750	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "8"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; exon_id "ENSE00003485283";
+1	protein_coding	CDS	1724684	1724750	.	-	2	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "8"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; protein_id "ENSP00000367872";
+1	protein_coding	exon	1721834	1722035	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "9"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; exon_id "ENSE00003676440";
+1	protein_coding	CDS	1721834	1722035	.	-	1	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "9"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; protein_id "ENSP00000367872";
+1	protein_coding	exon	1720492	1720708	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "10"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; exon_id "ENSE00001717648";
+1	protein_coding	CDS	1720492	1720708	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "10"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; protein_id "ENSP00000367872";
+1	protein_coding	exon	1718761	1718876	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "11"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; exon_id "ENSE00001728156";
+1	protein_coding	CDS	1718773	1718876	.	-	2	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "11"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; protein_id "ENSP00000367872";
+1	protein_coding	stop_codon	1718770	1718772	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "11"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34";
+1	protein_coding	exon	1716729	1718492	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; exon_number "12"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34"; exon_id "ENSE00001809357";
+1	protein_coding	UTR	1822259	1822495	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34";
+1	protein_coding	UTR	1770629	1770677	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34";
+1	protein_coding	UTR	1756893	1756938	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34";
+1	protein_coding	UTR	1718761	1718769	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34";
+1	protein_coding	UTR	1716729	1718492	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000378609"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS34";
+1	retained_intron	transcript	1719426	1725636	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000461893"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-003"; transcript_source "havana";
+1	retained_intron	exon	1724684	1725636	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000461893"; exon_number "1"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-003"; transcript_source "havana"; exon_id "ENSE00001843986";
+1	retained_intron	exon	1721834	1722035	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000461893"; exon_number "2"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-003"; transcript_source "havana"; exon_id "ENSE00003615688";
+1	retained_intron	exon	1719426	1720708	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000461893"; exon_number "3"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-003"; transcript_source "havana"; exon_id "ENSE00001902924";
+1	retained_intron	transcript	1720500	1749825	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000471354"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-002"; transcript_source "havana";
+1	retained_intron	exon	1749126	1749825	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000471354"; exon_number "1"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-002"; transcript_source "havana"; exon_id "ENSE00001925279";
+1	retained_intron	exon	1747195	1747301	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000471354"; exon_number "2"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-002"; transcript_source "havana"; exon_id "ENSE00003584284";
+1	retained_intron	exon	1737914	1737977	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000471354"; exon_number "3"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-002"; transcript_source "havana"; exon_id "ENSE00003483809";
+1	retained_intron	exon	1735858	1736020	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000471354"; exon_number "4"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-002"; transcript_source "havana"; exon_id "ENSE00003650042";
+1	retained_intron	exon	1724684	1724750	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000471354"; exon_number "5"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-002"; transcript_source "havana"; exon_id "ENSE00003572526";
+1	retained_intron	exon	1721834	1722035	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000471354"; exon_number "6"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-002"; transcript_source "havana"; exon_id "ENSE00003615688";
+1	retained_intron	exon	1720500	1720708	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000471354"; exon_number "7"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-002"; transcript_source "havana"; exon_id "ENSE00001950377";
+1	protein_coding	transcript	1722004	1822275	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1822259	1822275	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "1"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; exon_id "ENSE00001700963"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1770629	1770677	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "2"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; exon_id "ENSE00001356799"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1756836	1756938	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "3"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; exon_id "ENSE00003268669"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1756836	1756892	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "3"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; protein_id "ENSP00000399741"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1747195	1747301	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "4"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; exon_id "ENSE00003465100"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1747195	1747301	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "4"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; protein_id "ENSP00000399741"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1737914	1737977	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "5"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; exon_id "ENSE00003629446"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1737914	1737977	.	-	1	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "5"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; protein_id "ENSP00000399741"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1735858	1736020	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "6"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; exon_id "ENSE00003609842"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1735858	1736020	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "6"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; protein_id "ENSP00000399741"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1724684	1724750	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "7"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; exon_id "ENSE00003485283"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1724684	1724750	.	-	2	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "7"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; protein_id "ENSP00000399741"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1722004	1722035	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "8"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; exon_id "ENSE00002713788"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1722004	1722035	.	-	1	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; exon_number "8"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; protein_id "ENSP00000399741"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1822259	1822275	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1770629	1770677	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1756893	1756938	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000439272"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-005"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	1724684	1821840	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1821803	1821840	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "1"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; exon_id "ENSE00001648330"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1771068	1771121	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "2"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; exon_id "ENSE00001805632"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1770629	1770677	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "3"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; exon_id "ENSE00001356799"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1756836	1756938	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "4"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; exon_id "ENSE00003268669"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1756836	1756892	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "4"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; protein_id "ENSP00000392765"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1749276	1749314	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "5"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; exon_id "ENSE00001066529"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1749276	1749314	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "5"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; protein_id "ENSP00000392765"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1747195	1747301	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "6"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; exon_id "ENSE00003465100"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1747195	1747301	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "6"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; protein_id "ENSP00000392765"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1737914	1737977	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "7"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; exon_id "ENSE00003629446"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1737914	1737977	.	-	1	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "7"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; protein_id "ENSP00000392765"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1735858	1736020	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "8"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; exon_id "ENSE00003609842"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1735858	1736020	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "8"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; protein_id "ENSP00000392765"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1724684	1724750	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "9"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; exon_id "ENSE00003605952"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1724684	1724750	.	-	2	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; exon_number "9"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; protein_id "ENSP00000392765"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1821803	1821840	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1771068	1771121	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1770629	1770677	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1756893	1756938	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000434686"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	1735965	1763724	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1763671	1763724	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; exon_number "1"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; exon_id "ENSE00001780562"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1756836	1756938	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; exon_number "2"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; exon_id "ENSE00003268669"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1756836	1756892	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; exon_number "2"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; protein_id "ENSP00000416651"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1749276	1749314	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; exon_number "3"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; exon_id "ENSE00001066529"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1749276	1749314	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; exon_number "3"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; protein_id "ENSP00000416651"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1747195	1747301	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; exon_number "4"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; exon_id "ENSE00003465100"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1747195	1747301	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; exon_number "4"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; protein_id "ENSP00000416651"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1737914	1737977	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; exon_number "5"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; exon_id "ENSE00003629446"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1737914	1737977	.	-	1	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; exon_number "5"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; protein_id "ENSP00000416651"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1735965	1736020	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; exon_number "6"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; exon_id "ENSE00001704803"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1735965	1736020	.	-	0	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; exon_number "6"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; protein_id "ENSP00000416651"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1763671	1763724	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1756893	1756938	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000437146"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	retained_intron	transcript	1756427	1756993	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000607589"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-009"; transcript_source "havana";
+1	retained_intron	exon	1756427	1756993	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000607589"; exon_number "1"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-009"; transcript_source "havana"; exon_id "ENSE00003700380";
+1	processed_transcript	transcript	1756427	1822405	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000472614"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-008"; transcript_source "havana";
+1	processed_transcript	exon	1822259	1822405	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000472614"; exon_number "1"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-008"; transcript_source "havana"; exon_id "ENSE00001831588";
+1	processed_transcript	exon	1770629	1770677	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000472614"; exon_number "2"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-008"; transcript_source "havana"; exon_id "ENSE00001356799";
+1	processed_transcript	exon	1756427	1756938	.	-	.	gene_id "ENSG00000078369"; transcript_id "ENST00000472614"; exon_number "3"; gene_name "GNB1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GNB1-008"; transcript_source "havana"; exon_id "ENSE00001886331";
+1	antisense	gene	1822910	1824097	.	+	.	gene_id "ENSG00000231050"; gene_name "RP1-140A9.1"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	1822910	1824097	.	+	.	gene_id "ENSG00000231050"; transcript_id "ENST00000412228"; gene_name "RP1-140A9.1"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP1-140A9.1-001"; transcript_source "havana";
+1	antisense	exon	1822910	1823290	.	+	.	gene_id "ENSG00000231050"; transcript_id "ENST00000412228"; exon_number "1"; gene_name "RP1-140A9.1"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP1-140A9.1-001"; transcript_source "havana"; exon_id "ENSE00001607876";
+1	antisense	exon	1823573	1824097	.	+	.	gene_id "ENSG00000231050"; transcript_id "ENST00000412228"; exon_number "2"; gene_name "RP1-140A9.1"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP1-140A9.1-001"; transcript_source "havana"; exon_id "ENSE00001780565";
+1	protein_coding	gene	1846266	1848735	.	+	.	gene_id "ENSG00000169885"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1846266	1848733	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; tag "mRNA_start_NF";
+1	protein_coding	exon	1846266	1846746	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "1"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; exon_id "ENSE00001208002"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1846720	1846746	.	+	0	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "1"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; protein_id "ENSP00000304643"; tag "mRNA_start_NF";
+1	protein_coding	start_codon	1846720	1846722	.	+	0	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "1"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; tag "mRNA_start_NF";
+1	protein_coding	exon	1847124	1847174	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "2"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; exon_id "ENSE00001478068"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1847124	1847174	.	+	0	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "2"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; protein_id "ENSP00000304643"; tag "mRNA_start_NF";
+1	protein_coding	exon	1847880	1848054	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "3"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; exon_id "ENSE00001127963"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1847880	1848054	.	+	0	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "3"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; protein_id "ENSP00000304643"; tag "mRNA_start_NF";
+1	protein_coding	exon	1848191	1848335	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "4"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; exon_id "ENSE00003651579"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1848191	1848335	.	+	2	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "4"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; protein_id "ENSP00000304643"; tag "mRNA_start_NF";
+1	protein_coding	exon	1848413	1848513	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "5"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; exon_id "ENSE00003518147"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1848413	1848513	.	+	1	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "5"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; protein_id "ENSP00000304643"; tag "mRNA_start_NF";
+1	protein_coding	exon	1848586	1848733	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "6"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; exon_id "ENSE00001207998"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1848586	1848629	.	+	2	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "6"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; protein_id "ENSP00000304643"; tag "mRNA_start_NF";
+1	protein_coding	stop_codon	1848630	1848632	.	+	0	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; exon_number "6"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1846266	1846719	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1848633	1848733	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000307786"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-004"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30566"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1846547	1848733	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; tag "mRNA_start_NF";
+1	protein_coding	exon	1846547	1846746	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; exon_number "1"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001922765"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1846720	1846746	.	+	0	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; exon_number "1"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; protein_id "ENSP00000367867"; tag "mRNA_start_NF";
+1	protein_coding	start_codon	1846720	1846722	.	+	0	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; exon_number "1"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; tag "mRNA_start_NF";
+1	protein_coding	exon	1847880	1848054	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; exon_number "2"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001127963"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1847880	1848054	.	+	0	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; exon_number "2"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; protein_id "ENSP00000367867"; tag "mRNA_start_NF";
+1	protein_coding	exon	1848191	1848335	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; exon_number "3"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; exon_id "ENSE00003651579"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1848191	1848335	.	+	2	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; exon_number "3"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; protein_id "ENSP00000367867"; tag "mRNA_start_NF";
+1	protein_coding	exon	1848413	1848513	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; exon_number "4"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; exon_id "ENSE00003518147"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1848413	1848513	.	+	1	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; exon_number "4"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; protein_id "ENSP00000367867"; tag "mRNA_start_NF";
+1	protein_coding	exon	1848586	1848733	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; exon_number "5"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001207998"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1848586	1848629	.	+	2	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; exon_number "5"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; protein_id "ENSP00000367867"; tag "mRNA_start_NF";
+1	protein_coding	stop_codon	1848630	1848632	.	+	0	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; exon_number "5"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1846547	1846719	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1848633	1848733	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000378604"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-001"; transcript_source "ensembl_havana"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1846705	1848735	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000482402"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-002"; transcript_source "havana";
+1	retained_intron	exon	1846705	1848335	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000482402"; exon_number "1"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-002"; transcript_source "havana"; exon_id "ENSE00001954219";
+1	retained_intron	exon	1848413	1848513	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000482402"; exon_number "2"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-002"; transcript_source "havana"; exon_id "ENSE00003648185";
+1	retained_intron	exon	1848586	1848735	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000482402"; exon_number "3"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-002"; transcript_source "havana"; exon_id "ENSE00001951697";
+1	processed_transcript	transcript	1846848	1848510	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000462293"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-003"; transcript_source "havana";
+1	processed_transcript	exon	1846848	1847174	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000462293"; exon_number "1"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-003"; transcript_source "havana"; exon_id "ENSE00001854568";
+1	processed_transcript	exon	1848191	1848335	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000462293"; exon_number "2"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-003"; transcript_source "havana"; exon_id "ENSE00003641046";
+1	processed_transcript	exon	1848413	1848510	.	+	.	gene_id "ENSG00000169885"; transcript_id "ENST00000462293"; exon_number "3"; gene_name "CALML6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "CALML6-003"; transcript_source "havana"; exon_id "ENSE00001958157";
+1	protein_coding	gene	1849029	1850712	.	-	.	gene_id "ENSG00000178821"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1849029	1850236	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000378602"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-004"; transcript_source "havana";
+1	protein_coding	exon	1849692	1850236	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000378602"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-004"; transcript_source "havana"; exon_id "ENSE00001858191";
+1	protein_coding	CDS	1849692	1849995	.	-	0	gene_id "ENSG00000178821"; transcript_id "ENST00000378602"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-004"; transcript_source "havana"; protein_id "ENSP00000367865";
+1	protein_coding	start_codon	1849993	1849995	.	-	0	gene_id "ENSG00000178821"; transcript_id "ENST00000378602"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-004"; transcript_source "havana";
+1	protein_coding	exon	1849029	1849601	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000378602"; exon_number "2"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-004"; transcript_source "havana"; exon_id "ENSE00001478064";
+1	protein_coding	CDS	1849324	1849601	.	-	2	gene_id "ENSG00000178821"; transcript_id "ENST00000378602"; exon_number "2"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-004"; transcript_source "havana"; protein_id "ENSP00000367865";
+1	protein_coding	stop_codon	1849321	1849323	.	-	0	gene_id "ENSG00000178821"; transcript_id "ENST00000378602"; exon_number "2"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-004"; transcript_source "havana";
+1	protein_coding	UTR	1849996	1850236	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000378602"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-004"; transcript_source "havana";
+1	protein_coding	UTR	1849029	1849320	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000378602"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-004"; transcript_source "havana";
+1	protein_coding	transcript	1849030	1850712	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35";
+1	protein_coding	exon	1850621	1850712	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35"; exon_id "ENSE00001239803";
+1	protein_coding	CDS	1850621	1850704	.	-	0	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35"; protein_id "ENSP00000311122";
+1	protein_coding	start_codon	1850702	1850704	.	-	0	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35";
+1	protein_coding	exon	1850484	1850527	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; exon_number "2"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35"; exon_id "ENSE00003473336";
+1	protein_coding	CDS	1850484	1850527	.	-	0	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; exon_number "2"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35"; protein_id "ENSP00000311122";
+1	protein_coding	exon	1850332	1850373	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; exon_number "3"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35"; exon_id "ENSE00003634508";
+1	protein_coding	CDS	1850332	1850373	.	-	1	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; exon_number "3"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35"; protein_id "ENSP00000311122";
+1	protein_coding	exon	1849692	1849870	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; exon_number "4"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35"; exon_id "ENSE00003675447";
+1	protein_coding	CDS	1849692	1849870	.	-	1	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; exon_number "4"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35"; protein_id "ENSP00000311122";
+1	protein_coding	exon	1849030	1849601	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; exon_number "5"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35"; exon_id "ENSE00001754010";
+1	protein_coding	CDS	1849324	1849601	.	-	2	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; exon_number "5"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35"; protein_id "ENSP00000311122";
+1	protein_coding	stop_codon	1849321	1849323	.	-	0	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; exon_number "5"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35";
+1	protein_coding	UTR	1850705	1850712	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35";
+1	protein_coding	UTR	1849030	1849320	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000310991"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS35";
+1	protein_coding	transcript	1849284	1850697	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000378598"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1850484	1850697	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000378598"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-005"; transcript_source "havana"; exon_id "ENSE00001736550"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1850484	1850697	.	-	0	gene_id "ENSG00000178821"; transcript_id "ENST00000378598"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-005"; transcript_source "havana"; protein_id "ENSP00000367861"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1850332	1850373	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000378598"; exon_number "2"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-005"; transcript_source "havana"; exon_id "ENSE00003599669"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1850332	1850373	.	-	2	gene_id "ENSG00000178821"; transcript_id "ENST00000378598"; exon_number "2"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-005"; transcript_source "havana"; protein_id "ENSP00000367861"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1849284	1849510	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000378598"; exon_number "3"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-005"; transcript_source "havana"; exon_id "ENSE00001478051"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1849392	1849510	.	-	2	gene_id "ENSG00000178821"; transcript_id "ENST00000378598"; exon_number "3"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-005"; transcript_source "havana"; protein_id "ENSP00000367861"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1849284	1849391	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000378598"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	transcript	1849376	1850709	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000470931"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-003"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1850621	1850709	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000470931"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-003"; transcript_source "havana"; exon_id "ENSE00003293243";
+1	nonsense_mediated_decay	CDS	1850621	1850704	.	-	0	gene_id "ENSG00000178821"; transcript_id "ENST00000470931"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-003"; transcript_source "havana"; protein_id "ENSP00000473350";
+1	nonsense_mediated_decay	start_codon	1850702	1850704	.	-	0	gene_id "ENSG00000178821"; transcript_id "ENST00000470931"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-003"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1850332	1850527	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000470931"; exon_number "2"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-003"; transcript_source "havana"; exon_id "ENSE00001937932";
+1	nonsense_mediated_decay	CDS	1850483	1850527	.	-	0	gene_id "ENSG00000178821"; transcript_id "ENST00000470931"; exon_number "2"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-003"; transcript_source "havana"; protein_id "ENSP00000473350";
+1	nonsense_mediated_decay	stop_codon	1850480	1850482	.	-	0	gene_id "ENSG00000178821"; transcript_id "ENST00000470931"; exon_number "2"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-003"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	1849692	1849870	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000470931"; exon_number "3"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-003"; transcript_source "havana"; exon_id "ENSE00003652520";
+1	nonsense_mediated_decay	exon	1849376	1849601	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000470931"; exon_number "4"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-003"; transcript_source "havana"; exon_id "ENSE00001810932";
+1	nonsense_mediated_decay	UTR	1850705	1850709	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000470931"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1850332	1850479	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000470931"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1849692	1849870	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000470931"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-003"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	1849376	1849601	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000470931"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-003"; transcript_source "havana";
+1	retained_intron	transcript	1849538	1850708	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000602604"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-006"; transcript_source "havana";
+1	retained_intron	exon	1850621	1850708	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000602604"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-006"; transcript_source "havana"; exon_id "ENSE00003343061";
+1	retained_intron	exon	1850484	1850527	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000602604"; exon_number "2"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-006"; transcript_source "havana"; exon_id "ENSE00003561172";
+1	retained_intron	exon	1849692	1850373	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000602604"; exon_number "3"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-006"; transcript_source "havana"; exon_id "ENSE00003428438";
+1	retained_intron	exon	1849538	1849601	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000602604"; exon_number "4"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-006"; transcript_source "havana"; exon_id "ENSE00003350147";
+1	protein_coding	transcript	1849825	1850708	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000416272"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-002"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1850484	1850708	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000416272"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-002"; transcript_source "havana"; exon_id "ENSE00001767147"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1850484	1850704	.	-	0	gene_id "ENSG00000178821"; transcript_id "ENST00000416272"; exon_number "1"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-002"; transcript_source "havana"; protein_id "ENSP00000409669"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1850332	1850373	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000416272"; exon_number "2"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-002"; transcript_source "havana"; exon_id "ENSE00003634508"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1850332	1850373	.	-	1	gene_id "ENSG00000178821"; transcript_id "ENST00000416272"; exon_number "2"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-002"; transcript_source "havana"; protein_id "ENSP00000409669"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1849825	1849870	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000416272"; exon_number "3"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-002"; transcript_source "havana"; exon_id "ENSE00001682091"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1849825	1849870	.	-	1	gene_id "ENSG00000178821"; transcript_id "ENST00000416272"; exon_number "3"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-002"; transcript_source "havana"; protein_id "ENSP00000409669"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1850705	1850708	.	-	.	gene_id "ENSG00000178821"; transcript_id "ENST00000416272"; gene_name "TMEM52"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TMEM52-002"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	gene	1853396	1935276	.	-	.	gene_id "ENSG00000142609"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	retained_intron	transcript	1853396	1859368	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000464311"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-001"; transcript_source "havana"; tag "mRNA_start_NF";
+1	retained_intron	exon	1858091	1859368	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000464311"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-001"; transcript_source "havana"; exon_id "ENSE00001478048"; tag "mRNA_start_NF";
+1	retained_intron	exon	1857896	1857951	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000464311"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-001"; transcript_source "havana"; exon_id "ENSE00003668559"; tag "mRNA_start_NF";
+1	retained_intron	exon	1857667	1857786	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000464311"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-001"; transcript_source "havana"; exon_id "ENSE00003501004"; tag "mRNA_start_NF";
+1	retained_intron	exon	1857222	1857377	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000464311"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-001"; transcript_source "havana"; exon_id "ENSE00003506151"; tag "mRNA_start_NF";
+1	retained_intron	exon	1855830	1855959	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000464311"; exon_number "5"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-001"; transcript_source "havana"; exon_id "ENSE00003588729"; tag "mRNA_start_NF";
+1	retained_intron	exon	1855214	1855368	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000464311"; exon_number "6"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-001"; transcript_source "havana"; exon_id "ENSE00003614421"; tag "mRNA_start_NF";
+1	retained_intron	exon	1854806	1854938	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000464311"; exon_number "7"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-001"; transcript_source "havana"; exon_id "ENSE00003516878"; tag "mRNA_start_NF";
+1	retained_intron	exon	1854424	1854584	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000464311"; exon_number "8"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-001"; transcript_source "havana"; exon_id "ENSE00001943844"; tag "mRNA_start_NF";
+1	retained_intron	exon	1854028	1854162	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000464311"; exon_number "9"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-001"; transcript_source "havana"; exon_id "ENSE00001916144"; tag "mRNA_start_NF";
+1	retained_intron	exon	1853396	1853827	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000464311"; exon_number "10"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-001"; transcript_source "havana"; exon_id "ENSE00001723052"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1853522	1858842	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000412120"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-003"; transcript_source "ensembl_havana";
+1	retained_intron	exon	1858333	1858842	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000412120"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001851519";
+1	retained_intron	exon	1858091	1858200	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000412120"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003582414";
+1	retained_intron	exon	1857896	1857951	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000412120"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003668559";
+1	retained_intron	exon	1857667	1857786	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000412120"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003501004";
+1	retained_intron	exon	1857222	1857377	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000412120"; exon_number "5"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003506151";
+1	retained_intron	exon	1855830	1855959	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000412120"; exon_number "6"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003588729";
+1	retained_intron	exon	1855214	1855368	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000412120"; exon_number "7"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003614421";
+1	retained_intron	exon	1854806	1854938	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000412120"; exon_number "8"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003516878";
+1	retained_intron	exon	1854424	1854584	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000412120"; exon_number "9"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001943844";
+1	retained_intron	exon	1854028	1854162	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000412120"; exon_number "10"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001916144";
+1	retained_intron	exon	1853522	1853827	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000412120"; exon_number "11"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001813065";
+1	protein_coding	transcript	1853726	1887154	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1887130	1887154	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001937457"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1887130	1887154	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1878429	1878493	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001838606"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1878429	1878493	.	-	2	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1877756	1877878	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001910630"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1877756	1877878	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1875770	1875891	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001958749"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1875770	1875891	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1873467	1873595	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "5"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001833586"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1873467	1873595	.	-	1	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "5"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1871755	1871842	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "6"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001844333"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1871755	1871842	.	-	1	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "6"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1871033	1871206	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "7"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001931348"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1871033	1871206	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "7"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1870294	1870427	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "8"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001958120"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1870294	1870427	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "8"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1861499	1861775	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "9"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001896802"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1861499	1861775	.	-	1	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "9"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1860223	1860321	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "10"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001924949"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1860223	1860321	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "10"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1859046	1859185	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "11"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001767669"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1859046	1859185	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "11"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1858333	1858467	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "12"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001696103"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1858333	1858467	.	-	1	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "12"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1858091	1858200	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "13"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00003528963"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1858091	1858200	.	-	1	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "13"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1857896	1857951	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "14"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00003478389"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1857896	1857951	.	-	2	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "14"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1857667	1857786	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "15"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00003650472"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1857667	1857786	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "15"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1857222	1857377	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "16"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00003522881"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1857222	1857377	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "16"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1855830	1855959	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "17"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00003622276"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1855830	1855959	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "17"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1855214	1855368	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "18"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00003634604"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1855214	1855368	.	-	2	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "18"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1854806	1854938	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "19"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00003536274"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1854806	1854938	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "19"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1854424	1854554	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "20"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001895150"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1854424	1854554	.	-	2	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "20"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1853726	1853827	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "21"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; exon_id "ENSE00001948387"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1853726	1853827	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493964"; exon_number "21"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-010"; transcript_source "havana"; protein_id "ENSP00000417061"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1877787	1891545	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493316"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-011"; transcript_source "havana"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1891403	1891545	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493316"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-011"; transcript_source "havana"; exon_id "ENSE00001893387"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1891403	1891545	.	-	2	gene_id "ENSG00000142609"; transcript_id "ENST00000493316"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-011"; transcript_source "havana"; protein_id "ENSP00000420396"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1890559	1890648	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493316"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-011"; transcript_source "havana"; exon_id "ENSE00003687276"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1890559	1890648	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493316"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-011"; transcript_source "havana"; protein_id "ENSP00000420396"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1887130	1887289	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493316"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-011"; transcript_source "havana"; exon_id "ENSE00003486075"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1887130	1887289	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493316"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-011"; transcript_source "havana"; protein_id "ENSP00000420396"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1878429	1878493	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493316"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-011"; transcript_source "havana"; exon_id "ENSE00001838606"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1878429	1878493	.	-	2	gene_id "ENSG00000142609"; transcript_id "ENST00000493316"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-011"; transcript_source "havana"; protein_id "ENSP00000420396"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1877787	1877878	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000493316"; exon_number "5"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-011"; transcript_source "havana"; exon_id "ENSE00001939628"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1877787	1877878	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000493316"; exon_number "5"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-011"; transcript_source "havana"; protein_id "ENSP00000420396"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1884752	1935276	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana";
+1	retained_intron	exon	1935140	1935276	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00001478032";
+1	retained_intron	exon	1922329	1922414	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003673558";
+1	retained_intron	exon	1920328	1920412	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003613246";
+1	retained_intron	exon	1919951	1920094	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003619251";
+1	retained_intron	exon	1918376	1918474	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "5"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003512970";
+1	retained_intron	exon	1916825	1916929	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "6"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003660640";
+1	retained_intron	exon	1905464	1905637	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "7"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003496451";
+1	retained_intron	exon	1904376	1904486	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "8"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003462638";
+1	retained_intron	exon	1903419	1903521	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "9"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003639989";
+1	retained_intron	exon	1902098	1902255	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "10"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003616837";
+1	retained_intron	exon	1900074	1900272	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "11"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003537751";
+1	retained_intron	exon	1897810	1897965	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "12"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003632764";
+1	retained_intron	exon	1896327	1896500	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "13"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003634208";
+1	retained_intron	exon	1895188	1895306	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "14"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003547683";
+1	retained_intron	exon	1891403	1891469	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "15"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003685168";
+1	retained_intron	exon	1890559	1890648	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "16"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003664478";
+1	retained_intron	exon	1888059	1888223	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "17"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00003462156";
+1	retained_intron	exon	1884752	1887289	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000270720"; exon_number "18"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-007"; transcript_source "ensembl_havana"; exon_id "ENSE00001314361";
+1	retained_intron	transcript	1886587	1935153	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; tag "mRNA_end_NF";
+1	retained_intron	exon	1935140	1935153	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001882178"; tag "mRNA_end_NF";
+1	retained_intron	exon	1922329	1922414	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003673558"; tag "mRNA_end_NF";
+1	retained_intron	exon	1920328	1920412	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003613246"; tag "mRNA_end_NF";
+1	retained_intron	exon	1919951	1920094	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003619251"; tag "mRNA_end_NF";
+1	retained_intron	exon	1918376	1918474	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "5"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003512970"; tag "mRNA_end_NF";
+1	retained_intron	exon	1916825	1916929	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "6"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003660640"; tag "mRNA_end_NF";
+1	retained_intron	exon	1905464	1905637	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "7"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003496451"; tag "mRNA_end_NF";
+1	retained_intron	exon	1904376	1904486	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "8"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003462638"; tag "mRNA_end_NF";
+1	retained_intron	exon	1903419	1903521	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "9"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003639989"; tag "mRNA_end_NF";
+1	retained_intron	exon	1902098	1902255	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "10"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003616837"; tag "mRNA_end_NF";
+1	retained_intron	exon	1900074	1900272	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "11"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003537751"; tag "mRNA_end_NF";
+1	retained_intron	exon	1897810	1897965	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "12"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003632764"; tag "mRNA_end_NF";
+1	retained_intron	exon	1896327	1896500	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "13"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003634208"; tag "mRNA_end_NF";
+1	retained_intron	exon	1895188	1895306	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "14"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003547683"; tag "mRNA_end_NF";
+1	retained_intron	exon	1891403	1891469	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "15"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003685168"; tag "mRNA_end_NF";
+1	retained_intron	exon	1890559	1890648	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "16"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003664478"; tag "mRNA_end_NF";
+1	retained_intron	exon	1888059	1888223	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "17"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003462156"; tag "mRNA_end_NF";
+1	retained_intron	exon	1887130	1887289	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "18"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00003561944"; tag "mRNA_end_NF";
+1	retained_intron	exon	1886587	1886962	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000468610"; exon_number "19"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-004"; transcript_source "ensembl_havana"; exon_id "ENSE00001926436"; tag "mRNA_end_NF";
+1	protein_coding	transcript	1887150	1891547	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000461752"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-012"; transcript_source "havana"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1891403	1891547	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000461752"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-012"; transcript_source "havana"; exon_id "ENSE00001812743"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1891403	1891547	.	-	1	gene_id "ENSG00000142609"; transcript_id "ENST00000461752"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-012"; transcript_source "havana"; protein_id "ENSP00000417421"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1890559	1890648	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000461752"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-012"; transcript_source "havana"; exon_id "ENSE00003687276"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1890559	1890648	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000461752"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-012"; transcript_source "havana"; protein_id "ENSP00000417421"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1888059	1888223	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000461752"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-012"; transcript_source "havana"; exon_id "ENSE00003691473"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1888059	1888223	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000461752"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-012"; transcript_source "havana"; protein_id "ENSP00000417421"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1887150	1887289	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000461752"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-012"; transcript_source "havana"; exon_id "ENSE00001946261"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1887150	1887289	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000461752"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-012"; transcript_source "havana"; protein_id "ENSP00000417421"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1891403	1897965	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000604159"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-014"; transcript_source "havana"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1897810	1897965	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000604159"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-014"; transcript_source "havana"; exon_id "ENSE00003552917"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1897810	1897965	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000604159"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-014"; transcript_source "havana"; protein_id "ENSP00000473959"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1896327	1896500	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000604159"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-014"; transcript_source "havana"; exon_id "ENSE00003686348"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1896327	1896500	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000604159"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-014"; transcript_source "havana"; protein_id "ENSP00000473959"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1895188	1895306	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000604159"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-014"; transcript_source "havana"; exon_id "ENSE00003476387"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1895188	1895306	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000604159"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-014"; transcript_source "havana"; protein_id "ENSP00000473959"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1891403	1891469	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000604159"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-014"; transcript_source "havana"; exon_id "ENSE00003473372"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1891403	1891469	.	-	1	gene_id "ENSG00000142609"; transcript_id "ENST00000604159"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-014"; transcript_source "havana"; protein_id "ENSP00000473959"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	1915110	1935276	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378592"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-009"; transcript_source "havana";
+1	retained_intron	exon	1935140	1935276	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378592"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-009"; transcript_source "havana"; exon_id "ENSE00001478032";
+1	retained_intron	exon	1922329	1922414	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378592"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-009"; transcript_source "havana"; exon_id "ENSE00003673558";
+1	retained_intron	exon	1920328	1920412	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378592"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-009"; transcript_source "havana"; exon_id "ENSE00003613246";
+1	retained_intron	exon	1919951	1920094	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378592"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-009"; transcript_source "havana"; exon_id "ENSE00003619251";
+1	retained_intron	exon	1918376	1918474	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378592"; exon_number "5"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-009"; transcript_source "havana"; exon_id "ENSE00003512970";
+1	retained_intron	exon	1916778	1916929	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378592"; exon_number "6"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-009"; transcript_source "havana"; exon_id "ENSE00001478028";
+1	retained_intron	exon	1915110	1916551	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378592"; exon_number "7"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-009"; transcript_source "havana"; exon_id "ENSE00001478027";
+1	protein_coding	transcript	1919401	1922368	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378590"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1922329	1922368	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378590"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-008"; transcript_source "havana"; exon_id "ENSE00001764313"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1922329	1922368	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000378590"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-008"; transcript_source "havana"; protein_id "ENSP00000367853"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1920328	1920412	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378590"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-008"; transcript_source "havana"; exon_id "ENSE00003585076"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1920328	1920412	.	-	2	gene_id "ENSG00000142609"; transcript_id "ENST00000378590"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-008"; transcript_source "havana"; protein_id "ENSP00000367853"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1919951	1920094	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378590"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-008"; transcript_source "havana"; exon_id "ENSE00003514677"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1919951	1920094	.	-	1	gene_id "ENSG00000142609"; transcript_id "ENST00000378590"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-008"; transcript_source "havana"; protein_id "ENSP00000367853"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	1919401	1919572	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378590"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-008"; transcript_source "havana"; exon_id "ENSE00001727325"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1919563	1919572	.	-	1	gene_id "ENSG00000142609"; transcript_id "ENST00000378590"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-008"; transcript_source "havana"; protein_id "ENSP00000367853"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1919401	1919562	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000378590"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1919563	1935153	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl";
+1	protein_coding	exon	1935140	1935153	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; exon_number "1"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl"; exon_id "ENSE00001882178";
+1	protein_coding	exon	1922329	1922414	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl"; exon_id "ENSE00003605108";
+1	protein_coding	CDS	1922329	1922395	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl"; protein_id "ENSP00000408078";
+1	protein_coding	start_codon	1922393	1922395	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; exon_number "2"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl";
+1	protein_coding	exon	1920328	1920412	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl"; exon_id "ENSE00003585076";
+1	protein_coding	CDS	1920328	1920412	.	-	2	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; exon_number "3"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl"; protein_id "ENSP00000408078";
+1	protein_coding	exon	1919951	1920094	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl"; exon_id "ENSE00003514677";
+1	protein_coding	CDS	1919951	1920094	.	-	1	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; exon_number "4"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl"; protein_id "ENSP00000408078";
+1	protein_coding	exon	1919563	1919572	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; exon_number "5"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl"; exon_id "ENSE00002215036";
+1	protein_coding	CDS	1919566	1919572	.	-	1	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; exon_number "5"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl"; protein_id "ENSP00000408078";
+1	protein_coding	stop_codon	1919563	1919565	.	-	0	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; exon_number "5"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1935140	1935153	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl";
+1	protein_coding	UTR	1922396	1922414	.	-	.	gene_id "ENSG00000142609"; transcript_id "ENST00000434971"; gene_name "C1orf222"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf222-201"; transcript_source "ensembl";
+1	antisense	gene	1944652	1946969	.	-	.	gene_id "ENSG00000233542"; gene_name "RP11-547D24.1"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	1944652	1946969	.	-	.	gene_id "ENSG00000233542"; transcript_id "ENST00000443930"; gene_name "RP11-547D24.1"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-547D24.1-001"; transcript_source "havana";
+1	antisense	exon	1946804	1946969	.	-	.	gene_id "ENSG00000233542"; transcript_id "ENST00000443930"; exon_number "1"; gene_name "RP11-547D24.1"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-547D24.1-001"; transcript_source "havana"; exon_id "ENSE00001748446";
+1	antisense	exon	1944652	1946439	.	-	.	gene_id "ENSG00000233542"; transcript_id "ENST00000443930"; exon_number "2"; gene_name "RP11-547D24.1"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-547D24.1-001"; transcript_source "havana"; exon_id "ENSE00001648776";
+1	protein_coding	gene	1950780	1962192	.	+	.	gene_id "ENSG00000187730"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1950780	1962192	.	+	.	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; tag "mRNA_start_NF";
+1	protein_coding	exon	1950780	1950930	.	+	.	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "1"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; exon_id "ENSE00001478018"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1950863	1950930	.	+	0	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "1"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; protein_id "ENSP00000367848"; tag "mRNA_start_NF";
+1	protein_coding	start_codon	1950863	1950865	.	+	0	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "1"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; tag "mRNA_start_NF";
+1	protein_coding	exon	1956381	1956493	.	+	.	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "2"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; exon_id "ENSE00001378645"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1956381	1956493	.	+	1	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "2"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; protein_id "ENSP00000367848"; tag "mRNA_start_NF";
+1	protein_coding	exon	1956773	1956840	.	+	.	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "3"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; exon_id "ENSE00001382633"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1956773	1956840	.	+	2	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "3"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; protein_id "ENSP00000367848"; tag "mRNA_start_NF";
+1	protein_coding	exon	1956957	1957177	.	+	.	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "4"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; exon_id "ENSE00001381901"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1956957	1957177	.	+	0	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "4"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; protein_id "ENSP00000367848"; tag "mRNA_start_NF";
+1	protein_coding	exon	1959016	1959098	.	+	.	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "5"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; exon_id "ENSE00001367283"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1959016	1959098	.	+	1	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "5"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; protein_id "ENSP00000367848"; tag "mRNA_start_NF";
+1	protein_coding	exon	1959594	1959731	.	+	.	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "6"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; exon_id "ENSE00001390226"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1959594	1959731	.	+	2	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "6"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; protein_id "ENSP00000367848"; tag "mRNA_start_NF";
+1	protein_coding	exon	1960550	1960705	.	+	.	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "7"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; exon_id "ENSE00001365521"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1960550	1960705	.	+	2	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "7"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; protein_id "ENSP00000367848"; tag "mRNA_start_NF";
+1	protein_coding	exon	1960990	1961201	.	+	.	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "8"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; exon_id "ENSE00001376428"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1960990	1961201	.	+	2	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "8"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; protein_id "ENSP00000367848"; tag "mRNA_start_NF";
+1	protein_coding	exon	1961422	1962192	.	+	.	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "9"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; exon_id "ENSE00001478012"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1961422	1961718	.	+	0	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "9"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; protein_id "ENSP00000367848"; tag "mRNA_start_NF";
+1	protein_coding	stop_codon	1961719	1961721	.	+	0	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; exon_number "9"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1950780	1950862	.	+	.	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1961722	1962192	.	+	.	gene_id "ENSG00000187730"; transcript_id "ENST00000378585"; gene_name "GABRD"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "GABRD-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS36"; tag "mRNA_start_NF";
+1	antisense	gene	1980642	1981509	.	-	.	gene_id "ENSG00000226969"; gene_name "RP11-547D24.3"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	1980642	1981090	.	-	.	gene_id "ENSG00000226969"; transcript_id "ENST00000445600"; gene_name "RP11-547D24.3"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-547D24.3-001"; transcript_source "havana";
+1	antisense	exon	1981037	1981090	.	-	.	gene_id "ENSG00000226969"; transcript_id "ENST00000445600"; exon_number "1"; gene_name "RP11-547D24.3"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-547D24.3-001"; transcript_source "havana"; exon_id "ENSE00001764831";
+1	antisense	exon	1980642	1980907	.	-	.	gene_id "ENSG00000226969"; transcript_id "ENST00000445600"; exon_number "2"; gene_name "RP11-547D24.3"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-547D24.3-001"; transcript_source "havana"; exon_id "ENSE00001647097";
+1	antisense	transcript	1980743	1981509	.	-	.	gene_id "ENSG00000226969"; transcript_id "ENST00000449154"; gene_name "RP11-547D24.3"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-547D24.3-002"; transcript_source "havana";
+1	antisense	exon	1981307	1981509	.	-	.	gene_id "ENSG00000226969"; transcript_id "ENST00000449154"; exon_number "1"; gene_name "RP11-547D24.3"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-547D24.3-002"; transcript_source "havana"; exon_id "ENSE00001605604";
+1	antisense	exon	1981037	1981105	.	-	.	gene_id "ENSG00000226969"; transcript_id "ENST00000449154"; exon_number "2"; gene_name "RP11-547D24.3"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-547D24.3-002"; transcript_source "havana"; exon_id "ENSE00001801995";
+1	antisense	exon	1980743	1980907	.	-	.	gene_id "ENSG00000226969"; transcript_id "ENST00000449154"; exon_number "3"; gene_name "RP11-547D24.3"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP11-547D24.3-002"; transcript_source "havana"; exon_id "ENSE00001653931";
+1	protein_coding	gene	1981909	2116834	.	+	.	gene_id "ENSG00000067606"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	1981909	2116834	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; tag "mRNA_start_NF";
+1	protein_coding	exon	1981909	1982140	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00002316473"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1982070	1982140	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	start_codon	1982070	1982072	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; tag "mRNA_start_NF";
+1	protein_coding	exon	1986880	1987001	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003563170"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1986880	1987001	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	1987923	1988012	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003563212"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1987923	1988012	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	1990980	1991030	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003477673"; tag "mRNA_start_NF";
+1	protein_coding	CDS	1990980	1991030	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003653496"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2066701	2066786	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003656964"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2075649	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003596450"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2077466	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003561509"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2082229	2082417	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "9"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003634108"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2082229	2082417	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "9"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2087434	2087531	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "10"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003525770"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2087434	2087531	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "10"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2100957	2101043	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "11"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003513439"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2100957	2101043	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "11"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2103494	2103629	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "12"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003659235"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2103494	2103629	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "12"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2103740	2103827	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "13"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003481487"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2103740	2103827	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "13"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2105336	2105455	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "14"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003640274"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2105336	2105455	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "14"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2106193	2106272	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "15"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003561737"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2106193	2106272	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "15"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2106663	2106752	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "16"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003609132"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2106663	2106752	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "16"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2116022	2116137	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "17"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003612876"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2116022	2116137	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "17"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	exon	2116361	2116834	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "18"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; exon_id "ENSE00003626317"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2116361	2116445	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "18"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; protein_id "ENSP00000367830"; tag "mRNA_start_NF";
+1	protein_coding	stop_codon	2116446	2116448	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; exon_number "18"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; tag "mRNA_start_NF";
+1	protein_coding	UTR	1981909	1982069	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; tag "mRNA_start_NF";
+1	protein_coding	UTR	2116449	2116834	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000378567"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS37"; tag "mRNA_start_NF";
+1	protein_coding	transcript	1981924	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1981924	1982140	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; exon_id "ENSE00001907455"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1982070	1982140	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; protein_id "ENSP00000424945"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1986880	1987001	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; exon_id "ENSE00003563170"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1986880	1987001	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; protein_id "ENSP00000424945"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1990980	1991030	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; exon_id "ENSE00003477673"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1990980	1991030	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; protein_id "ENSP00000424945"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; exon_id "ENSE00003653496"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2066701	2066786	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; protein_id "ENSP00000424945"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; exon_id "ENSE00003656964"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2075649	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; protein_id "ENSP00000424945"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; exon_id "ENSE00003586061"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2077466	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; protein_id "ENSP00000424945"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1981924	1982069	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000468310"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	retained_intron	transcript	1981942	1987199	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000484419"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-013"; transcript_source "havana";
+1	retained_intron	exon	1981942	1982140	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000484419"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-013"; transcript_source "havana"; exon_id "ENSE00001817027";
+1	retained_intron	exon	1986880	1987199	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000484419"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-013"; transcript_source "havana"; exon_id "ENSE00001895830";
+1	protein_coding	transcript	1982247	1991030	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000503297"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-026"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1982247	1982451	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000503297"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-026"; transcript_source "havana"; exon_id "ENSE00002026907"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1986880	1987001	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000503297"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-026"; transcript_source "havana"; exon_id "ENSE00003619554"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1986947	1987001	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000503297"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-026"; transcript_source "havana"; protein_id "ENSP00000421587"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1987923	1988012	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000503297"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-026"; transcript_source "havana"; exon_id "ENSE00003563212"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1987923	1988012	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000503297"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-026"; transcript_source "havana"; protein_id "ENSP00000421587"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	1990980	1991030	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000503297"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-026"; transcript_source "havana"; exon_id "ENSE00003634433"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	1990980	1991030	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000503297"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-026"; transcript_source "havana"; protein_id "ENSP00000421587"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1982247	1982451	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000503297"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-026"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	1986880	1986946	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000503297"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-026"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	processed_transcript	transcript	1986880	2002975	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479566"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-008"; transcript_source "havana";
+1	processed_transcript	exon	1986880	1987001	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479566"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-008"; transcript_source "havana"; exon_id "ENSE00003551033";
+1	processed_transcript	exon	1987923	1988012	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479566"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-008"; transcript_source "havana"; exon_id "ENSE00003496167";
+1	processed_transcript	exon	1990980	1991030	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479566"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-008"; transcript_source "havana"; exon_id "ENSE00003497790";
+1	processed_transcript	exon	2002738	2002975	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479566"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-008"; transcript_source "havana"; exon_id "ENSE00001812985";
+1	processed_transcript	transcript	1987118	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000466651"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-014"; transcript_source "havana";
+1	processed_transcript	exon	1987118	1987315	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000466651"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-014"; transcript_source "havana"; exon_id "ENSE00001908227";
+1	processed_transcript	exon	1987923	1988012	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000466651"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-014"; transcript_source "havana"; exon_id "ENSE00003496167";
+1	processed_transcript	exon	1990980	1991030	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000466651"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-014"; transcript_source "havana"; exon_id "ENSE00003497790";
+1	processed_transcript	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000466651"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-014"; transcript_source "havana"; exon_id "ENSE00003514986";
+1	protein_coding	transcript	2004901	2116829	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	exon	2004901	2005368	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00001898881";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003514986";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003484975";
+1	protein_coding	CDS	2075778	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383712";
+1	protein_coding	start_codon	2075778	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003596450";
+1	protein_coding	CDS	2077466	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383712";
+1	protein_coding	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003561509";
+1	protein_coding	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383712";
+1	protein_coding	exon	2082229	2082417	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003634108";
+1	protein_coding	CDS	2082229	2082417	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383712";
+1	protein_coding	exon	2087434	2087531	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003525770";
+1	protein_coding	CDS	2087434	2087531	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383712";
+1	protein_coding	exon	2100957	2101043	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003513439";
+1	protein_coding	CDS	2100957	2101043	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383712";
+1	protein_coding	exon	2103494	2103629	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "9"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003659235";
+1	protein_coding	CDS	2103494	2103629	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "9"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383712";
+1	protein_coding	exon	2103740	2103827	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "10"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003481487";
+1	protein_coding	CDS	2103740	2103827	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "10"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383712";
+1	protein_coding	exon	2105336	2105455	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "11"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003640274";
+1	protein_coding	CDS	2105336	2105455	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "11"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383712";
+1	protein_coding	exon	2106193	2106272	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "12"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003561737";
+1	protein_coding	CDS	2106193	2106272	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "12"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383712";
+1	protein_coding	exon	2106663	2106752	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "13"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003609132";
+1	protein_coding	CDS	2106663	2106752	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "13"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383712";
+1	protein_coding	exon	2116022	2116137	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "14"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003612876";
+1	protein_coding	CDS	2116022	2116137	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "14"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383712";
+1	protein_coding	exon	2116361	2116829	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "15"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00001931233";
+1	protein_coding	CDS	2116361	2116445	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "15"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383712";
+1	protein_coding	stop_codon	2116446	2116448	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; exon_number "15"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	UTR	2004901	2005368	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	UTR	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	UTR	2075649	2075777	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	UTR	2116449	2116829	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400921"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-009"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	transcript	2005158	2077525	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000495347"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-020"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2005158	2005368	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000495347"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-020"; transcript_source "havana"; exon_id "ENSE00001824369"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2029786	2029994	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000495347"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-020"; transcript_source "havana"; exon_id "ENSE00001931675"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000495347"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-020"; transcript_source "havana"; exon_id "ENSE00003514986"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000495347"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-020"; transcript_source "havana"; exon_id "ENSE00003484975"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2075778	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000495347"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-020"; transcript_source "havana"; protein_id "ENSP00000427085"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2077466	2077525	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000495347"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-020"; transcript_source "havana"; exon_id "ENSE00001886745"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2077466	2077525	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000495347"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-020"; transcript_source "havana"; protein_id "ENSP00000427085"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2005158	2005368	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000495347"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-020"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2029786	2029994	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000495347"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-020"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000495347"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-020"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2075649	2075777	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000495347"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-020"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2005425	2116629	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; tag "mRNA_end_NF";
+1	protein_coding	exon	2005425	2005714	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00001771735"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2005693	2005714	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	start_codon	2005693	2005695	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00003653496"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2066701	2066786	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00003656964"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2075649	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00003596450"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2077466	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00003561509"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	exon	2082229	2082417	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00003634108"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2082229	2082417	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	exon	2087434	2087531	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00003525770"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2087434	2087531	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	exon	2100957	2101043	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00003513439"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2100957	2101043	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	exon	2103494	2103629	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "9"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00003659235"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2103494	2103629	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "9"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	exon	2103740	2103827	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "10"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00003481487"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2103740	2103827	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "10"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	exon	2105336	2105455	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "11"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00003640274"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2105336	2105455	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "11"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	exon	2106193	2106272	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "12"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00003561737"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2106193	2106272	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "12"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	exon	2106663	2106752	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "13"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00003609132"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2106663	2106752	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "13"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	exon	2116022	2116137	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "14"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00003612876"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2116022	2116137	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "14"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	exon	2116361	2116629	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "15"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; exon_id "ENSE00002077828"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2116361	2116445	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "15"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; protein_id "ENSP00000426412"; tag "mRNA_end_NF";
+1	protein_coding	stop_codon	2116446	2116448	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; exon_number "15"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2005425	2005692	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2116449	2116629	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461106"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-015"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS55563"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2006127	2082275	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2006127	2006206	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; exon_id "ENSE00001951707"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; exon_id "ENSE00003514986"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; exon_id "ENSE00003484975"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2075778	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; protein_id "ENSP00000462105"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; exon_id "ENSE00003596450"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2077466	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; protein_id "ENSP00000462105"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; exon_id "ENSE00003561509"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; protein_id "ENSP00000462105"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2082229	2082275	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; exon_id "ENSE00001883475"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2082229	2082275	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; protein_id "ENSP00000462105"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2006127	2006206	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2075649	2075777	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000461465"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-016"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2006294	2082384	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2006294	2006572	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; exon_id "ENSE00001951730"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; exon_id "ENSE00003514986"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; exon_id "ENSE00003484975"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2075778	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; protein_id "ENSP00000424228"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; exon_id "ENSE00003596450"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2077466	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; protein_id "ENSP00000424228"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; exon_id "ENSE00003561509"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; protein_id "ENSP00000424228"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2082229	2082384	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; exon_id "ENSE00001911969"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2082229	2082384	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; protein_id "ENSP00000424228"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2006294	2006572	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2075649	2075777	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470596"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-017"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2006683	2082302	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2006683	2006818	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; exon_id "ENSE00001883554"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; exon_id "ENSE00003514986"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; exon_id "ENSE00003484975"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2075778	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; protein_id "ENSP00000421869"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; exon_id "ENSE00003596450"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2077466	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; protein_id "ENSP00000421869"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; exon_id "ENSE00003561509"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; protein_id "ENSP00000421869"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2082229	2082302	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; exon_id "ENSE00001822451"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2082229	2082302	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; protein_id "ENSP00000421869"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2006683	2006818	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2075649	2075777	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000496325"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-018"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	transcript	2013687	2082375	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	exon	2013687	2013899	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; exon_id "ENSE00001932323"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	CDS	2013760	2013899	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; protein_id "ENSP00000425643"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	start_codon	2013760	2013762	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; exon_id "ENSE00003528666"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	CDS	2066701	2066779	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; protein_id "ENSP00000425643"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	stop_codon	2066780	2066782	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; exon_id "ENSE00003657109"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; exon_id "ENSE00003607939"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; exon_id "ENSE00003493256"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	exon	2082229	2082375	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; exon_id "ENSE00001840990"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	UTR	2013687	2013759	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	UTR	2066783	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	UTR	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	UTR	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	UTR	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; tag "mRNA_end_NF";
+1	nonsense_mediated_decay	UTR	2082229	2082375	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000481140"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-019"; transcript_source "havana"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2036155	2082309	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2036155	2036334	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; exon_id "ENSE00001545351"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; exon_id "ENSE00003514986"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; exon_id "ENSE00003484975"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2075778	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; protein_id "ENSP00000425317"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; exon_id "ENSE00003596450"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2077466	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; protein_id "ENSP00000425317"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; exon_id "ENSE00003561509"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; protein_id "ENSP00000425317"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2082229	2082309	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; exon_id "ENSE00001826677"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2082229	2082309	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; protein_id "ENSP00000425317"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2036155	2036334	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2075649	2075777	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000482686"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2036155	2116832	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	exon	2036155	2036334	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00001545351";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003514986";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003484975";
+1	protein_coding	CDS	2075778	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383711";
+1	protein_coding	start_codon	2075778	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003596450";
+1	protein_coding	CDS	2077466	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383711";
+1	protein_coding	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003561509";
+1	protein_coding	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383711";
+1	protein_coding	exon	2082229	2082417	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003634108";
+1	protein_coding	CDS	2082229	2082417	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383711";
+1	protein_coding	exon	2087434	2087531	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003525770";
+1	protein_coding	CDS	2087434	2087531	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383711";
+1	protein_coding	exon	2100957	2101043	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003513439";
+1	protein_coding	CDS	2100957	2101043	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383711";
+1	protein_coding	exon	2103494	2103629	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "9"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003659235";
+1	protein_coding	CDS	2103494	2103629	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "9"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383711";
+1	protein_coding	exon	2103740	2103827	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "10"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003481487";
+1	protein_coding	CDS	2103740	2103827	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "10"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383711";
+1	protein_coding	exon	2105336	2105455	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "11"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003640274";
+1	protein_coding	CDS	2105336	2105455	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "11"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383711";
+1	protein_coding	exon	2106193	2106272	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "12"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003561737";
+1	protein_coding	CDS	2106193	2106272	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "12"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383711";
+1	protein_coding	exon	2106663	2106752	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "13"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003609132";
+1	protein_coding	CDS	2106663	2106752	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "13"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383711";
+1	protein_coding	exon	2116022	2116137	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "14"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003612876";
+1	protein_coding	CDS	2116022	2116137	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "14"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383711";
+1	protein_coding	exon	2116361	2116832	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "15"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; exon_id "ENSE00003673674";
+1	protein_coding	CDS	2116361	2116445	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "15"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229"; protein_id "ENSP00000383711";
+1	protein_coding	stop_codon	2116446	2116448	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; exon_number "15"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	UTR	2036155	2036334	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	UTR	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	UTR	2075649	2075777	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	UTR	2116449	2116832	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000400920"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS41229";
+1	protein_coding	transcript	2036178	2087526	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2036178	2036334	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; exon_id "ENSE00001864418"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; exon_id "ENSE00003514986"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; exon_id "ENSE00003657109"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2076777	2076950	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; exon_id "ENSE00001902761"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; exon_id "ENSE00003674278"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2077475	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; protein_id "ENSP00000424763"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; exon_id "ENSE00003561509"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; protein_id "ENSP00000424763"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2082229	2082417	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; exon_id "ENSE00003634108"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2082229	2082417	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; protein_id "ENSP00000424763"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2087434	2087526	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; exon_id "ENSE00001826468"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2087434	2087526	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; protein_id "ENSP00000424763"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2036178	2036334	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2076777	2076950	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2077466	2077474	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000486681"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-022"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2043093	2082417	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2043093	2043256	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; exon_id "ENSE00001901678"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; exon_id "ENSE00003514986"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; exon_id "ENSE00003484975"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2075778	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; protein_id "ENSP00000421219"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; exon_id "ENSE00003596450"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2077466	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; protein_id "ENSP00000421219"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; exon_id "ENSE00003561509"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; protein_id "ENSP00000421219"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2082229	2082417	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; exon_id "ENSE00003532686"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2082229	2082417	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; protein_id "ENSP00000421219"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2043093	2043256	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2075649	2075777	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470986"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-010"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2047644	2082336	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2047644	2047749	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; exon_id "ENSE00001942045"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; exon_id "ENSE00003514986"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; exon_id "ENSE00003484975"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2075778	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; protein_id "ENSP00000421350"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; exon_id "ENSE00003596450"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2077466	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; protein_id "ENSP00000421350"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; exon_id "ENSE00003561509"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; protein_id "ENSP00000421350"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2082229	2082336	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; exon_id "ENSE00001906788"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2082229	2082336	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; protein_id "ENSP00000421350"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2047644	2047749	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2075649	2075777	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000470511"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-021"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2065077	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000471018"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-004"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2065077	2065439	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000471018"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-004"; transcript_source "havana"; exon_id "ENSE00001943590"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000471018"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-004"; transcript_source "havana"; exon_id "ENSE00003514986"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000471018"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-004"; transcript_source "havana"; exon_id "ENSE00003484975"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2075778	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000471018"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-004"; transcript_source "havana"; protein_id "ENSP00000422349"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000471018"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-004"; transcript_source "havana"; exon_id "ENSE00003596450"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2077466	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000471018"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-004"; transcript_source "havana"; protein_id "ENSP00000422349"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000471018"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-004"; transcript_source "havana"; exon_id "ENSE00003611500"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000471018"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-004"; transcript_source "havana"; protein_id "ENSP00000422349"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2065077	2065439	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000471018"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-004"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000471018"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-004"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2075649	2075777	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000471018"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-004"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2066252	2077537	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000466352"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066252	2066525	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000466352"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-006"; transcript_source "havana"; exon_id "ENSE00001917787"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000466352"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-006"; transcript_source "havana"; exon_id "ENSE00003514986"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000466352"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-006"; transcript_source "havana"; exon_id "ENSE00003484975"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2075778	2075780	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000466352"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-006"; transcript_source "havana"; protein_id "ENSP00000427134"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2077466	2077537	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000466352"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-006"; transcript_source "havana"; exon_id "ENSE00001826571"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2077466	2077537	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000466352"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-006"; transcript_source "havana"; protein_id "ENSP00000427134"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2066252	2066525	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000466352"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000466352"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2075649	2075777	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000466352"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2066429	2082418	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066429	2066525	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; exon_id "ENSE00001810929"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; exon_id "ENSE00003514986"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; exon_id "ENSE00003657109"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2076828	2076950	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; exon_id "ENSE00001920791"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; exon_id "ENSE00003674278"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2077475	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; protein_id "ENSP00000422764"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; exon_id "ENSE00003561509"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; protein_id "ENSP00000422764"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2082229	2082418	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; exon_id "ENSE00001885075"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2082229	2082418	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; protein_id "ENSP00000422764"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2066429	2066525	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2076828	2076950	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2077466	2077474	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000497183"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	processed_transcript	transcript	2066701	2082304	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000419838"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-027"; transcript_source "havana";
+1	processed_transcript	exon	2066701	2066786	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000419838"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-027"; transcript_source "havana"; exon_id "ENSE00003514986";
+1	processed_transcript	exon	2075649	2075780	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000419838"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-027"; transcript_source "havana"; exon_id "ENSE00003657109";
+1	processed_transcript	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000419838"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-027"; transcript_source "havana"; exon_id "ENSE00003493256";
+1	processed_transcript	exon	2082229	2082304	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000419838"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-027"; transcript_source "havana"; exon_id "ENSE00002056142";
+1	processed_transcript	transcript	2075890	2116834	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana";
+1	processed_transcript	exon	2075890	2076023	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana"; exon_id "ENSE00001823412";
+1	processed_transcript	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003607939";
+1	processed_transcript	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003493256";
+1	processed_transcript	exon	2082229	2082417	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003503070";
+1	processed_transcript	exon	2087434	2087531	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003578985";
+1	processed_transcript	exon	2100957	2101043	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003664685";
+1	processed_transcript	exon	2103494	2103629	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003620590";
+1	processed_transcript	exon	2103740	2103827	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003683584";
+1	processed_transcript	exon	2105336	2105455	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; exon_number "9"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003652358";
+1	processed_transcript	exon	2106193	2106272	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; exon_number "10"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003493380";
+1	processed_transcript	exon	2106663	2106752	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; exon_number "11"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003620514";
+1	processed_transcript	exon	2116022	2116137	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; exon_number "12"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003691593";
+1	processed_transcript	exon	2116361	2116834	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000479263"; exon_number "13"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003529246";
+1	retained_intron	transcript	2076796	2088167	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000503672"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-024"; transcript_source "havana";
+1	retained_intron	exon	2076796	2076950	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000503672"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-024"; transcript_source "havana"; exon_id "ENSE00002066660";
+1	retained_intron	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000503672"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-024"; transcript_source "havana"; exon_id "ENSE00003607939";
+1	retained_intron	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000503672"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-024"; transcript_source "havana"; exon_id "ENSE00003493256";
+1	retained_intron	exon	2082229	2082417	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000503672"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-024"; transcript_source "havana"; exon_id "ENSE00003503070";
+1	retained_intron	exon	2087434	2088167	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000503672"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-024"; transcript_source "havana"; exon_id "ENSE00002020426";
+1	nonsense_mediated_decay	transcript	2076826	2116555	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana";
+1	nonsense_mediated_decay	exon	2076826	2076950	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00002056370";
+1	nonsense_mediated_decay	exon	2077466	2077547	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00003674278";
+1	nonsense_mediated_decay	CDS	2077475	2077547	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; protein_id "ENSP00000424398";
+1	nonsense_mediated_decay	start_codon	2077475	2077477	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana";
+1	nonsense_mediated_decay	exon	2080311	2080363	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00003561509";
+1	nonsense_mediated_decay	CDS	2080311	2080363	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; protein_id "ENSP00000424398";
+1	nonsense_mediated_decay	exon	2082229	2082417	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00003634108";
+1	nonsense_mediated_decay	CDS	2082229	2082417	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; protein_id "ENSP00000424398";
+1	nonsense_mediated_decay	exon	2087434	2087531	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00003525770";
+1	nonsense_mediated_decay	CDS	2087434	2087531	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; protein_id "ENSP00000424398";
+1	nonsense_mediated_decay	exon	2100957	2101043	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00003513439";
+1	nonsense_mediated_decay	CDS	2100957	2101043	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; protein_id "ENSP00000424398";
+1	nonsense_mediated_decay	exon	2103494	2103629	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00003659235";
+1	nonsense_mediated_decay	CDS	2103494	2103629	.	+	1	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; protein_id "ENSP00000424398";
+1	nonsense_mediated_decay	exon	2103740	2103827	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00003481487";
+1	nonsense_mediated_decay	CDS	2103740	2103827	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; protein_id "ENSP00000424398";
+1	nonsense_mediated_decay	exon	2105336	2105455	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "9"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00003640274";
+1	nonsense_mediated_decay	CDS	2105336	2105455	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "9"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; protein_id "ENSP00000424398";
+1	nonsense_mediated_decay	exon	2106193	2106272	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "10"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00003561737";
+1	nonsense_mediated_decay	CDS	2106193	2106272	.	+	2	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "10"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; protein_id "ENSP00000424398";
+1	nonsense_mediated_decay	exon	2106663	2106752	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "11"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00003609132";
+1	nonsense_mediated_decay	CDS	2106663	2106752	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "11"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; protein_id "ENSP00000424398";
+1	nonsense_mediated_decay	exon	2113271	2113353	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "12"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00001951880";
+1	nonsense_mediated_decay	CDS	2113271	2113297	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "12"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; protein_id "ENSP00000424398";
+1	nonsense_mediated_decay	stop_codon	2113298	2113300	.	+	0	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "12"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana";
+1	nonsense_mediated_decay	exon	2116022	2116137	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "13"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00003691593";
+1	nonsense_mediated_decay	exon	2116361	2116555	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; exon_number "14"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana"; exon_id "ENSE00001858644";
+1	nonsense_mediated_decay	UTR	2076826	2076950	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana";
+1	nonsense_mediated_decay	UTR	2077466	2077474	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana";
+1	nonsense_mediated_decay	UTR	2113301	2113353	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana";
+1	nonsense_mediated_decay	UTR	2116022	2116137	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana";
+1	nonsense_mediated_decay	UTR	2116361	2116555	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000478770"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-012"; transcript_source "ensembl_havana";
+1	retained_intron	transcript	2100287	2116832	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000505322"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-025"; transcript_source "havana";
+1	retained_intron	exon	2100287	2101043	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000505322"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-025"; transcript_source "havana"; exon_id "ENSE00002046271";
+1	retained_intron	exon	2103494	2103629	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000505322"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-025"; transcript_source "havana"; exon_id "ENSE00003620590";
+1	retained_intron	exon	2103740	2103827	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000505322"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-025"; transcript_source "havana"; exon_id "ENSE00003683584";
+1	retained_intron	exon	2105336	2105455	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000505322"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-025"; transcript_source "havana"; exon_id "ENSE00003652358";
+1	retained_intron	exon	2106193	2106272	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000505322"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-025"; transcript_source "havana"; exon_id "ENSE00003493380";
+1	retained_intron	exon	2106663	2106752	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000505322"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-025"; transcript_source "havana"; exon_id "ENSE00003620514";
+1	retained_intron	exon	2116022	2116137	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000505322"; exon_number "7"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-025"; transcript_source "havana"; exon_id "ENSE00003691593";
+1	retained_intron	exon	2116361	2116832	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000505322"; exon_number "8"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-025"; transcript_source "havana"; exon_id "ENSE00003625242";
+1	processed_transcript	transcript	2100414	2105390	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000472017"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-023"; transcript_source "havana";
+1	processed_transcript	exon	2100414	2100556	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000472017"; exon_number "1"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-023"; transcript_source "havana"; exon_id "ENSE00001893947";
+1	processed_transcript	exon	2100957	2101043	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000472017"; exon_number "2"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-023"; transcript_source "havana"; exon_id "ENSE00003664685";
+1	processed_transcript	exon	2102992	2103084	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000472017"; exon_number "3"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-023"; transcript_source "havana"; exon_id "ENSE00001859910";
+1	processed_transcript	exon	2103494	2103629	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000472017"; exon_number "4"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-023"; transcript_source "havana"; exon_id "ENSE00003620590";
+1	processed_transcript	exon	2103740	2103827	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000472017"; exon_number "5"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-023"; transcript_source "havana"; exon_id "ENSE00003683584";
+1	processed_transcript	exon	2105336	2105390	.	+	.	gene_id "ENSG00000067606"; transcript_id "ENST00000472017"; exon_number "6"; gene_name "PRKCZ"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRKCZ-023"; transcript_source "havana"; exon_id "ENSE00001921009";
+1	antisense	gene	2072523	2076718	.	-	.	gene_id "ENSG00000271806"; gene_name "RP5-892K4.1"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	2072523	2076718	.	-	.	gene_id "ENSG00000271806"; transcript_id "ENST00000606533"; gene_name "RP5-892K4.1"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP5-892K4.1-001"; transcript_source "havana";
+1	antisense	exon	2072523	2076718	.	-	.	gene_id "ENSG00000271806"; transcript_id "ENST00000606533"; exon_number "1"; gene_name "RP5-892K4.1"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP5-892K4.1-001"; transcript_source "havana"; exon_id "ENSE00003698699";
+1	antisense	gene	2113233	2115828	.	-	.	gene_id "ENSG00000182873"; gene_name "RP11-181G12.2"; gene_source "ensembl_havana"; gene_biotype "antisense";
+1	antisense	transcript	2113233	2115314	.	-	.	gene_id "ENSG00000182873"; transcript_id "ENST00000333854"; gene_name "RP11-181G12.2"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "RP11-181G12.2-001"; transcript_source "havana";
+1	antisense	exon	2115010	2115314	.	-	.	gene_id "ENSG00000182873"; transcript_id "ENST00000333854"; exon_number "1"; gene_name "RP11-181G12.2"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "RP11-181G12.2-001"; transcript_source "havana"; exon_id "ENSE00001546404";
+1	antisense	exon	2113233	2114180	.	-	.	gene_id "ENSG00000182873"; transcript_id "ENST00000333854"; exon_number "2"; gene_name "RP11-181G12.2"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "RP11-181G12.2-001"; transcript_source "havana"; exon_id "ENSE00001315143";
+1	antisense	transcript	2113233	2115492	.	-	.	gene_id "ENSG00000182873"; transcript_id "ENST00000536678"; gene_name "RP11-181G12.2"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "RP11-181G12.2-201"; transcript_source "ensembl";
+1	antisense	exon	2113233	2115492	.	-	.	gene_id "ENSG00000182873"; transcript_id "ENST00000536678"; exon_number "1"; gene_name "RP11-181G12.2"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "RP11-181G12.2-201"; transcript_source "ensembl"; exon_id "ENSE00002264856";
+1	antisense	transcript	2114174	2115828	.	-	.	gene_id "ENSG00000182873"; transcript_id "ENST00000444529"; gene_name "RP11-181G12.2"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "RP11-181G12.2-002"; transcript_source "havana";
+1	antisense	exon	2115430	2115828	.	-	.	gene_id "ENSG00000182873"; transcript_id "ENST00000444529"; exon_number "1"; gene_name "RP11-181G12.2"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "RP11-181G12.2-002"; transcript_source "havana"; exon_id "ENSE00001657653";
+1	antisense	exon	2115010	2115143	.	-	.	gene_id "ENSG00000182873"; transcript_id "ENST00000444529"; exon_number "2"; gene_name "RP11-181G12.2"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "RP11-181G12.2-002"; transcript_source "havana"; exon_id "ENSE00001733911";
+1	antisense	exon	2114174	2114262	.	-	.	gene_id "ENSG00000182873"; transcript_id "ENST00000444529"; exon_number "3"; gene_name "RP11-181G12.2"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "RP11-181G12.2-002"; transcript_source "havana"; exon_id "ENSE00001636282";
+1	protein_coding	gene	2115903	2144159	.	-	.	gene_id "ENSG00000162585"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	processed_transcript	transcript	2115903	2139172	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000469733"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-003"; transcript_source "ensembl_havana";
+1	processed_transcript	exon	2138995	2139172	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000469733"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001934415";
+1	processed_transcript	exon	2137954	2138106	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000469733"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001908868";
+1	processed_transcript	exon	2137744	2137863	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000469733"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001845014";
+1	processed_transcript	exon	2134875	2135069	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000469733"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001916683";
+1	processed_transcript	exon	2132489	2132664	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000469733"; exon_number "5"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001859055";
+1	processed_transcript	exon	2129446	2129581	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000469733"; exon_number "6"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003615416";
+1	processed_transcript	exon	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000469733"; exon_number "7"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-003"; transcript_source "ensembl_havana"; exon_id "ENSE00003481862";
+1	processed_transcript	exon	2115903	2116952	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000469733"; exon_number "8"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-003"; transcript_source "ensembl_havana"; exon_id "ENSE00001817609";
+1	nonsense_mediated_decay	transcript	2115917	2126180	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2126127	2126180	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; exon_id "ENSE00003618179"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2126127	2126180	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; protein_id "ENSP00000405430"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2125437	2125572	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; exon_id "ENSE00003467961"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2125437	2125572	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; protein_id "ENSP00000405430"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; exon_id "ENSE00003510741"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2125078	2125349	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; protein_id "ENSP00000405430"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2124284	2124414	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; exon_id "ENSE00003630334"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2124297	2124414	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; protein_id "ENSP00000405430"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2121152	2121220	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; exon_number "5"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; exon_id "ENSE00003636009"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2118277	2118645	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; exon_number "6"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; exon_id "ENSE00003526713"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2117443	2117688	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; exon_number "7"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; exon_id "ENSE00003459358"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2115917	2116952	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; exon_number "8"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; exon_id "ENSE00003589214"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2124284	2124296	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2121152	2121220	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2118277	2118645	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2117443	2117688	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2115917	2116952	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000428120"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	transcript	2115917	2126214	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2126127	2126214	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; exon_id "ENSE00002226200"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2126127	2126188	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; protein_id "ENSP00000410450"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	start_codon	2126186	2126188	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2125437	2125572	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; exon_id "ENSE00003467961"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2125437	2125572	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; protein_id "ENSP00000410450"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; exon_id "ENSE00003510741"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2125078	2125349	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; protein_id "ENSP00000410450"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2121152	2121220	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; exon_id "ENSE00003529933"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2121152	2121220	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; protein_id "ENSP00000410450"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2118277	2118645	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "5"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; exon_id "ENSE00003626371"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2118600	2118645	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "5"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; protein_id "ENSP00000410450"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	stop_codon	2118597	2118599	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "5"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2117443	2117688	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "6"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; exon_id "ENSE00003459358"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2115917	2116952	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; exon_number "7"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; exon_id "ENSE00003589214"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2126189	2126214	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2118277	2118596	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2117443	2117688	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2115917	2116952	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000414253"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-001"; transcript_source "havana"; tag "mRNA_start_NF";
+1	protein_coding	transcript	2115917	2126180	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl";
+1	protein_coding	exon	2126127	2126180	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl"; exon_id "ENSE00003618291";
+1	protein_coding	exon	2125437	2125572	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl"; exon_id "ENSE00003634783";
+1	protein_coding	exon	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl"; exon_id "ENSE00003481862";
+1	protein_coding	exon	2124284	2124414	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl"; exon_id "ENSE00003622956";
+1	protein_coding	exon	2121152	2121220	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; exon_number "5"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl"; exon_id "ENSE00003636009";
+1	protein_coding	exon	2118277	2118645	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; exon_number "6"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl"; exon_id "ENSE00003526713";
+1	protein_coding	exon	2117443	2117688	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; exon_number "7"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl"; exon_id "ENSE00003557724";
+1	protein_coding	CDS	2117443	2117650	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; exon_number "7"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl"; protein_id "ENSP00000383710";
+1	protein_coding	start_codon	2117648	2117650	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; exon_number "7"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl";
+1	protein_coding	exon	2115917	2116952	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; exon_number "8"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl"; exon_id "ENSE00003475992";
+1	protein_coding	CDS	2116720	2116952	.	-	2	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; exon_number "8"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl"; protein_id "ENSP00000383710";
+1	protein_coding	stop_codon	2116717	2116719	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; exon_number "8"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl";
+1	protein_coding	UTR	2126127	2126180	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl";
+1	protein_coding	UTR	2125437	2125572	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl";
+1	protein_coding	UTR	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl";
+1	protein_coding	UTR	2124284	2124414	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl";
+1	protein_coding	UTR	2121152	2121220	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl";
+1	protein_coding	UTR	2118277	2118645	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl";
+1	protein_coding	UTR	2117651	2117688	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl";
+1	protein_coding	UTR	2115917	2116716	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400919"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-202"; transcript_source "ensembl";
+1	protein_coding	transcript	2116614	2126190	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400918"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-009"; transcript_source "havana"; tag "mRNA_start_NF";
+1	protein_coding	exon	2126127	2126190	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400918"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-009"; transcript_source "havana"; exon_id "ENSE00001816144"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2126127	2126188	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000400918"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-009"; transcript_source "havana"; protein_id "ENSP00000383709"; tag "mRNA_start_NF";
+1	protein_coding	start_codon	2126186	2126188	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000400918"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-009"; transcript_source "havana"; tag "mRNA_start_NF";
+1	protein_coding	exon	2125437	2125572	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400918"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-009"; transcript_source "havana"; exon_id "ENSE00003467961"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2125437	2125572	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000400918"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-009"; transcript_source "havana"; protein_id "ENSP00000383709"; tag "mRNA_start_NF";
+1	protein_coding	exon	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400918"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-009"; transcript_source "havana"; exon_id "ENSE00003510741"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2125078	2125349	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000400918"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-009"; transcript_source "havana"; protein_id "ENSP00000383709"; tag "mRNA_start_NF";
+1	protein_coding	exon	2116614	2116952	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400918"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-009"; transcript_source "havana"; exon_id "ENSE00001635485"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2116913	2116952	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000400918"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-009"; transcript_source "havana"; protein_id "ENSP00000383709"; tag "mRNA_start_NF";
+1	protein_coding	stop_codon	2116910	2116912	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000400918"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-009"; transcript_source "havana"; tag "mRNA_start_NF";
+1	protein_coding	UTR	2126189	2126190	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400918"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-009"; transcript_source "havana"; tag "mRNA_start_NF";
+1	protein_coding	UTR	2116614	2116909	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000400918"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-009"; transcript_source "havana"; tag "mRNA_start_NF";
+1	retained_intron	transcript	2120983	2125547	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000497675"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-005"; transcript_source "havana";
+1	retained_intron	exon	2125437	2125547	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000497675"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-005"; transcript_source "havana"; exon_id "ENSE00001841545";
+1	retained_intron	exon	2120983	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000497675"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-005"; transcript_source "havana"; exon_id "ENSE00001862783";
+1	protein_coding	transcript	2120987	2126189	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378543"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57965"; tag "mRNA_start_NF";
+1	protein_coding	exon	2126127	2126189	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378543"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57965"; exon_id "ENSE00001477870"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2126127	2126188	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000378543"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57965"; protein_id "ENSP00000367804"; tag "mRNA_start_NF";
+1	protein_coding	start_codon	2126186	2126188	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000378543"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57965"; tag "mRNA_start_NF";
+1	protein_coding	exon	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378543"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57965"; exon_id "ENSE00003548540"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2125078	2125349	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000378543"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57965"; protein_id "ENSP00000367804"; tag "mRNA_start_NF";
+1	protein_coding	exon	2120987	2121220	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378543"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57965"; exon_id "ENSE00003681657"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2121219	2121220	.	-	2	gene_id "ENSG00000162585"; transcript_id "ENST00000378543"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57965"; protein_id "ENSP00000367804"; tag "mRNA_start_NF";
+1	protein_coding	stop_codon	2121216	2121218	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000378543"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57965"; tag "mRNA_start_NF";
+1	protein_coding	UTR	2126189	2126189	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378543"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57965"; tag "mRNA_start_NF";
+1	protein_coding	UTR	2120987	2121215	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378543"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-006"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS57965"; tag "mRNA_start_NF";
+1	protein_coding	transcript	2120987	2126213	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378546"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-008"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS38";
+1	protein_coding	exon	2126127	2126213	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378546"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-008"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS38"; exon_id "ENSE00001822711";
+1	protein_coding	CDS	2126127	2126188	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000378546"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-008"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS38"; protein_id "ENSP00000367808";
+1	protein_coding	start_codon	2126186	2126188	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000378546"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-008"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS38";
+1	protein_coding	exon	2125437	2125572	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378546"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-008"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS38"; exon_id "ENSE00003467961";
+1	protein_coding	CDS	2125437	2125572	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000378546"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-008"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS38"; protein_id "ENSP00000367808";
+1	protein_coding	exon	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378546"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-008"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS38"; exon_id "ENSE00003510741";
+1	protein_coding	CDS	2125078	2125349	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000378546"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-008"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS38"; protein_id "ENSP00000367808";
+1	protein_coding	exon	2120987	2121220	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378546"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-008"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS38"; exon_id "ENSE00003483048";
+1	protein_coding	CDS	2121151	2121220	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000378546"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-008"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS38"; protein_id "ENSP00000367808";
+1	protein_coding	stop_codon	2121148	2121150	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000378546"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-008"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS38";
+1	protein_coding	UTR	2126189	2126213	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378546"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-008"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS38";
+1	protein_coding	UTR	2120987	2121147	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378546"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-008"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS38";
+1	processed_transcript	transcript	2120987	2131346	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000401813"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-012"; transcript_source "havana";
+1	processed_transcript	exon	2129446	2131346	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000401813"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-012"; transcript_source "havana"; exon_id "ENSE00002040955";
+1	processed_transcript	exon	2125437	2125572	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000401813"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-012"; transcript_source "havana"; exon_id "ENSE00003634783";
+1	processed_transcript	exon	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000401813"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-012"; transcript_source "havana"; exon_id "ENSE00003481862";
+1	processed_transcript	exon	2120987	2121220	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000401813"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-012"; transcript_source "havana"; exon_id "ENSE00003569320";
+1	processed_transcript	transcript	2120987	2144159	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000487186"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-004"; transcript_source "havana";
+1	processed_transcript	exon	2143988	2144159	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000487186"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-004"; transcript_source "havana"; exon_id "ENSE00001927358";
+1	processed_transcript	exon	2143811	2143897	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000487186"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-004"; transcript_source "havana"; exon_id "ENSE00001821386";
+1	processed_transcript	exon	2135003	2135069	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000487186"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-004"; transcript_source "havana"; exon_id "ENSE00001937728";
+1	processed_transcript	exon	2130193	2132664	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000487186"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-004"; transcript_source "havana"; exon_id "ENSE00001853635";
+1	processed_transcript	exon	2129446	2129581	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000487186"; exon_number "5"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-004"; transcript_source "havana"; exon_id "ENSE00003615416";
+1	processed_transcript	exon	2125437	2125572	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000487186"; exon_number "6"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-004"; transcript_source "havana"; exon_id "ENSE00003634783";
+1	processed_transcript	exon	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000487186"; exon_number "7"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-004"; transcript_source "havana"; exon_id "ENSE00003481862";
+1	processed_transcript	exon	2120987	2121220	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000487186"; exon_number "8"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-004"; transcript_source "havana"; exon_id "ENSE00003569320";
+1	protein_coding	transcript	2120990	2130427	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl";
+1	protein_coding	exon	2130193	2130427	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl"; exon_id "ENSE00001477871";
+1	protein_coding	CDS	2130193	2130427	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl"; protein_id "ENSP00000367807";
+1	protein_coding	start_codon	2130425	2130427	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl";
+1	protein_coding	exon	2129446	2129581	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl"; exon_id "ENSE00003692688";
+1	protein_coding	CDS	2129446	2129581	.	-	2	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl"; protein_id "ENSP00000367807";
+1	protein_coding	exon	2125437	2125572	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl"; exon_id "ENSE00003467961";
+1	protein_coding	CDS	2125437	2125572	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl"; protein_id "ENSP00000367807";
+1	protein_coding	exon	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl"; exon_id "ENSE00003510741";
+1	protein_coding	CDS	2125078	2125349	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl"; protein_id "ENSP00000367807";
+1	protein_coding	exon	2120990	2121220	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; exon_number "5"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl"; exon_id "ENSE00001561032";
+1	protein_coding	CDS	2121151	2121220	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; exon_number "5"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl"; protein_id "ENSP00000367807";
+1	protein_coding	stop_codon	2121148	2121150	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; exon_number "5"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2120990	2121147	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000378545"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-201"; transcript_source "ensembl";
+1	processed_transcript	transcript	2121008	2125652	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000476803"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-007"; transcript_source "havana";
+1	processed_transcript	exon	2125437	2125652	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000476803"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-007"; transcript_source "havana"; exon_id "ENSE00001816369";
+1	processed_transcript	exon	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000476803"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-007"; transcript_source "havana"; exon_id "ENSE00003481862";
+1	processed_transcript	exon	2121008	2121220	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000476803"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-007"; transcript_source "havana"; exon_id "ENSE00001951400";
+1	nonsense_mediated_decay	transcript	2121019	2126178	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000440825"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-011"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2126127	2126178	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000440825"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-011"; transcript_source "havana"; exon_id "ENSE00001720995"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2126127	2126178	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000440825"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-011"; transcript_source "havana"; protein_id "ENSP00000410740"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000440825"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-011"; transcript_source "havana"; exon_id "ENSE00003510741"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2125078	2125349	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000440825"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-011"; transcript_source "havana"; protein_id "ENSP00000410740"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2124086	2124414	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000440825"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-011"; transcript_source "havana"; exon_id "ENSE00001720216"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2124297	2124414	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000440825"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-011"; transcript_source "havana"; protein_id "ENSP00000410740"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2121019	2121220	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000440825"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-011"; transcript_source "havana"; exon_id "ENSE00002033745"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2124086	2124296	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000440825"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-011"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2121019	2121220	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000440825"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-011"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	2123340	2126187	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000420515"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-010"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2126127	2126187	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000420515"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-010"; transcript_source "havana"; exon_id "ENSE00001545345"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2126127	2126187	.	-	2	gene_id "ENSG00000162585"; transcript_id "ENST00000420515"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-010"; transcript_source "havana"; protein_id "ENSP00000409721"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2125437	2125572	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000420515"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-010"; transcript_source "havana"; exon_id "ENSE00003467961"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2125437	2125572	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000420515"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-010"; transcript_source "havana"; protein_id "ENSP00000409721"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2125078	2125349	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000420515"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-010"; transcript_source "havana"; exon_id "ENSE00003510741"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2125078	2125349	.	-	0	gene_id "ENSG00000162585"; transcript_id "ENST00000420515"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-010"; transcript_source "havana"; protein_id "ENSP00000409721"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2123340	2124414	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000420515"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-010"; transcript_source "havana"; exon_id "ENSE00001602311"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2124297	2124414	.	-	1	gene_id "ENSG00000162585"; transcript_id "ENST00000420515"; exon_number "4"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-010"; transcript_source "havana"; protein_id "ENSP00000409721"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	2123340	2124296	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000420515"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-010"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	2129502	2135321	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000514625"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-013"; transcript_source "havana";
+1	retained_intron	exon	2134875	2135321	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000514625"; exon_number "1"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-013"; transcript_source "havana"; exon_id "ENSE00002034769";
+1	retained_intron	exon	2132489	2132664	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000514625"; exon_number "2"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-013"; transcript_source "havana"; exon_id "ENSE00001859055";
+1	retained_intron	exon	2129502	2129581	.	-	.	gene_id "ENSG00000162585"; transcript_id "ENST00000514625"; exon_number "3"; gene_name "C1orf86"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "C1orf86-013"; transcript_source "havana"; exon_id "ENSE00002044438";
+1	protein_coding	gene	2121237	2123179	.	+	.	gene_id "ENSG00000269554"; gene_name "AL590822.2"; gene_source "ensembl"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2121237	2123179	.	+	.	gene_id "ENSG00000269554"; transcript_id "ENST00000597060"; gene_name "AL590822.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.2-201"; transcript_source "ensembl";
+1	protein_coding	exon	2121237	2123179	.	+	.	gene_id "ENSG00000269554"; transcript_id "ENST00000597060"; exon_number "1"; gene_name "AL590822.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.2-201"; transcript_source "ensembl"; exon_id "ENSE00003067414";
+1	protein_coding	CDS	2121490	2122029	.	+	0	gene_id "ENSG00000269554"; transcript_id "ENST00000597060"; exon_number "1"; gene_name "AL590822.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.2-201"; transcript_source "ensembl"; protein_id "ENSP00000473177";
+1	protein_coding	start_codon	2121490	2121492	.	+	0	gene_id "ENSG00000269554"; transcript_id "ENST00000597060"; exon_number "1"; gene_name "AL590822.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.2-201"; transcript_source "ensembl";
+1	protein_coding	stop_codon	2122030	2122032	.	+	0	gene_id "ENSG00000269554"; transcript_id "ENST00000597060"; exon_number "1"; gene_name "AL590822.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.2-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2121237	2121489	.	+	.	gene_id "ENSG00000269554"; transcript_id "ENST00000597060"; gene_name "AL590822.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.2-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2122033	2123179	.	+	.	gene_id "ENSG00000269554"; transcript_id "ENST00000597060"; gene_name "AL590822.2"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.2-201"; transcript_source "ensembl";
+1	protein_coding	gene	2143360	2145620	.	-	.	gene_id "ENSG00000203301"; gene_name "AL590822.1"; gene_source "ensembl"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2143360	2145620	.	-	.	gene_id "ENSG00000203301"; transcript_id "ENST00000545087"; gene_name "AL590822.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.1-201"; transcript_source "ensembl";
+1	protein_coding	exon	2143360	2145620	.	-	.	gene_id "ENSG00000203301"; transcript_id "ENST00000545087"; exon_number "1"; gene_name "AL590822.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.1-201"; transcript_source "ensembl"; exon_id "ENSE00002310201";
+1	protein_coding	CDS	2144369	2145019	.	-	0	gene_id "ENSG00000203301"; transcript_id "ENST00000545087"; exon_number "1"; gene_name "AL590822.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.1-201"; transcript_source "ensembl"; protein_id "ENSP00000443317";
+1	protein_coding	start_codon	2145017	2145019	.	-	0	gene_id "ENSG00000203301"; transcript_id "ENST00000545087"; exon_number "1"; gene_name "AL590822.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.1-201"; transcript_source "ensembl";
+1	protein_coding	stop_codon	2144366	2144368	.	-	0	gene_id "ENSG00000203301"; transcript_id "ENST00000545087"; exon_number "1"; gene_name "AL590822.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2145020	2145620	.	-	.	gene_id "ENSG00000203301"; transcript_id "ENST00000545087"; gene_name "AL590822.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2143360	2144365	.	-	.	gene_id "ENSG00000203301"; transcript_id "ENST00000545087"; gene_name "AL590822.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL590822.1-201"; transcript_source "ensembl";
+1	lincRNA	gene	2143610	2144013	.	-	.	gene_id "ENSG00000243558"; gene_name "RP11-181G12.5"; gene_source "havana"; gene_biotype "lincRNA";
+1	retained_intron	transcript	2143610	2144013	.	-	.	gene_id "ENSG00000243558"; transcript_id "ENST00000420964"; gene_name "RP11-181G12.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-181G12.5-001"; transcript_source "havana";
+1	retained_intron	exon	2143988	2144013	.	-	.	gene_id "ENSG00000243558"; transcript_id "ENST00000420964"; exon_number "1"; gene_name "RP11-181G12.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-181G12.5-001"; transcript_source "havana"; exon_id "ENSE00001724829";
+1	retained_intron	exon	2143610	2143897	.	-	.	gene_id "ENSG00000243558"; transcript_id "ENST00000420964"; exon_number "2"; gene_name "RP11-181G12.5"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-181G12.5-001"; transcript_source "havana"; exon_id "ENSE00001714381";
+1	lincRNA	gene	2143962	2152177	.	+	.	gene_id "ENSG00000234396"; gene_name "RP11-181G12.4"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	2143962	2152177	.	+	.	gene_id "ENSG00000234396"; transcript_id "ENST00000442483"; gene_name "RP11-181G12.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-181G12.4-001"; transcript_source "havana";
+1	lincRNA	exon	2143962	2144083	.	+	.	gene_id "ENSG00000234396"; transcript_id "ENST00000442483"; exon_number "1"; gene_name "RP11-181G12.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-181G12.4-001"; transcript_source "havana"; exon_id "ENSE00001603085";
+1	lincRNA	exon	2151974	2152177	.	+	.	gene_id "ENSG00000234396"; transcript_id "ENST00000442483"; exon_number "2"; gene_name "RP11-181G12.4"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-181G12.4-001"; transcript_source "havana"; exon_id "ENSE00001607640";
+1	protein_coding	gene	2160134	2241558	.	+	.	gene_id "ENSG00000157933"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2160134	2241558	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39";
+1	protein_coding	exon	2160134	2161174	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "1"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; exon_id "ENSE00001477855";
+1	protein_coding	CDS	2160206	2161174	.	+	0	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "1"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; protein_id "ENSP00000367797";
+1	protein_coding	start_codon	2160206	2160208	.	+	0	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "1"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39";
+1	protein_coding	exon	2234417	2234542	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "2"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; exon_id "ENSE00003563482";
+1	protein_coding	CDS	2234417	2234542	.	+	0	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "2"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; protein_id "ENSP00000367797";
+1	protein_coding	exon	2234724	2234839	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "3"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; exon_id "ENSE00001035943";
+1	protein_coding	CDS	2234724	2234839	.	+	0	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "3"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; protein_id "ENSP00000367797";
+1	protein_coding	exon	2235279	2235541	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "4"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; exon_id "ENSE00001035948";
+1	protein_coding	CDS	2235279	2235541	.	+	1	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "4"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; protein_id "ENSP00000367797";
+1	protein_coding	exon	2235732	2236024	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "5"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; exon_id "ENSE00001035949";
+1	protein_coding	CDS	2235732	2236024	.	+	2	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "5"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; protein_id "ENSP00000367797";
+1	protein_coding	exon	2237459	2237689	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "6"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; exon_id "ENSE00001035950";
+1	protein_coding	CDS	2237459	2237689	.	+	0	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "6"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; protein_id "ENSP00000367797";
+1	protein_coding	exon	2238016	2241558	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "7"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; exon_id "ENSE00001477851";
+1	protein_coding	CDS	2238016	2238201	.	+	0	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "7"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39"; protein_id "ENSP00000367797";
+1	protein_coding	stop_codon	2238202	2238204	.	+	0	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; exon_number "7"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39";
+1	protein_coding	UTR	2160134	2160205	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39";
+1	protein_coding	UTR	2238205	2241558	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000378536"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS39";
+1	processed_transcript	transcript	2163918	2234477	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000508416"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-004"; transcript_source "havana";
+1	processed_transcript	exon	2163918	2164108	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000508416"; exon_number "1"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-004"; transcript_source "havana"; exon_id "ENSE00002028329";
+1	processed_transcript	exon	2234417	2234477	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000508416"; exon_number "2"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-004"; transcript_source "havana"; exon_id "ENSE00002081705";
+1	processed_transcript	transcript	2179435	2234815	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000478223"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-002"; transcript_source "havana";
+1	processed_transcript	exon	2179435	2179510	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000478223"; exon_number "1"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-002"; transcript_source "havana"; exon_id "ENSE00001878518";
+1	processed_transcript	exon	2234417	2234542	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000478223"; exon_number "2"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-002"; transcript_source "havana"; exon_id "ENSE00003638139";
+1	processed_transcript	exon	2234724	2234815	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000478223"; exon_number "3"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-002"; transcript_source "havana"; exon_id "ENSE00002055158";
+1	retained_intron	transcript	2235085	2235807	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000507179"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-005"; transcript_source "havana";
+1	retained_intron	exon	2235085	2235547	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000507179"; exon_number "1"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-005"; transcript_source "havana"; exon_id "ENSE00002087864";
+1	retained_intron	exon	2235732	2235807	.	+	.	gene_id "ENSG00000157933"; transcript_id "ENST00000507179"; exon_number "2"; gene_name "SKI"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "SKI-005"; transcript_source "havana"; exon_id "ENSE00002065916";
+1	protein_coding	gene	2252692	2323146	.	-	.	gene_id "ENSG00000116151"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2252692	2323146	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40";
+1	protein_coding	exon	2322897	2323146	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00001849468";
+1	protein_coding	CDS	2322897	2322972	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	start_codon	2322970	2322972	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40";
+1	protein_coding	exon	2321364	2321435	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00003699163";
+1	protein_coding	CDS	2321364	2321435	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	exon	2319678	2319776	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "3"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00003510320";
+1	protein_coding	CDS	2319678	2319776	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "3"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	exon	2318858	2318968	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "4"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00003675973";
+1	protein_coding	CDS	2318858	2318968	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "4"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	exon	2317246	2317336	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "5"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00003499657";
+1	protein_coding	CDS	2317246	2317336	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "5"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	exon	2316417	2316504	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "6"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00003537185";
+1	protein_coding	CDS	2316417	2316504	.	-	1	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "6"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	exon	2305900	2305996	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "7"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00003474519";
+1	protein_coding	CDS	2305900	2305996	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "7"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	exon	2303920	2304030	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "8"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00003642799";
+1	protein_coding	CDS	2303920	2304030	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "8"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	exon	2290031	2290154	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "9"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00001784328";
+1	protein_coding	CDS	2290031	2290154	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "9"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	exon	2288871	2289037	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "10"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00001801066";
+1	protein_coding	CDS	2288871	2289037	.	-	1	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "10"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	exon	2268156	2268289	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "11"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00001708274";
+1	protein_coding	CDS	2268156	2268289	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "11"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	exon	2267908	2267987	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "12"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00001775365";
+1	protein_coding	CDS	2267908	2267987	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "12"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	exon	2255536	2255582	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "13"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00001696171";
+1	protein_coding	CDS	2255536	2255582	.	-	1	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "13"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	exon	2252692	2253018	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "14"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; exon_id "ENSE00001660875";
+1	protein_coding	CDS	2252825	2253018	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "14"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40"; protein_id "ENSP00000367792";
+1	protein_coding	stop_codon	2252822	2252824	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; exon_number "14"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40";
+1	protein_coding	UTR	2322973	2323146	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40";
+1	protein_coding	UTR	2252692	2252821	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378531"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS40";
+1	processed_transcript	transcript	2263565	2323126	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000606372"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-011"; transcript_source "havana";
+1	processed_transcript	exon	2322897	2323126	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000606372"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-011"; transcript_source "havana"; exon_id "ENSE00003695682";
+1	processed_transcript	exon	2319678	2319776	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000606372"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-011"; transcript_source "havana"; exon_id "ENSE00003696267";
+1	processed_transcript	exon	2318858	2318968	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000606372"; exon_number "3"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-011"; transcript_source "havana"; exon_id "ENSE00003625130";
+1	processed_transcript	exon	2317246	2317336	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000606372"; exon_number "4"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-011"; transcript_source "havana"; exon_id "ENSE00003638759";
+1	processed_transcript	exon	2316417	2316504	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000606372"; exon_number "5"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-011"; transcript_source "havana"; exon_id "ENSE00003701948";
+1	processed_transcript	exon	2305900	2305996	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000606372"; exon_number "6"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-011"; transcript_source "havana"; exon_id "ENSE00003601313";
+1	processed_transcript	exon	2303920	2304030	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000606372"; exon_number "7"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-011"; transcript_source "havana"; exon_id "ENSE00003538010";
+1	processed_transcript	exon	2290031	2290154	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000606372"; exon_number "8"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-011"; transcript_source "havana"; exon_id "ENSE00003699611";
+1	processed_transcript	exon	2288871	2289037	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000606372"; exon_number "9"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-011"; transcript_source "havana"; exon_id "ENSE00003695487";
+1	processed_transcript	exon	2268156	2268289	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000606372"; exon_number "10"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-011"; transcript_source "havana"; exon_id "ENSE00003694938";
+1	processed_transcript	exon	2267908	2267987	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000606372"; exon_number "11"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-011"; transcript_source "havana"; exon_id "ENSE00003698426";
+1	processed_transcript	exon	2263565	2264192	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000606372"; exon_number "12"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-011"; transcript_source "havana"; exon_id "ENSE00003702099";
+1	protein_coding	transcript	2286616	2323146	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana";
+1	protein_coding	exon	2322897	2323146	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; exon_id "ENSE00001849468";
+1	protein_coding	CDS	2322897	2322972	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367790";
+1	protein_coding	start_codon	2322970	2322972	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana";
+1	protein_coding	exon	2321364	2321435	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003699163";
+1	protein_coding	CDS	2321364	2321435	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367790";
+1	protein_coding	exon	2319678	2319776	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "3"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003510320";
+1	protein_coding	CDS	2319678	2319776	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "3"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367790";
+1	protein_coding	exon	2318858	2318968	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "4"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003675973";
+1	protein_coding	CDS	2318858	2318968	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "4"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367790";
+1	protein_coding	exon	2317246	2317336	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "5"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003499657";
+1	protein_coding	CDS	2317246	2317336	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "5"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367790";
+1	protein_coding	exon	2316417	2316504	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "6"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003537185";
+1	protein_coding	CDS	2316417	2316504	.	-	1	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "6"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367790";
+1	protein_coding	exon	2305900	2305996	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "7"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003474519";
+1	protein_coding	CDS	2305900	2305996	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "7"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367790";
+1	protein_coding	exon	2303920	2304030	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "8"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; exon_id "ENSE00003642799";
+1	protein_coding	CDS	2303920	2304030	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "8"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367790";
+1	protein_coding	exon	2290031	2290154	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "9"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; exon_id "ENSE00001784328";
+1	protein_coding	CDS	2290031	2290154	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "9"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367790";
+1	protein_coding	exon	2288871	2289037	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "10"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; exon_id "ENSE00001801066";
+1	protein_coding	CDS	2288871	2289037	.	-	1	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "10"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367790";
+1	protein_coding	exon	2286616	2286903	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "11"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; exon_id "ENSE00001776903";
+1	protein_coding	CDS	2286890	2286903	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "11"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana"; protein_id "ENSP00000367790";
+1	protein_coding	stop_codon	2286887	2286889	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; exon_number "11"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	2322973	2323146	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	2286616	2286886	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378529"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-002"; transcript_source "ensembl_havana";
+1	processed_transcript	transcript	2290077	2307317	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000607342"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-008"; transcript_source "havana";
+1	processed_transcript	exon	2307038	2307317	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000607342"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-008"; transcript_source "havana"; exon_id "ENSE00003701943";
+1	processed_transcript	exon	2305900	2305996	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000607342"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-008"; transcript_source "havana"; exon_id "ENSE00003601313";
+1	processed_transcript	exon	2303920	2304030	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000607342"; exon_number "3"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-008"; transcript_source "havana"; exon_id "ENSE00003538010";
+1	processed_transcript	exon	2290077	2290154	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000607342"; exon_number "4"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-008"; transcript_source "havana"; exon_id "ENSE00003696013";
+1	retained_intron	transcript	2302604	2318968	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000469374"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-007"; transcript_source "havana";
+1	retained_intron	exon	2318858	2318968	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000469374"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-007"; transcript_source "havana"; exon_id "ENSE00003625130";
+1	retained_intron	exon	2317246	2317336	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000469374"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-007"; transcript_source "havana"; exon_id "ENSE00003638759";
+1	retained_intron	exon	2316417	2316597	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000469374"; exon_number "3"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-007"; transcript_source "havana"; exon_id "ENSE00002556576";
+1	retained_intron	exon	2305900	2305996	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000469374"; exon_number "4"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-007"; transcript_source "havana"; exon_id "ENSE00003601313";
+1	retained_intron	exon	2302604	2304030	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000469374"; exon_number "5"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-007"; transcript_source "havana"; exon_id "ENSE00001913664";
+1	retained_intron	transcript	2303115	2316560	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000419785"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-005"; transcript_source "havana";
+1	retained_intron	exon	2316417	2316560	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000419785"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-005"; transcript_source "havana"; exon_id "ENSE00001669644";
+1	retained_intron	exon	2305900	2305996	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000419785"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-005"; transcript_source "havana"; exon_id "ENSE00003601313";
+1	retained_intron	exon	2303920	2304030	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000419785"; exon_number "3"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-005"; transcript_source "havana"; exon_id "ENSE00003538010";
+1	retained_intron	exon	2303115	2303344	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000419785"; exon_number "4"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-005"; transcript_source "havana"; exon_id "ENSE00001607898";
+1	nonsense_mediated_decay	transcript	2309494	2323110	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana";
+1	nonsense_mediated_decay	exon	2322897	2323110	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana"; exon_id "ENSE00002214664";
+1	nonsense_mediated_decay	CDS	2322897	2322972	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana"; protein_id "ENSP00000367786";
+1	nonsense_mediated_decay	start_codon	2322970	2322972	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana";
+1	nonsense_mediated_decay	exon	2319678	2319776	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana"; exon_id "ENSE00003510320";
+1	nonsense_mediated_decay	CDS	2319678	2319776	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana"; protein_id "ENSP00000367786";
+1	nonsense_mediated_decay	exon	2318858	2318968	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "3"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana"; exon_id "ENSE00003675973";
+1	nonsense_mediated_decay	CDS	2318858	2318968	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "3"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana"; protein_id "ENSP00000367786";
+1	nonsense_mediated_decay	exon	2317246	2317336	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "4"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana"; exon_id "ENSE00003499657";
+1	nonsense_mediated_decay	CDS	2317246	2317336	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "4"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana"; protein_id "ENSP00000367786";
+1	nonsense_mediated_decay	exon	2316417	2316504	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "5"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana"; exon_id "ENSE00003537185";
+1	nonsense_mediated_decay	CDS	2316417	2316504	.	-	1	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "5"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana"; protein_id "ENSP00000367786";
+1	nonsense_mediated_decay	exon	2310548	2310666	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "6"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana"; exon_id "ENSE00001477816";
+1	nonsense_mediated_decay	CDS	2310664	2310666	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "6"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana"; protein_id "ENSP00000367786";
+1	nonsense_mediated_decay	stop_codon	2310661	2310663	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "6"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana";
+1	nonsense_mediated_decay	exon	2309494	2310419	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; exon_number "7"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana"; exon_id "ENSE00002241536";
+1	nonsense_mediated_decay	UTR	2322973	2323110	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana";
+1	nonsense_mediated_decay	UTR	2310548	2310660	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana";
+1	nonsense_mediated_decay	UTR	2309494	2310419	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000378525"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-010"; transcript_source "ensembl_havana";
+1	protein_coding	transcript	2310430	2319776	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000449373"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2319678	2319776	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000449373"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-004"; transcript_source "havana"; exon_id "ENSE00003592737"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2319678	2319776	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000449373"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-004"; transcript_source "havana"; protein_id "ENSP00000390261"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2318858	2318968	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000449373"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-004"; transcript_source "havana"; exon_id "ENSE00003656321"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2318858	2318968	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000449373"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-004"; transcript_source "havana"; protein_id "ENSP00000390261"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2317246	2317336	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000449373"; exon_number "3"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-004"; transcript_source "havana"; exon_id "ENSE00003615736"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2317246	2317336	.	-	0	gene_id "ENSG00000116151"; transcript_id "ENST00000449373"; exon_number "3"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-004"; transcript_source "havana"; protein_id "ENSP00000390261"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2316417	2316504	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000449373"; exon_number "4"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-004"; transcript_source "havana"; exon_id "ENSE00003580015"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2316417	2316504	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000449373"; exon_number "4"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-004"; transcript_source "havana"; protein_id "ENSP00000390261"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2310430	2310666	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000449373"; exon_number "5"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-004"; transcript_source "havana"; exon_id "ENSE00001625806"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2310498	2310666	.	-	1	gene_id "ENSG00000116151"; transcript_id "ENST00000449373"; exon_number "5"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-004"; transcript_source "havana"; protein_id "ENSP00000390261"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	2310430	2310497	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000449373"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	2316811	2319948	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000607031"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-009"; transcript_source "havana";
+1	retained_intron	exon	2316811	2319948	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000607031"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-009"; transcript_source "havana"; exon_id "ENSE00003695416";
+1	retained_intron	transcript	2318495	2319755	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000475812"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-003"; transcript_source "havana";
+1	retained_intron	exon	2319678	2319755	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000475812"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-003"; transcript_source "havana"; exon_id "ENSE00001828210";
+1	retained_intron	exon	2318495	2318968	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000475812"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-003"; transcript_source "havana"; exon_id "ENSE00001883150";
+1	protein_coding	transcript	2319443	2321435	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000494279"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-006"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2321364	2321435	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000494279"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-006"; transcript_source "havana"; exon_id "ENSE00003699163"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2321364	2321435	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000494279"; exon_number "1"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-006"; transcript_source "havana"; protein_id "ENSP00000476189"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2319443	2319776	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000494279"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-006"; transcript_source "havana"; exon_id "ENSE00001902085"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2319667	2319776	.	-	2	gene_id "ENSG00000116151"; transcript_id "ENST00000494279"; exon_number "2"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-006"; transcript_source "havana"; protein_id "ENSP00000476189"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	2319443	2319666	.	-	.	gene_id "ENSG00000116151"; transcript_id "ENST00000494279"; gene_name "MORN1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MORN1-006"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	sense_intronic	gene	2257640	2258132	.	-	.	gene_id "ENSG00000272161"; gene_name "RP4-713A8.1"; gene_source "havana"; gene_biotype "sense_intronic";
+1	sense_intronic	transcript	2257640	2258132	.	-	.	gene_id "ENSG00000272161"; transcript_id "ENST00000607720"; gene_name "RP4-713A8.1"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP4-713A8.1-001"; transcript_source "havana";
+1	sense_intronic	exon	2257640	2258132	.	-	.	gene_id "ENSG00000272161"; transcript_id "ENST00000607720"; exon_number "1"; gene_name "RP4-713A8.1"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP4-713A8.1-001"; transcript_source "havana"; exon_id "ENSE00003696992";
+1	protein_coding	gene	2258581	2259042	.	+	.	gene_id "ENSG00000269753"; gene_name "AL589739.1"; gene_source "ensembl"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2258581	2259042	.	+	.	gene_id "ENSG00000269753"; transcript_id "ENST00000600779"; gene_name "AL589739.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL589739.1-201"; transcript_source "ensembl";
+1	protein_coding	exon	2258581	2259042	.	+	.	gene_id "ENSG00000269753"; transcript_id "ENST00000600779"; exon_number "1"; gene_name "AL589739.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL589739.1-201"; transcript_source "ensembl"; exon_id "ENSE00003142059";
+1	protein_coding	CDS	2258581	2259042	.	+	0	gene_id "ENSG00000269753"; transcript_id "ENST00000600779"; exon_number "1"; gene_name "AL589739.1"; gene_source "ensembl"; gene_biotype "protein_coding"; transcript_name "AL589739.1-201"; transcript_source "ensembl"; protein_id "ENSP00000469612";
+1	processed_transcript	gene	2281853	2284259	.	-	.	gene_id "ENSG00000269896"; gene_name "RP4-740C4.6"; gene_source "havana"; gene_biotype "processed_transcript";
+1	processed_transcript	transcript	2281853	2284259	.	-	.	gene_id "ENSG00000269896"; transcript_id "ENST00000602865"; gene_name "RP4-740C4.6"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP4-740C4.6-001"; transcript_source "havana";
+1	processed_transcript	exon	2281853	2284259	.	-	.	gene_id "ENSG00000269896"; transcript_id "ENST00000602865"; exon_number "1"; gene_name "RP4-740C4.6"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP4-740C4.6-001"; transcript_source "havana"; exon_id "ENSE00003238973";
+1	pseudogene	gene	2283083	2283296	.	-	.	gene_id "ENSG00000238240"; gene_name "RP4-740C4.5"; gene_source "havana"; gene_biotype "pseudogene";
+1	transcribed_processed_pseudogene	transcript	2283083	2283296	.	-	.	gene_id "ENSG00000238240"; transcript_id "ENST00000417061"; gene_name "RP4-740C4.5"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP4-740C4.5-001"; transcript_source "havana";
+1	transcribed_processed_pseudogene	exon	2283083	2283296	.	-	.	gene_id "ENSG00000238240"; transcript_id "ENST00000417061"; exon_number "1"; gene_name "RP4-740C4.5"; gene_source "havana"; gene_biotype "pseudogene"; transcript_name "RP4-740C4.5-001"; transcript_source "havana"; exon_id "ENSE00001639230";
+1	sense_intronic	gene	2294500	2295067	.	-	.	gene_id "ENSG00000272420"; gene_name "RP4-740C4.7"; gene_source "havana"; gene_biotype "sense_intronic";
+1	sense_intronic	transcript	2294500	2295067	.	-	.	gene_id "ENSG00000272420"; transcript_id "ENST00000607858"; gene_name "RP4-740C4.7"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP4-740C4.7-001"; transcript_source "havana";
+1	sense_intronic	exon	2294500	2295067	.	-	.	gene_id "ENSG00000272420"; transcript_id "ENST00000607858"; exon_number "1"; gene_name "RP4-740C4.7"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP4-740C4.7-001"; transcript_source "havana"; exon_id "ENSE00003701058";
+1	sense_intronic	gene	2306292	2306792	.	-	.	gene_id "ENSG00000271921"; gene_name "RP4-740C4.9"; gene_source "havana"; gene_biotype "sense_intronic";
+1	sense_intronic	transcript	2306292	2306792	.	-	.	gene_id "ENSG00000271921"; transcript_id "ENST00000606642"; gene_name "RP4-740C4.9"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP4-740C4.9-001"; transcript_source "havana";
+1	sense_intronic	exon	2306292	2306792	.	-	.	gene_id "ENSG00000271921"; transcript_id "ENST00000606642"; exon_number "1"; gene_name "RP4-740C4.9"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP4-740C4.9-001"; transcript_source "havana"; exon_id "ENSE00003698240";
+1	sense_intronic	gene	2309056	2309799	.	-	.	gene_id "ENSG00000271847"; gene_name "RP4-740C4.8"; gene_source "havana"; gene_biotype "sense_intronic";
+1	sense_intronic	transcript	2309056	2309799	.	-	.	gene_id "ENSG00000271847"; transcript_id "ENST00000606280"; gene_name "RP4-740C4.8"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP4-740C4.8-001"; transcript_source "havana";
+1	sense_intronic	exon	2309056	2309799	.	-	.	gene_id "ENSG00000271847"; transcript_id "ENST00000606280"; exon_number "1"; gene_name "RP4-740C4.8"; gene_source "havana"; gene_biotype "sense_intronic"; transcript_name "RP4-740C4.8-001"; transcript_source "havana"; exon_id "ENSE00003701885";
+1	pseudogene	gene	2316811	2319922	.	+	.	gene_id "ENSG00000178642"; gene_name "AL513477.1"; gene_source "ensembl"; gene_biotype "pseudogene";
+1	pseudogene	transcript	2316811	2319922	.	+	.	gene_id "ENSG00000178642"; transcript_id "ENST00000317490"; gene_name "AL513477.1"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL513477.1-201"; transcript_source "ensembl";
+1	pseudogene	exon	2316811	2316993	.	+	.	gene_id "ENSG00000178642"; transcript_id "ENST00000317490"; exon_number "1"; gene_name "AL513477.1"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL513477.1-201"; transcript_source "ensembl"; exon_id "ENSE00001237474";
+1	pseudogene	exon	2316996	2319922	.	+	.	gene_id "ENSG00000178642"; transcript_id "ENST00000317490"; exon_number "2"; gene_name "AL513477.1"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL513477.1-201"; transcript_source "ensembl"; exon_id "ENSE00001427311";
+1	protein_coding	gene	2323267	2336883	.	+	.	gene_id "ENSG00000157916"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2323267	2333764	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana";
+1	protein_coding	exon	2323267	2323397	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; exon_number "1"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana"; exon_id "ENSE00001477811";
+1	protein_coding	exon	2327223	2327310	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana"; exon_id "ENSE00001035864";
+1	protein_coding	CDS	2327230	2327310	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana"; protein_id "ENSP00000367779";
+1	protein_coding	start_codon	2327230	2327232	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana";
+1	protein_coding	exon	2328555	2328659	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana"; exon_id "ENSE00001035875";
+1	protein_coding	CDS	2328555	2328659	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana"; protein_id "ENSP00000367779";
+1	protein_coding	exon	2332296	2332374	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana"; exon_id "ENSE00003585625";
+1	protein_coding	CDS	2332296	2332374	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana"; protein_id "ENSP00000367779";
+1	protein_coding	exon	2333646	2333764	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana"; exon_id "ENSE00001477807";
+1	protein_coding	CDS	2333646	2333731	.	+	2	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana"; protein_id "ENSP00000367779";
+1	protein_coding	stop_codon	2333732	2333734	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana";
+1	protein_coding	UTR	2323267	2323397	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana";
+1	protein_coding	UTR	2327223	2327229	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana";
+1	protein_coding	UTR	2333735	2333764	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378518"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-004"; transcript_source "havana";
+1	protein_coding	transcript	2323272	2336883	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232";
+1	protein_coding	exon	2323272	2323397	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "1"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232"; exon_id "ENSE00001412658";
+1	protein_coding	exon	2327223	2327310	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232"; exon_id "ENSE00001035864";
+1	protein_coding	CDS	2327230	2327310	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232"; protein_id "ENSP00000475168";
+1	protein_coding	start_codon	2327230	2327232	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232";
+1	protein_coding	exon	2328555	2328659	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232"; exon_id "ENSE00001035875";
+1	protein_coding	CDS	2328555	2328659	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232"; protein_id "ENSP00000475168";
+1	protein_coding	exon	2330854	2330953	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232"; exon_id "ENSE00001035866";
+1	protein_coding	CDS	2330854	2330953	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232"; protein_id "ENSP00000475168";
+1	protein_coding	exon	2332296	2332374	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232"; exon_id "ENSE00003591377";
+1	protein_coding	CDS	2332296	2332374	.	+	2	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232"; protein_id "ENSP00000475168";
+1	protein_coding	exon	2333646	2333781	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "6"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232"; exon_id "ENSE00003590224";
+1	protein_coding	CDS	2333646	2333781	.	+	1	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "6"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232"; protein_id "ENSP00000475168";
+1	protein_coding	exon	2334474	2336883	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "7"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232"; exon_id "ENSE00003467094";
+1	protein_coding	CDS	2334474	2334560	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "7"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232"; protein_id "ENSP00000475168";
+1	protein_coding	stop_codon	2334561	2334563	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; exon_number "7"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232";
+1	protein_coding	UTR	2323272	2323397	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232";
+1	protein_coding	UTR	2327223	2327229	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232";
+1	protein_coding	UTR	2334564	2336883	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000605895"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41232";
+1	protein_coding	transcript	2323279	2335188	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl";
+1	protein_coding	exon	2323279	2323397	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; exon_number "1"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl"; exon_id "ENSE00001557997";
+1	protein_coding	exon	2327223	2327310	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl"; exon_id "ENSE00001035864";
+1	protein_coding	CDS	2327230	2327310	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl"; protein_id "ENSP00000367774";
+1	protein_coding	start_codon	2327230	2327232	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl";
+1	protein_coding	exon	2328555	2328659	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl"; exon_id "ENSE00001035875";
+1	protein_coding	CDS	2328555	2328659	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl"; protein_id "ENSP00000367774";
+1	protein_coding	exon	2332296	2332374	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl"; exon_id "ENSE00003585625";
+1	protein_coding	CDS	2332296	2332374	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl"; protein_id "ENSP00000367774";
+1	protein_coding	exon	2333646	2333781	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl"; exon_id "ENSE00003572347";
+1	protein_coding	CDS	2333646	2333731	.	+	2	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl"; protein_id "ENSP00000367774";
+1	protein_coding	stop_codon	2333732	2333734	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl";
+1	protein_coding	exon	2334474	2335188	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; exon_number "6"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl"; exon_id "ENSE00001357426";
+1	protein_coding	UTR	2323279	2323397	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2327223	2327229	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2333735	2333781	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2334474	2335188	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378513"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-201"; transcript_source "ensembl";
+1	protein_coding	transcript	2323282	2334503	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2323282	2323397	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "1"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; exon_id "ENSE00003698080"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2327047	2327087	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; exon_id "ENSE00003700988"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2327223	2327310	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; exon_id "ENSE00001035864"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2327230	2327310	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; protein_id "ENSP00000302088"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2328555	2328659	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; exon_id "ENSE00001035875"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2328555	2328659	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; protein_id "ENSP00000302088"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2330854	2330953	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; exon_id "ENSE00001035866"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2330854	2330953	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; protein_id "ENSP00000302088"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2332296	2332374	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "6"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; exon_id "ENSE00003591377"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2332296	2332374	.	+	2	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "6"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; protein_id "ENSP00000302088"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2333646	2333781	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "7"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; exon_id "ENSE00003590224"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2333646	2333781	.	+	1	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "7"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; protein_id "ENSP00000302088"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2334474	2334503	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "8"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; exon_id "ENSE00003699662"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2334474	2334503	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; exon_number "8"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; protein_id "ENSP00000302088"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2323282	2323397	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2327047	2327087	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2327223	2327229	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000306256"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-008"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	retained_intron	transcript	2323296	2327806	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000493207"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-005"; transcript_source "havana";
+1	retained_intron	exon	2323296	2323397	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000493207"; exon_number "1"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-005"; transcript_source "havana"; exon_id "ENSE00001815653";
+1	retained_intron	exon	2327223	2327806	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000493207"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-005"; transcript_source "havana"; exon_id "ENSE00001864937";
+1	protein_coding	transcript	2323329	2335190	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana";
+1	protein_coding	exon	2323329	2323397	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "1"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana"; exon_id "ENSE00001330861";
+1	protein_coding	exon	2327223	2327310	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana"; exon_id "ENSE00001035864";
+1	protein_coding	CDS	2327230	2327310	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana"; protein_id "ENSP00000367773";
+1	protein_coding	start_codon	2327230	2327232	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana";
+1	protein_coding	exon	2328555	2328659	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana"; exon_id "ENSE00001035875";
+1	protein_coding	CDS	2328555	2328659	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana"; protein_id "ENSP00000367773";
+1	protein_coding	exon	2330854	2330953	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana"; exon_id "ENSE00001035866";
+1	protein_coding	CDS	2330854	2330953	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana"; protein_id "ENSP00000367773";
+1	protein_coding	exon	2332296	2332374	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana"; exon_id "ENSE00003591377";
+1	protein_coding	CDS	2332296	2332374	.	+	2	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana"; protein_id "ENSP00000367773";
+1	protein_coding	exon	2333536	2333781	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "6"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana"; exon_id "ENSE00001477787";
+1	protein_coding	CDS	2333536	2333731	.	+	1	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "6"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana"; protein_id "ENSP00000367773";
+1	protein_coding	stop_codon	2333732	2333734	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "6"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana";
+1	protein_coding	exon	2334474	2335190	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; exon_number "7"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana"; exon_id "ENSE00003630803";
+1	protein_coding	UTR	2323329	2323397	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana";
+1	protein_coding	UTR	2327223	2327229	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana";
+1	protein_coding	UTR	2333735	2333781	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana";
+1	protein_coding	UTR	2334474	2335190	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000378512"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-002"; transcript_source "havana";
+1	protein_coding	transcript	2324613	2333755	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2324613	2324670	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; exon_number "1"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; exon_id "ENSE00001712391"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2327223	2327310	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; exon_id "ENSE00001035864"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2327230	2327310	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; protein_id "ENSP00000417000"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2328555	2328659	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; exon_id "ENSE00001035875"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2328555	2328659	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; protein_id "ENSP00000417000"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2330854	2330953	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; exon_id "ENSE00001035866"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2330854	2330953	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; protein_id "ENSP00000417000"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2332296	2332374	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; exon_id "ENSE00003591377"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2332296	2332374	.	+	2	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; protein_id "ENSP00000417000"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2333646	2333755	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; exon_number "6"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; exon_id "ENSE00001644422"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2333646	2333755	.	+	1	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; exon_number "6"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; protein_id "ENSP00000417000"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2324613	2324670	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2327223	2327229	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000443438"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2325444	2334655	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232";
+1	protein_coding	exon	2325444	2327310	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "1"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232"; exon_id "ENSE00001840127";
+1	protein_coding	CDS	2327230	2327310	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "1"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232"; protein_id "ENSP00000464222";
+1	protein_coding	start_codon	2327230	2327232	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "1"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232";
+1	protein_coding	exon	2328555	2328659	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232"; exon_id "ENSE00001035875";
+1	protein_coding	CDS	2328555	2328659	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232"; protein_id "ENSP00000464222";
+1	protein_coding	exon	2330854	2330953	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232"; exon_id "ENSE00001035866";
+1	protein_coding	CDS	2330854	2330953	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "3"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232"; protein_id "ENSP00000464222";
+1	protein_coding	exon	2332296	2332374	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232"; exon_id "ENSE00003591377";
+1	protein_coding	CDS	2332296	2332374	.	+	2	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "4"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232"; protein_id "ENSP00000464222";
+1	protein_coding	exon	2333646	2333781	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232"; exon_id "ENSE00003590224";
+1	protein_coding	CDS	2333646	2333781	.	+	1	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "5"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232"; protein_id "ENSP00000464222";
+1	protein_coding	exon	2334474	2334655	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "6"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232"; exon_id "ENSE00001825253";
+1	protein_coding	CDS	2334474	2334560	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "6"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232"; protein_id "ENSP00000464222";
+1	protein_coding	stop_codon	2334561	2334563	.	+	0	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; exon_number "6"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232";
+1	protein_coding	UTR	2325444	2327229	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232";
+1	protein_coding	UTR	2334564	2334655	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000488353"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS41232";
+1	retained_intron	transcript	2333390	2334666	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000462129"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-007"; transcript_source "havana";
+1	retained_intron	exon	2333390	2333781	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000462129"; exon_number "1"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-007"; transcript_source "havana"; exon_id "ENSE00001936322";
+1	retained_intron	exon	2334474	2334666	.	+	.	gene_id "ENSG00000157916"; transcript_id "ENST00000462129"; exon_number "2"; gene_name "RER1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "RER1-007"; transcript_source "havana"; exon_id "ENSE00001844284";
+1	protein_coding	gene	2336236	2345236	.	-	.	gene_id "ENSG00000157911"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2336236	2343969	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41";
+1	protein_coding	exon	2343830	2343969	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41"; exon_id "ENSE00002040608";
+1	protein_coding	CDS	2343830	2343941	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41"; protein_id "ENSP00000288774";
+1	protein_coding	start_codon	2343939	2343941	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41";
+1	protein_coding	exon	2341810	2341890	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41"; exon_id "ENSE00003514210";
+1	protein_coding	CDS	2341810	2341890	.	-	2	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41"; protein_id "ENSP00000288774";
+1	protein_coding	exon	2339891	2340297	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "3"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41"; exon_id "ENSE00001035832";
+1	protein_coding	CDS	2339891	2340297	.	-	2	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "3"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41"; protein_id "ENSP00000288774";
+1	protein_coding	exon	2338159	2338394	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "4"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41"; exon_id "ENSE00001207517";
+1	protein_coding	CDS	2338159	2338394	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "4"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41"; protein_id "ENSP00000288774";
+1	protein_coding	exon	2337923	2338058	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "5"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41"; exon_id "ENSE00001035830";
+1	protein_coding	CDS	2337923	2338058	.	-	1	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "5"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41"; protein_id "ENSP00000288774";
+1	protein_coding	exon	2336236	2337273	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "6"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41"; exon_id "ENSE00001950324";
+1	protein_coding	CDS	2337208	2337273	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "6"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41"; protein_id "ENSP00000288774";
+1	protein_coding	stop_codon	2337205	2337207	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; exon_number "6"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41";
+1	protein_coding	UTR	2343942	2343969	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41";
+1	protein_coding	UTR	2336236	2337204	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000288774"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41";
+1	protein_coding	transcript	2336258	2344010	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045";
+1	protein_coding	exon	2343830	2344010	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045"; exon_id "ENSE00001207527";
+1	protein_coding	CDS	2343830	2343941	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045"; protein_id "ENSP00000407922";
+1	protein_coding	start_codon	2343939	2343941	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045";
+1	protein_coding	exon	2341810	2341890	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045"; exon_id "ENSE00003514210";
+1	protein_coding	CDS	2341810	2341890	.	-	2	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045"; protein_id "ENSP00000407922";
+1	protein_coding	exon	2339891	2340297	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "3"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045"; exon_id "ENSE00001035832";
+1	protein_coding	CDS	2339891	2340297	.	-	2	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "3"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045"; protein_id "ENSP00000407922";
+1	protein_coding	exon	2338159	2338334	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "4"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045"; exon_id "ENSE00003687915";
+1	protein_coding	CDS	2338159	2338334	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "4"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045"; protein_id "ENSP00000407922";
+1	protein_coding	exon	2337923	2338058	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "5"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045"; exon_id "ENSE00001035830";
+1	protein_coding	CDS	2337923	2338058	.	-	1	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "5"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045"; protein_id "ENSP00000407922";
+1	protein_coding	exon	2336258	2337273	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "6"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045"; exon_id "ENSE00001207524";
+1	protein_coding	CDS	2337208	2337273	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "6"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045"; protein_id "ENSP00000407922";
+1	protein_coding	stop_codon	2337205	2337207	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; exon_number "6"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045";
+1	protein_coding	UTR	2343942	2344010	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045";
+1	protein_coding	UTR	2336258	2337204	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000447513"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-002"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44045";
+1	protein_coding	transcript	2336277	2343979	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana";
+1	protein_coding	exon	2343830	2343979	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana"; exon_id "ENSE00002020033";
+1	protein_coding	CDS	2343830	2343941	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana"; protein_id "ENSP00000424291";
+1	protein_coding	start_codon	2343939	2343941	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana";
+1	protein_coding	exon	2341810	2341890	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana"; exon_id "ENSE00003514210";
+1	protein_coding	CDS	2341810	2341890	.	-	2	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana"; protein_id "ENSP00000424291";
+1	protein_coding	exon	2339891	2340297	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "3"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana"; exon_id "ENSE00001035832";
+1	protein_coding	CDS	2339891	2340297	.	-	2	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "3"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana"; protein_id "ENSP00000424291";
+1	protein_coding	exon	2338159	2338334	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "4"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana"; exon_id "ENSE00003687915";
+1	protein_coding	CDS	2338159	2338334	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "4"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana"; protein_id "ENSP00000424291";
+1	protein_coding	exon	2337923	2338058	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "5"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana"; exon_id "ENSE00001035830";
+1	protein_coding	CDS	2337923	2338058	.	-	1	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "5"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana"; protein_id "ENSP00000424291";
+1	protein_coding	exon	2336277	2337267	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "6"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana"; exon_id "ENSE00002060718";
+1	protein_coding	CDS	2337208	2337267	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "6"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana"; protein_id "ENSP00000424291";
+1	protein_coding	stop_codon	2337205	2337207	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; exon_number "6"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana";
+1	protein_coding	UTR	2343942	2343979	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana";
+1	protein_coding	UTR	2336277	2337204	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000507596"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-003"; transcript_source "havana";
+1	nonsense_mediated_decay	transcript	2337957	2343974	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	2343830	2343974	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana"; exon_id "ENSE00001904178";
+1	nonsense_mediated_decay	CDS	2343830	2343941	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana"; protein_id "ENSP00000423051";
+1	nonsense_mediated_decay	start_codon	2343939	2343941	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	2341810	2341890	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana"; exon_id "ENSE00003514210";
+1	nonsense_mediated_decay	CDS	2341810	2341890	.	-	2	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana"; protein_id "ENSP00000423051";
+1	nonsense_mediated_decay	exon	2339895	2340297	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; exon_number "3"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana"; exon_id "ENSE00002033633";
+1	nonsense_mediated_decay	CDS	2339895	2340297	.	-	2	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; exon_number "3"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana"; protein_id "ENSP00000423051";
+1	nonsense_mediated_decay	exon	2338159	2338334	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; exon_number "4"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana"; exon_id "ENSE00003683247";
+1	nonsense_mediated_decay	CDS	2338304	2338334	.	-	1	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; exon_number "4"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana"; protein_id "ENSP00000423051";
+1	nonsense_mediated_decay	stop_codon	2338301	2338303	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; exon_number "4"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	2337957	2338058	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; exon_number "5"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana"; exon_id "ENSE00002021803";
+1	nonsense_mediated_decay	UTR	2343942	2343974	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	2338159	2338300	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	2337957	2338058	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000510434"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-005"; transcript_source "havana";
+1	protein_coding	transcript	2339969	2345236	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000508384"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-004"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2345036	2345236	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000508384"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-004"; transcript_source "havana"; exon_id "ENSE00002053109"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2341810	2341890	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000508384"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-004"; transcript_source "havana"; exon_id "ENSE00003544845"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2339969	2340297	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000508384"; exon_number "3"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-004"; transcript_source "havana"; exon_id "ENSE00002039097"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2339969	2340058	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000508384"; exon_number "3"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-004"; transcript_source "havana"; protein_id "ENSP00000464289"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2345036	2345236	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000508384"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-004"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2341810	2341890	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000508384"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-004"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2340059	2340297	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000508384"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-004"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	processed_transcript	transcript	2340022	2341443	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000515760"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-009"; transcript_source "havana";
+1	processed_transcript	exon	2341117	2341443	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000515760"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-009"; transcript_source "havana"; exon_id "ENSE00002063718";
+1	processed_transcript	exon	2340022	2340297	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000515760"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-009"; transcript_source "havana"; exon_id "ENSE00002039628";
+1	nonsense_mediated_decay	transcript	2340043	2342275	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000502666"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2342069	2342275	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000502666"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-008"; transcript_source "havana"; exon_id "ENSE00002075674"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2342198	2342275	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000502666"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-008"; transcript_source "havana"; protein_id "ENSP00000461951"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2341700	2341890	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000502666"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-008"; transcript_source "havana"; exon_id "ENSE00002027580"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2340043	2340297	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000502666"; exon_number "3"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-008"; transcript_source "havana"; exon_id "ENSE00002025084"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2342069	2342197	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000502666"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2341700	2341890	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000502666"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2340043	2340297	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000502666"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-008"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	processed_transcript	transcript	2340074	2342312	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000504111"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-007"; transcript_source "havana";
+1	processed_transcript	exon	2342069	2342312	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000504111"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-007"; transcript_source "havana"; exon_id "ENSE00002042943";
+1	processed_transcript	exon	2341810	2341890	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000504111"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-007"; transcript_source "havana"; exon_id "ENSE00003544845";
+1	processed_transcript	exon	2340074	2340297	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000504111"; exon_number "3"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-007"; transcript_source "havana"; exon_id "ENSE00002031864";
+1	nonsense_mediated_decay	transcript	2340194	2343953	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000514502"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-006"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	2343830	2343953	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000514502"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-006"; transcript_source "havana"; exon_id "ENSE00002031521";
+1	nonsense_mediated_decay	CDS	2343830	2343941	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000514502"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-006"; transcript_source "havana"; protein_id "ENSP00000425924";
+1	nonsense_mediated_decay	start_codon	2343939	2343941	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000514502"; exon_number "1"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-006"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	2342069	2342307	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000514502"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-006"; transcript_source "havana"; exon_id "ENSE00002041455";
+1	nonsense_mediated_decay	CDS	2342201	2342307	.	-	2	gene_id "ENSG00000157911"; transcript_id "ENST00000514502"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-006"; transcript_source "havana"; protein_id "ENSP00000425924";
+1	nonsense_mediated_decay	stop_codon	2342198	2342200	.	-	0	gene_id "ENSG00000157911"; transcript_id "ENST00000514502"; exon_number "2"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-006"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	2341810	2341890	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000514502"; exon_number "3"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-006"; transcript_source "havana"; exon_id "ENSE00003544845";
+1	nonsense_mediated_decay	exon	2340194	2340297	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000514502"; exon_number "4"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-006"; transcript_source "havana"; exon_id "ENSE00002069630";
+1	nonsense_mediated_decay	UTR	2343942	2343953	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000514502"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-006"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	2342069	2342197	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000514502"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-006"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	2341810	2341890	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000514502"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-006"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	2340194	2340297	.	-	.	gene_id "ENSG00000157911"; transcript_id "ENST00000514502"; gene_name "PEX10"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PEX10-006"; transcript_source "havana";
+1	protein_coding	gene	2357419	2436969	.	+	.	gene_id "ENSG00000149527"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2357419	2411243	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000609981"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-010"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2357419	2357476	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000609981"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-010"; transcript_source "havana"; exon_id "ENSE00001648978"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2361777	2362068	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000609981"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-010"; transcript_source "havana"; exon_id "ENSE00001621165"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2361954	2362068	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000609981"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-010"; transcript_source "havana"; protein_id "ENSP00000476436"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2409915	2410061	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000609981"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-010"; transcript_source "havana"; exon_id "ENSE00003499259"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2409915	2410061	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000609981"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-010"; transcript_source "havana"; protein_id "ENSP00000476436"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2411173	2411243	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000609981"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-010"; transcript_source "havana"; exon_id "ENSE00001477672"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2411173	2411243	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000609981"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-010"; transcript_source "havana"; protein_id "ENSP00000476436"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2357419	2357476	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000609981"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-010"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2361777	2361953	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000609981"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-010"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2398898	2436965	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana";
+1	protein_coding	exon	2398898	2399101	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00001780479";
+1	protein_coding	CDS	2399059	2399101	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	start_codon	2399059	2399061	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana";
+1	protein_coding	exon	2409915	2410061	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003499259";
+1	protein_coding	CDS	2409915	2410061	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2411173	2411417	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00001400676";
+1	protein_coding	CDS	2411173	2411417	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2411623	2411751	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003553212";
+1	protein_coding	CDS	2411623	2411751	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2415887	2416057	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003472793";
+1	protein_coding	CDS	2415887	2416057	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2418346	2418439	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003465003";
+1	protein_coding	CDS	2418346	2418439	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2418612	2418815	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003688902";
+1	protein_coding	CDS	2418612	2418815	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2419037	2419157	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "8"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003552203";
+1	protein_coding	CDS	2419037	2419157	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "8"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2420646	2420817	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "9"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003472855";
+1	protein_coding	CDS	2420646	2420817	.	+	1	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "9"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2421199	2421306	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "10"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003517403";
+1	protein_coding	CDS	2421199	2421306	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "10"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2422631	2422774	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "11"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003582994";
+1	protein_coding	CDS	2422631	2422774	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "11"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2426295	2426387	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "12"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003684947";
+1	protein_coding	CDS	2426295	2426387	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "12"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2426927	2427009	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "13"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003535221";
+1	protein_coding	CDS	2426927	2427009	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "13"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2428046	2428143	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "14"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003559057";
+1	protein_coding	CDS	2428046	2428143	.	+	1	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "14"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2428267	2428449	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "15"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003516954";
+1	protein_coding	CDS	2428267	2428449	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "15"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2428941	2429048	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "16"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003616922";
+1	protein_coding	CDS	2428941	2429048	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "16"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2429962	2430086	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "17"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003653363";
+1	protein_coding	CDS	2429962	2430086	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "17"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2430183	2430267	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "18"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003492751";
+1	protein_coding	CDS	2430183	2430267	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "18"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2430523	2430669	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "19"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003685158";
+1	protein_coding	CDS	2430523	2430669	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "19"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2431080	2431159	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "20"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00003658295";
+1	protein_coding	CDS	2431080	2431159	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "20"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2433551	2434349	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "21"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00001697293";
+1	protein_coding	CDS	2433551	2434349	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "21"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	exon	2435056	2436965	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "22"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; exon_id "ENSE00001701479";
+1	protein_coding	CDS	2435056	2435063	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "22"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana"; protein_id "ENSP00000397289";
+1	protein_coding	stop_codon	2435064	2435066	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; exon_number "22"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	2398898	2399058	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana";
+1	protein_coding	UTR	2435067	2436965	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000449969"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-008"; transcript_source "ensembl_havana";
+1	protein_coding	transcript	2407754	2436964	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana";
+1	protein_coding	exon	2407754	2408151	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003473982";
+1	protein_coding	CDS	2408028	2408151	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	start_codon	2408028	2408030	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana";
+1	protein_coding	exon	2409915	2410061	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003499259";
+1	protein_coding	CDS	2409915	2410061	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2411173	2411417	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00001400676";
+1	protein_coding	CDS	2411173	2411417	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2411623	2411751	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003553212";
+1	protein_coding	CDS	2411623	2411751	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2415887	2416057	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003472793";
+1	protein_coding	CDS	2415887	2416057	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2418346	2418439	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003465003";
+1	protein_coding	CDS	2418346	2418439	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2418612	2418815	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003688902";
+1	protein_coding	CDS	2418612	2418815	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2419037	2419157	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "8"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003552203";
+1	protein_coding	CDS	2419037	2419157	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "8"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2420646	2420817	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "9"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003472855";
+1	protein_coding	CDS	2420646	2420817	.	+	1	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "9"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2421199	2421306	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "10"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003517403";
+1	protein_coding	CDS	2421199	2421306	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "10"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2422631	2422774	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "11"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003582994";
+1	protein_coding	CDS	2422631	2422774	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "11"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2426295	2426387	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "12"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003684947";
+1	protein_coding	CDS	2426295	2426387	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "12"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2426927	2427009	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "13"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003535221";
+1	protein_coding	CDS	2426927	2427009	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "13"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2428046	2428143	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "14"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003559057";
+1	protein_coding	CDS	2428046	2428143	.	+	1	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "14"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2428267	2428449	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "15"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003516954";
+1	protein_coding	CDS	2428267	2428449	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "15"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2428941	2429048	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "16"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003616922";
+1	protein_coding	CDS	2428941	2429048	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "16"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2429962	2430086	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "17"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003653363";
+1	protein_coding	CDS	2429962	2430086	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "17"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2430183	2430267	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "18"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003492751";
+1	protein_coding	CDS	2430183	2430267	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "18"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2430523	2430669	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "19"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003685158";
+1	protein_coding	CDS	2430523	2430669	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "19"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2431080	2431159	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "20"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003658295";
+1	protein_coding	CDS	2431080	2431159	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "20"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2433551	2433848	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "21"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00003596489";
+1	protein_coding	CDS	2433551	2433848	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "21"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	exon	2435361	2436964	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "22"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; exon_id "ENSE00001420069";
+1	protein_coding	CDS	2435361	2436649	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "22"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana"; protein_id "ENSP00000389803";
+1	protein_coding	stop_codon	2436650	2436652	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; exon_number "22"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana";
+1	protein_coding	UTR	2407754	2408027	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana";
+1	protein_coding	UTR	2436653	2436964	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000419816"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-009"; transcript_source "havana";
+1	protein_coding	transcript	2407754	2436964	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959";
+1	protein_coding	exon	2407754	2408151	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003473982";
+1	protein_coding	CDS	2408028	2408151	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	start_codon	2408028	2408030	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959";
+1	protein_coding	exon	2409915	2410061	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003499259";
+1	protein_coding	CDS	2409915	2410061	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2411173	2411416	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00001477687";
+1	protein_coding	CDS	2411173	2411416	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2411622	2411751	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00001477685";
+1	protein_coding	CDS	2411622	2411751	.	+	1	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2415887	2416057	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003472793";
+1	protein_coding	CDS	2415887	2416057	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2418346	2418439	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003465003";
+1	protein_coding	CDS	2418346	2418439	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2418612	2418815	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003688902";
+1	protein_coding	CDS	2418612	2418815	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2419037	2419157	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "8"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003552203";
+1	protein_coding	CDS	2419037	2419157	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "8"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2420646	2420817	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "9"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003472855";
+1	protein_coding	CDS	2420646	2420817	.	+	1	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "9"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2421199	2421306	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "10"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003517403";
+1	protein_coding	CDS	2421199	2421306	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "10"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2422631	2422774	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "11"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003582994";
+1	protein_coding	CDS	2422631	2422774	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "11"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2426295	2426387	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "12"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003684947";
+1	protein_coding	CDS	2426295	2426387	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "12"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2426927	2427009	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "13"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003535221";
+1	protein_coding	CDS	2426927	2427009	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "13"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2428046	2428143	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "14"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003559057";
+1	protein_coding	CDS	2428046	2428143	.	+	1	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "14"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2428267	2428449	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "15"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003516954";
+1	protein_coding	CDS	2428267	2428449	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "15"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2428941	2429048	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "16"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003616922";
+1	protein_coding	CDS	2428941	2429048	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "16"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2429962	2430086	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "17"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003653363";
+1	protein_coding	CDS	2429962	2430086	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "17"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2430183	2430267	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "18"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003492751";
+1	protein_coding	CDS	2430183	2430267	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "18"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2430523	2430669	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "19"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003685158";
+1	protein_coding	CDS	2430523	2430669	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "19"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2431080	2431159	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "20"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003658295";
+1	protein_coding	CDS	2431080	2431159	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "20"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2433551	2433848	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "21"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00003596489";
+1	protein_coding	CDS	2433551	2433848	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "21"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	exon	2435361	2436964	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "22"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; exon_id "ENSE00001420069";
+1	protein_coding	CDS	2435361	2436649	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "22"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959"; protein_id "ENSP00000367747";
+1	protein_coding	stop_codon	2436650	2436652	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; exon_number "22"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959";
+1	protein_coding	UTR	2407754	2408027	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959";
+1	protein_coding	UTR	2436653	2436964	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378486"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-202"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS59959";
+1	protein_coding	transcript	2407754	2436964	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl";
+1	protein_coding	exon	2407754	2408151	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003473982";
+1	protein_coding	CDS	2408028	2408151	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	start_codon	2408028	2408030	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl";
+1	protein_coding	exon	2409915	2410061	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003499259";
+1	protein_coding	CDS	2409915	2410061	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2411173	2411417	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00001400676";
+1	protein_coding	CDS	2411173	2411417	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2411623	2411751	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003553212";
+1	protein_coding	CDS	2411623	2411751	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2415887	2416057	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003472793";
+1	protein_coding	CDS	2415887	2416057	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2418346	2418439	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003465003";
+1	protein_coding	CDS	2418346	2418439	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2418612	2418815	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003688902";
+1	protein_coding	CDS	2418612	2418815	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2419037	2419157	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "8"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003552203";
+1	protein_coding	CDS	2419037	2419157	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "8"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2420646	2420817	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "9"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003472855";
+1	protein_coding	CDS	2420646	2420817	.	+	1	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "9"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2421199	2421306	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "10"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003517403";
+1	protein_coding	CDS	2421199	2421306	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "10"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2422631	2422774	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "11"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003582994";
+1	protein_coding	CDS	2422631	2422774	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "11"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2426295	2426387	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "12"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003684947";
+1	protein_coding	CDS	2426295	2426387	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "12"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2426927	2427009	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "13"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003535221";
+1	protein_coding	CDS	2426927	2427009	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "13"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2428046	2428143	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "14"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003559057";
+1	protein_coding	CDS	2428046	2428143	.	+	1	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "14"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2428267	2428449	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "15"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003516954";
+1	protein_coding	CDS	2428267	2428449	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "15"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2429962	2430086	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "16"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003653363";
+1	protein_coding	CDS	2429962	2430086	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "16"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2430183	2430267	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "17"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003492751";
+1	protein_coding	CDS	2430183	2430267	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "17"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2430523	2430669	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "18"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003685158";
+1	protein_coding	CDS	2430523	2430669	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "18"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2431080	2431159	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "19"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003658295";
+1	protein_coding	CDS	2431080	2431159	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "19"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2433551	2433848	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "20"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00003596489";
+1	protein_coding	CDS	2433551	2433848	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "20"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	exon	2435361	2436964	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "21"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; exon_id "ENSE00001420069";
+1	protein_coding	CDS	2435361	2436649	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "21"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl"; protein_id "ENSP00000367749";
+1	protein_coding	stop_codon	2436650	2436652	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; exon_number "21"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl";
+1	protein_coding	UTR	2407754	2408027	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl";
+1	protein_coding	UTR	2436653	2436964	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000378488"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-203"; transcript_source "ensembl";
+1	protein_coding	transcript	2407754	2434525	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl";
+1	protein_coding	exon	2407754	2408151	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl"; exon_id "ENSE00003542297";
+1	protein_coding	exon	2409915	2410061	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl"; exon_id "ENSE00003542787";
+1	protein_coding	CDS	2409926	2410061	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl"; protein_id "ENSP00000288766";
+1	protein_coding	start_codon	2409926	2409928	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl";
+1	protein_coding	exon	2411173	2411249	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl"; exon_id "ENSE00001338319";
+1	protein_coding	CDS	2411173	2411249	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl"; protein_id "ENSP00000288766";
+1	protein_coding	exon	2430183	2430267	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl"; exon_id "ENSE00003492751";
+1	protein_coding	CDS	2430183	2430267	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl"; protein_id "ENSP00000288766";
+1	protein_coding	exon	2430523	2430669	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl"; exon_id "ENSE00003685158";
+1	protein_coding	CDS	2430523	2430669	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl"; protein_id "ENSP00000288766";
+1	protein_coding	exon	2431080	2431159	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl"; exon_id "ENSE00003658295";
+1	protein_coding	CDS	2431080	2431159	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl"; protein_id "ENSP00000288766";
+1	protein_coding	exon	2433551	2434525	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl"; exon_id "ENSE00001477691";
+1	protein_coding	CDS	2433551	2434522	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl"; protein_id "ENSP00000288766";
+1	protein_coding	stop_codon	2434523	2434525	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2407754	2408151	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2409915	2409925	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000288766"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-201"; transcript_source "ensembl";
+1	retained_intron	transcript	2410529	2436969	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana";
+1	retained_intron	exon	2410529	2411417	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00001477669";
+1	retained_intron	exon	2411623	2411751	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003470263";
+1	retained_intron	exon	2415887	2416057	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003647310";
+1	retained_intron	exon	2418346	2418439	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003649862";
+1	retained_intron	exon	2418612	2418815	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003533538";
+1	retained_intron	exon	2419037	2419157	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003546186";
+1	retained_intron	exon	2420646	2420817	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003605114";
+1	retained_intron	exon	2421199	2421306	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "8"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003655153";
+1	retained_intron	exon	2422631	2422774	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "9"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003543912";
+1	retained_intron	exon	2426295	2426387	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "10"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003557083";
+1	retained_intron	exon	2426927	2427009	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "11"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003534549";
+1	retained_intron	exon	2428046	2428143	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "12"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003650873";
+1	retained_intron	exon	2428267	2428449	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "13"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003534507";
+1	retained_intron	exon	2428941	2429048	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "14"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003591218";
+1	retained_intron	exon	2429962	2430086	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "15"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003541907";
+1	retained_intron	exon	2430183	2430267	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "16"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003466854";
+1	retained_intron	exon	2430523	2430669	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "17"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003571083";
+1	retained_intron	exon	2431080	2431159	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "18"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00003609797";
+1	retained_intron	exon	2433551	2436969	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000343889"; exon_number "19"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-001"; transcript_source "havana"; exon_id "ENSE00001432737";
+1	protein_coding	transcript	2411327	2436715	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2411327	2411417	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00001376863"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2411327	2411417	.	+	1	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2411623	2411751	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003553212"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2411623	2411751	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2415887	2416057	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003472793"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2415887	2416057	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2418346	2418439	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003465003"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2418346	2418439	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2418612	2418815	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003688902"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2418612	2418815	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2419037	2419157	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003552203"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2419037	2419157	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2420646	2420817	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003472855"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2420646	2420817	.	+	1	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "7"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2421199	2421306	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "8"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003517403"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2421199	2421306	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "8"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2422631	2422774	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "9"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003582994"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2422631	2422774	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "9"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2426295	2426387	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "10"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003684947"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2426295	2426387	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "10"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2426927	2427009	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "11"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003535221"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2426927	2427009	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "11"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2428046	2428143	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "12"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003559057"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2428046	2428143	.	+	1	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "12"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2428267	2428449	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "13"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003516954"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2428267	2428449	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "13"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2429962	2430086	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "14"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003653363"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2429962	2430086	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "14"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2430183	2430267	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "15"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003492751"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2430183	2430267	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "15"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2430523	2430669	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "16"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003685158"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2430523	2430669	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "16"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2431080	2431159	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "17"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003658295"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2431080	2431159	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "17"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2433551	2433848	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "18"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00003596489"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2433551	2433848	.	+	0	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "18"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2435361	2436715	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "19"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; exon_id "ENSE00001783927"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2435361	2436652	.	+	2	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; exon_number "19"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; protein_id "ENSP00000278878"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	2436653	2436715	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000278878"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	2429221	2436967	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000473964"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-005"; transcript_source "havana";
+1	retained_intron	exon	2429221	2430086	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000473964"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-005"; transcript_source "havana"; exon_id "ENSE00001940753";
+1	retained_intron	exon	2430183	2430267	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000473964"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-005"; transcript_source "havana"; exon_id "ENSE00003466854";
+1	retained_intron	exon	2430523	2430669	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000473964"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-005"; transcript_source "havana"; exon_id "ENSE00003571083";
+1	retained_intron	exon	2431080	2436967	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000473964"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-005"; transcript_source "havana"; exon_id "ENSE00001826643";
+1	retained_intron	transcript	2430086	2436967	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000462379"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-006"; transcript_source "havana";
+1	retained_intron	exon	2430086	2430267	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000462379"; exon_number "1"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-006"; transcript_source "havana"; exon_id "ENSE00001923708";
+1	retained_intron	exon	2430523	2430669	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000462379"; exon_number "2"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-006"; transcript_source "havana"; exon_id "ENSE00003571083";
+1	retained_intron	exon	2431080	2431159	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000462379"; exon_number "3"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-006"; transcript_source "havana"; exon_id "ENSE00003609797";
+1	retained_intron	exon	2433551	2433848	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000462379"; exon_number "4"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-006"; transcript_source "havana"; exon_id "ENSE00003540997";
+1	retained_intron	exon	2435056	2435082	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000462379"; exon_number "5"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-006"; transcript_source "havana"; exon_id "ENSE00001834994";
+1	retained_intron	exon	2435361	2436967	.	+	.	gene_id "ENSG00000149527"; transcript_id "ENST00000462379"; exon_number "6"; gene_name "PLCH2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PLCH2-006"; transcript_source "havana"; exon_id "ENSE00001887073";
+1	antisense	gene	2423739	2424697	.	-	.	gene_id "ENSG00000224387"; gene_name "RP3-395M20.2"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	2423739	2424697	.	-	.	gene_id "ENSG00000224387"; transcript_id "ENST00000424657"; gene_name "RP3-395M20.2"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.2-001"; transcript_source "havana";
+1	antisense	exon	2424540	2424697	.	-	.	gene_id "ENSG00000224387"; transcript_id "ENST00000424657"; exon_number "1"; gene_name "RP3-395M20.2"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.2-001"; transcript_source "havana"; exon_id "ENSE00001625976";
+1	antisense	exon	2423739	2424035	.	-	.	gene_id "ENSG00000224387"; transcript_id "ENST00000424657"; exon_number "2"; gene_name "RP3-395M20.2"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.2-001"; transcript_source "havana"; exon_id "ENSE00001615592";
+1	antisense	gene	2424876	2425918	.	-	.	gene_id "ENSG00000229393"; gene_name "RP3-395M20.3"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	2424876	2425918	.	-	.	gene_id "ENSG00000229393"; transcript_id "ENST00000442305"; gene_name "RP3-395M20.3"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.3-001"; transcript_source "havana";
+1	antisense	exon	2425822	2425918	.	-	.	gene_id "ENSG00000229393"; transcript_id "ENST00000442305"; exon_number "1"; gene_name "RP3-395M20.3"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.3-001"; transcript_source "havana"; exon_id "ENSE00001671300";
+1	antisense	exon	2424876	2425292	.	-	.	gene_id "ENSG00000229393"; transcript_id "ENST00000442305"; exon_number "2"; gene_name "RP3-395M20.3"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.3-001"; transcript_source "havana"; exon_id "ENSE00001764091";
+1	protein_coding	gene	2439972	2458039	.	-	.	gene_id "ENSG00000157881"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2439972	2458039	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42";
+1	protein_coding	exon	2457903	2458039	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00001477631";
+1	protein_coding	CDS	2457903	2458026	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	start_codon	2458024	2458026	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42";
+1	protein_coding	exon	2453157	2453239	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00003569437";
+1	protein_coding	CDS	2453157	2453239	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2452540	2452754	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00003685963";
+1	protein_coding	CDS	2452540	2452754	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2452162	2452345	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "4"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00003515035";
+1	protein_coding	CDS	2452162	2452345	.	-	1	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "4"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2451761	2451853	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "5"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00003532728";
+1	protein_coding	CDS	2451761	2451853	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "5"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2451240	2451393	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "6"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00003618349";
+1	protein_coding	CDS	2451240	2451393	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "6"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2450582	2450763	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "7"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00001035674";
+1	protein_coding	CDS	2450582	2450763	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "7"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2449955	2450036	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "8"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00001035664";
+1	protein_coding	CDS	2449955	2450036	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "8"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2449603	2449703	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "9"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00001035666";
+1	protein_coding	CDS	2449603	2449703	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "9"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2447001	2447156	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "10"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00001035670";
+1	protein_coding	CDS	2447001	2447156	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "10"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2445793	2445905	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "11"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00001035673";
+1	protein_coding	CDS	2445793	2445905	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "11"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2445441	2445528	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "12"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00001035671";
+1	protein_coding	CDS	2445441	2445528	.	-	1	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "12"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2444327	2444478	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "13"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00001035684";
+1	protein_coding	CDS	2444327	2444478	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "13"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2443067	2443122	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "14"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00003510608";
+1	protein_coding	CDS	2443067	2443122	.	-	1	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "14"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2442777	2442826	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "15"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00003614294";
+1	protein_coding	CDS	2442777	2442826	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "15"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2442117	2442221	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "16"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00001035659";
+1	protein_coding	CDS	2442117	2442221	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "16"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2441496	2441596	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "17"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00003585117";
+1	protein_coding	CDS	2441496	2441596	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "17"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2441301	2441369	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "18"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00003666246";
+1	protein_coding	CDS	2441301	2441369	.	-	1	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "18"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	exon	2439972	2440499	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "19"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; exon_id "ENSE00001836156";
+1	protein_coding	CDS	2440289	2440499	.	-	1	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "19"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42"; protein_id "ENSP00000367727";
+1	protein_coding	stop_codon	2440286	2440288	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; exon_number "19"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42";
+1	protein_coding	UTR	2458027	2458039	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42";
+1	protein_coding	UTR	2439972	2440285	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000378466"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS42";
+1	protein_coding	transcript	2439976	2458035	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana";
+1	protein_coding	exon	2457903	2458035	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00002066428";
+1	protein_coding	CDS	2457903	2458026	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	start_codon	2458024	2458026	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana";
+1	protein_coding	exon	2453157	2453239	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00003569437";
+1	protein_coding	CDS	2453157	2453239	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2452584	2452754	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00002083973";
+1	protein_coding	CDS	2452584	2452754	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2452162	2452272	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "4"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00002078431";
+1	protein_coding	CDS	2452162	2452272	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "4"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2451761	2451853	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "5"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00003532728";
+1	protein_coding	CDS	2451761	2451853	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "5"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2451240	2451393	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "6"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00003618349";
+1	protein_coding	CDS	2451240	2451393	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "6"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2450582	2450763	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "7"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00001035674";
+1	protein_coding	CDS	2450582	2450763	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "7"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2449955	2450036	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "8"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00001035664";
+1	protein_coding	CDS	2449955	2450036	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "8"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2449603	2449703	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "9"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00001035666";
+1	protein_coding	CDS	2449603	2449703	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "9"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2447001	2447156	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "10"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00001035670";
+1	protein_coding	CDS	2447001	2447156	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "10"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2445793	2445905	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "11"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00001035673";
+1	protein_coding	CDS	2445793	2445905	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "11"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2445441	2445528	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "12"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00001035671";
+1	protein_coding	CDS	2445441	2445528	.	-	1	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "12"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2444327	2444478	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "13"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00001035684";
+1	protein_coding	CDS	2444327	2444478	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "13"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2443067	2443122	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "14"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00003510608";
+1	protein_coding	CDS	2443067	2443122	.	-	1	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "14"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2442777	2442826	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "15"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00003614294";
+1	protein_coding	CDS	2442777	2442826	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "15"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2442117	2442221	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "16"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00001035659";
+1	protein_coding	CDS	2442117	2442221	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "16"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2441496	2441596	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "17"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00003585117";
+1	protein_coding	CDS	2441496	2441596	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "17"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2441301	2441369	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "18"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00003666246";
+1	protein_coding	CDS	2441301	2441369	.	-	1	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "18"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	exon	2439976	2440499	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "19"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; exon_id "ENSE00001636510";
+1	protein_coding	CDS	2440289	2440499	.	-	1	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "19"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana"; protein_id "ENSP00000421433";
+1	protein_coding	stop_codon	2440286	2440288	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; exon_number "19"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana";
+1	protein_coding	UTR	2458027	2458035	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana";
+1	protein_coding	UTR	2439976	2440285	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000435556"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-008"; transcript_source "havana";
+1	nonsense_mediated_decay	transcript	2440234	2452340	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2452162	2452340	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00002032126"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2452162	2452340	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; protein_id "ENSP00000425932"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2451761	2451853	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00003532728"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2451761	2451853	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; protein_id "ENSP00000425932"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2451240	2451393	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00003618349"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2451240	2451393	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; protein_id "ENSP00000425932"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2450582	2450763	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "4"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00001035674"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2450582	2450763	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "4"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; protein_id "ENSP00000425932"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2449955	2450036	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "5"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00001035664"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2449955	2450036	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "5"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; protein_id "ENSP00000425932"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2449603	2449703	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "6"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00001035666"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2449603	2449703	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "6"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; protein_id "ENSP00000425932"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2447001	2447156	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "7"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00001035670"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2447001	2447156	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "7"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; protein_id "ENSP00000425932"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2445793	2445905	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "8"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00001035673"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2445793	2445905	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "8"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; protein_id "ENSP00000425932"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2445441	2445528	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "9"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00001035671"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2445441	2445528	.	-	1	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "9"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; protein_id "ENSP00000425932"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2444327	2444478	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "10"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00001035684"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2444327	2444478	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "10"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; protein_id "ENSP00000425932"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2443067	2443122	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "11"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00003510608"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2443067	2443122	.	-	1	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "11"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; protein_id "ENSP00000425932"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2442777	2442826	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "12"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00003614294"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2442777	2442826	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "12"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; protein_id "ENSP00000425932"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2442117	2442187	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "13"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00002035413"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2442173	2442187	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "13"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; protein_id "ENSP00000425932"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2441496	2441596	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "14"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00003588405"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2441301	2441369	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "15"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00003508363"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2440234	2440499	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; exon_number "16"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; exon_id "ENSE00002069357"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2442117	2442172	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2441496	2441596	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2441301	2441369	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2440234	2440499	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000505228"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-009"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	transcript	2441232	2445842	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2445793	2445842	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; exon_id "ENSE00002025985"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2445793	2445842	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; protein_id "ENSP00000423920"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2445441	2445528	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; exon_id "ENSE00001035671"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2445441	2445528	.	-	1	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; protein_id "ENSP00000423920"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2444327	2444478	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; exon_id "ENSE00001035684"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2444327	2444478	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; protein_id "ENSP00000423920"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2443067	2443122	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "4"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; exon_id "ENSE00003510608"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2443067	2443122	.	-	1	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "4"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; protein_id "ENSP00000423920"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2442777	2442826	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "5"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; exon_id "ENSE00003614294"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2442777	2442826	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "5"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; protein_id "ENSP00000423920"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2442117	2442187	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "6"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; exon_id "ENSE00002035413"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2442173	2442187	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "6"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; protein_id "ENSP00000423920"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2441496	2441596	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "7"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; exon_id "ENSE00003588405"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2441232	2441369	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; exon_number "8"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; exon_id "ENSE00002083215"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2442117	2442172	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2441496	2441596	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2441232	2441369	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502512"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-012"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	retained_intron	transcript	2441732	2444452	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000471361"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-003"; transcript_source "havana";
+1	retained_intron	exon	2444327	2444452	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000471361"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-003"; transcript_source "havana"; exon_id "ENSE00001830723";
+1	retained_intron	exon	2443067	2443122	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000471361"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-003"; transcript_source "havana"; exon_id "ENSE00003526180";
+1	retained_intron	exon	2442777	2442826	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000471361"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-003"; transcript_source "havana"; exon_id "ENSE00003549967";
+1	retained_intron	exon	2441732	2442221	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000471361"; exon_number "4"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-003"; transcript_source "havana"; exon_id "ENSE00001811699";
+1	retained_intron	transcript	2443845	2445524	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000487804"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-002"; transcript_source "havana";
+1	retained_intron	exon	2445441	2445524	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000487804"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-002"; transcript_source "havana"; exon_id "ENSE00001900970";
+1	retained_intron	exon	2443845	2444478	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000487804"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-002"; transcript_source "havana"; exon_id "ENSE00001945902";
+1	retained_intron	transcript	2445852	2447376	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000515423"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-011"; transcript_source "havana";
+1	retained_intron	exon	2447001	2447376	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000515423"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-011"; transcript_source "havana"; exon_id "ENSE00001829613";
+1	retained_intron	exon	2445852	2445905	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000515423"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-011"; transcript_source "havana"; exon_id "ENSE00002070034";
+1	nonsense_mediated_decay	transcript	2445872	2450734	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2450582	2450734	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; exon_id "ENSE00001849513"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2450582	2450734	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; protein_id "ENSP00000425977"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2449955	2450036	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; exon_id "ENSE00001035664"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2449955	2450036	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; protein_id "ENSP00000425977"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2449603	2449703	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; exon_id "ENSE00001035666"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2449603	2449703	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; protein_id "ENSP00000425977"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2447001	2447156	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; exon_number "4"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; exon_id "ENSE00001035670"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2447001	2447156	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; exon_number "4"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; protein_id "ENSP00000425977"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2446697	2446840	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; exon_number "5"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; exon_id "ENSE00001912971"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2446760	2446840	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; exon_number "5"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; protein_id "ENSP00000425977"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2445872	2445905	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; exon_number "6"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; exon_id "ENSE00001821017"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2446697	2446759	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2445872	2445905	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000468002"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	transcript	2450643	2458014	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2457903	2458014	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; exon_id "ENSE00001857298"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2457903	2458014	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; protein_id "ENSP00000425668"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2452540	2452754	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; exon_id "ENSE00003471860"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	CDS	2452741	2452754	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; protein_id "ENSP00000425668"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2452162	2452345	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; exon_id "ENSE00003509834"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2451761	2451853	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; exon_number "4"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; exon_id "ENSE00003691062"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2451240	2451393	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; exon_number "5"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; exon_id "ENSE00003520543"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	exon	2450643	2450763	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; exon_number "6"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; exon_id "ENSE00001867074"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2452540	2452740	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2452162	2452345	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2451761	2451853	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2451240	2451393	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	UTR	2450643	2450763	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000486396"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-005"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	nonsense_mediated_decay	transcript	2452279	2458035	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502770"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-007"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	2457903	2458035	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502770"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-007"; transcript_source "havana"; exon_id "ENSE00002066428";
+1	nonsense_mediated_decay	CDS	2457903	2458026	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000502770"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-007"; transcript_source "havana"; protein_id "ENSP00000425674";
+1	nonsense_mediated_decay	start_codon	2458024	2458026	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000502770"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-007"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	2452540	2453380	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502770"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-007"; transcript_source "havana"; exon_id "ENSE00002041869";
+1	nonsense_mediated_decay	CDS	2453052	2453380	.	-	2	gene_id "ENSG00000157881"; transcript_id "ENST00000502770"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-007"; transcript_source "havana"; protein_id "ENSP00000425674";
+1	nonsense_mediated_decay	stop_codon	2453049	2453051	.	-	0	gene_id "ENSG00000157881"; transcript_id "ENST00000502770"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-007"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	2452279	2452345	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502770"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-007"; transcript_source "havana"; exon_id "ENSE00002019593";
+1	nonsense_mediated_decay	UTR	2458027	2458035	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502770"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	2452540	2453048	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502770"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	2452279	2452345	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000502770"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-007"; transcript_source "havana";
+1	processed_transcript	transcript	2452700	2457626	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000491212"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-006"; transcript_source "havana";
+1	processed_transcript	exon	2457040	2457626	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000491212"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-006"; transcript_source "havana"; exon_id "ENSE00001891135";
+1	processed_transcript	exon	2453157	2453239	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000491212"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-006"; transcript_source "havana"; exon_id "ENSE00003659728";
+1	processed_transcript	exon	2452700	2452754	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000491212"; exon_number "3"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-006"; transcript_source "havana"; exon_id "ENSE00001880245";
+1	retained_intron	transcript	2452806	2458036	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000514922"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-010"; transcript_source "havana";
+1	retained_intron	exon	2457903	2458036	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000514922"; exon_number "1"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-010"; transcript_source "havana"; exon_id "ENSE00002050175";
+1	retained_intron	exon	2452806	2453239	.	-	.	gene_id "ENSG00000157881"; transcript_id "ENST00000514922"; exon_number "2"; gene_name "PANK4"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PANK4-010"; transcript_source "havana"; exon_id "ENSE00002047460";
+1	protein_coding	gene	2460184	2461684	.	-	.	gene_id "ENSG00000197921"; gene_name "HES5"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2460184	2461684	.	-	.	gene_id "ENSG00000197921"; transcript_id "ENST00000378453"; gene_name "HES5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41233";
+1	protein_coding	exon	2461550	2461684	.	-	.	gene_id "ENSG00000197921"; transcript_id "ENST00000378453"; exon_number "1"; gene_name "HES5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41233"; exon_id "ENSE00001477587";
+1	protein_coding	CDS	2461550	2461603	.	-	0	gene_id "ENSG00000197921"; transcript_id "ENST00000378453"; exon_number "1"; gene_name "HES5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41233"; protein_id "ENSP00000367714";
+1	protein_coding	start_codon	2461601	2461603	.	-	0	gene_id "ENSG00000197921"; transcript_id "ENST00000378453"; exon_number "1"; gene_name "HES5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41233";
+1	protein_coding	exon	2461285	2461450	.	-	.	gene_id "ENSG00000197921"; transcript_id "ENST00000378453"; exon_number "2"; gene_name "HES5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41233"; exon_id "ENSE00001410539";
+1	protein_coding	CDS	2461285	2461450	.	-	0	gene_id "ENSG00000197921"; transcript_id "ENST00000378453"; exon_number "2"; gene_name "HES5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41233"; protein_id "ENSP00000367714";
+1	protein_coding	exon	2460184	2461188	.	-	.	gene_id "ENSG00000197921"; transcript_id "ENST00000378453"; exon_number "3"; gene_name "HES5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41233"; exon_id "ENSE00001434113";
+1	protein_coding	CDS	2460911	2461188	.	-	2	gene_id "ENSG00000197921"; transcript_id "ENST00000378453"; exon_number "3"; gene_name "HES5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41233"; protein_id "ENSP00000367714";
+1	protein_coding	stop_codon	2460908	2460910	.	-	0	gene_id "ENSG00000197921"; transcript_id "ENST00000378453"; exon_number "3"; gene_name "HES5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41233";
+1	protein_coding	UTR	2461604	2461684	.	-	.	gene_id "ENSG00000197921"; transcript_id "ENST00000378453"; gene_name "HES5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41233";
+1	protein_coding	UTR	2460184	2460907	.	-	.	gene_id "ENSG00000197921"; transcript_id "ENST00000378453"; gene_name "HES5"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "HES5-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41233";
+1	lincRNA	gene	2477904	2478899	.	+	.	gene_id "ENSG00000272449"; gene_name "RP3-395M20.12"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	2477904	2478899	.	+	.	gene_id "ENSG00000272449"; transcript_id "ENST00000606645"; gene_name "RP3-395M20.12"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP3-395M20.12-001"; transcript_source "havana";
+1	lincRNA	exon	2477904	2478899	.	+	.	gene_id "ENSG00000272449"; transcript_id "ENST00000606645"; exon_number "1"; gene_name "RP3-395M20.12"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP3-395M20.12-001"; transcript_source "havana"; exon_id "ENSE00003701233";
+1	processed_transcript	gene	2481359	2488470	.	-	.	gene_id "ENSG00000238164"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript";
+1	lincRNA	transcript	2481359	2483545	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000449660"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-002"; transcript_source "havana";
+1	lincRNA	exon	2482431	2483545	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000449660"; exon_number "1"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-002"; transcript_source "havana"; exon_id "ENSE00001603545";
+1	lincRNA	exon	2482012	2482170	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000449660"; exon_number "2"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-002"; transcript_source "havana"; exon_id "ENSE00001749889";
+1	lincRNA	exon	2481359	2481713	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000449660"; exon_number "3"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-002"; transcript_source "havana"; exon_id "ENSE00001779544";
+1	lincRNA	transcript	2481359	2485684	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000443892"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-006"; transcript_source "havana";
+1	lincRNA	exon	2485540	2485684	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000443892"; exon_number "1"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-006"; transcript_source "havana"; exon_id "ENSE00001876153";
+1	lincRNA	exon	2481359	2481713	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000443892"; exon_number "2"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-006"; transcript_source "havana"; exon_id "ENSE00001779544";
+1	antisense	transcript	2481359	2488450	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000416860"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-001"; transcript_source "havana";
+1	antisense	exon	2488416	2488450	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000416860"; exon_number "1"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-001"; transcript_source "havana"; exon_id "ENSE00001610795";
+1	antisense	exon	2486163	2488135	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000416860"; exon_number "2"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-001"; transcript_source "havana"; exon_id "ENSE00001638317";
+1	antisense	exon	2485540	2485735	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000416860"; exon_number "3"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-001"; transcript_source "havana"; exon_id "ENSE00001731480";
+1	antisense	exon	2485065	2485253	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000416860"; exon_number "4"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-001"; transcript_source "havana"; exon_id "ENSE00001765907";
+1	antisense	exon	2483214	2484142	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000416860"; exon_number "5"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-001"; transcript_source "havana"; exon_id "ENSE00001686392";
+1	antisense	exon	2481359	2481558	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000416860"; exon_number "6"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-001"; transcript_source "havana"; exon_id "ENSE00001678711";
+1	lincRNA	transcript	2481513	2483037	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000448624"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-004"; transcript_source "havana";
+1	lincRNA	exon	2482431	2483037	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000448624"; exon_number "1"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-004"; transcript_source "havana"; exon_id "ENSE00001812038";
+1	lincRNA	exon	2481513	2481713	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000448624"; exon_number "2"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-004"; transcript_source "havana"; exon_id "ENSE00001679987";
+1	lincRNA	transcript	2481722	2485589	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000432521"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-005"; transcript_source "havana";
+1	lincRNA	exon	2482431	2485589	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000432521"; exon_number "1"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-005"; transcript_source "havana"; exon_id "ENSE00001784969";
+1	lincRNA	exon	2481722	2482170	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000432521"; exon_number "2"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-005"; transcript_source "havana"; exon_id "ENSE00001615797";
+1	antisense	transcript	2485680	2488470	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000452793"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-003"; transcript_source "havana";
+1	antisense	exon	2488416	2488470	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000452793"; exon_number "1"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-003"; transcript_source "havana"; exon_id "ENSE00001702398";
+1	antisense	exon	2487867	2488135	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000452793"; exon_number "2"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-003"; transcript_source "havana"; exon_id "ENSE00001638229";
+1	antisense	exon	2487120	2487308	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000452793"; exon_number "3"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-003"; transcript_source "havana"; exon_id "ENSE00001725219";
+1	antisense	exon	2485680	2485735	.	-	.	gene_id "ENSG00000238164"; transcript_id "ENST00000452793"; exon_number "4"; gene_name "RP3-395M20.8"; gene_source "havana"; gene_biotype "processed_transcript"; transcript_name "RP3-395M20.8-003"; transcript_source "havana"; exon_id "ENSE00001758489";
+1	protein_coding	gene	2487078	2496821	.	+	.	gene_id "ENSG00000157873"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2487078	2492153	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2487078	2487106	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; exon_id "ENSE00001759361"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2488024	2488172	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; exon_id "ENSE00001576845"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2488104	2488172	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; protein_id "ENSP00000411854"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2489165	2489273	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; exon_id "ENSE00003529037"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2489165	2489273	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; protein_id "ENSP00000411854"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2489782	2489907	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; exon_id "ENSE00003537553"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2489782	2489907	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; protein_id "ENSP00000411854"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2491262	2491417	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; exon_id "ENSE00003526946"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2491262	2491417	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; protein_id "ENSP00000411854"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2492063	2492153	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; exon_id "ENSE00003503406"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2492063	2492153	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; protein_id "ENSP00000411854"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2487078	2487106	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2488024	2488103	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000426449"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-011"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2487230	2493254	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2487230	2487289	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; exon_id "ENSE00001681534"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2488024	2488172	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; exon_id "ENSE00001576845"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2488104	2488172	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; protein_id "ENSP00000415254"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2489165	2489273	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; exon_id "ENSE00003529037"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2489165	2489273	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; protein_id "ENSP00000415254"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2489782	2489907	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; exon_id "ENSE00003537553"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2489782	2489907	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; protein_id "ENSP00000415254"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2491262	2491417	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; exon_id "ENSE00003526946"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2491262	2491417	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; protein_id "ENSP00000415254"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2492063	2492153	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; exon_id "ENSE00003475243"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2492063	2492153	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; protein_id "ENSP00000415254"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2493112	2493254	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; exon_number "7"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; exon_id "ENSE00003631410"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2493112	2493254	.	+	1	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; exon_number "7"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; protein_id "ENSP00000415254"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2487230	2487289	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2488024	2488103	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000434817"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-008"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2487241	2493254	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2487241	2487691	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; exon_id "ENSE00001662043"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2488024	2488172	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; exon_id "ENSE00001576845"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2488104	2488172	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; protein_id "ENSP00000399292"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2489165	2489273	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; exon_id "ENSE00003529037"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2489165	2489273	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; protein_id "ENSP00000399292"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2489782	2489907	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; exon_id "ENSE00003537553"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2489782	2489907	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; protein_id "ENSP00000399292"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2491262	2491417	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; exon_id "ENSE00003526946"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2491262	2491417	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; protein_id "ENSP00000399292"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2492063	2492153	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; exon_id "ENSE00003475243"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2492063	2492153	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; protein_id "ENSP00000399292"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2493112	2493254	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; exon_number "7"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; exon_id "ENSE00003631410"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2493112	2493254	.	+	1	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; exon_number "7"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; protein_id "ENSP00000399292"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2487241	2487691	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2488024	2488103	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000435221"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2487419	2493254	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2487419	2487471	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; exon_id "ENSE00001617418"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2488024	2488172	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; exon_id "ENSE00001576845"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2488104	2488172	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; protein_id "ENSP00000399533"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2489165	2489273	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; exon_id "ENSE00003529037"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2489165	2489273	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; protein_id "ENSP00000399533"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2489782	2489907	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; exon_id "ENSE00003537553"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2489782	2489907	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; protein_id "ENSP00000399533"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2491262	2491417	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; exon_id "ENSE00003526946"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2491262	2491417	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; protein_id "ENSP00000399533"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2492063	2492153	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; exon_id "ENSE00003475243"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2492063	2492153	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; protein_id "ENSP00000399533"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2493112	2493254	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; exon_number "7"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; exon_id "ENSE00003631410"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2493112	2493254	.	+	1	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; exon_number "7"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; protein_id "ENSP00000399533"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2487419	2487471	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2488024	2488103	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000451778"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-006"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	2487661	2493157	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana";
+1	protein_coding	exon	2487661	2487700	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana"; exon_id "ENSE00001587405";
+1	protein_coding	exon	2488024	2488172	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana"; exon_id "ENSE00001576845";
+1	protein_coding	CDS	2488104	2488172	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana"; protein_id "ENSP00000386859";
+1	protein_coding	start_codon	2488104	2488106	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana";
+1	protein_coding	exon	2489165	2489273	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana"; exon_id "ENSE00003529037";
+1	protein_coding	CDS	2489165	2489273	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana"; protein_id "ENSP00000386859";
+1	protein_coding	exon	2489782	2489907	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana"; exon_id "ENSE00003537553";
+1	protein_coding	CDS	2489782	2489907	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana"; protein_id "ENSP00000386859";
+1	protein_coding	exon	2491262	2491417	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana"; exon_id "ENSE00003526946";
+1	protein_coding	CDS	2491262	2491417	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana"; protein_id "ENSP00000386859";
+1	protein_coding	exon	2492063	2492153	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana"; exon_id "ENSE00003475243";
+1	protein_coding	CDS	2492063	2492153	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana"; protein_id "ENSP00000386859";
+1	protein_coding	exon	2492933	2493157	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "7"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana"; exon_id "ENSE00001579534";
+1	protein_coding	CDS	2492933	2492960	.	+	1	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "7"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana"; protein_id "ENSP00000386859";
+1	protein_coding	stop_codon	2492961	2492963	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; exon_number "7"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana";
+1	protein_coding	UTR	2487661	2487700	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana";
+1	protein_coding	UTR	2488024	2488103	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana";
+1	protein_coding	UTR	2492964	2493157	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000409119"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-009"; transcript_source "havana";
+1	protein_coding	transcript	2487805	2495268	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046";
+1	protein_coding	exon	2487805	2488172	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; exon_id "ENSE00001409963";
+1	protein_coding	CDS	2488104	2488172	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; protein_id "ENSP00000347948";
+1	protein_coding	start_codon	2488104	2488106	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046";
+1	protein_coding	exon	2489165	2489273	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; exon_id "ENSE00003529037";
+1	protein_coding	CDS	2489165	2489273	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; protein_id "ENSP00000347948";
+1	protein_coding	exon	2489782	2489907	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; exon_id "ENSE00003537553";
+1	protein_coding	CDS	2489782	2489907	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; protein_id "ENSP00000347948";
+1	protein_coding	exon	2491262	2491417	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; exon_id "ENSE00003526946";
+1	protein_coding	CDS	2491262	2491417	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; protein_id "ENSP00000347948";
+1	protein_coding	exon	2492063	2492153	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; exon_id "ENSE00003475243";
+1	protein_coding	CDS	2492063	2492153	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; protein_id "ENSP00000347948";
+1	protein_coding	exon	2493112	2493254	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; exon_id "ENSE00003611709";
+1	protein_coding	CDS	2493112	2493254	.	+	1	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; protein_id "ENSP00000347948";
+1	protein_coding	exon	2494304	2494335	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "7"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; exon_id "ENSE00003636931";
+1	protein_coding	CDS	2494304	2494335	.	+	2	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "7"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; protein_id "ENSP00000347948";
+1	protein_coding	exon	2494587	2495268	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "8"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; exon_id "ENSE00003641009";
+1	protein_coding	CDS	2494587	2494709	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "8"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046"; protein_id "ENSP00000347948";
+1	protein_coding	stop_codon	2494710	2494712	.	+	0	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; exon_number "8"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046";
+1	protein_coding	UTR	2487805	2488103	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046";
+1	protein_coding	UTR	2494713	2495268	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000355716"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS44046";
+1	retained_intron	transcript	2487825	2495268	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000475523"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-002"; transcript_source "havana";
+1	retained_intron	exon	2487825	2487894	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000475523"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-002"; transcript_source "havana"; exon_id "ENSE00001915877";
+1	retained_intron	exon	2490791	2491417	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000475523"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-002"; transcript_source "havana"; exon_id "ENSE00001876484";
+1	retained_intron	exon	2492063	2492153	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000475523"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-002"; transcript_source "havana"; exon_id "ENSE00003482841";
+1	retained_intron	exon	2493112	2493254	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000475523"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-002"; transcript_source "havana"; exon_id "ENSE00003662305";
+1	retained_intron	exon	2494304	2494335	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000475523"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-002"; transcript_source "havana"; exon_id "ENSE00003630371";
+1	retained_intron	exon	2494587	2495268	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000475523"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-002"; transcript_source "havana"; exon_id "ENSE00003545858";
+1	processed_transcript	transcript	2487844	2490595	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000442392"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-013"; transcript_source "havana";
+1	processed_transcript	exon	2487844	2488172	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000442392"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-013"; transcript_source "havana"; exon_id "ENSE00001606475";
+1	processed_transcript	exon	2489165	2489273	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000442392"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-013"; transcript_source "havana"; exon_id "ENSE00003627719";
+1	processed_transcript	exon	2489782	2489907	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000442392"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-013"; transcript_source "havana"; exon_id "ENSE00003567199";
+1	processed_transcript	exon	2490320	2490595	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000442392"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-013"; transcript_source "havana"; exon_id "ENSE00001634307";
+1	retained_intron	transcript	2487845	2490301	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000482074"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-012"; transcript_source "havana";
+1	retained_intron	exon	2487845	2488172	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000482074"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-012"; transcript_source "havana"; exon_id "ENSE00001941009";
+1	retained_intron	exon	2489165	2489273	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000482074"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-012"; transcript_source "havana"; exon_id "ENSE00003627719";
+1	retained_intron	exon	2489782	2490301	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000482074"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-012"; transcript_source "havana"; exon_id "ENSE00001917996";
+1	retained_intron	transcript	2487996	2492974	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000496064"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-016"; transcript_source "havana";
+1	retained_intron	exon	2487996	2488172	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000496064"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-016"; transcript_source "havana"; exon_id "ENSE00001890939";
+1	retained_intron	exon	2489165	2489273	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000496064"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-016"; transcript_source "havana"; exon_id "ENSE00003627719";
+1	retained_intron	exon	2489782	2489907	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000496064"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-016"; transcript_source "havana"; exon_id "ENSE00003567199";
+1	retained_intron	exon	2491262	2491417	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000496064"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-016"; transcript_source "havana"; exon_id "ENSE00003516719";
+1	retained_intron	exon	2492063	2492974	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000496064"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-016"; transcript_source "havana"; exon_id "ENSE00001841528";
+1	retained_intron	transcript	2488010	2495188	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000463471"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-015"; transcript_source "havana";
+1	retained_intron	exon	2488010	2488172	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000463471"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-015"; transcript_source "havana"; exon_id "ENSE00001815889";
+1	retained_intron	exon	2489165	2489273	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000463471"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-015"; transcript_source "havana"; exon_id "ENSE00003627719";
+1	retained_intron	exon	2489782	2491417	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000463471"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-015"; transcript_source "havana"; exon_id "ENSE00001855546";
+1	retained_intron	exon	2492063	2492153	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000463471"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-015"; transcript_source "havana"; exon_id "ENSE00003482841";
+1	retained_intron	exon	2492933	2495188	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000463471"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-015"; transcript_source "havana"; exon_id "ENSE00001840111";
+1	retained_intron	transcript	2489252	2495265	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000466750"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-003"; transcript_source "havana";
+1	retained_intron	exon	2489252	2489273	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000466750"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-003"; transcript_source "havana"; exon_id "ENSE00001866592";
+1	retained_intron	exon	2489782	2491417	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000466750"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-003"; transcript_source "havana"; exon_id "ENSE00001855546";
+1	retained_intron	exon	2492063	2492153	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000466750"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-003"; transcript_source "havana"; exon_id "ENSE00003482841";
+1	retained_intron	exon	2493112	2493254	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000466750"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-003"; transcript_source "havana"; exon_id "ENSE00003662305";
+1	retained_intron	exon	2494304	2494335	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000466750"; exon_number "5"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-003"; transcript_source "havana"; exon_id "ENSE00003630371";
+1	retained_intron	exon	2494587	2495265	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000466750"; exon_number "6"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-003"; transcript_source "havana"; exon_id "ENSE00001923065";
+1	retained_intron	transcript	2491019	2492981	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000471768"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-010"; transcript_source "havana";
+1	retained_intron	exon	2491019	2491417	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000471768"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-010"; transcript_source "havana"; exon_id "ENSE00001872286";
+1	retained_intron	exon	2492063	2492153	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000471768"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-010"; transcript_source "havana"; exon_id "ENSE00003482841";
+1	retained_intron	exon	2492933	2492981	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000471768"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-010"; transcript_source "havana"; exon_id "ENSE00001887098";
+1	retained_intron	transcript	2491993	2494943	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000463835"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-005"; transcript_source "havana";
+1	retained_intron	exon	2491993	2492153	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000463835"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-005"; transcript_source "havana"; exon_id "ENSE00001909657";
+1	retained_intron	exon	2492933	2493254	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000463835"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-005"; transcript_source "havana"; exon_id "ENSE00001889301";
+1	retained_intron	exon	2494304	2494335	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000463835"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-005"; transcript_source "havana"; exon_id "ENSE00003630371";
+1	retained_intron	exon	2494587	2494943	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000463835"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-005"; transcript_source "havana"; exon_id "ENSE00001946643";
+1	processed_transcript	transcript	2492121	2496821	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000482602"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-004"; transcript_source "havana"; tag "mRNA_start_NF";
+1	processed_transcript	exon	2492121	2492153	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000482602"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-004"; transcript_source "havana"; exon_id "ENSE00001873517"; tag "mRNA_start_NF";
+1	processed_transcript	exon	2493216	2493254	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000482602"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-004"; transcript_source "havana"; exon_id "ENSE00001888710"; tag "mRNA_start_NF";
+1	processed_transcript	exon	2494304	2494335	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000482602"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-004"; transcript_source "havana"; exon_id "ENSE00003630371"; tag "mRNA_start_NF";
+1	processed_transcript	exon	2496492	2496821	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000482602"; exon_number "4"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-004"; transcript_source "havana"; exon_id "ENSE00001912161"; tag "mRNA_start_NF";
+1	processed_transcript	transcript	2493240	2494891	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000480305"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-014"; transcript_source "havana";
+1	processed_transcript	exon	2493240	2493396	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000480305"; exon_number "1"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-014"; transcript_source "havana"; exon_id "ENSE00001870794";
+1	processed_transcript	exon	2494304	2494335	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000480305"; exon_number "2"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-014"; transcript_source "havana"; exon_id "ENSE00003630371";
+1	processed_transcript	exon	2494587	2494891	.	+	.	gene_id "ENSG00000157873"; transcript_id "ENST00000480305"; exon_number "3"; gene_name "TNFRSF14"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TNFRSF14-014"; transcript_source "havana"; exon_id "ENSE00001889962";
+1	antisense	gene	2497849	2501327	.	+	.	gene_id "ENSG00000225931"; gene_name "RP3-395M20.7"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	2497849	2501327	.	+	.	gene_id "ENSG00000225931"; transcript_id "ENST00000456687"; gene_name "RP3-395M20.7"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.7-001"; transcript_source "havana";
+1	antisense	exon	2497849	2498044	.	+	.	gene_id "ENSG00000225931"; transcript_id "ENST00000456687"; exon_number "1"; gene_name "RP3-395M20.7"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.7-001"; transcript_source "havana"; exon_id "ENSE00001889931";
+1	antisense	exon	2499305	2499493	.	+	.	gene_id "ENSG00000225931"; transcript_id "ENST00000456687"; exon_number "2"; gene_name "RP3-395M20.7"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.7-001"; transcript_source "havana"; exon_id "ENSE00001659318";
+1	antisense	exon	2500416	2501327	.	+	.	gene_id "ENSG00000225931"; transcript_id "ENST00000456687"; exon_number "3"; gene_name "RP3-395M20.7"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.7-001"; transcript_source "havana"; exon_id "ENSE00001624410";
+1	antisense	gene	2512999	2515972	.	+	.	gene_id "ENSG00000228037"; gene_name "RP3-395M20.9"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	2512999	2515972	.	+	.	gene_id "ENSG00000228037"; transcript_id "ENST00000424215"; gene_name "RP3-395M20.9"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.9-001"; transcript_source "havana";
+1	antisense	exon	2512999	2513089	.	+	.	gene_id "ENSG00000228037"; transcript_id "ENST00000424215"; exon_number "1"; gene_name "RP3-395M20.9"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.9-001"; transcript_source "havana"; exon_id "ENSE00001795368";
+1	antisense	exon	2514809	2514934	.	+	.	gene_id "ENSG00000228037"; transcript_id "ENST00000424215"; exon_number "2"; gene_name "RP3-395M20.9"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.9-001"; transcript_source "havana"; exon_id "ENSE00001694676";
+1	antisense	exon	2515564	2515972	.	+	.	gene_id "ENSG00000228037"; transcript_id "ENST00000424215"; exon_number "3"; gene_name "RP3-395M20.9"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP3-395M20.9-001"; transcript_source "havana"; exon_id "ENSE00001601095";
+1	protein_coding	gene	2517930	2522908	.	+	.	gene_id "ENSG00000157870"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	processed_transcript	transcript	2517930	2521071	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000493183"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-006"; transcript_source "havana";
+1	processed_transcript	exon	2517930	2518030	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000493183"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-006"; transcript_source "havana"; exon_id "ENSE00001866450";
+1	processed_transcript	exon	2518530	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000493183"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-006"; transcript_source "havana"; exon_id "ENSE00003621294";
+1	processed_transcript	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000493183"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-006"; transcript_source "havana"; exon_id "ENSE00003496342";
+1	processed_transcript	exon	2519829	2519892	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000493183"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-006"; transcript_source "havana"; exon_id "ENSE00003549510";
+1	processed_transcript	exon	2519989	2520064	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000493183"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-006"; transcript_source "havana"; exon_id "ENSE00003591857";
+1	processed_transcript	exon	2520361	2520479	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000493183"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-006"; transcript_source "havana"; exon_id "ENSE00003693085";
+1	processed_transcript	exon	2520849	2521071	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000493183"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-006"; transcript_source "havana"; exon_id "ENSE00001812302";
+1	processed_transcript	transcript	2517979	2521097	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000474659"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-007"; transcript_source "havana";
+1	processed_transcript	exon	2517979	2518030	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000474659"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-007"; transcript_source "havana"; exon_id "ENSE00001826460";
+1	processed_transcript	exon	2518530	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000474659"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-007"; transcript_source "havana"; exon_id "ENSE00003621294";
+1	processed_transcript	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000474659"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-007"; transcript_source "havana"; exon_id "ENSE00003496342";
+1	processed_transcript	exon	2519829	2519892	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000474659"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-007"; transcript_source "havana"; exon_id "ENSE00003549510";
+1	processed_transcript	exon	2519989	2520064	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000474659"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-007"; transcript_source "havana"; exon_id "ENSE00003591857";
+1	processed_transcript	exon	2520393	2520479	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000474659"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-007"; transcript_source "havana"; exon_id "ENSE00003685599";
+1	processed_transcript	exon	2520849	2521097	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000474659"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-007"; transcript_source "havana"; exon_id "ENSE00001938339";
+1	protein_coding	transcript	2518214	2522907	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44";
+1	protein_coding	exon	2518214	2518387	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; exon_id "ENSE00002252442";
+1	protein_coding	CDS	2518235	2518387	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; protein_id "ENSP00000394405";
+1	protein_coding	start_codon	2518235	2518237	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44";
+1	protein_coding	exon	2518530	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; exon_id "ENSE00003620374";
+1	protein_coding	CDS	2518530	2518734	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; protein_id "ENSP00000394405";
+1	protein_coding	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; exon_id "ENSE00003533718";
+1	protein_coding	CDS	2519180	2519231	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; protein_id "ENSP00000394405";
+1	protein_coding	exon	2519829	2519892	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; exon_id "ENSE00003630848";
+1	protein_coding	CDS	2519829	2519892	.	+	1	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; protein_id "ENSP00000394405";
+1	protein_coding	exon	2519989	2520064	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; exon_id "ENSE00003566896";
+1	protein_coding	CDS	2519989	2520064	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; protein_id "ENSP00000394405";
+1	protein_coding	exon	2520361	2520479	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; exon_id "ENSE00003535204";
+1	protein_coding	CDS	2520361	2520479	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; protein_id "ENSP00000394405";
+1	protein_coding	exon	2520849	2522907	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; exon_id "ENSE00003485678";
+1	protein_coding	CDS	2520849	2520863	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44"; protein_id "ENSP00000394405";
+1	protein_coding	stop_codon	2520864	2520866	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44";
+1	protein_coding	UTR	2518214	2518234	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44";
+1	protein_coding	UTR	2520867	2522907	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000419916"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-001"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44";
+1	protein_coding	transcript	2518219	2522906	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana";
+1	protein_coding	exon	2518219	2518387	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; exon_id "ENSE00002214757";
+1	protein_coding	CDS	2518235	2518387	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; protein_id "ENSP00000367681";
+1	protein_coding	start_codon	2518235	2518237	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana";
+1	protein_coding	exon	2518530	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; exon_id "ENSE00003620374";
+1	protein_coding	CDS	2518530	2518734	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; protein_id "ENSP00000367681";
+1	protein_coding	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; exon_id "ENSE00003533718";
+1	protein_coding	CDS	2519180	2519231	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; protein_id "ENSP00000367681";
+1	protein_coding	exon	2519775	2519892	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; exon_id "ENSE00003041712";
+1	protein_coding	CDS	2519775	2519892	.	+	1	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; protein_id "ENSP00000367681";
+1	protein_coding	exon	2519989	2520064	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; exon_id "ENSE00003566896";
+1	protein_coding	CDS	2519989	2520064	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; protein_id "ENSP00000367681";
+1	protein_coding	exon	2520393	2520479	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; exon_id "ENSE00003668471";
+1	protein_coding	CDS	2520393	2520479	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; protein_id "ENSP00000367681";
+1	protein_coding	exon	2520849	2522906	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; exon_id "ENSE00003458294";
+1	protein_coding	CDS	2520849	2520850	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana"; protein_id "ENSP00000367681";
+1	protein_coding	stop_codon	2520851	2520853	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana";
+1	protein_coding	UTR	2518219	2518234	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana";
+1	protein_coding	UTR	2520854	2522906	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378424"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-002"; transcript_source "havana";
+1	protein_coding	transcript	2518235	2521386	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564";
+1	protein_coding	exon	2518235	2518387	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564"; exon_id "ENSE00001709846";
+1	protein_coding	CDS	2518235	2518387	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564"; protein_id "ENSP00000443605";
+1	protein_coding	start_codon	2518235	2518237	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564";
+1	protein_coding	exon	2518530	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564"; exon_id "ENSE00003620374";
+1	protein_coding	CDS	2518530	2518734	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564"; protein_id "ENSP00000443605";
+1	protein_coding	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564"; exon_id "ENSE00003533718";
+1	protein_coding	CDS	2519180	2519231	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564"; protein_id "ENSP00000443605";
+1	protein_coding	exon	2519829	2519892	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564"; exon_id "ENSE00003630848";
+1	protein_coding	CDS	2519829	2519892	.	+	1	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564"; protein_id "ENSP00000443605";
+1	protein_coding	exon	2520396	2520479	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564"; exon_id "ENSE00001778299";
+1	protein_coding	CDS	2520396	2520479	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564"; protein_id "ENSP00000443605";
+1	protein_coding	exon	2520849	2521386	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564"; exon_id "ENSE00002313178";
+1	protein_coding	CDS	2520849	2520863	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564"; protein_id "ENSP00000443605";
+1	protein_coding	stop_codon	2520864	2520866	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564";
+1	protein_coding	UTR	2520867	2521386	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000537325"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-203"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55564";
+1	protein_coding	transcript	2518237	2522902	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2518237	2518387	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; exon_id "ENSE00001477512"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2518237	2518387	.	+	1	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; protein_id "ENSP00000367684"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2518530	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; exon_id "ENSE00003620374"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2518530	2518734	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; protein_id "ENSP00000367684"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; exon_id "ENSE00003533718"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2519180	2519231	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; protein_id "ENSP00000367684"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2519829	2519892	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; exon_id "ENSE00003630848"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2519829	2519892	.	+	1	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; protein_id "ENSP00000367684"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2519989	2520064	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; exon_id "ENSE00003566896"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2519989	2520064	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; protein_id "ENSP00000367684"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2520393	2520479	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; exon_id "ENSE00003668471"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2520393	2520479	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; protein_id "ENSP00000367684"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2520849	2522902	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; exon_id "ENSE00003575290"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2520849	2520853	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; protein_id "ENSP00000367684"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	2520854	2522902	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378427"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-003"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	2518249	2522902	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl";
+1	protein_coding	exon	2518249	2518387	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; exon_id "ENSE00001902665";
+1	protein_coding	CDS	2518325	2518387	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; protein_id "ENSP00000367682";
+1	protein_coding	start_codon	2518325	2518327	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl";
+1	protein_coding	exon	2518530	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; exon_id "ENSE00003620374";
+1	protein_coding	CDS	2518530	2518734	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; protein_id "ENSP00000367682";
+1	protein_coding	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; exon_id "ENSE00003533718";
+1	protein_coding	CDS	2519180	2519231	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; protein_id "ENSP00000367682";
+1	protein_coding	exon	2519829	2519892	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; exon_id "ENSE00003630848";
+1	protein_coding	CDS	2519829	2519892	.	+	1	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; protein_id "ENSP00000367682";
+1	protein_coding	exon	2519989	2520064	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; exon_id "ENSE00003566896";
+1	protein_coding	CDS	2519989	2520064	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; protein_id "ENSP00000367682";
+1	protein_coding	exon	2520361	2520479	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; exon_id "ENSE00003535204";
+1	protein_coding	CDS	2520361	2520479	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; protein_id "ENSP00000367682";
+1	protein_coding	exon	2520849	2522902	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; exon_id "ENSE00003558678";
+1	protein_coding	CDS	2520849	2520863	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl"; protein_id "ENSP00000367682";
+1	protein_coding	stop_codon	2520864	2520866	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2518249	2518324	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2520867	2522902	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000378425"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-201"; transcript_source "ensembl";
+1	processed_transcript	transcript	2518256	2521244	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000464043"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-009"; transcript_source "havana";
+1	processed_transcript	exon	2518256	2518312	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000464043"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-009"; transcript_source "havana"; exon_id "ENSE00001907129";
+1	processed_transcript	exon	2518553	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000464043"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-009"; transcript_source "havana"; exon_id "ENSE00001890871";
+1	processed_transcript	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000464043"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-009"; transcript_source "havana"; exon_id "ENSE00003496342";
+1	processed_transcript	exon	2519829	2519892	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000464043"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-009"; transcript_source "havana"; exon_id "ENSE00003549510";
+1	processed_transcript	exon	2519989	2520064	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000464043"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-009"; transcript_source "havana"; exon_id "ENSE00003591857";
+1	processed_transcript	exon	2520361	2520479	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000464043"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-009"; transcript_source "havana"; exon_id "ENSE00003693085";
+1	processed_transcript	exon	2520849	2521244	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000464043"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-009"; transcript_source "havana"; exon_id "ENSE00001889010";
+1	protein_coding	transcript	2518258	2522906	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl";
+1	protein_coding	exon	2518258	2518387	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; exon_id "ENSE00001733293";
+1	protein_coding	CDS	2518325	2518387	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; protein_id "ENSP00000413218";
+1	protein_coding	start_codon	2518325	2518327	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl";
+1	protein_coding	exon	2518530	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; exon_id "ENSE00003620374";
+1	protein_coding	CDS	2518530	2518734	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; protein_id "ENSP00000413218";
+1	protein_coding	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; exon_id "ENSE00003533718";
+1	protein_coding	CDS	2519180	2519231	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; protein_id "ENSP00000413218";
+1	protein_coding	exon	2519775	2519892	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; exon_id "ENSE00003041712";
+1	protein_coding	CDS	2519775	2519892	.	+	1	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; protein_id "ENSP00000413218";
+1	protein_coding	exon	2519989	2520064	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; exon_id "ENSE00003566896";
+1	protein_coding	CDS	2519989	2520064	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; protein_id "ENSP00000413218";
+1	protein_coding	exon	2520361	2520479	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; exon_id "ENSE00003535204";
+1	protein_coding	CDS	2520361	2520479	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; protein_id "ENSP00000413218";
+1	protein_coding	exon	2520849	2522906	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; exon_id "ENSE00003491793";
+1	protein_coding	CDS	2520849	2520863	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl"; protein_id "ENSP00000413218";
+1	protein_coding	stop_codon	2520864	2520866	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; exon_number "7"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl";
+1	protein_coding	UTR	2518258	2518324	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl";
+1	protein_coding	UTR	2520867	2522906	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000444521"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-202"; transcript_source "ensembl";
+1	protein_coding	transcript	2518272	2520416	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000465233"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-011"; transcript_source "havana"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2518272	2518387	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000465233"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-011"; transcript_source "havana"; exon_id "ENSE00001825978"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2518272	2518387	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000465233"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-011"; transcript_source "havana"; protein_id "ENSP00000462185"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2518530	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000465233"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-011"; transcript_source "havana"; exon_id "ENSE00003620374"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2518530	2518734	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000465233"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-011"; transcript_source "havana"; protein_id "ENSP00000462185"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000465233"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-011"; transcript_source "havana"; exon_id "ENSE00003533718"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2519180	2519231	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000465233"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-011"; transcript_source "havana"; protein_id "ENSP00000462185"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2519829	2519892	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000465233"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-011"; transcript_source "havana"; exon_id "ENSE00003630848"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2519829	2519892	.	+	1	gene_id "ENSG00000157870"; transcript_id "ENST00000465233"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-011"; transcript_source "havana"; protein_id "ENSP00000462185"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2519969	2520064	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000465233"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-011"; transcript_source "havana"; exon_id "ENSE00003497204"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2519969	2520064	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000465233"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-011"; transcript_source "havana"; protein_id "ENSP00000462185"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2520361	2520416	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000465233"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-011"; transcript_source "havana"; exon_id "ENSE00001904513"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2520361	2520416	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000465233"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-011"; transcript_source "havana"; protein_id "ENSP00000462185"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	2518316	2520431	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000498083"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-010"; transcript_source "havana"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2518316	2518387	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000498083"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-010"; transcript_source "havana"; exon_id "ENSE00001937498"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2518316	2518387	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000498083"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-010"; transcript_source "havana"; protein_id "ENSP00000463127"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2518530	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000498083"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-010"; transcript_source "havana"; exon_id "ENSE00003620374"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2518530	2518734	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000498083"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-010"; transcript_source "havana"; protein_id "ENSP00000463127"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000498083"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-010"; transcript_source "havana"; exon_id "ENSE00003533718"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2519180	2519231	.	+	2	gene_id "ENSG00000157870"; transcript_id "ENST00000498083"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-010"; transcript_source "havana"; protein_id "ENSP00000463127"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2519829	2519892	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000498083"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-010"; transcript_source "havana"; exon_id "ENSE00003630848"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2519829	2519892	.	+	1	gene_id "ENSG00000157870"; transcript_id "ENST00000498083"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-010"; transcript_source "havana"; protein_id "ENSP00000463127"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2520361	2520431	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000498083"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-010"; transcript_source "havana"; exon_id "ENSE00001927597"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2520361	2520431	.	+	0	gene_id "ENSG00000157870"; transcript_id "ENST00000498083"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-010"; transcript_source "havana"; protein_id "ENSP00000463127"; tag "cds_end_NF"; tag "cds_start_NF"; tag "mRNA_end_NF"; tag "mRNA_start_NF";
+1	processed_transcript	transcript	2518481	2520952	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000481683"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-012"; transcript_source "havana";
+1	processed_transcript	exon	2518481	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000481683"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-012"; transcript_source "havana"; exon_id "ENSE00001886253";
+1	processed_transcript	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000481683"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-012"; transcript_source "havana"; exon_id "ENSE00003496342";
+1	processed_transcript	exon	2519829	2519892	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000481683"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-012"; transcript_source "havana"; exon_id "ENSE00003549510";
+1	processed_transcript	exon	2519969	2520064	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000481683"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-012"; transcript_source "havana"; exon_id "ENSE00003461304";
+1	processed_transcript	exon	2520361	2520479	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000481683"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-012"; transcript_source "havana"; exon_id "ENSE00003693085";
+1	processed_transcript	exon	2520849	2520952	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000481683"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-012"; transcript_source "havana"; exon_id "ENSE00001906016";
+1	processed_transcript	transcript	2518517	2522908	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000484099"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-004"; transcript_source "havana";
+1	processed_transcript	exon	2518517	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000484099"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-004"; transcript_source "havana"; exon_id "ENSE00001948356";
+1	processed_transcript	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000484099"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-004"; transcript_source "havana"; exon_id "ENSE00003496342";
+1	processed_transcript	exon	2519829	2519892	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000484099"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-004"; transcript_source "havana"; exon_id "ENSE00003549510";
+1	processed_transcript	exon	2519969	2520064	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000484099"; exon_number "4"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-004"; transcript_source "havana"; exon_id "ENSE00003461304";
+1	processed_transcript	exon	2520393	2520479	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000484099"; exon_number "5"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-004"; transcript_source "havana"; exon_id "ENSE00003685599";
+1	processed_transcript	exon	2520849	2522908	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000484099"; exon_number "6"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-004"; transcript_source "havana"; exon_id "ENSE00001957070";
+1	processed_transcript	transcript	2518524	2520184	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000477045"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-013"; transcript_source "havana";
+1	processed_transcript	exon	2518524	2518734	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000477045"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-013"; transcript_source "havana"; exon_id "ENSE00001894699";
+1	processed_transcript	exon	2519180	2519231	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000477045"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-013"; transcript_source "havana"; exon_id "ENSE00003496342";
+1	processed_transcript	exon	2519829	2520184	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000477045"; exon_number "3"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-013"; transcript_source "havana"; exon_id "ENSE00001877820";
+1	processed_transcript	transcript	2520033	2522907	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000476686"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-005"; transcript_source "havana";
+1	processed_transcript	exon	2520033	2520479	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000476686"; exon_number "1"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-005"; transcript_source "havana"; exon_id "ENSE00001832502";
+1	processed_transcript	exon	2520849	2522907	.	+	.	gene_id "ENSG00000157870"; transcript_id "ENST00000476686"; exon_number "2"; gene_name "FAM213B"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "FAM213B-005"; transcript_source "havana"; exon_id "ENSE00003664395";
+1	protein_coding	gene	2522078	2564481	.	-	.	gene_id "ENSG00000142606"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2522078	2524117	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000471840"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2524094	2524117	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000471840"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-002"; transcript_source "havana"; exon_id "ENSE00001840045"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2524094	2524117	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000471840"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-002"; transcript_source "havana"; protein_id "ENSP00000461938"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2522996	2523072	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000471840"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-002"; transcript_source "havana"; exon_id "ENSE00003649471"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2522996	2523072	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000471840"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-002"; transcript_source "havana"; protein_id "ENSP00000461938"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	2522078	2522528	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000471840"; exon_number "3"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-002"; transcript_source "havana"; exon_id "ENSE00001957118"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	2522429	2522528	.	-	1	gene_id "ENSG00000142606"; transcript_id "ENST00000471840"; exon_number "3"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-002"; transcript_source "havana"; protein_id "ENSP00000461938"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	2522078	2522428	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000471840"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	2522081	2564481	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl";
+1	protein_coding	exon	2564305	2564481	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00002244256";
+1	protein_coding	exon	2560770	2560960	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001477450";
+1	protein_coding	CDS	2560770	2560896	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	start_codon	2560894	2560896	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl";
+1	protein_coding	exon	2543566	2543643	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "3"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001301908";
+1	protein_coding	CDS	2543566	2543643	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "3"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2542720	2542779	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "4"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001066588";
+1	protein_coding	CDS	2542720	2542779	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "4"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2541109	2541270	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "5"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00003541874";
+1	protein_coding	CDS	2541109	2541270	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "5"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2540778	2540858	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "6"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00003508760";
+1	protein_coding	CDS	2540778	2540858	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "6"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2538413	2538508	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "7"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00003532852";
+1	protein_coding	CDS	2538413	2538508	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "7"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2537687	2537805	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "8"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00000955117";
+1	protein_coding	CDS	2537687	2537805	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "8"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2536997	2537062	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "9"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00000955118";
+1	protein_coding	CDS	2536997	2537062	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "9"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2535586	2535720	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "10"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001035434";
+1	protein_coding	CDS	2535586	2535720	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "10"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2535323	2535412	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "11"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001035412";
+1	protein_coding	CDS	2535323	2535412	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "11"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2530093	2530229	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "12"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001035410";
+1	protein_coding	CDS	2530093	2530229	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "12"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2529646	2529739	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "13"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001035444";
+1	protein_coding	CDS	2529646	2529739	.	-	1	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "13"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2528000	2528128	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "14"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001035383";
+1	protein_coding	CDS	2528000	2528128	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "14"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2527448	2527546	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "15"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001035440";
+1	protein_coding	CDS	2527448	2527546	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "15"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2526715	2526798	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "16"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001035416";
+1	protein_coding	CDS	2526715	2526798	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "16"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2526229	2526332	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "17"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001035353";
+1	protein_coding	CDS	2526229	2526332	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "17"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2525824	2525882	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "18"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001035401";
+1	protein_coding	CDS	2525824	2525882	.	-	1	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "18"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2525253	2525372	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "19"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001035437";
+1	protein_coding	CDS	2525253	2525372	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "19"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2524272	2524405	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "20"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00003641328";
+1	protein_coding	CDS	2524272	2524405	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "20"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2524094	2524159	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "21"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00003481724";
+1	protein_coding	CDS	2524094	2524159	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "21"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2523371	2523466	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "22"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00003599396";
+1	protein_coding	CDS	2523371	2523466	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "22"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2522996	2523072	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "23"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00003649471";
+1	protein_coding	CDS	2522996	2523072	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "23"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	exon	2522081	2522528	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "24"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; exon_id "ENSE00001477415";
+1	protein_coding	CDS	2522432	2522528	.	-	1	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "24"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl"; protein_id "ENSP00000288709";
+1	protein_coding	stop_codon	2522429	2522431	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; exon_number "24"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2564305	2564481	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2560897	2560960	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2522081	2522428	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000288709"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-201"; transcript_source "ensembl";
+1	protein_coding	transcript	2522082	2564429	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569";
+1	protein_coding	exon	2564305	2564429	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001428123";
+1	protein_coding	exon	2560770	2560960	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001477450";
+1	protein_coding	CDS	2560770	2560923	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	start_codon	2560921	2560923	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569";
+1	protein_coding	exon	2543566	2543643	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "3"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001301908";
+1	protein_coding	CDS	2543566	2543643	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "3"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2542720	2542779	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "4"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001066588";
+1	protein_coding	CDS	2542720	2542779	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "4"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2541109	2541270	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "5"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00003541874";
+1	protein_coding	CDS	2541109	2541270	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "5"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2540778	2540858	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "6"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00003508760";
+1	protein_coding	CDS	2540778	2540858	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "6"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2538413	2538508	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "7"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00003532852";
+1	protein_coding	CDS	2538413	2538508	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "7"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2537687	2537805	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "8"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00000955117";
+1	protein_coding	CDS	2537687	2537805	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "8"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2536997	2537062	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "9"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00000955118";
+1	protein_coding	CDS	2536997	2537062	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "9"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2535586	2535720	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "10"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001035434";
+1	protein_coding	CDS	2535586	2535720	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "10"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2535323	2535412	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "11"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001035412";
+1	protein_coding	CDS	2535323	2535412	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "11"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2530093	2530229	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "12"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001035410";
+1	protein_coding	CDS	2530093	2530229	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "12"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2529646	2529739	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "13"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001035444";
+1	protein_coding	CDS	2529646	2529739	.	-	1	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "13"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2528000	2528128	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "14"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001035383";
+1	protein_coding	CDS	2528000	2528128	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "14"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2527448	2527546	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "15"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001035440";
+1	protein_coding	CDS	2527448	2527546	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "15"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2526715	2526798	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "16"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001035416";
+1	protein_coding	CDS	2526715	2526798	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "16"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2526229	2526332	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "17"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001035353";
+1	protein_coding	CDS	2526229	2526332	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "17"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2525824	2525882	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "18"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001035401";
+1	protein_coding	CDS	2525824	2525882	.	-	1	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "18"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2525253	2525372	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "19"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001035437";
+1	protein_coding	CDS	2525253	2525372	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "19"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2524272	2524405	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "20"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00003641328";
+1	protein_coding	CDS	2524272	2524405	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "20"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2524094	2524159	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "21"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00003481724";
+1	protein_coding	CDS	2524094	2524159	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "21"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2523371	2523466	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "22"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00003599396";
+1	protein_coding	CDS	2523371	2523466	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "22"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2522996	2523072	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "23"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00003649471";
+1	protein_coding	CDS	2522996	2523072	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "23"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	exon	2522082	2522528	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "24"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; exon_id "ENSE00001922645";
+1	protein_coding	CDS	2522432	2522528	.	-	1	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "24"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569"; protein_id "ENSP00000367668";
+1	protein_coding	stop_codon	2522429	2522431	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; exon_number "24"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569";
+1	protein_coding	UTR	2564305	2564429	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569";
+1	protein_coding	UTR	2560924	2560960	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569";
+1	protein_coding	UTR	2522082	2522428	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000378412"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS30569";
+1	protein_coding	transcript	2522365	2560933	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana";
+1	protein_coding	exon	2560770	2560933	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00002052677";
+1	protein_coding	CDS	2560770	2560923	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	start_codon	2560921	2560923	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana";
+1	protein_coding	exon	2543566	2543643	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00001301908";
+1	protein_coding	CDS	2543566	2543643	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2542720	2542779	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "3"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00001066588";
+1	protein_coding	CDS	2542720	2542779	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "3"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2541109	2541270	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "4"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00003541874";
+1	protein_coding	CDS	2541109	2541270	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "4"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2540833	2540858	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "5"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00001596442";
+1	protein_coding	CDS	2540833	2540858	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "5"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2535323	2535412	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "6"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00001035412";
+1	protein_coding	CDS	2535323	2535412	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "6"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2530093	2530229	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "7"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00001035410";
+1	protein_coding	CDS	2530093	2530229	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "7"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2529646	2529739	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "8"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00001035444";
+1	protein_coding	CDS	2529646	2529739	.	-	1	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "8"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2528000	2528128	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "9"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00001035383";
+1	protein_coding	CDS	2528000	2528128	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "9"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2527448	2527546	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "10"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00001035440";
+1	protein_coding	CDS	2527448	2527546	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "10"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2526715	2526798	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "11"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00001035416";
+1	protein_coding	CDS	2526715	2526798	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "11"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2526229	2526332	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "12"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00001035353";
+1	protein_coding	CDS	2526229	2526332	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "12"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2525824	2525882	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "13"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00001035401";
+1	protein_coding	CDS	2525824	2525882	.	-	1	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "13"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2525253	2525372	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "14"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00001035437";
+1	protein_coding	CDS	2525253	2525372	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "14"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2524272	2524405	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "15"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00003641328";
+1	protein_coding	CDS	2524272	2524405	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "15"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2524094	2524159	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "16"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00003481724";
+1	protein_coding	CDS	2524094	2524159	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "16"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2523371	2523466	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "17"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00003599396";
+1	protein_coding	CDS	2523371	2523466	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "17"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2522996	2523072	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "18"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00003649471";
+1	protein_coding	CDS	2522996	2523072	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "18"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	exon	2522365	2522528	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "19"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; exon_id "ENSE00003628643";
+1	protein_coding	CDS	2522432	2522528	.	-	1	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "19"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana"; protein_id "ENSP00000422492";
+1	protein_coding	stop_codon	2522429	2522431	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; exon_number "19"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana";
+1	protein_coding	UTR	2560924	2560933	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana";
+1	protein_coding	UTR	2522365	2522428	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000502556"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-006"; transcript_source "havana";
+1	nonsense_mediated_decay	transcript	2522365	2560933	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	2560770	2560933	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00002052677";
+1	nonsense_mediated_decay	CDS	2560770	2560923	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	start_codon	2560921	2560923	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	2543566	2543643	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00001301908";
+1	nonsense_mediated_decay	CDS	2543566	2543643	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2542720	2542779	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "3"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00001066588";
+1	nonsense_mediated_decay	CDS	2542720	2542779	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "3"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2541109	2541270	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "4"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00003541874";
+1	nonsense_mediated_decay	CDS	2541109	2541270	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "4"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2540778	2540858	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "5"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00003508760";
+1	nonsense_mediated_decay	CDS	2540778	2540858	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "5"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2538413	2538508	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "6"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00003532852";
+1	nonsense_mediated_decay	CDS	2538413	2538508	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "6"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2537687	2537805	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "7"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00000955117";
+1	nonsense_mediated_decay	CDS	2537687	2537805	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "7"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2536997	2537062	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "8"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00000955118";
+1	nonsense_mediated_decay	CDS	2536997	2537062	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "8"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2535586	2535720	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "9"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00001035434";
+1	nonsense_mediated_decay	CDS	2535586	2535720	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "9"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2535323	2535412	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "10"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00001035412";
+1	nonsense_mediated_decay	CDS	2535323	2535412	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "10"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2530093	2530229	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "11"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00001035410";
+1	nonsense_mediated_decay	CDS	2530093	2530229	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "11"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2529646	2529739	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "12"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00001035444";
+1	nonsense_mediated_decay	CDS	2529646	2529739	.	-	1	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "12"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2528000	2528128	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "13"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00001035383";
+1	nonsense_mediated_decay	CDS	2528000	2528128	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "13"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2527448	2527546	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "14"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00001035440";
+1	nonsense_mediated_decay	CDS	2527448	2527546	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "14"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2526715	2526798	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "15"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00001035416";
+1	nonsense_mediated_decay	CDS	2526715	2526798	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "15"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2526229	2526332	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "16"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00001035353";
+1	nonsense_mediated_decay	CDS	2526229	2526332	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "16"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2525824	2525882	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "17"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00001035401";
+1	nonsense_mediated_decay	CDS	2525824	2525882	.	-	1	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "17"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	exon	2525253	2525401	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "18"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00002037934";
+1	nonsense_mediated_decay	CDS	2525316	2525401	.	-	2	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "18"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; protein_id "ENSP00000425477";
+1	nonsense_mediated_decay	stop_codon	2525313	2525315	.	-	0	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "18"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana";
+1	nonsense_mediated_decay	exon	2524272	2524405	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "19"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00003656363";
+1	nonsense_mediated_decay	exon	2524094	2524159	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "20"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00003543261";
+1	nonsense_mediated_decay	exon	2523371	2523466	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "21"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00003475091";
+1	nonsense_mediated_decay	exon	2522996	2523072	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "22"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00003485332";
+1	nonsense_mediated_decay	exon	2522365	2522528	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; exon_number "23"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana"; exon_id "ENSE00003632134";
+1	nonsense_mediated_decay	UTR	2560924	2560933	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	2525253	2525312	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	2524272	2524405	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	2524094	2524159	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	2523371	2523466	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	2522996	2523072	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana";
+1	nonsense_mediated_decay	UTR	2522365	2522528	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000504800"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-007"; transcript_source "havana";
+1	retained_intron	transcript	2523133	2524307	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000491941"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-004"; transcript_source "havana";
+1	retained_intron	exon	2524160	2524307	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000491941"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-004"; transcript_source "havana"; exon_id "ENSE00001867216";
+1	retained_intron	exon	2523133	2523466	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000491941"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-004"; transcript_source "havana"; exon_id "ENSE00001954832";
+1	retained_intron	transcript	2523133	2524318	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000464195"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-003"; transcript_source "havana";
+1	retained_intron	exon	2524094	2524318	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000464195"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-003"; transcript_source "havana"; exon_id "ENSE00001899005";
+1	retained_intron	exon	2523133	2523466	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000464195"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-003"; transcript_source "havana"; exon_id "ENSE00001954832";
+1	retained_intron	transcript	2524094	2525512	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000469962"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-005"; transcript_source "havana";
+1	retained_intron	exon	2525253	2525512	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000469962"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-005"; transcript_source "havana"; exon_id "ENSE00001941213";
+1	retained_intron	exon	2524272	2524405	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000469962"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-005"; transcript_source "havana"; exon_id "ENSE00003656363";
+1	retained_intron	exon	2524094	2524159	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000469962"; exon_number "3"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-005"; transcript_source "havana"; exon_id "ENSE00003543261";
+1	retained_intron	transcript	2537720	2542840	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000509374"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-009"; transcript_source "havana";
+1	retained_intron	exon	2542720	2542840	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000509374"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-009"; transcript_source "havana"; exon_id "ENSE00002053005";
+1	retained_intron	exon	2541109	2541270	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000509374"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-009"; transcript_source "havana"; exon_id "ENSE00003677011";
+1	retained_intron	exon	2540778	2540858	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000509374"; exon_number "3"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-009"; transcript_source "havana"; exon_id "ENSE00003684775";
+1	retained_intron	exon	2538413	2538508	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000509374"; exon_number "4"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-009"; transcript_source "havana"; exon_id "ENSE00003610626";
+1	retained_intron	exon	2537720	2537805	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000509374"; exon_number "5"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-009"; transcript_source "havana"; exon_id "ENSE00002035156";
+1	processed_transcript	transcript	2561197	2564418	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000511099"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-008"; transcript_source "havana";
+1	processed_transcript	exon	2564305	2564418	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000511099"; exon_number "1"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-008"; transcript_source "havana"; exon_id "ENSE00002020976";
+1	processed_transcript	exon	2561197	2561636	.	-	.	gene_id "ENSG00000142606"; transcript_id "ENST00000511099"; exon_number "2"; gene_name "MMEL1"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MMEL1-008"; transcript_source "havana"; exon_id "ENSE00002062344";
+1	antisense	gene	2564007	2568059	.	+	.	gene_id "ENSG00000237058"; gene_name "RP13-436F16.1"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	2564007	2568059	.	+	.	gene_id "ENSG00000237058"; transcript_id "ENST00000427302"; gene_name "RP13-436F16.1"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP13-436F16.1-001"; transcript_source "havana";
+1	antisense	exon	2564007	2564114	.	+	.	gene_id "ENSG00000237058"; transcript_id "ENST00000427302"; exon_number "1"; gene_name "RP13-436F16.1"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP13-436F16.1-001"; transcript_source "havana"; exon_id "ENSE00001631064";
+1	antisense	exon	2567795	2568059	.	+	.	gene_id "ENSG00000237058"; transcript_id "ENST00000427302"; exon_number "2"; gene_name "RP13-436F16.1"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP13-436F16.1-001"; transcript_source "havana"; exon_id "ENSE00001697749";
+1	protein_coding	gene	2567415	2718286	.	-	.	gene_id "ENSG00000215912"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	retained_intron	transcript	2567415	2571151	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000579787"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-002"; transcript_source "havana";
+1	retained_intron	exon	2567415	2571151	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000579787"; exon_number "1"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-002"; transcript_source "havana"; exon_id "ENSE00002686804";
+1	protein_coding	transcript	2567415	2718286	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana";
+1	protein_coding	exon	2718142	2718286	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "1"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana"; exon_id "ENSE00002686576";
+1	protein_coding	exon	2717336	2717433	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "2"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana"; exon_id "ENSE00002706068";
+1	protein_coding	exon	2702384	2702497	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "3"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana"; exon_id "ENSE00002733119";
+1	protein_coding	exon	2700154	2700320	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "4"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana"; exon_id "ENSE00003597262";
+1	protein_coding	CDS	2700154	2700249	.	-	0	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "4"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana"; protein_id "ENSP00000387700";
+1	protein_coding	start_codon	2700247	2700249	.	-	0	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "4"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana";
+1	protein_coding	exon	2576732	2577002	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "5"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana"; exon_id "ENSE00001546402";
+1	protein_coding	CDS	2576732	2577002	.	-	0	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "5"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana"; protein_id "ENSP00000387700";
+1	protein_coding	exon	2575703	2575917	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "6"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana"; exon_id "ENSE00001546401";
+1	protein_coding	CDS	2575703	2575917	.	-	2	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "6"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana"; protein_id "ENSP00000387700";
+1	protein_coding	exon	2572773	2573334	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "7"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana"; exon_id "ENSE00001815367";
+1	protein_coding	CDS	2572810	2573334	.	-	0	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "7"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana"; protein_id "ENSP00000387700";
+1	protein_coding	stop_codon	2572807	2572809	.	-	0	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "7"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana";
+1	protein_coding	exon	2571539	2571599	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "8"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana"; exon_id "ENSE00001872729";
+1	protein_coding	exon	2567415	2568003	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; exon_number "9"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana"; exon_id "ENSE00001942765";
+1	protein_coding	UTR	2718142	2718286	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana";
+1	protein_coding	UTR	2717336	2717433	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana";
+1	protein_coding	UTR	2702384	2702497	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana";
+1	protein_coding	UTR	2700250	2700320	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana";
+1	protein_coding	UTR	2572773	2572806	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana";
+1	protein_coding	UTR	2571539	2571599	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana";
+1	protein_coding	UTR	2567415	2568003	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401094"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-001"; transcript_source "havana";
+1	protein_coding	transcript	2572807	2706236	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565";
+1	protein_coding	exon	2706068	2706236	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "1"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; exon_id "ENSE00001592938";
+1	protein_coding	CDS	2706068	2706156	.	-	0	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "1"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; protein_id "ENSP00000383873";
+1	protein_coding	start_codon	2706154	2706156	.	-	0	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "1"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565";
+1	protein_coding	exon	2704046	2704271	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "2"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; exon_id "ENSE00001546399";
+1	protein_coding	CDS	2704046	2704271	.	-	1	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "2"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; protein_id "ENSP00000383873";
+1	protein_coding	exon	2702384	2702588	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "3"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; exon_id "ENSE00001546398";
+1	protein_coding	CDS	2702384	2702588	.	-	0	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "3"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; protein_id "ENSP00000383873";
+1	protein_coding	exon	2700154	2700320	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "4"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; exon_id "ENSE00003490037";
+1	protein_coding	CDS	2700154	2700320	.	-	2	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "4"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; protein_id "ENSP00000383873";
+1	protein_coding	exon	2576732	2577002	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "5"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; exon_id "ENSE00001546402";
+1	protein_coding	CDS	2576732	2577002	.	-	0	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "5"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; protein_id "ENSP00000383873";
+1	protein_coding	exon	2575703	2575917	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "6"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; exon_id "ENSE00001546401";
+1	protein_coding	CDS	2575703	2575917	.	-	2	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "6"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; protein_id "ENSP00000383873";
+1	protein_coding	exon	2572807	2573334	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "7"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; exon_id "ENSE00001546400";
+1	protein_coding	CDS	2572810	2573334	.	-	0	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "7"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565"; protein_id "ENSP00000383873";
+1	protein_coding	stop_codon	2572807	2572809	.	-	0	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; exon_number "7"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565";
+1	protein_coding	UTR	2706157	2706236	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000401095"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-201"; transcript_source "ensembl"; tag "CCDS"; ccds_id "CCDS55565";
+1	protein_coding	transcript	2700271	2706280	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000574621"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2706068	2706280	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000574621"; exon_number "1"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-003"; transcript_source "havana"; exon_id "ENSE00001551825"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2706068	2706156	.	-	0	gene_id "ENSG00000215912"; transcript_id "ENST00000574621"; exon_number "1"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-003"; transcript_source "havana"; protein_id "ENSP00000458658"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2704046	2704271	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000574621"; exon_number "2"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-003"; transcript_source "havana"; exon_id "ENSE00001546399"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2704046	2704271	.	-	1	gene_id "ENSG00000215912"; transcript_id "ENST00000574621"; exon_number "2"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-003"; transcript_source "havana"; protein_id "ENSP00000458658"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2702384	2702588	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000574621"; exon_number "3"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-003"; transcript_source "havana"; exon_id "ENSE00001546398"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2702384	2702588	.	-	0	gene_id "ENSG00000215912"; transcript_id "ENST00000574621"; exon_number "3"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-003"; transcript_source "havana"; protein_id "ENSP00000458658"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	2700271	2700320	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000574621"; exon_number "4"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-003"; transcript_source "havana"; exon_id "ENSE00002723530"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	2700271	2700320	.	-	2	gene_id "ENSG00000215912"; transcript_id "ENST00000574621"; exon_number "4"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-003"; transcript_source "havana"; protein_id "ENSP00000458658"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	2706157	2706280	.	-	.	gene_id "ENSG00000215912"; transcript_id "ENST00000574621"; gene_name "TTC34"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "TTC34-003"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	lincRNA	gene	2728415	2729257	.	-	.	gene_id "ENSG00000233234"; gene_name "RP11-740P5.2"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	2728415	2729257	.	-	.	gene_id "ENSG00000233234"; transcript_id "ENST00000457440"; gene_name "RP11-740P5.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-740P5.2-001"; transcript_source "havana";
+1	lincRNA	exon	2728800	2729257	.	-	.	gene_id "ENSG00000233234"; transcript_id "ENST00000457440"; exon_number "1"; gene_name "RP11-740P5.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-740P5.2-001"; transcript_source "havana"; exon_id "ENSE00001724025";
+1	lincRNA	exon	2728415	2728563	.	-	.	gene_id "ENSG00000233234"; transcript_id "ENST00000457440"; exon_number "2"; gene_name "RP11-740P5.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-740P5.2-001"; transcript_source "havana"; exon_id "ENSE00001797100";
+1	lincRNA	gene	2730997	2731563	.	-	.	gene_id "ENSG00000231630"; gene_name "RP11-740P5.3"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	2730997	2731563	.	-	.	gene_id "ENSG00000231630"; transcript_id "ENST00000429389"; gene_name "RP11-740P5.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-740P5.3-001"; transcript_source "havana";
+1	lincRNA	exon	2731392	2731563	.	-	.	gene_id "ENSG00000231630"; transcript_id "ENST00000429389"; exon_number "1"; gene_name "RP11-740P5.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-740P5.3-001"; transcript_source "havana"; exon_id "ENSE00001746329";
+1	lincRNA	exon	2730997	2731253	.	-	.	gene_id "ENSG00000231630"; transcript_id "ENST00000429389"; exon_number "2"; gene_name "RP11-740P5.3"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-740P5.3-001"; transcript_source "havana"; exon_id "ENSE00001804042";
+1	protein_coding	gene	2938046	2939465	.	+	.	gene_id "ENSG00000169717"; gene_name "ACTRT2"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2938046	2939465	.	+	.	gene_id "ENSG00000169717"; transcript_id "ENST00000378404"; gene_name "ACTRT2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACTRT2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS45";
+1	protein_coding	exon	2938046	2939465	.	+	.	gene_id "ENSG00000169717"; transcript_id "ENST00000378404"; exon_number "1"; gene_name "ACTRT2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACTRT2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS45"; exon_id "ENSE00001477363";
+1	protein_coding	CDS	2938251	2939381	.	+	0	gene_id "ENSG00000169717"; transcript_id "ENST00000378404"; exon_number "1"; gene_name "ACTRT2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACTRT2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS45"; protein_id "ENSP00000367658";
+1	protein_coding	start_codon	2938251	2938253	.	+	0	gene_id "ENSG00000169717"; transcript_id "ENST00000378404"; exon_number "1"; gene_name "ACTRT2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACTRT2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS45";
+1	protein_coding	stop_codon	2939382	2939384	.	+	0	gene_id "ENSG00000169717"; transcript_id "ENST00000378404"; exon_number "1"; gene_name "ACTRT2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACTRT2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS45";
+1	protein_coding	UTR	2938046	2938250	.	+	.	gene_id "ENSG00000169717"; transcript_id "ENST00000378404"; gene_name "ACTRT2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACTRT2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS45";
+1	protein_coding	UTR	2939385	2939465	.	+	.	gene_id "ENSG00000169717"; transcript_id "ENST00000378404"; gene_name "ACTRT2"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ACTRT2-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS45";
+1	antisense	gene	2976179	2985001	.	-	.	gene_id "ENSG00000177133"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense";
+1	antisense	transcript	2976179	2979095	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000606861"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-007"; transcript_source "havana";
+1	antisense	exon	2976179	2979095	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000606861"; exon_number "1"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-007"; transcript_source "havana"; exon_id "ENSE00003696439";
+1	antisense	transcript	2976179	2980350	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000321399"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-001"; transcript_source "ensembl_havana";
+1	antisense	exon	2978854	2980350	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000321399"; exon_number "1"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001223043";
+1	antisense	exon	2978155	2978377	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000321399"; exon_number "2"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001477378";
+1	antisense	exon	2977671	2977895	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000321399"; exon_number "3"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001477376";
+1	antisense	exon	2977065	2977168	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000321399"; exon_number "4"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001670580";
+1	antisense	exon	2976794	2976847	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000321399"; exon_number "5"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001635591";
+1	antisense	exon	2976179	2976301	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000321399"; exon_number "6"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001796582";
+1	antisense	transcript	2976181	2978315	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000413472"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-005"; transcript_source "havana";
+1	antisense	exon	2978155	2978315	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000413472"; exon_number "1"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-005"; transcript_source "havana"; exon_id "ENSE00001651004";
+1	antisense	exon	2977671	2977895	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000413472"; exon_number "2"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-005"; transcript_source "havana"; exon_id "ENSE00001477376";
+1	antisense	exon	2976794	2976847	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000413472"; exon_number "3"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-005"; transcript_source "havana"; exon_id "ENSE00001635591";
+1	antisense	exon	2976181	2976301	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000413472"; exon_number "4"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-005"; transcript_source "havana"; exon_id "ENSE00001793323";
+1	antisense	transcript	2976181	2978596	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000453118"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-003"; transcript_source "havana";
+1	antisense	exon	2977671	2978596	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000453118"; exon_number "1"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-003"; transcript_source "havana"; exon_id "ENSE00001650192";
+1	antisense	exon	2977065	2977168	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000453118"; exon_number "2"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-003"; transcript_source "havana"; exon_id "ENSE00001670580";
+1	antisense	exon	2976181	2976847	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000453118"; exon_number "3"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-003"; transcript_source "havana"; exon_id "ENSE00001801485";
+1	antisense	transcript	2976181	2985001	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000445317"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-002"; transcript_source "havana";
+1	antisense	exon	2984786	2985001	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000445317"; exon_number "1"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-002"; transcript_source "havana"; exon_id "ENSE00001664459";
+1	antisense	exon	2983901	2984612	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000445317"; exon_number "2"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-002"; transcript_source "havana"; exon_id "ENSE00001775512";
+1	antisense	exon	2980776	2980866	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000445317"; exon_number "3"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-002"; transcript_source "havana"; exon_id "ENSE00001794427";
+1	antisense	exon	2977671	2980619	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000445317"; exon_number "4"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-002"; transcript_source "havana"; exon_id "ENSE00001609063";
+1	antisense	exon	2977065	2977168	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000445317"; exon_number "5"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-002"; transcript_source "havana"; exon_id "ENSE00001670580";
+1	antisense	exon	2976794	2976847	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000445317"; exon_number "6"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-002"; transcript_source "havana"; exon_id "ENSE00001635591";
+1	antisense	exon	2976181	2976301	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000445317"; exon_number "7"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-002"; transcript_source "havana"; exon_id "ENSE00001793323";
+1	antisense	transcript	2977853	2980246	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000415573"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-006"; transcript_source "havana";
+1	antisense	exon	2980010	2980246	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000415573"; exon_number "1"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-006"; transcript_source "havana"; exon_id "ENSE00001679086";
+1	antisense	exon	2977853	2977895	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000415573"; exon_number "2"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-006"; transcript_source "havana"; exon_id "ENSE00001801996";
+1	antisense	transcript	2980636	2984333	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000321336"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-004"; transcript_source "havana";
+1	antisense	exon	2983901	2984333	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000321336"; exon_number "1"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-004"; transcript_source "havana"; exon_id "ENSE00001222943";
+1	antisense	exon	2980636	2980866	.	-	.	gene_id "ENSG00000177133"; transcript_id "ENST00000321336"; exon_number "2"; gene_name "LINC00982"; gene_source "ensembl_havana"; gene_biotype "antisense"; transcript_name "LINC00982-004"; transcript_source "havana"; exon_id "ENSE00001222937";
+1	pseudogene	gene	2978523	2978959	.	-	.	gene_id "ENSG00000256761"; gene_name "AL008733.1"; gene_source "ensembl"; gene_biotype "pseudogene";
+1	pseudogene	transcript	2978523	2978959	.	-	.	gene_id "ENSG00000256761"; transcript_id "ENST00000420957"; gene_name "AL008733.1"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL008733.1-201"; transcript_source "ensembl";
+1	pseudogene	exon	2978759	2978959	.	-	.	gene_id "ENSG00000256761"; transcript_id "ENST00000420957"; exon_number "1"; gene_name "AL008733.1"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL008733.1-201"; transcript_source "ensembl"; exon_id "ENSE00001633839";
+1	pseudogene	exon	2978523	2978756	.	-	.	gene_id "ENSG00000256761"; transcript_id "ENST00000420957"; exon_number "2"; gene_name "AL008733.1"; gene_source "ensembl"; gene_biotype "pseudogene"; transcript_name "AL008733.1-201"; transcript_source "ensembl"; exon_id "ENSE00001605294";
+1	protein_coding	gene	2985732	3355185	.	+	.	gene_id "ENSG00000142611"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	2985732	3350906	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana";
+1	protein_coding	exon	2985732	2985860	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00002048533";
+1	protein_coding	CDS	2985824	2985860	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	start_codon	2985824	2985826	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana";
+1	protein_coding	exon	3102689	3103038	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00001754112";
+1	protein_coding	CDS	3102689	3103038	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3160651	3160701	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00003480863";
+1	protein_coding	CDS	3160651	3160701	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3301713	3301850	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00002034212";
+1	protein_coding	CDS	3301713	3301850	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3313055	3313157	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00003700221";
+1	protein_coding	CDS	3313055	3313157	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3319355	3319562	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00003696962";
+1	protein_coding	CDS	3319355	3319562	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3321303	3321450	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00003700688";
+1	protein_coding	CDS	3321303	3321450	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3322059	3322212	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00003700645";
+1	protein_coding	CDS	3322059	3322212	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3327948	3329364	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00003695658";
+1	protein_coding	CDS	3327948	3329364	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3331124	3331211	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00003701451";
+1	protein_coding	CDS	3331124	3331211	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3334392	3334561	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00003699052";
+1	protein_coding	CDS	3334392	3334561	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3335231	3335308	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00003698430";
+1	protein_coding	CDS	3335231	3335308	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3342145	3342314	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00003699796";
+1	protein_coding	CDS	3342145	3342314	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3342615	3342789	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00003701891";
+1	protein_coding	CDS	3342615	3342789	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3347436	3347672	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00003698226";
+1	protein_coding	CDS	3347436	3347672	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	exon	3350241	3350906	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; exon_id "ENSE00002081080";
+1	protein_coding	CDS	3350241	3350250	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana"; protein_id "ENSP00000426975";
+1	protein_coding	stop_codon	3350251	3350253	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana";
+1	protein_coding	UTR	2985732	2985823	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana";
+1	protein_coding	UTR	3350254	3350906	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000511072"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-007"; transcript_source "havana";
+1	protein_coding	transcript	2985742	3355183	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl";
+1	protein_coding	exon	2985742	2985860	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00001546396";
+1	protein_coding	CDS	2985824	2985860	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	start_codon	2985824	2985826	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl";
+1	protein_coding	exon	3102689	3103038	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00001754112";
+1	protein_coding	CDS	3102689	3103038	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3160651	3160701	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00003480863";
+1	protein_coding	CDS	3160651	3160701	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3301716	3301850	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00003695725";
+1	protein_coding	CDS	3301716	3301850	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3311056	3311058	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00002269994";
+1	protein_coding	CDS	3311056	3311058	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3313055	3313157	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00003700221";
+1	protein_coding	CDS	3313055	3313157	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3319355	3319562	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00003696962";
+1	protein_coding	CDS	3319355	3319562	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3321303	3321450	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00003700688";
+1	protein_coding	CDS	3321303	3321450	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3322059	3322212	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00003700645";
+1	protein_coding	CDS	3322059	3322212	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3327948	3329364	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00003695658";
+1	protein_coding	CDS	3327948	3329364	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3331127	3331211	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00001582537";
+1	protein_coding	CDS	3331127	3331211	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3334392	3334561	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00003699052";
+1	protein_coding	CDS	3334392	3334561	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3335231	3335308	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00003698430";
+1	protein_coding	CDS	3335231	3335308	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3342145	3342314	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00003699796";
+1	protein_coding	CDS	3342145	3342314	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3342615	3342789	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00003701891";
+1	protein_coding	CDS	3342615	3342789	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3347436	3347672	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00003698226";
+1	protein_coding	CDS	3347436	3347672	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3348530	3348704	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00003700833";
+1	protein_coding	CDS	3348530	3348704	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	exon	3350241	3355183	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "18"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; exon_id "ENSE00001546395";
+1	protein_coding	CDS	3350241	3350372	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "18"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl"; protein_id "ENSP00000367651";
+1	protein_coding	stop_codon	3350373	3350375	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; exon_number "18"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl";
+1	protein_coding	UTR	2985742	2985823	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl";
+1	protein_coding	UTR	3350376	3355183	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378398"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-201"; transcript_source "ensembl";
+1	protein_coding	transcript	2985742	3355183	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl";
+1	protein_coding	exon	2985742	2985860	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00001546396";
+1	protein_coding	CDS	2985824	2985860	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	start_codon	2985824	2985826	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl";
+1	protein_coding	exon	3102689	3103038	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00001754112";
+1	protein_coding	CDS	3102689	3103038	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3160651	3160701	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00003480863";
+1	protein_coding	CDS	3160651	3160701	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3301716	3301850	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00003695725";
+1	protein_coding	CDS	3301716	3301850	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3313055	3313157	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00003700221";
+1	protein_coding	CDS	3313055	3313157	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3319355	3319562	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00003696962";
+1	protein_coding	CDS	3319355	3319562	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3321303	3321450	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00003700688";
+1	protein_coding	CDS	3321303	3321450	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3322059	3322212	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00003700645";
+1	protein_coding	CDS	3322059	3322212	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3327948	3329364	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00003695658";
+1	protein_coding	CDS	3327948	3329364	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3331127	3331211	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00001582537";
+1	protein_coding	CDS	3331127	3331211	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3334392	3334561	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00003699052";
+1	protein_coding	CDS	3334392	3334561	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3335231	3335308	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00003698430";
+1	protein_coding	CDS	3335231	3335308	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3342145	3342314	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00003699796";
+1	protein_coding	CDS	3342145	3342314	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3342615	3342789	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00003701891";
+1	protein_coding	CDS	3342615	3342789	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3347436	3347672	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00003698226";
+1	protein_coding	CDS	3347436	3347672	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3348530	3348704	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00003700833";
+1	protein_coding	CDS	3348530	3348704	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	exon	3350241	3355183	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; exon_id "ENSE00001546395";
+1	protein_coding	CDS	3350241	3350372	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl"; protein_id "ENSP00000407968";
+1	protein_coding	stop_codon	3350373	3350375	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl";
+1	protein_coding	UTR	2985742	2985823	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl";
+1	protein_coding	UTR	3350376	3355183	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000441472"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-202"; transcript_source "ensembl";
+1	protein_coding	transcript	2985742	3355183	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl";
+1	protein_coding	exon	2985742	2985860	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00001546396";
+1	protein_coding	CDS	2985824	2985860	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	start_codon	2985824	2985826	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl";
+1	protein_coding	exon	3102689	3103038	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00001754112";
+1	protein_coding	CDS	3102689	3103038	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3160651	3160701	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00003480863";
+1	protein_coding	CDS	3160651	3160701	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3301716	3301850	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00003695725";
+1	protein_coding	CDS	3301716	3301850	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3313055	3313157	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00003700221";
+1	protein_coding	CDS	3313055	3313157	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3319355	3319562	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00003696962";
+1	protein_coding	CDS	3319355	3319562	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3321303	3321450	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00003700688";
+1	protein_coding	CDS	3321303	3321450	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3322059	3322212	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00003700645";
+1	protein_coding	CDS	3322059	3322212	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3327948	3329364	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00003695658";
+1	protein_coding	CDS	3327948	3329364	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3331127	3331211	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00001582537";
+1	protein_coding	CDS	3331127	3331211	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3334392	3334561	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00003699052";
+1	protein_coding	CDS	3334392	3334561	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3335231	3335308	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00003698430";
+1	protein_coding	CDS	3335231	3335308	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3342145	3342314	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00003699796";
+1	protein_coding	CDS	3342145	3342314	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3342615	3342789	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00003701891";
+1	protein_coding	CDS	3342615	3342789	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3347436	3347672	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00003698226";
+1	protein_coding	CDS	3347436	3347672	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3348530	3348704	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00003700833";
+1	protein_coding	CDS	3348530	3348704	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	exon	3350298	3355183	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; exon_id "ENSE00001796918";
+1	protein_coding	CDS	3350298	3350372	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl"; protein_id "ENSP00000405253";
+1	protein_coding	stop_codon	3350373	3350375	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl";
+1	protein_coding	UTR	2985742	2985823	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl";
+1	protein_coding	UTR	3350376	3355183	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000442529"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-203"; transcript_source "ensembl";
+1	retained_intron	transcript	2985747	3103155	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000607632"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-010"; transcript_source "havana";
+1	retained_intron	exon	2985747	2985860	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000607632"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-010"; transcript_source "havana"; exon_id "ENSE00003700259";
+1	retained_intron	exon	3102689	3103155	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000607632"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-010"; transcript_source "havana"; exon_id "ENSE00003695128";
+1	protein_coding	transcript	2985761	3351985	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048";
+1	protein_coding	exon	2985761	2985860	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00001222906";
+1	protein_coding	CDS	2985824	2985860	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	start_codon	2985824	2985826	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048";
+1	protein_coding	exon	3102689	3103038	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00001754112";
+1	protein_coding	CDS	3102689	3103038	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3160651	3160701	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003480863";
+1	protein_coding	CDS	3160651	3160701	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3301716	3301850	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003695725";
+1	protein_coding	CDS	3301716	3301850	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3313055	3313157	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003700221";
+1	protein_coding	CDS	3313055	3313157	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3319355	3319562	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003696962";
+1	protein_coding	CDS	3319355	3319562	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3321303	3321450	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003700688";
+1	protein_coding	CDS	3321303	3321450	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3322059	3322212	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003700645";
+1	protein_coding	CDS	3322059	3322212	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3327948	3329364	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003695658";
+1	protein_coding	CDS	3327948	3329364	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3331124	3331211	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003701451";
+1	protein_coding	CDS	3331124	3331211	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3334392	3334561	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003699052";
+1	protein_coding	CDS	3334392	3334561	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3335231	3335308	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003698430";
+1	protein_coding	CDS	3335231	3335308	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3342145	3342314	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003699796";
+1	protein_coding	CDS	3342145	3342314	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3342615	3342789	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003701891";
+1	protein_coding	CDS	3342615	3342789	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3347436	3347672	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003698226";
+1	protein_coding	CDS	3347436	3347672	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3348530	3348704	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00003700833";
+1	protein_coding	CDS	3348530	3348704	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	exon	3350298	3351985	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; exon_id "ENSE00001477303";
+1	protein_coding	CDS	3350298	3350372	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048"; protein_id "ENSP00000367643";
+1	protein_coding	stop_codon	3350373	3350375	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048";
+1	protein_coding	UTR	2985761	2985823	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048";
+1	protein_coding	UTR	3350376	3351985	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378391"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-003"; transcript_source "havana"; tag "CCDS"; ccds_id "CCDS44048";
+1	protein_coding	transcript	2985775	3350906	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana";
+1	protein_coding	exon	2985775	2985860	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00001598723";
+1	protein_coding	CDS	2985824	2985860	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	start_codon	2985824	2985826	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana";
+1	protein_coding	exon	3102689	3103038	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00001754112";
+1	protein_coding	CDS	3102689	3103038	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3160651	3160701	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00003480863";
+1	protein_coding	CDS	3160651	3160701	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3301713	3301850	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00002034212";
+1	protein_coding	CDS	3301713	3301850	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3313055	3313157	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00003700221";
+1	protein_coding	CDS	3313055	3313157	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3319355	3319562	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00003696962";
+1	protein_coding	CDS	3319355	3319562	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3321303	3321450	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00003700688";
+1	protein_coding	CDS	3321303	3321450	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3322059	3322212	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00003700645";
+1	protein_coding	CDS	3322059	3322212	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3327948	3329364	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00003695658";
+1	protein_coding	CDS	3327948	3329364	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3331127	3331211	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00001582537";
+1	protein_coding	CDS	3331127	3331211	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3334392	3334561	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00003699052";
+1	protein_coding	CDS	3334392	3334561	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3335231	3335308	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00003698430";
+1	protein_coding	CDS	3335231	3335308	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3342145	3342314	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00003699796";
+1	protein_coding	CDS	3342145	3342314	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3342615	3342789	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00003701891";
+1	protein_coding	CDS	3342615	3342789	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3347436	3347672	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00003698226";
+1	protein_coding	CDS	3347436	3347672	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	exon	3350241	3350906	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; exon_id "ENSE00002081080";
+1	protein_coding	CDS	3350241	3350250	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana"; protein_id "ENSP00000421400";
+1	protein_coding	stop_codon	3350251	3350253	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana";
+1	protein_coding	UTR	2985775	2985823	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana";
+1	protein_coding	UTR	3350254	3350906	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000514189"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-008"; transcript_source "havana";
+1	protein_coding	transcript	2985775	3355185	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236";
+1	protein_coding	exon	2985775	2985860	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00001598723";
+1	protein_coding	CDS	2985824	2985860	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	start_codon	2985824	2985826	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236";
+1	protein_coding	exon	3102689	3103038	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00001754112";
+1	protein_coding	CDS	3102689	3103038	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3160651	3160701	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003480863";
+1	protein_coding	CDS	3160651	3160701	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3301716	3301850	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003695725";
+1	protein_coding	CDS	3301716	3301850	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3313055	3313157	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003700221";
+1	protein_coding	CDS	3313055	3313157	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3319355	3319562	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003696962";
+1	protein_coding	CDS	3319355	3319562	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3321303	3321450	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003700688";
+1	protein_coding	CDS	3321303	3321450	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3322059	3322212	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003700645";
+1	protein_coding	CDS	3322059	3322212	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3327948	3329364	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003695658";
+1	protein_coding	CDS	3327948	3329364	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3331124	3331211	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003701451";
+1	protein_coding	CDS	3331124	3331211	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3334392	3334561	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003699052";
+1	protein_coding	CDS	3334392	3334561	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3335231	3335308	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003698430";
+1	protein_coding	CDS	3335231	3335308	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3342145	3342314	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003699796";
+1	protein_coding	CDS	3342145	3342314	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3342615	3342789	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003701891";
+1	protein_coding	CDS	3342615	3342789	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3347436	3347672	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003698226";
+1	protein_coding	CDS	3347436	3347672	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3348530	3348704	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00003700833";
+1	protein_coding	CDS	3348530	3348704	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	exon	3350241	3355185	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; exon_id "ENSE00001759023";
+1	protein_coding	CDS	3350241	3350372	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236"; protein_id "ENSP00000270722";
+1	protein_coding	stop_codon	3350373	3350375	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; exon_number "17"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236";
+1	protein_coding	UTR	2985775	2985823	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236";
+1	protein_coding	UTR	3350376	3355185	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000270722"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS41236";
+1	processed_transcript	transcript	3154495	3350489	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana";
+1	processed_transcript	exon	3154495	3154659	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00002087812";
+1	processed_transcript	exon	3160651	3160701	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003516886";
+1	processed_transcript	exon	3301716	3301850	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003662380";
+1	processed_transcript	exon	3313055	3313157	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003697266";
+1	processed_transcript	exon	3319355	3319562	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003701239";
+1	processed_transcript	exon	3321303	3321450	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003700436";
+1	processed_transcript	exon	3322059	3322212	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003695760";
+1	processed_transcript	exon	3327948	3329364	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003699089";
+1	processed_transcript	exon	3331124	3331211	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003702178";
+1	processed_transcript	exon	3334392	3334561	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003701293";
+1	processed_transcript	exon	3335231	3335308	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003697785";
+1	processed_transcript	exon	3342145	3342314	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003701636";
+1	processed_transcript	exon	3342615	3342789	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003696062";
+1	processed_transcript	exon	3347436	3347672	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "14"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003697832";
+1	processed_transcript	exon	3348530	3348704	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "15"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00003698886";
+1	processed_transcript	exon	3350241	3350489	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000512462"; exon_number "16"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-009"; transcript_source "havana"; exon_id "ENSE00002068021";
+1	protein_coding	transcript	3160696	3303482	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000463591"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3160696	3160701	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000463591"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-004"; transcript_source "havana"; exon_id "ENSE00001882136"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3160696	3160701	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000463591"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-004"; transcript_source "havana"; protein_id "ENSP00000476002"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3301716	3301850	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000463591"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-004"; transcript_source "havana"; exon_id "ENSE00003695725"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3301716	3301850	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000463591"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-004"; transcript_source "havana"; protein_id "ENSP00000476002"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3303240	3303482	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000463591"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-004"; transcript_source "havana"; exon_id "ENSE00001846205"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3303240	3303260	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000463591"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-004"; transcript_source "havana"; protein_id "ENSP00000476002"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	3303261	3303482	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000463591"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-004"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	transcript	3313055	3350857	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3313055	3313157	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; exon_id "ENSE00003700221"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3313055	3313157	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; protein_id "ENSP00000425796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3319355	3319562	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; exon_id "ENSE00003696962"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3319355	3319562	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; protein_id "ENSP00000425796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3321303	3321450	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; exon_id "ENSE00003700688"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3321303	3321450	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; protein_id "ENSP00000425796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3322059	3322212	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; exon_id "ENSE00003700645"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3322059	3322212	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; protein_id "ENSP00000425796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3327948	3329364	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; exon_id "ENSE00003695658"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3327948	3329364	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; protein_id "ENSP00000425796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3331127	3331211	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; exon_id "ENSE00001582537"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3331127	3331211	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "6"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; protein_id "ENSP00000425796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3334392	3334561	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; exon_id "ENSE00003699052"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3334392	3334561	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "7"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; protein_id "ENSP00000425796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3335231	3335308	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; exon_id "ENSE00003698430"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3335231	3335308	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "8"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; protein_id "ENSP00000425796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3342145	3342314	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; exon_id "ENSE00003699796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3342145	3342314	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "9"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; protein_id "ENSP00000425796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3342615	3342789	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; exon_id "ENSE00003701891"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3342615	3342789	.	+	2	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "10"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; protein_id "ENSP00000425796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3347436	3347672	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; exon_id "ENSE00003698226"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3347436	3347672	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "11"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; protein_id "ENSP00000425796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3348530	3348704	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; exon_id "ENSE00003700833"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3348530	3348704	.	+	1	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "12"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; protein_id "ENSP00000425796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	exon	3350241	3350857	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; exon_id "ENSE00001477317"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	CDS	3350241	3350375	.	+	0	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; exon_number "13"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; protein_id "ENSP00000425796"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	protein_coding	UTR	3350376	3350857	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000509860"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-002"; transcript_source "havana"; tag "cds_start_NF"; tag "mRNA_start_NF";
+1	processed_transcript	transcript	3341483	3350659	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378389"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-005"; transcript_source "havana";
+1	processed_transcript	exon	3341483	3341623	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378389"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-005"; transcript_source "havana"; exon_id "ENSE00001905893";
+1	processed_transcript	exon	3342145	3342314	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378389"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-005"; transcript_source "havana"; exon_id "ENSE00003701636";
+1	processed_transcript	exon	3342615	3342789	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378389"; exon_number "3"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-005"; transcript_source "havana"; exon_id "ENSE00003696062";
+1	processed_transcript	exon	3347436	3347672	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378389"; exon_number "4"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-005"; transcript_source "havana"; exon_id "ENSE00003697832";
+1	processed_transcript	exon	3350241	3350659	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000378389"; exon_number "5"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-005"; transcript_source "havana"; exon_id "ENSE00001875784";
+1	retained_intron	transcript	3341780	3342636	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000606170"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-011"; transcript_source "havana";
+1	retained_intron	exon	3341780	3342314	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000606170"; exon_number "1"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-011"; transcript_source "havana"; exon_id "ENSE00003697875";
+1	retained_intron	exon	3342615	3342636	.	+	.	gene_id "ENSG00000142611"; transcript_id "ENST00000606170"; exon_number "2"; gene_name "PRDM16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "PRDM16-011"; transcript_source "havana"; exon_id "ENSE00003700534";
+1	antisense	gene	3049491	3050273	.	-	.	gene_id "ENSG00000226286"; gene_name "RP1-163G9.2"; gene_source "havana"; gene_biotype "antisense";
+1	antisense	transcript	3049491	3050273	.	-	.	gene_id "ENSG00000226286"; transcript_id "ENST00000440516"; gene_name "RP1-163G9.2"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP1-163G9.2-001"; transcript_source "havana";
+1	antisense	exon	3050137	3050273	.	-	.	gene_id "ENSG00000226286"; transcript_id "ENST00000440516"; exon_number "1"; gene_name "RP1-163G9.2"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP1-163G9.2-001"; transcript_source "havana"; exon_id "ENSE00001662340";
+1	antisense	exon	3049491	3049822	.	-	.	gene_id "ENSG00000226286"; transcript_id "ENST00000440516"; exon_number "2"; gene_name "RP1-163G9.2"; gene_source "havana"; gene_biotype "antisense"; transcript_name "RP1-163G9.2-001"; transcript_source "havana"; exon_id "ENSE00001680646";
+1	lincRNA	gene	3223200	3226660	.	-	.	gene_id "ENSG00000272235"; gene_name "RP11-22L13.1"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	3223200	3226660	.	-	.	gene_id "ENSG00000272235"; transcript_id "ENST00000607061"; gene_name "RP11-22L13.1"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-22L13.1-001"; transcript_source "havana";
+1	lincRNA	exon	3223200	3226660	.	-	.	gene_id "ENSG00000272235"; transcript_id "ENST00000607061"; exon_number "1"; gene_name "RP11-22L13.1"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-22L13.1-001"; transcript_source "havana"; exon_id "ENSE00003697208";
+1	protein_coding	gene	3370990	3397677	.	+	.	gene_id "ENSG00000130762"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	3370990	3397677	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46";
+1	protein_coding	exon	3370990	3371375	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "1"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00001710589";
+1	protein_coding	exon	3379630	3380236	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "2"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00002223728";
+1	protein_coding	CDS	3379649	3380236	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "2"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	start_codon	3379649	3379651	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "2"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46";
+1	protein_coding	exon	3382712	3382757	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00001689961";
+1	protein_coding	CDS	3382712	3382757	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	exon	3383732	3383901	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00003500040";
+1	protein_coding	CDS	3383732	3383901	.	+	2	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	exon	3385444	3385500	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "5"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00003485233";
+1	protein_coding	CDS	3385444	3385500	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "5"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	exon	3385997	3386157	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "6"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00003575357";
+1	protein_coding	CDS	3385997	3386157	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "6"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	exon	3389642	3389794	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "7"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00003664132";
+1	protein_coding	CDS	3389642	3389794	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "7"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	exon	3389957	3390086	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "8"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00003466198";
+1	protein_coding	CDS	3389957	3390086	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "8"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	exon	3391272	3391346	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "9"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00003679956";
+1	protein_coding	CDS	3391272	3391346	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "9"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	exon	3392534	3392626	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "10"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00003473671";
+1	protein_coding	CDS	3392534	3392626	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "10"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	exon	3394439	3394590	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "11"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00000896177";
+1	protein_coding	CDS	3394439	3394590	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "11"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	exon	3394988	3395176	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "12"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00000896180";
+1	protein_coding	CDS	3394988	3395176	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "12"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	exon	3396081	3396154	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "13"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00003489864";
+1	protein_coding	CDS	3396081	3396154	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "13"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	exon	3396376	3396477	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "14"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00003509475";
+1	protein_coding	CDS	3396376	3396477	.	+	2	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "14"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	exon	3397012	3397677	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "15"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; exon_id "ENSE00003616224";
+1	protein_coding	CDS	3397012	3397148	.	+	2	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "15"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46"; protein_id "ENSP00000367629";
+1	protein_coding	stop_codon	3397149	3397151	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; exon_number "15"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46";
+1	protein_coding	UTR	3370990	3371375	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46";
+1	protein_coding	UTR	3379630	3379648	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46";
+1	protein_coding	UTR	3397152	3397677	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378378"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-001"; transcript_source "ensembl_havana"; tag "CCDS"; ccds_id "CCDS46";
+1	protein_coding	transcript	3382569	3397677	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana";
+1	protein_coding	exon	3382569	3382757	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "1"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; exon_id "ENSE00001477251";
+1	protein_coding	exon	3383732	3383901	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "2"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; exon_id "ENSE00003475127";
+1	protein_coding	exon	3385444	3385500	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; exon_id "ENSE00003571058";
+1	protein_coding	exon	3385997	3386157	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; exon_id "ENSE00003523160";
+1	protein_coding	CDS	3386000	3386157	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; protein_id "ENSP00000367624";
+1	protein_coding	start_codon	3386000	3386002	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana";
+1	protein_coding	exon	3389642	3389794	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "5"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; exon_id "ENSE00003664132";
+1	protein_coding	CDS	3389642	3389794	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "5"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; protein_id "ENSP00000367624";
+1	protein_coding	exon	3389957	3390086	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "6"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; exon_id "ENSE00003466198";
+1	protein_coding	CDS	3389957	3390086	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "6"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; protein_id "ENSP00000367624";
+1	protein_coding	exon	3391272	3391346	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "7"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; exon_id "ENSE00003679956";
+1	protein_coding	CDS	3391272	3391346	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "7"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; protein_id "ENSP00000367624";
+1	protein_coding	exon	3392534	3392626	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "8"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; exon_id "ENSE00003473671";
+1	protein_coding	CDS	3392534	3392626	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "8"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; protein_id "ENSP00000367624";
+1	protein_coding	exon	3394439	3394590	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "9"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; exon_id "ENSE00000896177";
+1	protein_coding	CDS	3394439	3394590	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "9"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; protein_id "ENSP00000367624";
+1	protein_coding	exon	3394988	3395176	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "10"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; exon_id "ENSE00000896180";
+1	protein_coding	CDS	3394988	3395176	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "10"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; protein_id "ENSP00000367624";
+1	protein_coding	exon	3396081	3396154	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "11"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; exon_id "ENSE00003489864";
+1	protein_coding	CDS	3396081	3396154	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "11"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; protein_id "ENSP00000367624";
+1	protein_coding	exon	3396376	3396477	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "12"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; exon_id "ENSE00003509475";
+1	protein_coding	CDS	3396376	3396477	.	+	2	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "12"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; protein_id "ENSP00000367624";
+1	protein_coding	exon	3397012	3397677	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "13"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; exon_id "ENSE00003616224";
+1	protein_coding	CDS	3397012	3397148	.	+	2	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "13"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana"; protein_id "ENSP00000367624";
+1	protein_coding	stop_codon	3397149	3397151	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; exon_number "13"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana";
+1	protein_coding	UTR	3382569	3382757	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana";
+1	protein_coding	UTR	3383732	3383901	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana";
+1	protein_coding	UTR	3385444	3385500	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana";
+1	protein_coding	UTR	3385997	3385999	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana";
+1	protein_coding	UTR	3397152	3397677	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378373"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-002"; transcript_source "havana";
+1	protein_coding	transcript	3383535	3397677	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana";
+1	protein_coding	exon	3383535	3383901	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "1"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; exon_id "ENSE00001477249";
+1	protein_coding	exon	3385444	3385500	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "2"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; exon_id "ENSE00003571058";
+1	protein_coding	exon	3385997	3386157	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; exon_id "ENSE00003523160";
+1	protein_coding	CDS	3386000	3386157	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; protein_id "ENSP00000367622";
+1	protein_coding	start_codon	3386000	3386002	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana";
+1	protein_coding	exon	3389642	3389794	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; exon_id "ENSE00003664132";
+1	protein_coding	CDS	3389642	3389794	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; protein_id "ENSP00000367622";
+1	protein_coding	exon	3389957	3390086	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "5"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; exon_id "ENSE00003466198";
+1	protein_coding	CDS	3389957	3390086	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "5"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; protein_id "ENSP00000367622";
+1	protein_coding	exon	3391272	3391346	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "6"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; exon_id "ENSE00003679956";
+1	protein_coding	CDS	3391272	3391346	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "6"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; protein_id "ENSP00000367622";
+1	protein_coding	exon	3392534	3392626	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "7"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; exon_id "ENSE00003473671";
+1	protein_coding	CDS	3392534	3392626	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "7"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; protein_id "ENSP00000367622";
+1	protein_coding	exon	3394439	3394590	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "8"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; exon_id "ENSE00000896177";
+1	protein_coding	CDS	3394439	3394590	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "8"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; protein_id "ENSP00000367622";
+1	protein_coding	exon	3394988	3395176	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "9"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; exon_id "ENSE00000896180";
+1	protein_coding	CDS	3394988	3395176	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "9"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; protein_id "ENSP00000367622";
+1	protein_coding	exon	3396081	3396154	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "10"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; exon_id "ENSE00003489864";
+1	protein_coding	CDS	3396081	3396154	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "10"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; protein_id "ENSP00000367622";
+1	protein_coding	exon	3396376	3396477	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "11"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; exon_id "ENSE00003509475";
+1	protein_coding	CDS	3396376	3396477	.	+	2	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "11"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; protein_id "ENSP00000367622";
+1	protein_coding	exon	3397012	3397677	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "12"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; exon_id "ENSE00003616224";
+1	protein_coding	CDS	3397012	3397148	.	+	2	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "12"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana"; protein_id "ENSP00000367622";
+1	protein_coding	stop_codon	3397149	3397151	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; exon_number "12"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana";
+1	protein_coding	UTR	3383535	3383901	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana";
+1	protein_coding	UTR	3385444	3385500	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana";
+1	protein_coding	UTR	3385997	3385999	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana";
+1	protein_coding	UTR	3397152	3397677	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000378371"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-003"; transcript_source "havana";
+1	protein_coding	transcript	3385108	3390085	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000445297"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-005"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	3385108	3385500	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000445297"; exon_number "1"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-005"; transcript_source "havana"; exon_id "ENSE00001767816"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	3385997	3386157	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000445297"; exon_number "2"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-005"; transcript_source "havana"; exon_id "ENSE00003523160"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	3386000	3386157	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000445297"; exon_number "2"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-005"; transcript_source "havana"; protein_id "ENSP00000411936"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	3389642	3389794	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000445297"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-005"; transcript_source "havana"; exon_id "ENSE00003664132"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	3389642	3389794	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000445297"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-005"; transcript_source "havana"; protein_id "ENSP00000411936"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	3389957	3390085	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000445297"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-005"; transcript_source "havana"; exon_id "ENSE00001722694"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	3389957	3390085	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000445297"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-005"; transcript_source "havana"; protein_id "ENSP00000411936"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	3385108	3385500	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000445297"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-005"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	3385997	3385999	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000445297"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-005"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	retained_intron	transcript	3388171	3391021	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000464620"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-006"; transcript_source "havana";
+1	retained_intron	exon	3388171	3388355	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000464620"; exon_number "1"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-006"; transcript_source "havana"; exon_id "ENSE00001849363";
+1	retained_intron	exon	3389642	3389794	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000464620"; exon_number "2"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-006"; transcript_source "havana"; exon_id "ENSE00003624527";
+1	retained_intron	exon	3389957	3391021	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000464620"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-006"; transcript_source "havana"; exon_id "ENSE00001828201";
+1	protein_coding	transcript	3388188	3392583	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000418137"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	3388188	3388355	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000418137"; exon_number "1"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-007"; transcript_source "havana"; exon_id "ENSE00001642415"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	3388222	3388355	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000418137"; exon_number "1"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-007"; transcript_source "havana"; protein_id "ENSP00000390853"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	3389642	3389794	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000418137"; exon_number "2"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-007"; transcript_source "havana"; exon_id "ENSE00003664132"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	3389642	3389794	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000418137"; exon_number "2"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-007"; transcript_source "havana"; protein_id "ENSP00000390853"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	3389957	3390086	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000418137"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-007"; transcript_source "havana"; exon_id "ENSE00003466198"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	3389957	3390086	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000418137"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-007"; transcript_source "havana"; protein_id "ENSP00000390853"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	3391272	3391346	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000418137"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-007"; transcript_source "havana"; exon_id "ENSE00003679956"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	3391272	3391346	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000418137"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-007"; transcript_source "havana"; protein_id "ENSP00000390853"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	exon	3392534	3392583	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000418137"; exon_number "5"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-007"; transcript_source "havana"; exon_id "ENSE00001706738"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	CDS	3392534	3392583	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000418137"; exon_number "5"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-007"; transcript_source "havana"; protein_id "ENSP00000390853"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	UTR	3388188	3388221	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000418137"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-007"; transcript_source "havana"; tag "cds_end_NF"; tag "mRNA_end_NF";
+1	protein_coding	transcript	3388188	3397379	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl";
+1	protein_coding	exon	3388188	3388355	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "1"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; exon_id "ENSE00001642415";
+1	protein_coding	CDS	3388222	3388355	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "1"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; protein_id "ENSP00000408887";
+1	protein_coding	start_codon	3388222	3388224	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "1"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl";
+1	protein_coding	exon	3389642	3389794	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "2"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; exon_id "ENSE00003664132";
+1	protein_coding	CDS	3389642	3389794	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "2"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; protein_id "ENSP00000408887";
+1	protein_coding	exon	3389957	3390086	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; exon_id "ENSE00003466198";
+1	protein_coding	CDS	3389957	3390086	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; protein_id "ENSP00000408887";
+1	protein_coding	exon	3391272	3391346	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; exon_id "ENSE00003679956";
+1	protein_coding	CDS	3391272	3391346	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; protein_id "ENSP00000408887";
+1	protein_coding	exon	3392534	3392626	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "5"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; exon_id "ENSE00003473671";
+1	protein_coding	CDS	3392534	3392626	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "5"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; protein_id "ENSP00000408887";
+1	protein_coding	exon	3394439	3394590	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "6"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; exon_id "ENSE00000896177";
+1	protein_coding	CDS	3394439	3394590	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "6"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; protein_id "ENSP00000408887";
+1	protein_coding	exon	3394988	3395176	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "7"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; exon_id "ENSE00000896180";
+1	protein_coding	CDS	3394988	3395176	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "7"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; protein_id "ENSP00000408887";
+1	protein_coding	exon	3396081	3396154	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "8"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; exon_id "ENSE00003489864";
+1	protein_coding	CDS	3396081	3396154	.	+	1	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "8"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; protein_id "ENSP00000408887";
+1	protein_coding	exon	3396376	3396477	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "9"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; exon_id "ENSE00003509475";
+1	protein_coding	CDS	3396376	3396477	.	+	2	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "9"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; protein_id "ENSP00000408887";
+1	protein_coding	exon	3397012	3397379	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "10"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; exon_id "ENSE00001306605";
+1	protein_coding	CDS	3397012	3397148	.	+	2	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "10"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl"; protein_id "ENSP00000408887";
+1	protein_coding	stop_codon	3397149	3397151	.	+	0	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; exon_number "10"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl";
+1	protein_coding	UTR	3388188	3388221	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl";
+1	protein_coding	UTR	3397152	3397379	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000413250"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-201"; transcript_source "ensembl";
+1	retained_intron	transcript	3389333	3397677	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000485984"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-004"; transcript_source "havana";
+1	retained_intron	exon	3389333	3389794	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000485984"; exon_number "1"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-004"; transcript_source "havana"; exon_id "ENSE00001835630";
+1	retained_intron	exon	3389957	3390086	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000485984"; exon_number "2"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-004"; transcript_source "havana"; exon_id "ENSE00003538427";
+1	retained_intron	exon	3391272	3391346	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000485984"; exon_number "3"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-004"; transcript_source "havana"; exon_id "ENSE00003680936";
+1	retained_intron	exon	3392534	3392626	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000485984"; exon_number "4"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-004"; transcript_source "havana"; exon_id "ENSE00003496491";
+1	retained_intron	exon	3394439	3395176	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000485984"; exon_number "5"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-004"; transcript_source "havana"; exon_id "ENSE00001924073";
+1	retained_intron	exon	3396081	3396154	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000485984"; exon_number "6"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-004"; transcript_source "havana"; exon_id "ENSE00003643370";
+1	retained_intron	exon	3396376	3396477	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000485984"; exon_number "7"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-004"; transcript_source "havana"; exon_id "ENSE00003480891";
+1	retained_intron	exon	3397012	3397677	.	+	.	gene_id "ENSG00000130762"; transcript_id "ENST00000485984"; exon_number "8"; gene_name "ARHGEF16"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "ARHGEF16-004"; transcript_source "havana"; exon_id "ENSE00003543518";
+1	lincRNA	gene	3403810	3404191	.	+	.	gene_id "ENSG00000272088"; gene_name "RP11-168F9.2"; gene_source "havana"; gene_biotype "lincRNA";
+1	lincRNA	transcript	3403810	3404191	.	+	.	gene_id "ENSG00000272088"; transcript_id "ENST00000606489"; gene_name "RP11-168F9.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-168F9.2-001"; transcript_source "havana";
+1	lincRNA	exon	3403810	3404191	.	+	.	gene_id "ENSG00000272088"; transcript_id "ENST00000606489"; exon_number "1"; gene_name "RP11-168F9.2"; gene_source "havana"; gene_biotype "lincRNA"; transcript_name "RP11-168F9.2-001"; transcript_source "havana"; exon_id "ENSE00003700777";
+1	protein_coding	gene	3406484	3528059	.	-	.	gene_id "ENSG00000162591"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding";
+1	protein_coding	transcript	3406484	3448012	.	-	.	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana";
+1	protein_coding	exon	3447644	3448012	.	-	.	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; exon_number "1"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001206859";
+1	protein_coding	CDS	3447644	3447809	.	-	0	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; exon_number "1"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana"; protein_id "ENSP00000294599";
+1	protein_coding	start_codon	3447807	3447809	.	-	0	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; exon_number "1"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana";
+1	protein_coding	exon	3440688	3440810	.	-	.	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; exon_number "2"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001123278";
+1	protein_coding	CDS	3440688	3440810	.	-	2	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; exon_number "2"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana"; protein_id "ENSP00000294599";
+1	protein_coding	exon	3431966	3432091	.	-	.	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; exon_number "3"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001123265";
+1	protein_coding	CDS	3431966	3432091	.	-	2	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; exon_number "3"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana"; protein_id "ENSP00000294599";
+1	protein_coding	exon	3431114	3431236	.	-	.	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; exon_number "4"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001123261";
+1	protein_coding	CDS	3431114	3431236	.	-	2	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; exon_number "4"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana"; protein_id "ENSP00000294599";
+1	protein_coding	exon	3428570	3428692	.	-	.	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; exon_number "5"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001123255";
+1	protein_coding	CDS	3428570	3428692	.	-	2	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; exon_number "5"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana"; protein_id "ENSP00000294599";
+1	protein_coding	exon	3428114	3428251	.	-	.	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; exon_number "6"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana"; exon_id "ENSE00001123248";
+1	protein_coding	CDS	3428114	3428251	.	-	2	gene_id "ENSG00000162591"; transcript_id "ENST00000294599"; exon_number "6"; gene_name "MEGF6"; gene_source "ensembl_havana"; gene_biotype "protein_coding"; transcript_name "MEGF6-001"; transcript_source "ensembl_havana"; protein_id "ENSP00000294599";
Binary file test-data/input.Homo_sapiens.GRCh37-chr1-f10k.75.gtf.granges.rds has changed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/input.TIA1.bed	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,10000 @@
+chr3	123210549	123210564	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr9	74606829	74606830	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	105371321	105371323	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	70444693	70444719	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	26225727	26225732	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	58267147	58267171	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr17	26994880	26994892	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	153701919	153701943	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	59893057	59893094	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr4	125729716	125729718	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	64290727	64290728	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	160201930	160201933	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	70281364	70281384	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr12	51142324	51142330	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr16	28837178	28837188	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	54497807	54497828	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr9	125890477	125890485	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	2442487	2442497	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr10	111896002	111896003	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr15	59172129	59172143	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	133532839	133532876	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr12	108916047	108916065	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	162496453	162496459	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	228393436	228393442	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	53709455	53709471	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	45981888	45981912	iCLIP#TIA1_wang2010a_hg19*TIA1	219	-
+chrX	73062433	73062444	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr5	58976554	58976560	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	42048526	42048557	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr18	29444569	29444578	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	26123920	26123956	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr2	51481241	51481243	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	8800548	8800566	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	131915366	131915372	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	41367097	41367098	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	3458203	3458240	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr14	75283721	75283725	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	118362654	118362661	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	156626416	156626437	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr19	9718393	9718406	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	183596159	183596189	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr10	1086937	1086969	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr19	1425974	1425987	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr11	43414160	43414162	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	179068618	179068642	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr20	10670183	10670184	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	31508721	31508769	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr9	126695525	126695526	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr13	92828659	92828678	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	194125684	194125715	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr20	5945250	5945253	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	92254399	92254406	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	58826333	58826346	iCLIP#TIA1_wang2010a_hg19*TIA1	39	-
+chr3	12113444	12113455	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	42110396	42110401	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	139050909	139050923	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	67864219	67864226	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	42661573	42661601	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	65268022	65268138	iCLIP#TIA1_wang2010a_hg19*TIA1	37	+
+chr14	62193139	62193147	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	2785906	2785942	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr1	76260367	76260402	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr2	176042905	176042909	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	33730140	33730160	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chr6	138412412	138412446	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr8	98863891	98863907	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr7	130596845	130596848	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	231506418	231506440	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	12034891	12034900	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	26617978	26617981	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	34997657	34997670	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	109202744	109202760	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	145749719	145749727	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	86583785	86583789	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr3	152882439	152882477	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr8	57876228	57876240	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	107398897	107398911	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	99848036	99848043	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr9	134363490	134363502	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr16	50359623	50359645	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	182353424	182353427	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	58806678	58806685	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	229652360	229652381	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr18	13124890	13124899	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	133607823	133607827	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	46754500	46754510	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr3	193856282	193856295	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr9	99348653	99348657	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	25427525	25427546	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	65740001	65740017	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr16	29819644	29819653	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr14	105236533	105236546	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	146067385	146067399	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	10057563	10057577	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	96636027	96636041	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	65205259	65205309	iCLIP#TIA1_wang2010a_hg19*TIA1	38	+
+chr9	95376795	95376802	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	178102225	178102227	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr21	18939662	18939677	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	44180572	44180605	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	24346139	24346140	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	112521809	112521817	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	76988940	76988950	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr10	12005972	12005979	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	42088127	42088144	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	72210058	72210074	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	151196616	151196633	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	123675539	123675569	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	57467817	57467858	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr6	26569160	26569161	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	54896176	54896193	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr11	115044513	115044531	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	20616487	20616517	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr1	155447652	155447667	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	46752412	46752453	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr12	111890329	111890342	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	5918150	5918164	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	17053858	17053882	iCLIP#TIA1_wang2010a_hg19*TIA1	85	+
+chr6	109688696	109688821	iCLIP#TIA1_wang2010a_hg19*TIA1	49	-
+chr2	44173094	44173115	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	9391936	9391937	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	39123709	39123720	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr8	38961199	38961247	iCLIP#TIA1_wang2010a_hg19*TIA1	43	+
+chr20	3856674	3856680	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	83647827	83647831	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	7062129	7062132	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	137088306	137088358	iCLIP#TIA1_wang2010a_hg19*TIA1	49	-
+chr22	32014487	32014494	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	15392648	15392664	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr21	27253323	27253342	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr19	58006570	58006571	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	62622119	62622149	iCLIP#TIA1_wang2010a_hg19*TIA1	34	-
+chr9	115339011	115339016	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	16840555	16840575	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	65597066	65597114	iCLIP#TIA1_wang2010a_hg19*TIA1	220	+
+chr1	71529425	71529459	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr13	50598872	50598918	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	73069354	73069398	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr8	33230043	33230045	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	119738605	119738606	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr19	7991673	7991681	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	103414034	103414047	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	176884181	176884210	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	43515608	43515626	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	228419214	228419257	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr8	103305794	103305802	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	179832785	179832829	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr4	107168378	107168393	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	9934754	9934777	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr6	158932423	158932436	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	2979866	2979874	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	27180720	27180742	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr16	75611371	75611411	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr5	58433282	58433287	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	96035573	96035583	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	20537608	20537610	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	230668853	230668876	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr19	2229992	2230043	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr11	118622211	118622243	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr7	10491139	10491141	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	65694661	65694672	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	192126534	192126551	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	10624392	10624401	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	49464507	49464524	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr6	155094528	155094531	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	11696189	11696217	iCLIP#TIA1_wang2010a_hg19*TIA1	52	+
+chr4	39927396	39927422	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	98929567	98929589	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	227967445	227967456	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	27465682	27465689	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	58534926	58534927	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	112598235	112598249	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7_gl000195_random	48938	48943	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	37721241	37721244	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	92002492	92002504	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	8992846	8992870	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr16	11643136	11643161	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr17	56705305	56705307	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr11	3716975	3716989	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	57106233	57106245	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	36200271	36200289	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr21	11186596	11186605	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	179305911	179305941	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr9	136230514	136230524	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	15112035	15112054	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	111521555	111521557	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr11	65202611	65202670	iCLIP#TIA1_wang2010a_hg19*TIA1	39	+
+chr16	30762613	30762628	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr12	64842346	64842367	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr2	30864767	30864784	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr18	21715845	21715854	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	119542996	119543032	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr3	45749727	45749731	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	2966277	2966298	iCLIP#TIA1_wang2010a_hg19*TIA1	40	-
+chr17	57916175	57916181	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	40618549	40618563	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	113287200	113287225	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr4	79837463	79837477	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	224607187	224607211	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	58269816	58269824	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	31772962	31772963	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	128957425	128957445	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	75135664	75135690	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr1	70694239	70694278	iCLIP#TIA1_wang2010a_hg19*TIA1	38	+
+chr1	115270402	115270417	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr11	60668714	60668724	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	74442044	74442055	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	56161290	56161291	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	6746011	6746012	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	6719022	6719039	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr21	21372011	21372013	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	147653354	147653368	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	77082392	77082402	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr16	57239377	57239392	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	34327213	34327265	iCLIP#TIA1_wang2010a_hg19*TIA1	33	-
+chr5	167975528	167975544	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr5	173387097	173387119	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	35865190	35865197	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	168044759	168044776	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	59925540	59925550	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	888256	888294	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr17	3715513	3715540	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr4	139979500	139979521	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	42430362	42430382	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr15	63363453	63363471	iCLIP#TIA1_wang2010a_hg19*TIA1	33	+
+chr1	182856785	182856854	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr13	96445312	96445322	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	96291149	96291150	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	85691537	85691540	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	125611232	125611267	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr1	172546709	172546726	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	231700706	231700786	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr22	29896129	29896134	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	6485547	6485552	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	17812035	17812049	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	126172640	126172673	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr11	3390550	3390573	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	100049401	100049403	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr11	47774446	47774462	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	145611601	145611606	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	153535511	153535529	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	134074874	134074906	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr8	23119474	23119477	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	42825845	42825866	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	62205950	62205972	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	162946224	162946246	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr1	204475796	204475803	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	182352872	182352883	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr6	131160248	131160263	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	128463630	128463641	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	175694723	175694724	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	78632332	78632333	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	125528600	125528609	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	130254551	130254566	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr6	76344534	76344547	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	77338583	77338587	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	29877122	29877149	iCLIP#TIA1_wang2010a_hg19*TIA1	67	+
+chr1	109238980	109239037	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr17	62525095	62525110	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	123779646	123779669	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	110980318	110980330	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	35624020	35624021	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	15532964	15532987	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr11	62621458	62621480	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr8	124356314	124356325	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	106890770	106890808	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr3	128628318	128628348	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	147653651	147653679	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr2	120672830	120672839	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	88686687	88686700	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	32787290	32787319	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr7	26252988	26252998	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr4	146076906	146076941	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	11643095	11643100	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	224492414	224492426	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	237489252	237489269	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr8	128202135	128202144	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr19	2012958	2012960	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	55773952	55773953	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	38881755	38881836	iCLIP#TIA1_wang2010a_hg19*TIA1	77	-
+chrX	90716043	90716045	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	58678137	58678150	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	146206084	146206112	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	97373335	97373343	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr2	128014907	128014923	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr13	103469233	103469261	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr10	18964307	18964333	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr6	132213069	132213089	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	39076375	39076395	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	89633175	89633187	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	33036707	33036724	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	242012539	242012552	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	111556132	111556157	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	44276955	44276965	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	39315583	39315591	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	93622835	93622848	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	52164690	52164699	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	150773538	150773567	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr5	162880688	162880713	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr17	4844033	4844044	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	138706791	138706822	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr16	16236311	16236347	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr6	151286180	151286191	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	244855335	244855363	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr21	32933396	32933397	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	17616688	17616700	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	43136397	43136407	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	139116684	139116692	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	65200893	65200917	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr8	48771396	48771406	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	128232353	128232417	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr7	91645432	91645437	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	65987705	65987724	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	69992790	69992804	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	113026664	113026666	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	94802234	94802255	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr15	72185297	72185298	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	41812729	41812767	iCLIP#TIA1_wang2010a_hg19*TIA1	28	+
+chr8	141541361	141541377	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	112970373	112970380	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	91302447	91302471	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	105785613	105785632	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr18	47017985	47018024	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	84414267	84414276	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	180855155	180855179	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	100620477	100620484	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	79183375	79183387	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	69376568	69376596	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	204374596	204374626	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr12	51399305	51399323	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	34526486	34526517	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	157303952	157303960	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	145509291	145509316	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chr3	123675146	123675169	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	4037962	4037972	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	187869245	187869246	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr14	56757237	56757256	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	31951009	31951012	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	6502407	6502454	iCLIP#TIA1_wang2010a_hg19*TIA1	49	-
+chr7	90044534	90044559	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr16	67133112	67133228	iCLIP#TIA1_wang2010a_hg19*TIA1	37	+
+chr12	133428031	133428042	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	176881741	176881747	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	19481298	19481312	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr7	23240479	23240521	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr10	11502564	11502593	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr22	40948021	40948063	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	116420165	116420171	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	29025523	29025532	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr22	45580767	45580780	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	47861957	47861964	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	19496387	19496393	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	76252776	76252802	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr12	98941861	98941897	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr19	1598104	1598113	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr8	15621791	15621880	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chrX	102930671	102930696	iCLIP#TIA1_wang2010a_hg19*TIA1	47	-
+chr12	102315366	102315386	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	123716651	123716661	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	1063471	1063483	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr5	59052188	59052203	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	1637704	1637727	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr4	25270837	25270848	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	11906822	11906827	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr8	117858254	117858279	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr5	58660915	58660933	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	45579209	45579225	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr10	5139886	5139904	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	103572769	103572778	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	87194183	87194196	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	36478683	36478711	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr3	150140914	150140923	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	94037159	94037176	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	1582344	1582359	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	111349622	111349632	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	128182253	128182275	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	126965948	126965949	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	31498039	31498062	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	10818638	10818681	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr6	153304985	153304987	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	101715206	101715222	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	42979480	42979515	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr5	58866777	58866792	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	99161959	99161963	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	81047180	81047189	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr4	154503144	154503165	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	17758050	17758056	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	104886108	104886109	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	65692498	65692508	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr5	165618445	165618446	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr18	30023692	30023698	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	20623425	20623435	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	179305818	179305844	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr15	90170783	90170789	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	53927458	53927462	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	66601846	66601861	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	229577526	229577537	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr16	11969886	11969928	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	168212431	168212445	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	73160230	73160240	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr1	54683891	54683906	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	130994616	130994620	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	65769482	65769499	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	95660425	95660453	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	71532211	71532246	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr5	137903308	137903321	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	24705291	24705313	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr11	11944676	11944684	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	65588532	65588541	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	151509168	151509173	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	78789659	78789669	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	80498261	80498265	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	103807430	103807442	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr19	1272775	1272786	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr1	40735758	40735779	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	11942388	11942416	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	204512099	204512110	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	67758720	67758724	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	49743181	49743197	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	35858186	35858207	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr12	123239051	123239078	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr18	33739808	33739816	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	82763495	82763511	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	86275411	86275434	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr15	56974337	56974349	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	69677999	69678011	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	144393537	144393542	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	43473803	43473818	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	66718194	66718204	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	70725063	70725084	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	99653677	99653692	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	9432063	9432078	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	4810534	4810543	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	20608998	20609013	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr21	38885304	38885327	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	67905070	67905088	iCLIP#TIA1_wang2010a_hg19*TIA1	30	+
+chr6	133092142	133092161	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr2	66798218	66798254	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr17	57919077	57919085	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	158711366	158711370	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	21667259	21667261	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	58195986	58195990	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	56567764	56567782	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr18	72910946	72910955	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	171851373	171851385	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	169847669	169847699	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr6	161488346	161488362	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	111119377	111119392	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	36231012	36231014	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	39452637	39452663	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr12	19627727	19627730	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	67878152	67878173	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr2	219118750	219118785	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr9	12973459	12973464	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	128620390	128620415	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	134375505	134375512	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	63357454	63357466	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	220231168	220231210	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr2	78020177	78020188	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr10	98982034	98982056	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	58976670	58976680	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	34312460	34312485	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr13	30083870	30083892	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr10	120811754	120811774	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	117891998	117892008	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	121463645	121463658	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	15514435	15514463	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	393470	393482	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	213046170	213046185	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	70525547	70525553	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	58861816	58861828	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	137960864	137960876	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	74946700	74946738	iCLIP#TIA1_wang2010a_hg19*TIA1	54	-
+chr12	57118409	57118414	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	138665729	138665731	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	187511608	187511614	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr20	34317209	34317229	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr6	35802507	35802560	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr2	97403674	97403675	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	69403956	69403962	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	65271258	65271558	iCLIP#TIA1_wang2010a_hg19*TIA1	1129	+
+chr5	179157000	179157031	iCLIP#TIA1_wang2010a_hg19*TIA1	34	+
+chr1	194140715	194140716	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr14	96998965	96998979	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	38426673	38426686	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr16	69171885	69171896	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr13	33349603	33349624	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	131457019	131457084	iCLIP#TIA1_wang2010a_hg19*TIA1	231	+
+chr15	59387474	59387488	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	126034011	126034030	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	87328198	87328247	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr8	103283350	103283355	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	140105841	140105860	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	203424836	203424905	iCLIP#TIA1_wang2010a_hg19*TIA1	28	+
+chr18	29128737	29128779	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr1	21071188	21071248	iCLIP#TIA1_wang2010a_hg19*TIA1	32	-
+chr4	17839979	17839989	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	27077022	27077034	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	175585068	175585075	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr17	48941418	48941434	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr6	118638556	118638570	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	8169335	8169337	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	183901819	183901825	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr6	27573431	27573432	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	134467245	134467278	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr18	66365149	66365158	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	113197328	113197344	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	32599186	32599188	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	6245140	6245154	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr4	174242949	174242967	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	34633594	34633608	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr6	111210202	111210228	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr14	20757336	20757380	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr22	49098176	49098177	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	226548777	226548791	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr7	44156679	44156682	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	224839908	224839934	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	30807883	30807947	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr3	56600844	56600851	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	120480425	120480431	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	43297442	43297448	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	58999061	58999066	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	79225584	79225594	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	50824373	50824382	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	61522064	61522068	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	55219948	55219956	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	10051074	10051075	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	10273978	10273992	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	176812175	176812186	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	56463072	56463093	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr13	49782901	49782925	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr6	157509213	157509227	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr11	65202942	65202967	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr8	22279210	22279254	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr7	132752133	132752138	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	135120820	135120830	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	107348567	107348577	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	45755787	45755803	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	207941109	207941111	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	19809125	19809151	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	1205261	1205273	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	155348253	155348276	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	28639421	28639441	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr13	60348086	60348090	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	47520858	47520859	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	71763174	71763200	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr15	42823826	42823839	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	150181276	150181277	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	101894204	101894218	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	73164071	73164091	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr6	160206605	160206625	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr22	22025366	22025367	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	22424613	22424627	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	153507217	153507246	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr6	170067395	170067405	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	13570423	13570470	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr7	157062008	157062015	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	112592273	112592286	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	25584032	25584045	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr6	71245035	71245040	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	48790237	48790245	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	148875308	148875326	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chrX	73488254	73488271	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	58434661	58434687	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	23439726	23439732	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	139656183	139656185	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	48711360	48711366	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	68809957	68809965	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	66471383	66471385	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	139299522	139299534	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	36193775	36193781	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	137880334	137880366	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	138269973	138270010	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr7	155101043	155101064	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr7	94167222	94167224	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	6287734	6287738	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr9	139296412	139296446	iCLIP#TIA1_wang2010a_hg19*TIA1	37	-
+chr7	42957037	42957052	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr22	42556633	42556652	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr9	139307034	139307044	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	132998834	132998842	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	28505420	28505421	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr22	45996694	45996751	iCLIP#TIA1_wang2010a_hg19*TIA1	39	+
+chr11	28149057	28149067	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	30695611	30695639	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	94899502	94899525	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr22	39079920	39079962	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr14	39308994	39308995	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	93307421	93307453	iCLIP#TIA1_wang2010a_hg19*TIA1	133	+
+chr1	170505570	170505572	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	101664586	101664595	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	36971150	36971158	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	8002888	8002894	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	6214871	6214883	iCLIP#TIA1_wang2010a_hg19*TIA1	46	-
+chr19	19616707	19616728	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr2	76948379	76948386	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr8	48855859	48855865	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	84930756	84930759	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	50361176	50361214	iCLIP#TIA1_wang2010a_hg19*TIA1	41	+
+chrX	76929978	76929998	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	170066288	170066317	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr20	60920740	60920751	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	10292690	10292711	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	61896072	61896091	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	19671363	19671385	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	128209823	128209885	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr17	29877181	29877183	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	67850262	67850271	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	80139609	80139620	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	144394203	144394208	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	65987648	65987680	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr18	211286	211300	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr7	6502535	6502580	iCLIP#TIA1_wang2010a_hg19*TIA1	65	-
+chr16	57274118	57274142	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	151375229	151375258	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr9	19230604	19230605	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	121840616	121840621	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	76442070	76442073	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	121158021	121158037	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	20559496	20559506	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	247330015	247330027	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	128229661	128229682	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr4	170644174	170644185	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	108155212	108155215	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	95128888	95128916	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr5	134126441	134126455	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	34147172	34147180	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	29022888	29022916	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr12	27477972	27478005	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	242136036	242136040	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	79840585	79840587	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	48866147	48866173	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr1	248758311	248758318	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	87907763	87907770	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	37064311	37064326	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	28469158	28469168	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	29421520	29421521	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	26434702	26434724	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	53954137	53954138	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	127784146	127784166	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr16	70284719	70284726	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	11091417	11091425	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	103840085	103840100	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	23960992	23961019	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr13	42044852	42044877	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr2	73650112	73650115	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	32385552	32385595	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr3	49750337	49750353	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr11	108129817	108129826	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	28626030	28626052	iCLIP#TIA1_wang2010a_hg19*TIA1	65	-
+chr6	7883088	7883128	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr3	59732913	59732917	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	3578867	3578869	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	5822551	5822560	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	26305732	26305748	iCLIP#TIA1_wang2010a_hg19*TIA1	28	-
+chr2	85545247	85545336	iCLIP#TIA1_wang2010a_hg19*TIA1	36	-
+chr6	44221867	44221898	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	23929921	23929930	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	217070666	217070679	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	135514008	135514028	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr19	57819008	57819035	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr5	177637686	177637745	iCLIP#TIA1_wang2010a_hg19*TIA1	43	+
+chr17	15933135	15933139	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	108887089	108887097	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	179425383	179425384	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	26841981	26841994	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	94352088	94352089	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr13	103331037	103331054	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	166418756	166418760	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr4	74734731	74734733	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	198359247	198359260	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	183596320	183596403	iCLIP#TIA1_wang2010a_hg19*TIA1	46	-
+chr11	47843248	47843268	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr3	14528471	14528543	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr5	170345738	170345748	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	68105047	68105057	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	69551803	69551821	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	123181584	123181599	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	7058298	7058304	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr14	70497409	70497437	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr21	34904444	34904454	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	197670577	197670592	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr11	109976457	109976469	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	77268897	77268907	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr17	78353571	78353573	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	235274419	235274441	iCLIP#TIA1_wang2010a_hg19*TIA1	25	-
+chr10	65221058	65221065	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	160151700	160151717	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	86393493	86393542	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr9	111695730	111695744	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	31943569	31943571	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	108102954	108102980	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	35155888	35155898	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	58074347	58074368	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	187542972	187543033	iCLIP#TIA1_wang2010a_hg19*TIA1	29	+
+chr1	204502183	204502196	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	120935708	120935711	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	197055972	197055992	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	170067164	170067187	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	67450549	67450554	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr22	36454469	36454472	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	2208989	2209003	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	93678420	93678425	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	38379108	38379109	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	14082769	14082787	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr3	172348595	172348620	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	179116937	179116948	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	2588838	2588865	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	20551280	20551298	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	103229106	103229118	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	121618536	121618538	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	47814223	47814238	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	128237106	128237135	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	174979319	174979335	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	4800507	4800514	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	142741962	142741983	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	27649108	27649123	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	160201854	160201865	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	37360409	37360410	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	57063993	57064007	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	160089072	160089082	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	34925622	34925719	iCLIP#TIA1_wang2010a_hg19*TIA1	97	+
+chr1	36230743	36230751	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	15348110	15348140	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr17	38563050	38563052	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	77035866	77035891	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr4	141541884	141541885	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	77082424	77082461	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr1	213448179	213448193	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	57788289	57788298	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	158663233	158663234	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	42962911	42962912	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	128014963	128014978	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	95362902	95362946	iCLIP#TIA1_wang2010a_hg19*TIA1	40	-
+chr1	118067996	118068017	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	99501948	99501974	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr7	120987754	120987755	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	192325644	192325647	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	104680802	104680818	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	43344588	43344592	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	64889599	64889605	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr10	103541116	103541140	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr18	12361646	12361657	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	107379025	107379043	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	153616755	153616796	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr3	172546437	172546439	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	200648828	200648829	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr18	28573874	28573884	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	71530728	71530759	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr7	44609350	44609367	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	20334737	20334738	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	30881830	30881853	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr18	211647	211661	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	44127771	44127787	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	130780331	130780344	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	17847100	17847114	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	78187485	78187488	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	163994668	163994688	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	26033833	26033841	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	118449082	118449105	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	222638403	222638405	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr14	52471415	52471418	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	110898830	110898845	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	28177968	28178010	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr5	154255356	154255379	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr8	128203372	128203382	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	87736144	87736196	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr20	11896468	11896472	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr18	33571175	33571204	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	759508	759509	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr20	23438248	23438257	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr2	101893621	101893643	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr11	14501056	14501072	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	10437892	10437910	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	811466	811511	iCLIP#TIA1_wang2010a_hg19*TIA1	73	+
+chr19	57810194	57810231	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr16	1630174	1630177	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	10681013	10681028	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr20	48237505	48237510	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	54691204	54691226	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	98941595	98941630	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr11	62414348	62414359	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	64692892	64692913	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	19512801	19512803	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	77074913	77074930	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr9	5712611	5712622	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	99170711	99170712	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr15	28441593	28441594	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	174244944	174244969	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	58888270	58888303	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr4	68483506	68483508	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	11696148	11696174	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr14	90871066	90871127	iCLIP#TIA1_wang2010a_hg19*TIA1	29	+
+chr8	37556778	37556796	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr9	34921370	34921374	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	133145728	133145729	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	123042471	123042486	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	14939470	14939498	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr3	136320767	136320768	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	53562815	53562818	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	48673703	48673734	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr7	12500322	12500324	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr13	111155299	111155308	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	73047104	73047209	iCLIP#TIA1_wang2010a_hg19*TIA1	51	-
+chr8	145808829	145808830	iCLIP#TIA1_wang2010a_hg19*TIA1	101	-
+chr12	57997130	57997147	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr18	21148757	21148775	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	70281587	70281598	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	34921573	34921589	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	196931510	196931529	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	57915916	57915919	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	97235437	97235451	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	100389659	100389674	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	17169027	17169038	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	70671493	70671509	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	52288305	52288343	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	153436933	153436959	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	68710274	68710278	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	150480860	150480881	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr21	34904587	34904637	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	110933704	110933720	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	79361949	79361950	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr14	43820592	43820593	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	27530487	27530506	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	8472824	8472835	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	165877662	165877679	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr4	77977067	77977107	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr20	31026064	31026100	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr8	27150858	27150878	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	196600355	196600370	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr19	12635599	12635601	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	1635714	1635757	iCLIP#TIA1_wang2010a_hg19*TIA1	58	-
+chr2	32949043	32949048	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	34864782	34864790	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	30939943	30939961	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr22	41349782	41349803	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	25049391	25049402	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	63393853	63393864	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	56989842	56989894	iCLIP#TIA1_wang2010a_hg19*TIA1	42	-
+chr12	65089048	65089076	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr10	96361785	96361803	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr12	88566419	88566423	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	9302836	9302881	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chrX	47422226	47422237	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	211421372	211421382	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr9	95012445	95012458	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr11	48099354	48099356	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	170116019	170116025	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	94298617	94298626	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	134125055	134125061	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	145523766	145523773	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	79525612	79525619	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	26513304	26513341	iCLIP#TIA1_wang2010a_hg19*TIA1	30	+
+chr13	93078084	93078100	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	52203458	52203484	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr11	89939330	89939352	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	63393455	63393465	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr8	135832117	135832121	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	104492680	104492688	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	79788756	79788759	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	11126701	11126712	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	146243400	146243415	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	127705072	127705078	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr18	5290584	5290602	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr21	47693234	47693238	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	128237987	128237995	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	14079802	14079811	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	96373052	96373093	iCLIP#TIA1_wang2010a_hg19*TIA1	36	+
+chr20	2128958	2128978	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	114827952	114827966	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	128290668	128290715	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr8	101730265	101730287	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	55757131	55757154	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr13	107165307	107165329	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	98083570	98083571	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	153611103	153611118	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	37556406	37556423	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	61800750	61800780	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr19	803693	803695	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	59853596	59853618	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	20537138	20537144	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	201448287	201448299	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr1	220987577	220987603	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr5	179263598	179263620	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	111366864	111366881	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	1804294	1804308	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	58453275	58453299	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	106710165	106710177	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr21	44268352	44268362	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	65120386	65120417	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr6	91225503	91225510	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	71503365	71503386	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr15	62326157	62326177	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	165895781	165895788	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chrX	118718283	118718313	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr12	133720619	133720630	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	144286248	144286272	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	92930148	92930206	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chr3	120113155	120113317	iCLIP#TIA1_wang2010a_hg19*TIA1	160	-
+chr1	24022845	24022877	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr21	48056469	48056471	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	155503003	155503008	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	57327243	57327267	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr7	35944670	35944679	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	73977246	73977258	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	3233063	3233066	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	70515154	70515167	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr14	21966405	21966420	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	90945872	90945896	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	21918620	21918630	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	19050719	19050728	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr5	64855806	64855820	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr18	10855518	10855526	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	47219919	47219920	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	43658727	43658733	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr14	20785922	20785938	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	108724518	108724530	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	14516065	14516070	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	83814874	83814911	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr9	130704133	130704148	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr9	25677300	25677306	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	145735214	145735216	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	65195234	65195293	iCLIP#TIA1_wang2010a_hg19*TIA1	83	+
+chr17	27589580	27589587	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	123535008	123535022	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	18249728	18249733	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	122951966	122951993	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	27111691	27111696	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	50148217	50148260	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	122269795	122269819	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr10	70102226	70102235	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	92537139	92537150	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr9	139109436	139109437	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	139076225	139076256	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	56661557	56661575	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	219352598	219352602	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	64289259	64289289	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	34970190	34970198	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	179323366	179323383	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr13	44058122	44058131	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	58969763	58969764	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	7287940	7288007	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr4	185616051	185616060	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	96054877	96054899	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	46751937	46751941	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	70101881	70101903	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr4	135120696	135120700	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	208464845	208464863	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	150317596	150317609	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	51003219	51003240	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	29821693	29821743	iCLIP#TIA1_wang2010a_hg19*TIA1	30	+
+chr4	83275213	83275249	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr5	147650568	147650615	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chr10	104417279	104417287	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	149447951	149447984	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	46701353	46701360	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	114884110	114884141	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr6	33420973	33420978	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	52889986	52889995	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	15460078	15460099	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	68406232	68406260	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr3	126756152	126756171	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	34889747	34889768	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	122025341	122025346	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	78461549	78461558	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	168311240	168311242	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	145890599	145890620	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr9	39085296	39085305	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	26234464	26234484	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chrX	47057716	47057728	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	90401396	90401416	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr18	44383263	44383280	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	31797786	31797853	iCLIP#TIA1_wang2010a_hg19*TIA1	79	+
+chr1	159888291	159888304	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr4	3230489	3230513	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	91144013	91144015	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr18	33572945	33572951	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	912985	913001	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	151955432	151955467	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr5	130662863	130662867	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	125378145	125378146	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	73062066	73062084	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr15	95023553	95023558	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	119570654	119570675	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	62659060	62659065	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	5336164	5336208	iCLIP#TIA1_wang2010a_hg19*TIA1	107	-
+chr11	47487610	47487622	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	95363133	95363166	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr5	58320654	58320666	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	77611163	77611176	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	31732547	31732582	iCLIP#TIA1_wang2010a_hg19*TIA1	32	-
+chr10	12197110	12197118	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	61172148	61172154	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	33290018	33290040	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr11	110102303	110102356	iCLIP#TIA1_wang2010a_hg19*TIA1	38	-
+chr1	51121074	51121095	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	109810277	109810290	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	93579318	93579337	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	65197896	65197937	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr1	52886454	52886473	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	35581488	35581507	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	164819179	164819200	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	83423675	83423676	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr4	101946979	101947000	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr15	72498980	72498991	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	74533403	74533421	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr19	3466226	3466272	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr7	99690431	99690455	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr3	107762268	107762292	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr19	39220811	39220932	iCLIP#TIA1_wang2010a_hg19*TIA1	102	+
+chr10	102124443	102124459	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chrX	112008378	112008379	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr22	50885065	50885066	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	76989316	76989342	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr8	128239406	128239439	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr2	203157810	203157833	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr12	121768356	121768379	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	88277239	88277253	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	76383383	76383387	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	193056768	193056775	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	97074788	97074790	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr22	50804394	50804408	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	32748382	32748390	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	61080934	61080950	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	145140044	145140058	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	113825675	113825686	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	104240574	104240577	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	102478937	102478938	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	55235806	55235826	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	46570950	46570951	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	32355605	32355643	iCLIP#TIA1_wang2010a_hg19*TIA1	57	-
+chr12	107348996	107349004	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	56538009	56538023	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chrX	100647103	100647123	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	107525884	107525893	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	73026404	73026418	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	70766146	70766183	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr2	44200728	44200732	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	17095893	17095919	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	78435407	78435435	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr13	52744108	52744109	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	78916105	78916127	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	211443705	211443727	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	72855228	72855241	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	56657588	56657613	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr13	73284163	73284173	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr6	30923463	30923464	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr22	31369598	31369603	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr16	2758939	2758973	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	33434461	33434489	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	183998367	183998382	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	44414679	44414696	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	90871755	90871788	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr1	224591876	224591895	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	145383095	145383102	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	153516142	153516175	iCLIP#TIA1_wang2010a_hg19*TIA1	302	-
+chr12	79982930	79982939	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	109236272	109236275	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	30688864	30688875	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	81578762	81578791	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	41438647	41438663	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	3545477	3545478	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	3547314	3547326	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	41774732	41774745	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr14	99977133	99977159	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	176804725	176804743	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	93505035	93505037	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr14	105225933	105225961	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr7	135611935	135611974	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr7	72107050	72107051	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	93315539	93315558	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	63580315	63580316	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	45025435	45025439	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	139498270	139498303	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr5	78073123	78073136	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	124082392	124082431	iCLIP#TIA1_wang2010a_hg19*TIA1	52	+
+chr14	67851096	67851136	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	8708984	8708987	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	79179707	79179714	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	82614757	82614784	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr4	463263	463288	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	4316682	4316683	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	111215085	111215101	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	111957592	111957604	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	97915170	97915177	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	206906312	206906349	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr5	180660790	180660797	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	62813804	62813805	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	111211019	111211037	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	53343651	53343668	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr2	113420851	113420868	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr5	137892819	137892832	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	26433228	26433241	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr7	96770920	96770926	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr4	90033042	90033043	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	80497137	80497138	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr13	49054594	49054628	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr10	89268373	89268375	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	130038412	130038413	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	120454655	120454662	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr20	33657079	33657085	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	22207010	22207026	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	65747343	65747350	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	72008402	72008425	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	32419205	32419220	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	149687839	149687844	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	107218026	107218038	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	2517494	2517506	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	65119017	65119033	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	100435077	100435110	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr7	36492939	36492968	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr1	229795212	229795255	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr8	128240822	128241086	iCLIP#TIA1_wang2010a_hg19*TIA1	850	-
+chr5	72147173	72147186	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	169784951	169784974	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr19	24232362	24232363	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	194317983	194317987	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	122758009	122758039	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	203243205	203243213	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	119545485	119545508	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr17	55757172	55757208	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr19	57960288	57960293	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	75933555	75933584	iCLIP#TIA1_wang2010a_hg19*TIA1	100	+
+chr10	119042424	119042453	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	37781948	37781952	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	19827636	19827646	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	1017627	1017635	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	40779118	40779119	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	3753414	3753415	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	1717381	1717402	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr5	172461454	172461473	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr8	141537320	141537328	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	179202339	179202364	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	149679463	149679478	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	75494815	75494841	iCLIP#TIA1_wang2010a_hg19*TIA1	27	+
+chr10	116194788	116194802	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	182770878	182770903	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	135330234	135330254	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	121201817	121201837	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	11085291	11085320	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	146058305	146058314	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	175694818	175694832	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	20834654	20834702	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr5	134126005	134126017	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr16	24741667	24741687	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	88815415	88815428	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr8	141531913	141531926	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	93463464	93463490	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	56094103	56094154	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr21	34902979	34902994	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	5931738	5931749	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	163027404	163027419	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	65495994	65495999	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr18	23615219	23615230	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr15	41672425	41672474	iCLIP#TIA1_wang2010a_hg19*TIA1	60	+
+chr6	27640272	27640285	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	58953931	58953935	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	43450598	43450611	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr13	115048431	115048448	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	11966617	11966664	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr1	7839794	7839817	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr6	158613208	158613218	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	176759016	176759039	iCLIP#TIA1_wang2010a_hg19*TIA1	58	-
+chr6	26197497	26197519	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr9	14086628	14086658	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr17	60075908	60075928	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	76220141	76220160	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr1	220284070	220284078	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	20371564	20371576	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	134249466	134249468	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	24190696	24190731	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	98662496	98662531	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	243289604	243289616	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr4	20259855	20259860	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	122999214	122999247	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr17	76793021	76793047	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	50880301	50880306	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	46052329	46052344	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	161510063	161510090	iCLIP#TIA1_wang2010a_hg19*TIA1	194	+
+chr1	89453118	89453134	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	81646099	81646100	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr19	57805961	57806000	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr22	43266579	43266605	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr8	141537538	141537574	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	214522074	214522129	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr1	61707620	61707624	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr20	48250897	48250926	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr2	85594761	85594779	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr5	58638563	58638570	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	54471046	54471054	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	31146694	31146699	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	30687995	30688006	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr5	64816754	64816775	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	61556635	61556676	iCLIP#TIA1_wang2010a_hg19*TIA1	75	-
+chr17	61086995	61087008	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	17441301	17441303	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	125248461	125248486	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	113229848	113229859	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	100744506	100744517	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr11	12553915	12553916	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	72891660	72891685	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr21	33729818	33729836	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	7623628	7623631	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	198299666	198299685	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	152251878	152251879	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	73061099	73061116	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	53711449	53711474	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	74657884	74657895	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr18	32907008	32907009	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	71876104	71876111	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr15	86260656	86260659	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	5786132	5786150	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr8	109499208	109499223	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	126171960	126171989	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr4	178272717	178272722	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	26862547	26862564	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	86248530	86248535	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	68123404	68123415	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	71636948	71636968	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	57608851	57608875	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr17	36357675	36357705	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	71136199	71136201	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	156868315	156868334	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	76785204	76785224	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	182856636	182856651	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	57749958	57749975	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr12	122967792	122967807	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	70717625	70717660	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr18	23971435	23971456	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	61705129	61705216	iCLIP#TIA1_wang2010a_hg19*TIA1	59	-
+chrX	63265167	63265178	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	126283987	126284000	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	461150	461164	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr11	107925705	107925720	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	86815302	86815330	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr14	21490524	21490537	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	40475568	40475577	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	125490877	125490888	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr3	31702461	31702470	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	28150131	28150176	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr9	125645807	125645830	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	65270598	65270628	iCLIP#TIA1_wang2010a_hg19*TIA1	65	+
+chr11	65270322	65270374	iCLIP#TIA1_wang2010a_hg19*TIA1	98	+
+chr1	45285564	45285614	iCLIP#TIA1_wang2010a_hg19*TIA1	188	-
+chr2	223806650	223806681	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr4	84465768	84465795	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	179045795	179045833	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr18	33860212	33860236	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	49570890	49570899	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	51592449	51592460	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	109040813	109040824	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr14	58740587	58740588	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr13	49772409	49772427	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	178080927	178080935	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr19	14508057	14508058	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	123550337	123550347	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	28757578	28757583	iCLIP#TIA1_wang2010a_hg19*TIA1	57	-
+chr8	80676894	80676912	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	15989817	15989846	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	46760835	46760852	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	54634059	54634102	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr10	112045865	112045882	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	76737310	76737319	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	104345006	104345029	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	78162346	78162377	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr9	6497111	6497115	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	47708584	47708606	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	91931296	91931306	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr17	73031239	73031240	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	75053734	75053760	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	173837065	173837091	iCLIP#TIA1_wang2010a_hg19*TIA1	29	-
+chr17	78310917	78310941	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	865763	865764	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	117645134	117645139	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	64407419	64407432	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	71808377	71808402	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr11	64850809	64850824	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	56843956	56843967	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr11	9160427	9160454	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr5	174953805	174953824	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	48886241	48886345	iCLIP#TIA1_wang2010a_hg19*TIA1	170	-
+chr2	38790802	38790822	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr4	140311779	140311793	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	123954389	123954411	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	43881476	43881513	iCLIP#TIA1_wang2010a_hg19*TIA1	48	-
+chr1	19495867	19495875	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	73444149	73444177	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr3	197508862	197508878	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	179306623	179306640	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr10	127703889	127703922	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr5	145527404	145527410	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	30367358	30367365	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	45789759	45789778	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	87870175	87870238	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr1	161397881	161397882	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	431488	431503	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	72865707	72865711	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	91978875	91978884	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr15	65871148	65871172	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr11	94898822	94898846	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	34145956	34145959	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	183642932	183642959	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr21	38495358	38495360	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	66526937	66526970	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr13	79896432	79896469	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr2	20474978	20475002	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	50254838	50254841	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	87002460	87002529	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr12	19646978	19646981	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	28177954	28177975	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	61563286	61563291	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	32711498	32711506	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	67213239	67213240	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	57725034	57725049	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	70524334	70524357	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	236972083	236972097	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	3207446	3207447	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	148561051	148561076	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	69112567	69112582	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	47819685	47819704	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	56531963	56531980	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	127560436	127560440	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	28862902	28862904	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	48359143	48359156	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	20587107	20587133	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	94350820	94350833	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	26237212	26237233	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr17	35687082	35687101	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	58969547	58969572	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	8876298	8876323	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr21	44520542	44520551	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	128127213	128127218	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	10924142	10924156	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr8	30211017	30211025	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr19	11519518	11519520	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	14984524	14984554	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr7	151832495	151832506	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	87517027	87517050	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	133297839	133297848	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr17	20146584	20146597	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	132199032	132199048	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	70695224	70695237	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	24999127	24999164	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr9	104237865	104237884	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr18	66341932	66341967	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr14	58739327	58739345	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	24021336	24021346	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	38068728	38068742	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	205686471	205686477	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	170906250	170906251	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	20557434	20557456	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	133038405	133038406	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr17	63595220	63595221	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	58806170	58806180	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	92536938	92536964	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr3	39449313	39449341	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chrX	106957103	106957129	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	38175588	38175598	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	16236184	16236214	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr3	184038521	184038524	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	31732601	31732616	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr1	9429512	9429523	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr13	60412925	60412940	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	20787997	20788020	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	118852498	118852518	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr11	17141235	17141261	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	4851767	4851807	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr1	223980076	223980084	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	85858089	85858091	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	100620855	100620858	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	179045889	179045925	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr21	11186444	11186466	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	154897419	154897424	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	89857947	89857953	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	46590057	46590066	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	68167500	68167523	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	44816642	44816662	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	93479908	93479926	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	95185080	95185093	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	186315046	186315048	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	35646684	35646719	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr18	12999263	12999269	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	166282644	166282664	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	105732106	105732132	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr7	17362472	17362485	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	180218511	180218521	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	67183318	67183319	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	65739712	65739731	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	28824820	28824825	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	112214050	112214062	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr16	30363791	30363810	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	21597764	21597789	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	31775208	31775212	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	28310601	28310609	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	58295211	58295222	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	89864851	89864882	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	151305083	151305087	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	106327584	106327589	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	37017951	37017985	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	110936607	110936620	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr15	101178623	101178635	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	58810748	58810775	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	99955526	99955534	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	47896860	47896908	iCLIP#TIA1_wang2010a_hg19*TIA1	50	+
+chr22	39258518	39258535	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr14	97000907	97000916	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	76761547	76761559	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	64871022	64871039	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	76385195	76385210	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	95799333	95799346	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	64084279	64084315	iCLIP#TIA1_wang2010a_hg19*TIA1	46	-
+chr12	7052990	7053027	iCLIP#TIA1_wang2010a_hg19*TIA1	1174	+
+chr18	57571127	57571152	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr2	217540454	217540468	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	44921970	44921999	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	104340604	104340610	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	205683607	205683634	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr7	36478908	36478935	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	30406022	30406032	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr22	40990662	40990664	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	68114185	68114188	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	139347851	139347870	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	151027432	151027442	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	27462210	27462226	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	90947580	90947601	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	205686693	205686718	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr12	26539127	26539142	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	42742959	42742963	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	174952149	174952154	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	82090001	82090002	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	73493101	73493132	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	133624242	133624270	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	55503884	55503902	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	89933188	89933202	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	52632911	52632918	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr14	60611573	60611591	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr12	54744602	54744615	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr11	62283868	62283970	iCLIP#TIA1_wang2010a_hg19*TIA1	82	-
+chr16	17896128	17896129	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	185106541	185106564	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr21	40718783	40718800	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrM	283	304	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr8	128237671	128237707	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	1018853	1018878	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr18	5239074	5239079	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	19233632	19233639	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	13386025	13386040	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	125284577	125284601	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr22	42149982	42149989	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	10870582	10870597	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	81571801	81571811	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	152279825	152279838	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr13	49779550	49779568	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	121959556	121959558	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	75291023	75291038	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	2233613	2233631	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	2966632	2966647	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr3	53003101	53003107	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	58156549	58156556	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr17	15912523	15912536	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	224380865	224380924	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr12	28410078	28410079	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	131455055	131455074	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr16	86547642	86547675	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	202845440	202845441	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	54140358	54140376	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	38524984	38525031	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr12	20539428	20539447	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	15271107	15271134	iCLIP#TIA1_wang2010a_hg19*TIA1	33	-
+chr15	28841277	28841278	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	35697769	35697777	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	33557472	33557489	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	160103479	160103490	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	128154715	128154744	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	179041438	179041477	iCLIP#TIA1_wang2010a_hg19*TIA1	64	-
+chr2	191797712	191797751	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr12	108957944	108957947	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	153264293	153264302	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	54979707	54979715	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	57804951	57804976	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr7	100400494	100400526	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr15	75663806	75663828	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr11	47490228	47490278	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr8	42982369	42982407	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr5	176980151	176980159	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	138012805	138012818	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	100802446	100802481	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr18	43495340	43495347	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	71943393	71943423	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr7	135279003	135279028	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	83346626	83346657	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr12	26222140	26222149	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	150595484	150595485	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr11	33730564	33730609	iCLIP#TIA1_wang2010a_hg19*TIA1	32	-
+chr1	32503870	32503883	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	41731699	41731743	iCLIP#TIA1_wang2010a_hg19*TIA1	39	-
+chr4	174298557	174298576	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr13	42524036	42524057	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	72999656	72999684	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	184041781	184041783	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	13029059	13029060	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	186325791	186325807	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	6746926	6746936	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	19019817	19019824	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	32661967	32661985	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr19	6585973	6586004	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr8	38961549	38961618	iCLIP#TIA1_wang2010a_hg19*TIA1	46	+
+chr2	128104826	128104841	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	25291248	25291269	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	32264003	32264015	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	45258894	45258920	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	46973088	46973108	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	15935547	15935555	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	49079025	49079052	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	123254356	123254421	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr19	54697401	54697420	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr10	34096368	34096370	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	32417968	32417978	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	109240499	109240520	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr17	45085167	45085172	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	87397401	87397407	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	176811727	176811743	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	180004891	180004916	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr11	47828014	47828019	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	57998772	57998776	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	66665200	66665203	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	99323251	99323266	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	174091800	174091827	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	100276731	100276760	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr17	42881655	42881676	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	38489359	38489372	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	69233783	69233830	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr15	60715376	60715379	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	218819658	218819659	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr15	99507563	99507575	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	98234423	98234451	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr22	45732300	45732313	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	9610738	9610777	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr5	141010248	141010249	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	138665761	138665789	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr13	47308137	47308147	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	80168907	80168920	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr13	80113926	80113943	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	55479365	55479373	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	110449955	110449965	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	11146959	11146973	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	1612747	1612757	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	150937841	150937884	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr16	85008511	85008523	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr4	83347049	83347074	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	121427566	121427568	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	4159768	4159817	iCLIP#TIA1_wang2010a_hg19*TIA1	33	+
+chr5	68850230	68850254	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr10	101466263	101466277	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr12	46599838	46599846	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	116939078	116939109	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	20525051	20525067	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	153926681	153926684	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	21666928	21666931	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	89301495	89301533	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chrX	133561242	133561264	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr8	128237006	128237030	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	2931062	2931087	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	82535910	82535942	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr8	43097051	43097058	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	102385575	102385576	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	90493490	90493523	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr19	51307788	51307813	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	180600706	180600707	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr5	131039852	131039868	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr22	50201387	50201395	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	201695086	201695087	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr8	128160548	128160557	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	20599500	20599548	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr14	21841475	21841487	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr19	30503471	30503484	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr22	43015010	43015020	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	8387407	8387408	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	244219618	244219648	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	11968340	11968342	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	70727641	70727648	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	2932628	2932643	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	64801776	64801797	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	137087801	137087817	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr2	169727943	169727965	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	21448585	21448598	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	148680843	148680844	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	11618121	11618122	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	20401861	20401875	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr7	132570394	132570411	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	151306358	151306380	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	1325893	1325897	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	57916740	57916753	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	129100347	129100348	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	124368587	124368592	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	76937668	76937678	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	8639178	8639189	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	103922766	103922774	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	30482678	30482694	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	34525450	34525451	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	80498229	80498239	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	73894253	73894259	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	170643960	170643979	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	110289156	110289158	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	107963288	107963326	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr1	9797707	9797716	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	3719277	3719312	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr17	34851484	34851499	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr17	35804879	35804887	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	223806763	223806792	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr11	65652345	65652369	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	101037738	101037750	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	21731436	21731452	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	111490264	111490278	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	20583754	20583781	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	41420839	41420849	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	39454219	39454220	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	234755571	234755574	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	38565936	38565958	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	4724685	4724700	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr3	55503979	55504048	iCLIP#TIA1_wang2010a_hg19*TIA1	40	-
+chr15	55651136	55651149	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr18	56064617	56064629	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	186303306	186303315	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr19	6535476	6535501	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	128889109	128889130	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr8	90947685	90947708	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	45643402	45643410	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	98941547	98941570	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	133636118	133636144	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	225700557	225700563	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	160185863	160185875	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr18	13057366	13057380	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	99704745	99704753	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	168213423	168213426	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	127642062	127642077	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr20	5952693	5952704	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	42661852	42661862	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr6	41757492	41757541	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	65199812	65199848	iCLIP#TIA1_wang2010a_hg19*TIA1	33	+
+chr10	99475312	99475318	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	105097573	105097596	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	105293549	105293624	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr15	64458282	64458297	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	111092785	111092786	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	1582492	1582536	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr3	49749989	49749996	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	8642909	8642942	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	54631075	54631097	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	26961512	26961523	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	106299837	106299839	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	38904143	38904148	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	102992874	102992876	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	33770292	33770307	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	157047094	157047107	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	47735279	47735295	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	106364613	106364621	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr14	76662329	76662338	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	40686386	40686424	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr17	46951674	46951679	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	28445202	28445212	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	149893492	149893511	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	20477923	20477943	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	75573184	75573198	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	109900508	109900524	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	57485928	57485953	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	58413503	58413538	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr12	121016889	121016900	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	20625296	20625321	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	102122136	102122146	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chr3	169990584	169990610	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	45894832	45894841	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	68591418	68591436	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr17	57917377	57917398	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr8	97299285	97299310	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	102236100	102236108	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr19	5626511	5626540	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	50704893	50704908	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr22	36164266	36164274	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	60554830	60554841	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	71503671	71503705	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr5	77081683	77081684	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	64843937	64843941	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	76509088	76509100	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	170428916	170428934	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	113918088	113918115	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr6	13358373	13358392	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	73061735	73061793	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr7	139246441	139246454	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	112112928	112112939	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	40134997	40135030	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr12	25957778	25957797	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr15	90984944	90984958	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	151210870	151210904	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr19	17343034	17343041	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr5	170827938	170827960	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr19	3610703	3610712	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	78962453	78962460	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	5786214	5786249	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr12	10851861	10851882	iCLIP#TIA1_wang2010a_hg19*TIA1	28	-
+chr15	75931619	75931639	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	44274640	44274645	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	206772608	206772623	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	153862134	153862143	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	122880896	122880918	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr19	5788132	5788133	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	137563744	137563763	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr9	2827102	2827111	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	42734726	42734736	iCLIP#TIA1_wang2010a_hg19*TIA1	46	-
+chr17	17168178	17168194	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	83724350	83724359	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	49330200	49330209	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr12	124472691	124472710	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	111680984	111680988	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	140406357	140406360	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	165365236	165365243	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	42285574	42285585	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	124684617	124684635	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr18	60997997	60998018	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr9	130258039	130258040	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	95475409	95475420	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	13734586	13734601	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr6	24720832	24720850	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	38194567	38194574	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	56656892	56656895	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr14	48258900	48258918	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	131206407	131206430	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	133538762	133538799	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr8	38123608	38123621	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	133755162	133755166	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	67834748	67834772	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr15	42519815	42519829	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	122766030	122766061	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr15	91083380	91083389	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	97140490	97140499	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	198358018	198358029	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	28834685	28834711	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr1	245017462	245017495	iCLIP#TIA1_wang2010a_hg19*TIA1	228	-
+chr11	65268221	65268428	iCLIP#TIA1_wang2010a_hg19*TIA1	800	+
+chrX	70459639	70459645	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	51722615	51722670	iCLIP#TIA1_wang2010a_hg19*TIA1	34	+
+chr5	50679542	50679552	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	131923794	131923798	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	35978131	35978133	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	116603749	116603750	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	62522120	62522131	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr7	139060910	139060924	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	27106241	27106275	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr20	34218807	34218810	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	2948543	2948558	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	74961547	74961549	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	52216301	52216310	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	15490106	15490118	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	76131895	76131903	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	111158820	111158838	iCLIP#TIA1_wang2010a_hg19*TIA1	32	-
+chr1	160248564	160248606	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	14391407	14391421	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	59120479	59120486	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	42117753	42117773	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chrX	123234678	123234686	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr14	91974829	91974844	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	118279841	118279855	iCLIP#TIA1_wang2010a_hg19*TIA1	27	+
+chr11	102267495	102267506	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr18	39369140	39369141	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	18361360	18361361	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	10102729	10102732	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	52949812	52949817	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	64380850	64380858	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	46690951	46690952	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	42510147	42510161	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	110745783	110745796	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	34153161	34153175	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	51128922	51128923	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr16	57792161	57792164	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	6064242	6064268	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr17	19558728	19558734	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	83271662	83271673	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	75794300	75794327	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr3	131189975	131189992	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	71911392	71911403	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	228285932	228285980	iCLIP#TIA1_wang2010a_hg19*TIA1	28	+
+chr8	128231189	128231265	iCLIP#TIA1_wang2010a_hg19*TIA1	32	-
+chr8	41788974	41788998	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr15	85189874	85189899	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr7	128379527	128379542	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	56090362	56090364	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	136230270	136230286	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr21	47845890	47845899	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	160471959	160471973	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	57892361	57892375	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	125325869	125325892	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	82457938	82457956	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr22	50191174	50191193	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	17735364	17735388	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr7	131176511	131176529	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	35653551	35653563	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	111953923	111953942	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	169981226	169981234	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	40509219	40509245	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	211296190	211296202	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	137891496	137891499	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	150320714	150320717	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	8044887	8044888	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	57287377	57287387	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr8	135814527	135814539	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	155571542	155571546	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	203165102	203165134	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	107591836	107591837	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	24874069	24874083	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	78088263	78088268	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	17762364	17762390	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	172228546	172228547	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	245017707	245017742	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr16	70700622	70700632	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	131902078	131902079	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	120455442	120455456	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr19	5648125	5648159	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	123745743	123745774	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr15	44800629	44800640	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	10401752	10401759	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr21	44836463	44836500	iCLIP#TIA1_wang2010a_hg19*TIA1	33	-
+chr9	125777952	125777954	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	193414303	193414315	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	6018630	6018634	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	54842332	54842342	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr10	58115028	58115031	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	107834882	107834901	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	30004350	30004353	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	9610819	9610845	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr17	29184022	29184025	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	26613166	26613182	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr12	112491333	112491348	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	109974436	109974445	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	17893496	17893497	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	221874933	221874942	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	55514754	55514776	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrM	4286	4298	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr6	132269682	132269743	iCLIP#TIA1_wang2010a_hg19*TIA1	38	-
+chr11	9628190	9628193	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	15296599	15296623	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr17	48832192	48832199	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	69341203	69341219	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr7	21941207	21941210	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	92259605	92259612	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	16236776	16236817	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr1	97276829	97276844	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	10942734	10942754	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	128996534	128996555	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	61278068	61278079	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	32955702	32955717	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	66783424	66783446	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	42930830	42930846	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	8045283	8045312	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr2	188348824	188348841	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	15131436	15131455	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	128215139	128215161	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr13	60435514	60435529	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	73852597	73852620	iCLIP#TIA1_wang2010a_hg19*TIA1	47	-
+chr13	60409498	60409506	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	111595896	111595912	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	100866719	100866739	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	203152474	203152489	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	58938879	58938891	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	29710034	29710037	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	166338546	166338565	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr16	28848493	28848515	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr1	225228015	225228020	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	6606319	6606330	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	17322606	17322608	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	129263399	129263402	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr10	1087054	1087063	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	38548192	38548207	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	201688303	201688324	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	193055020	193055034	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	37474779	37474787	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr16	76279602	76279604	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	6085887	6085901	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	56510437	56510459	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	20883144	20883145	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	19554082	19554088	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	44063540	44063575	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr8	29571631	29571632	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	9696741	9696754	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	125490771	125490797	iCLIP#TIA1_wang2010a_hg19*TIA1	47	+
+chr14	35870751	35870764	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	233807746	233807751	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr14	81646071	81646074	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	149683840	149683867	iCLIP#TIA1_wang2010a_hg19*TIA1	37	-
+chr2	119592559	119592560	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	148748926	148748962	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr19	34960471	34960536	iCLIP#TIA1_wang2010a_hg19*TIA1	31	+
+chr2	191766762	191766771	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	152024238	152024253	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	17581157	17581170	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	105152757	105152758	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	4175438	4175462	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr19	7515663	7515670	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	2047683	2047703	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	134109555	134109561	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	44815334	44815349	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	95814201	95814212	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	75175709	75175722	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	40739689	40739726	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr12	125231123	125231124	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	53652095	53652108	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	52860690	52860719	iCLIP#TIA1_wang2010a_hg19*TIA1	155	+
+chr4	4864350	4864377	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr14	103922646	103922662	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	137735291	137735314	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr11	102104022	102104025	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	176733628	176733652	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	156712286	156712316	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr2	174945862	174945869	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	21737082	21737110	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	45196476	45196489	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	62415472	62415513	iCLIP#TIA1_wang2010a_hg19*TIA1	52	-
+chr12	110825505	110825528	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	57897159	57897181	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr8	128240542	128240547	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	87000813	87000825	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr21	27144663	27144678	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	133513462	133513469	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr3	145838821	145838851	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	73741517	73741519	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	75881808	75881832	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr3	196811001	196811021	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	30693114	30693147	iCLIP#TIA1_wang2010a_hg19*TIA1	33	+
+chr8	117657120	117657143	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	25364619	25364620	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	15133999	15134043	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr19	3610666	3610671	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	79645738	79645743	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	86276369	86276406	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr11	35015458	35015485	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	54557250	54557277	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	34418316	34418324	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	29580035	29580052	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	141165436	141165461	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr10	94414229	94414256	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr19	18307975	18307979	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	36935963	36935992	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr1	75766401	75766402	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	40031294	40031328	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr4	57357742	57357756	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	38701012	38701036	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	58387464	58387481	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	209101517	209101545	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chrY	21153916	21153927	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	74441452	74441470	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	183495227	183495230	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	88135562	88135572	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	90493381	90493406	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	79986588	79986601	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	102160678	102160687	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	86352219	86352246	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr13	111211058	111211062	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	48863197	48863241	iCLIP#TIA1_wang2010a_hg19*TIA1	42	+
+chr10	115234709	115234712	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	32799689	32799716	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr3	128888380	128888403	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr11	65622561	65622608	iCLIP#TIA1_wang2010a_hg19*TIA1	65	-
+chrX	135129215	135129249	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	137503593	137503608	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr19	10708049	10708050	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr20	47730460	47730494	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr12	97315450	97315451	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	18225584	18225649	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr7	44799371	44799374	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	172395253	172395254	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr21	40178789	40178808	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	26055806	26055825	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	135514821	135514834	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	61463428	61463431	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	64012286	64012291	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	93029172	93029190	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr16	56643305	56643352	iCLIP#TIA1_wang2010a_hg19*TIA1	42	+
+chr7	6442985	6443007	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr22	47082852	47082879	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	15880206	15880225	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	96373117	96373180	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chrX	73042215	73042238	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr17	74730653	74730673	iCLIP#TIA1_wang2010a_hg19*TIA1	55	-
+chr14	50362032	50362033	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	37672597	37672614	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr16	2289958	2289960	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	201443329	201443330	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	49667006	49667090	iCLIP#TIA1_wang2010a_hg19*TIA1	59	+
+chr15	41624096	41624102	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	133589851	133589861	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	32126111	32126137	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chrX	114357076	114357081	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	45738308	45738319	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	19096647	19096660	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	73092401	73092406	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	34086541	34086581	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chrX	119572983	119572998	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	61779356	61779369	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr6	122764195	122764207	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	94037226	94037234	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	134182567	134182580	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr2	72406342	72406346	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7_gl000195_random	84038	84047	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	87346331	87346341	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	109474253	109474258	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	110254981	110254988	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	129602211	129602212	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	134020152	134020167	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	114351598	114351611	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	24259863	24259864	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	201687972	201687978	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	8959180	8959181	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	74070278	74070314	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	133319037	133319050	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	11852719	11852771	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr1	154554822	154554850	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr17	59820808	59820818	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	64951497	64951515	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	79936244	79936266	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	38286450	38286455	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr22	40756241	40756247	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	9515009	9515011	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	58658274	58658278	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	24344486	24344492	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	127609459	127609475	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	64828391	64828392	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	33431001	33431025	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr20	8470047	8470049	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	79477274	79477299	iCLIP#TIA1_wang2010a_hg19*TIA1	32	-
+chr9	72841484	72841494	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr4	89442386	89442406	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	18148167	18148180	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	56756809	56756810	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	158547418	158547431	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr10	104489580	104489584	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	43052779	43052780	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr20	35869813	35869887	iCLIP#TIA1_wang2010a_hg19*TIA1	131	+
+chr1	179832641	179832664	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr1	16847113	16847127	iCLIP#TIA1_wang2010a_hg19*TIA1	95	-
+chr1	214607857	214607874	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	32809444	32809446	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	1730669	1730697	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	74731458	74731488	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr1	153634624	153634650	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	158910911	158910942	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	178063868	178063872	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	95066399	95066504	iCLIP#TIA1_wang2010a_hg19*TIA1	35	-
+chr3	133319671	133319693	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	97643656	97643664	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	76440258	76440280	iCLIP#TIA1_wang2010a_hg19*TIA1	25	-
+chr13	42852887	42852888	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	29746705	29746731	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	55232975	55233003	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr13	92863379	92863391	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	166390687	166390717	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	55317850	55317858	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	108345262	108345274	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	28833953	28833977	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr2	191784989	191785038	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr10	35772425	35772453	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	111889351	111889375	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	160219265	160219276	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	70191602	70191611	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr14	96798789	96798825	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr8	41119518	41119546	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr14	103244861	103244875	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	51373599	51373608	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	12272033	12272123	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr10	121352802	121352815	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	42840106	42840120	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	187462322	187462342	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	32446134	32446142	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr20	44445431	44445474	iCLIP#TIA1_wang2010a_hg19*TIA1	45	+
+chr3	29352846	29352854	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	153431780	153431782	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	25639599	25639660	iCLIP#TIA1_wang2010a_hg19*TIA1	62	-
+chr9	100433528	100433550	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	20493963	20493984	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	172379592	172379600	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	46683526	46683527	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	26745291	26745302	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr11	47602182	47602194	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	144537702	144537751	iCLIP#TIA1_wang2010a_hg19*TIA1	137	+
+chr22	22269280	22269293	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	64937086	64937115	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	135715884	135715903	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	50999683	50999712	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	113467297	113467302	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	191834169	191834195	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	23241046	23241050	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	82457615	82457645	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	54676453	54676482	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr10	27475475	27475488	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	92636291	92636298	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	145538265	145538293	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr8	26268812	26268832	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr10	13253067	13253077	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	10193411	10193416	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	109588734	109588742	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chrX	38665370	38665390	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr21	45524459	45524467	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	42445348	42445351	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	57829486	57829492	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	179263914	179263936	iCLIP#TIA1_wang2010a_hg19*TIA1	32	+
+chr9	88276271	88276278	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	21777422	21777431	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	1247999	1248056	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr9	20715415	20715430	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	11209933	11209957	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	40280624	40280641	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	34970345	34970373	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	20531755	20531773	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	31541518	31541531	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	60770858	60770897	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr12	475859	475876	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	123031240	123031241	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	25354853	25354856	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	46754704	46754742	iCLIP#TIA1_wang2010a_hg19*TIA1	57	-
+chr1	23636413	23636439	iCLIP#TIA1_wang2010a_hg19*TIA1	44	-
+chr14	102547826	102547851	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr2	73989409	73989435	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	126995926	126995939	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	152644572	152644580	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	58286586	58286604	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	92536339	92536375	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr15	59185962	59185977	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	46314385	46314399	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr21	45524209	45524230	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	135399298	135399306	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	58892164	58892168	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	110784391	110784426	iCLIP#TIA1_wang2010a_hg19*TIA1	31	+
+chr6	127635938	127635947	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	190313247	190313262	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	123604737	123604738	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	58022910	58022925	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	37057557	37057568	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	79531323	79531342	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	53308232	53308235	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	17649831	17649837	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	102930960	102931069	iCLIP#TIA1_wang2010a_hg19*TIA1	195	-
+chr3	36410497	36410499	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr4	169659247	169659257	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	144939809	144939822	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	21597906	21597929	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	32637654	32637680	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr5	14611056	14611093	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr1	17199110	17199119	iCLIP#TIA1_wang2010a_hg19*TIA1	123	+
+chr12	20524826	20524836	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	25798067	25798069	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	145151568	145151585	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	8091213	8091222	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr9	134016543	134016558	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	228645564	228645567	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	124082215	124082248	iCLIP#TIA1_wang2010a_hg19*TIA1	37	+
+chrX	53405037	53405059	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr22	43266457	43266477	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	59717615	59717616	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	53673499	53673500	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	4962018	4962026	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr20	35220802	35220831	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	30190218	30190247	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr10	58117594	58117599	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	68286693	68286711	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr22	37286333	37286334	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr19	14488739	14488740	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	20148597	20148603	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	123166599	123166603	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	133492856	133492864	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	48774075	48774084	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	219118725	219118735	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	69665284	69665332	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr12	50475613	50475620	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	68335591	68335640	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr16	89449190	89449196	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	2967432	2967453	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	100870752	100870780	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	153603883	153603896	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr9	37859337	37859349	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	37304032	37304045	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	15756503	15756527	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	143815873	143815902	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr3	186504592	186504615	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr6	64290910	64291086	iCLIP#TIA1_wang2010a_hg19*TIA1	187	+
+chr13	92307018	92307034	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	128643139	128643177	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	35760154	35760157	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	77875575	77875589	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	26231492	26231725	iCLIP#TIA1_wang2010a_hg19*TIA1	380	-
+chr3	31621599	31621608	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	49414177	49414200	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	58374014	58374044	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	70452580	70452588	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr18	57005664	57005667	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	28306933	28306942	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	49067169	49067197	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr6	52844000	52844004	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr2	211543402	211543432	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr11	31823390	31823403	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	31321728	31321789	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr14	81644136	81644143	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	61896487	61896511	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr11	65464026	65464027	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	58329524	58329536	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	214522405	214522417	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	58633098	58633106	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	48451516	48451517	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	3763660	3763668	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	122159412	122159426	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	179815044	179815059	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr17	27875767	27875790	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr16	70566528	70566535	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	19297609	19297610	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	78074839	78074861	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr6	4142061	4142063	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	225589899	225589936	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr8	64122785	64122786	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	114926562	114926592	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr4	143645380	143645392	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	58945484	58945517	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr8	101932109	101932141	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr1	149294724	149294732	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	72754430	72754431	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	32522830	32522873	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr10	88856755	88856776	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr7	36456812	36456823	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	57897265	57897299	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr7	141357520	141357523	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	117645163	117645203	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr11	63526665	63526680	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr10	127525066	127525076	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	7128956	7128995	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr15	57578990	57579009	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr3	167726744	167726771	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr6	125406827	125406842	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	55335734	55335750	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	147495240	147495243	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	196202247	196202249	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	43162958	43162967	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	179197730	179197738	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	154935246	154935282	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr6	89874934	89874958	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr6	79711583	79711602	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	110092215	110092243	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr5	50690026	50690037	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	108338032	108338033	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	93184907	93184940	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr19	34718610	34718622	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	211542805	211542880	iCLIP#TIA1_wang2010a_hg19*TIA1	75	+
+chr20	33356221	33356223	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	145005831	145005833	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	229588241	229588262	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	74985085	74985095	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	22304786	22304792	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	201342922	201342937	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr10	7849643	7849674	iCLIP#TIA1_wang2010a_hg19*TIA1	36	+
+chr8	420834	420859	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	21049040	21049041	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	116486510	116486525	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	111214039	111214063	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr10	51736374	51736382	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	195777137	195777168	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr19	47103489	47103490	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	58485603	58485624	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	19665365	19665382	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr1	193055371	193055374	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	57915473	57915482	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	50870260	50870273	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	198715347	198715365	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	85688899	85688910	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	47302560	47302562	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	185398895	185398902	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	31199111	31199139	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr7	90034942	90034950	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	230269782	230269795	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	62340286	62340305	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	35983970	35983973	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	35891349	35891351	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	45610640	45610654	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	20931562	20931564	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	41067459	41067481	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	30668187	30668211	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	17931980	17932006	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr13	96539487	96539502	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	54231205	54231230	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr16	50140073	50140075	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	133513663	133513712	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr15	42823690	42823711	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	157841788	157841792	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	1981447	1981497	iCLIP#TIA1_wang2010a_hg19*TIA1	28	+
+chr3	66429323	66429328	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	68407699	68407720	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr15	42851641	42851650	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	22116976	22116994	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	93703971	93703991	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr5	110105681	110105684	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	11245689	11245690	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	57897509	57897524	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	99983785	99983800	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr20	36720624	36720640	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	121783627	121783637	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	109687836	109687885	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr9	2193273	2193290	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr2	86360388	86360423	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chrX	24176554	24176561	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	14562097	14562135	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr7	127950556	127950582	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr7	11068139	11068141	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	32735069	32735091	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	62522329	62522342	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr5	167919879	167919904	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	58267245	58267250	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	92086914	92086932	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	51253466	51253488	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	244572821	244572835	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	42982480	42982506	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	179045483	179045533	iCLIP#TIA1_wang2010a_hg19*TIA1	48	-
+chr8	56923891	56923919	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr14	100821011	100821022	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	168221993	168222039	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chrX	103420593	103420618	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr15	40956464	40956475	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	209226648	209226649	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	12877562	12877575	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr4	122738694	122738732	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chr6	151723896	151723911	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	210047280	210047283	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	166391184	166391209	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	16161184	16161187	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	95906456	95906475	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	39929558	39929566	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	36657371	36657381	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	34099749	34099760	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	50050348	50050381	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr2	10051538	10051554	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	46990604	46990629	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	119423528	119423529	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr5	54552134	54552139	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	228285874	228285904	iCLIP#TIA1_wang2010a_hg19*TIA1	83	+
+chr4	83298453	83298454	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	189460480	189460483	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	126141465	126141475	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	31256677	31256697	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	122359434	122359493	iCLIP#TIA1_wang2010a_hg19*TIA1	76	-
+chr3	88119748	88119750	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	17412340	17412352	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	47314882	47314908	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr14	70237109	70237149	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr3	172115290	172115376	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr17	67313160	67313180	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	65739869	65739899	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	114884339	114884367	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr14	103808468	103808504	iCLIP#TIA1_wang2010a_hg19*TIA1	31	+
+chr6	144184838	144184877	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr8	95074691	95074692	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	113333695	113333704	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chrX	123235500	123235554	iCLIP#TIA1_wang2010a_hg19*TIA1	32	+
+chr3	137816168	137816178	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr8	128199646	128199659	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	99162415	99162425	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	103124663	103124704	iCLIP#TIA1_wang2010a_hg19*TIA1	51	-
+chr15	75136099	75136126	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	38292941	38292956	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr19	39332169	39332179	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr1	52225169	52225185	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	48509657	48509667	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr19	39327302	39327322	iCLIP#TIA1_wang2010a_hg19*TIA1	32	-
+chr1	11083176	11083204	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr1	78092583	78092634	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr8	112943794	112943798	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	128199445	128199461	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	133308911	133308939	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	11643285	11643300	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	27838049	27838057	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	85714730	85714731	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	6642385	6642387	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	68720411	68720429	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	76409238	76409244	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	74933951	74933999	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr4	83783672	83783674	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	128216914	128216917	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	11346352	11346375	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr12	110820624	110820640	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	135712238	135712258	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	6012197	6012220	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	105235735	105235751	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	140046281	140046309	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	44703182	44703183	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	44837401	44837417	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	107389511	107389527	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	42558657	42558711	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr5	58981620	58981641	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	66665222	66665238	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	79180861	79180864	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr20	11881114	11881121	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	81828038	81828043	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	198357736	198357740	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	179991810	179991834	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	49055959	49055997	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr7	114656321	114656335	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	82458525	82458535	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr7	100464575	100464593	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr19	6413668	6413690	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr3	33130031	33130044	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	66527682	66527776	iCLIP#TIA1_wang2010a_hg19*TIA1	48	+
+chr10	5731973	5731997	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	224499457	224499468	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	111993663	111993676	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	56218443	56218454	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	243287753	243287768	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	93804813	93804820	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	42729550	42729556	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	18966183	18966201	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	40756581	40756602	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr18	44402254	44402267	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	128190582	128190588	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	65271010	65271039	iCLIP#TIA1_wang2010a_hg19*TIA1	63	+
+chr16	69499981	69499996	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	78970901	78970922	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	124802054	124802059	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	55232661	55232690	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr6	158451198	158451199	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	19982069	19982074	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	142922005	142922006	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	88085437	88085450	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	31957298	31957300	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	84707978	84707979	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	65202170	65202212	iCLIP#TIA1_wang2010a_hg19*TIA1	47	+
+chr17	53470056	53470095	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr6	120489930	120489936	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	88895253	88895259	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	145493090	145493116	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chrX	44310144	44310150	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr21	44835579	44835598	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr15	45010120	45010167	iCLIP#TIA1_wang2010a_hg19*TIA1	60	+
+chr6	149731542	149731557	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr12	76082516	76082525	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr17	7143941	7143972	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	236967802	236967810	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr21	35751836	35751853	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	1557319	1557320	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	33571710	33571716	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	58852878	58852894	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	90138886	90138904	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	38270270	38270338	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr2	8823829	8823837	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	104118493	104118503	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr4	17811140	17811150	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	90647466	90647488	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	117530192	117530211	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr19	45593785	45593789	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	91093543	91093554	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr4	83344647	83344686	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr11	65204149	65204186	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr1	193059633	193059642	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	64657986	64658007	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr14	93620770	93620771	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	65108168	65108192	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	30584306	30584323	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	147554342	147554355	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	121544336	121544369	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	170069330	170069336	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	88856401	88856410	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr18	7585613	7585616	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	179156610	179156691	iCLIP#TIA1_wang2010a_hg19*TIA1	159	+
+chr1	40758421	40758445	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr5	134125085	134125087	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	66756191	66756213	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	178889250	178889255	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	191300981	191300989	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	43714212	43714249	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr4	68497382	68497386	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	167717748	167717758	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	113440455	113440525	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr10	27475674	27475705	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr20	57254311	57254332	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	174953883	174953886	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	34118261	34118278	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	52452966	52452986	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr16	28840906	28840913	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr18	673435	673462	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	27926003	27926004	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr21	27254000	27254017	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	90658055	90658056	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	107008861	107008862	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	32802163	32802167	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	22821464	22821476	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	70455441	70455471	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr2	228420124	228420144	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	79170612	79170622	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	66100979	66101008	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr13	50562698	50562705	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr18	75923957	75923959	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr19	5917008	5917035	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	74657143	74657171	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr1	211745064	211745087	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	44875099	44875116	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	36465692	36465709	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	86127846	86127851	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	136804208	136804210	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	51279529	51279534	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	114926474	114926477	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	17345288	17345329	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr11	125454481	125454502	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	115024743	115024744	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	100472732	100472745	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	61666993	61667008	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	90664652	90664681	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr21	28208643	28208647	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	93464268	93464302	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chrX	118717293	118717310	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	996508	996512	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	123939332	123939340	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	61170928	61170949	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	173835244	173835272	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr14	35331210	35331238	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr13	92476801	92476825	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	123047257	123047265	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	179114827	179114834	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr20	62065080	62065088	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	53050546	53050555	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	93827147	93827193	iCLIP#TIA1_wang2010a_hg19*TIA1	26	+
+chr5	133726201	133726218	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr22	45591741	45591747	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	27599678	27599707	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr12	105512316	105512334	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	72386287	72386303	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	98018819	98018835	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	93803423	93803428	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	124003125	124003139	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	110465233	110465249	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	44874920	44874931	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	17140145	17140170	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	177494754	177494774	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	12627331	12627352	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	122766132	122766161	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr7	155885932	155885933	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	44619014	44619070	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr3	93714905	93714914	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	82340339	82340367	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr10	104242728	104242746	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	3903998	3904023	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	191761767	191761769	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	6715475	6715491	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	36770056	36770070	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr8	120743096	120743155	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr2	70065895	70065908	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	128193375	128193384	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	40277533	40277605	iCLIP#TIA1_wang2010a_hg19*TIA1	25	-
+chr12	72278814	72278826	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	170885959	170885960	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	4175288	4175364	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr12	124081554	124081611	iCLIP#TIA1_wang2010a_hg19*TIA1	32	+
+chr18	55268772	55268800	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr20	43142584	43142598	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	20553097	20553112	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	75825586	75825587	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	72817000	72817012	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	108018214	108018268	iCLIP#TIA1_wang2010a_hg19*TIA1	89	+
+chr1	52882642	52882669	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	4013840	4013852	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	111621177	111621185	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	39780114	39780155	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr22	38885678	38885699	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	158531890	158531913	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	72195927	72195944	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	143816666	143816735	iCLIP#TIA1_wang2010a_hg19*TIA1	41	-
+chr1	148000824	148000842	iCLIP#TIA1_wang2010a_hg19*TIA1	43	+
+chr2	224621352	224621357	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	66044792	66044797	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	35944518	35944532	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	218504784	218504806	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	115140650	115140659	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	39471294	39471313	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr15	59190990	59190993	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	245016794	245016822	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr12	20543886	20543890	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr17	73138836	73138844	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	80548108	80548137	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	144806497	144806576	iCLIP#TIA1_wang2010a_hg19*TIA1	33	-
+chr15	96874922	96874941	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	83823764	83823779	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr21	40195157	40195171	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr13	77457395	77457438	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr17	62538481	62538490	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	25687244	25687269	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr16	1415793	1415798	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr15	29993066	29993091	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr10	75882913	75882941	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr18	55268575	55268601	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr1	201958258	201958263	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	1333849	1333854	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	100163512	100163528	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	21139142	21139143	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	46612028	46612046	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	56471772	56471794	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	111320966	111320977	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	79183930	79183933	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	150345691	150345717	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr22	42003454	42003466	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	56393828	56393834	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	28834047	28834054	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr1	45981435	45981474	iCLIP#TIA1_wang2010a_hg19*TIA1	41	-
+chr20	57234733	57234769	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	38444639	38444643	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	125515101	125515117	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	116169993	116170002	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr9	115201195	115201201	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	68381738	68381751	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chrX	153136355	153136359	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	113364759	113364760	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	62553780	62553875	iCLIP#TIA1_wang2010a_hg19*TIA1	83	+
+chr8	128231702	128231726	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	116234078	116234107	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr18	3458013	3458033	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr19	3982542	3982569	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr1	32799124	32799138	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	141441605	141441616	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr10	5807711	5807740	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr2	242276904	242276913	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr8	128753573	128753647	iCLIP#TIA1_wang2010a_hg19*TIA1	191	+
+chr7	17890706	17890715	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	33731636	33731669	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr6	149826316	149826337	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr12	63292270	63292282	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	38665621	38665644	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr16	24930781	24930820	iCLIP#TIA1_wang2010a_hg19*TIA1	45	-
+chr1	246704062	246704084	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	89833523	89833541	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr6	128642092	128642114	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	93804889	93804907	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	70015278	70015311	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	54819975	54820001	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr2	203745417	203745437	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr15	24274050	24274054	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	77959137	77959143	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	56886187	56886192	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	44446517	44446519	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr6	126344171	126344184	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	32830928	32830933	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	10855053	10855054	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	94033634	94033661	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	176959637	176959674	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr3	182663731	182663745	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	89039129	89039133	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	183114577	183114611	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr1	153779521	153779540	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	144878667	144878672	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	40940648	40940665	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	192202720	192202721	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	121336550	121336581	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr3	12567844	12567854	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	42030020	42030032	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	96371169	96371199	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	128093428	128093431	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	101893235	101893253	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr6	166317234	166317242	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	72403333	72403336	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	35073862	35073879	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr14	68540653	68540677	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	6617074	6617089	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr7	135613339	135613359	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	121783946	121783960	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	135111365	135111370	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	153060117	153060124	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	166220818	166220830	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	92101186	92101193	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	61412826	61412841	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	75457221	75457235	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	112657920	112657948	iCLIP#TIA1_wang2010a_hg19*TIA1	70	+
+chr2	192288856	192288864	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	123132258	123132271	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	86953709	86953710	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	32634839	32634843	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	170886581	170886609	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	205687149	205687204	iCLIP#TIA1_wang2010a_hg19*TIA1	44	-
+chr6	170886068	170886071	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr4	2842617	2842624	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	191761045	191761066	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	28697125	28697130	iCLIP#TIA1_wang2010a_hg19*TIA1	37	+
+chr13	53038924	53038933	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	44176596	44176617	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	66841484	66841493	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	107776304	107776312	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	23636659	23636771	iCLIP#TIA1_wang2010a_hg19*TIA1	61	-
+chr12	129311835	129311840	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	158721753	158721758	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	84963214	84963235	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr12	121785273	121785281	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	20552016	20552033	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	69362499	69362510	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr5	94006765	94006791	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr11	61921999	61922000	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	11856505	11856521	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr18	67802377	67802403	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	69956066	69956078	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	137274916	137274930	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr6	144283328	144283330	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	34292369	34292390	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr2	223513431	223513444	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	95034481	95034529	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr17	72199817	72199831	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr3	119242777	119242830	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr6	109687989	109688001	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr5	58314347	58314373	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	111620700	111620709	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	53569505	53569510	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	200708339	200708340	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	54729907	54729911	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	91739816	91739822	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr14	51721243	51721270	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	77969119	77969144	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr3	180687591	180687599	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	5256786	5256797	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	165236400	165236404	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	170510570	170510574	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	49396612	49396652	iCLIP#TIA1_wang2010a_hg19*TIA1	28	-
+chr5	147624814	147624850	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr21	30718120	30718131	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr20	61472382	61472396	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	32667391	32667405	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	48325670	48325671	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	54059034	54059039	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	1018728	1018780	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr4	152041921	152041931	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	19004525	19004526	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	119123218	119123222	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	116914347	116914366	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	97566212	97566233	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	2233372	2233375	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	39900385	39900386	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	187542885	187542910	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr12	51374966	51374984	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	33592723	33592737	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	47345593	47345598	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	166396137	166396173	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr9	119942935	119942940	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr8	62537347	62537372	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr6	83081046	83081047	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	14709947	14709985	iCLIP#TIA1_wang2010a_hg19*TIA1	34	-
+chr12	104350378	104350386	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	102952624	102952643	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	89794193	89794221	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr13	97491625	97491642	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	122490152	122490156	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	134670111	134670124	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	111624826	111624834	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	70281531	70281557	iCLIP#TIA1_wang2010a_hg19*TIA1	41	+
+chr12	98929346	98929366	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	6281284	6281370	iCLIP#TIA1_wang2010a_hg19*TIA1	43	-
+chr9	19375692	19375693	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	69834191	69834212	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	91497793	91497814	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr13	92920952	92920956	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	149284548	149284556	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	1716801	1716850	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr9	86128386	86128399	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	57580426	57580444	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	24332664	24332665	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	128126124	128126156	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	72206141	72206183	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr16	85589412	85589419	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	42541823	42541831	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	51702636	51702652	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr1	45794140	45794152	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	128217010	128217036	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr13	30083733	30083746	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chr9	15465193	15465196	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr16	81744101	81744114	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr17	57759203	57759212	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	113190703	113190750	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr20	39652943	39652955	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr21	34949051	34949073	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	58476234	58476238	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	129629402	129629403	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	123663486	123663490	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	33146175	33146180	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr16	8986731	8986752	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr14	71828036	71828059	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	102124503	102124511	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr1	233802633	233802658	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	94028273	94028290	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr19	56186027	56186049	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr5	123134109	123134110	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	180488184	180488188	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	131186893	131186914	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	63527193	63527205	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr10	70123329	70123338	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	31637729	31637804	iCLIP#TIA1_wang2010a_hg19*TIA1	65	+
+chr7	101462476	101462484	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	67563665	67563669	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	123782779	123782781	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	131727644	131727652	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	49198293	49198311	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	83259404	83259407	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	86116763	86116783	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	82535866	82535894	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr7	97596369	97596388	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	97275614	97275615	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	1422411	1422426	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	28921056	28921061	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chrX	41196080	41196087	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	59490125	59490133	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	38177363	38177369	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	33100273	33100295	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	96498728	96498755	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	111990687	111990702	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	170104906	170104918	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr22	44889055	44889067	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	133561073	133561102	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr8	29920956	29920987	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	32017481	32017490	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	1809026	1809046	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	167990864	167990881	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	4848070	4848084	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr22	38887962	38888042	iCLIP#TIA1_wang2010a_hg19*TIA1	52	-
+chr10	116736357	116736386	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	244003929	244003947	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	120454845	120454854	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	36184582	36184583	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr4	2932339	2932352	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr3	111694484	111694531	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chr10	133768952	133768963	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	167975840	167975847	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	78410980	78411005	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	58150883	58150892	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	98654860	98654881	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr15	52201130	52201147	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	22549954	22549956	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	31741533	31741546	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	41905869	41905884	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	105764903	105764926	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	80222920	80222921	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	2784771	2784776	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr21	23468838	23468841	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	14528413	14528446	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	64819250	64819263	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	11942057	11942069	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	74362594	74362604	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	92335808	92335845	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr8	56985118	56985121	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr20	57486109	57486127	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr19	57809839	57809854	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr3	4888243	4888257	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	173834577	173834602	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr2	241538444	241538477	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	138745419	138745427	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	54871367	54871378	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	36677619	36677633	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	117155190	117155211	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr3	167727853	167727867	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr6	158365388	158365402	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	123274324	123274345	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr18	29480720	29480729	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	74551420	74551441	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	225161939	225161944	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	27529732	27529735	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	128218199	128218208	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	71713867	71713878	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	93828813	93828820	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	66465572	66465573	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	58385905	58385914	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr21	28208690	28208724	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr17	35601897	35601905	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	319773	319796	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr20	34635591	34635597	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	198388828	198388830	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	29290329	29290333	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	140347479	140347480	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	70968808	70968820	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	211546946	211546957	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr4	8456550	8456565	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	172205549	172205550	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	49316381	49316383	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	1435076	1435092	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr15	89825074	89825088	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr12	49413198	49413210	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	121749993	121749995	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	44838423	44838430	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	141540178	141540193	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	67053954	67053978	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr14	71442610	71442625	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr16	11844549	11844565	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	107966385	107966398	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	125335712	125335713	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	27402408	27402431	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	139107699	139107719	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr18	56652575	56652578	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	23908602	23908630	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	17279391	17279468	iCLIP#TIA1_wang2010a_hg19*TIA1	28	+
+chr13	49593796	49593800	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	102800345	102800356	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	111541592	111541596	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	50873160	50873178	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	74383236	74383245	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr18	8832265	8832276	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	37179864	37179896	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	108342876	108342941	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr4	83275672	83275679	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	58454304	58454315	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	26199039	26199066	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr13	113919258	113919280	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr5	177634336	177634348	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr17	79858077	79858092	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	228428250	228428257	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	101535516	101535531	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	193057304	193057323	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	135720552	135720566	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	50647992	50648023	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chrX	49031055	49031062	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr18	33606758	33606767	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	28164224	28164226	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	58706631	58706640	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	170066198	170066214	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	31742350	31742351	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	5346796	5346815	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr17	55757613	55757647	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	99367691	99367705	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	113197147	113197161	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	129795712	129795726	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	34925887	34925896	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr21	34961636	34961645	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	9223068	9223069	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	66420656	66420681	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr13	50676443	50676447	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	129919012	129919017	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	28836053	28836064	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	26613276	26613280	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr20	17587764	17587773	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	10287788	10287804	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	53421194	53421195	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	120730941	120730982	iCLIP#TIA1_wang2010a_hg19*TIA1	41	-
+chr2	97035283	97035316	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	90809218	90809239	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr6	136679838	136679854	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	20903005	20903029	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr15	59172163	59172174	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	151163860	151163883	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr10	72639674	72639690	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	108027302	108027316	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	184605746	184605757	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	41881282	41881294	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	52742770	52742785	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	169446808	169446823	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	178112424	178112427	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	84638937	84638938	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	27853496	27853498	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr15	25207588	25207594	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	103435853	103435883	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr5	177023034	177023091	iCLIP#TIA1_wang2010a_hg19*TIA1	36	+
+chr8	67342752	67342760	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	65197835	65197868	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr4	170483252	170483266	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	1624067	1624091	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr7	77584393	77584405	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr10	65381099	65381132	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr11	47194045	47194052	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	78420928	78420932	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	46752858	46752879	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr3	169712729	169712737	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	110290180	110290189	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr9	36589657	36589663	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	198416386	198416394	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	74074518	74074535	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	75624472	75624476	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	66960378	66960383	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	47200299	47200308	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	382971	382982	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	12213156	12213175	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	170017298	170017316	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	6454558	6454559	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	20649056	20649093	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chrX	110484549	110484550	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	21909082	21909091	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	74412320	74412321	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	233722489	233722513	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr10	96366458	96366482	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	31797927	31797953	iCLIP#TIA1_wang2010a_hg19*TIA1	33	+
+chr4	4865604	4865636	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	195789636	195789640	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	176860269	176860275	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	10433827	10433922	iCLIP#TIA1_wang2010a_hg19*TIA1	66	+
+chr9	88590073	88590112	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	62525556	62525572	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	66090230	66090231	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	53353151	53353168	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	47918849	47918866	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	32355074	32355099	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr5	154346488	154346504	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr19	57804413	57804434	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr15	93427020	93427032	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	120457019	120457041	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr2	74186015	74186028	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	123943038	123943104	iCLIP#TIA1_wang2010a_hg19*TIA1	40	-
+chr19	36640861	36640873	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr21	16333681	16333695	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	146115093	146115117	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	150190976	150191009	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr16	69732643	69732675	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr19	4961889	4961909	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr9	132589598	132589612	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr3	56694730	56694747	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr8	128187778	128187827	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr11	59318808	59318837	iCLIP#TIA1_wang2010a_hg19*TIA1	83	+
+chr6	87795260	87795288	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr7	128409255	128409278	iCLIP#TIA1_wang2010a_hg19*TIA1	42	+
+chr2	191760868	191760899	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr18	691026	691049	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	19505872	19505910	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr3	194998817	194998826	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr5	5439866	5439889	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	150141225	150141253	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr10	74035742	74035769	iCLIP#TIA1_wang2010a_hg19*TIA1	73	+
+chr22	50713443	50713457	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	142095026	142095056	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	180853644	180853655	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	85784222	85784240	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	131755499	131755505	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	102915949	102915962	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	28678399	28678407	iCLIP#TIA1_wang2010a_hg19*TIA1	32	+
+chr13	46621692	46621705	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	97771138	97771140	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	72207325	72207336	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	220296321	220296337	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	83847143	83847189	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr9	131718392	131718396	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	98675074	98675099	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr1	207942284	207942295	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	21863916	21863935	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chrX	73064148	73064178	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr1	207534024	207534055	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	142025936	142025961	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	65196387	65196418	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr2	191798395	191798438	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr21	33686830	33686839	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	20835246	20835263	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr6	159438608	159438609	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	138373929	138373934	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	128255692	128255703	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	132323786	132323794	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	2415039	2415042	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	123758039	123758040	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	56899333	56899349	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	43068332	43068349	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	34088109	34088138	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr16	1793555	1793578	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	26199242	26199252	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	79999146	79999151	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	115249783	115249820	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr15	101113520	101113539	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	148561109	148561157	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	95130380	95130400	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	8994821	8994833	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	203823100	203823142	iCLIP#TIA1_wang2010a_hg19*TIA1	30	+
+chr7	23240558	23240562	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	102286704	102286714	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	3573515	3573517	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	13332743	13332746	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	140431904	140431910	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	69497790	69497803	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	33572726	33572794	iCLIP#TIA1_wang2010a_hg19*TIA1	55	-
+chr7	148516041	148516058	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	79186600	79186603	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	83238412	83238503	iCLIP#TIA1_wang2010a_hg19*TIA1	37	-
+chr15	34522028	34522045	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr13	50106262	50106295	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	78429561	78429580	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	183248939	183248940	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	153572466	153572479	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	69389539	69389566	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	37950374	37950375	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	62655974	62655985	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	118677961	118677962	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	224377673	224377711	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr6	93296704	93296716	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	73202018	73202031	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	111694558	111694577	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr15	78783119	78783148	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	95752984	95753006	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	66793513	66793525	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr4	106767160	106767172	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	114639323	114639332	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr18	59973059	59973084	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	180855345	180855352	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	51680938	51680948	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	33390755	33390759	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	175158129	175158147	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	62499896	62499907	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	82925907	82925917	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	35642003	35642018	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	46636964	46636973	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	64309496	64309497	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr16	31102541	31102563	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr2	27293531	27293544	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr1	61925646	61925658	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	17751964	17751973	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	77771656	77771677	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr11	46765228	46765260	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr5	58370191	58370194	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	23614799	23614829	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	35640827	35640828	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	47710836	47710861	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr11	46678006	46678021	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	52843878	52843894	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr3	49067282	49067315	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr12	54628256	54628261	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	38179394	38179407	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	29095549	29095567	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	93599762	93599785	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	149129190	149129193	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	89932498	89932515	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	79067522	79067542	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr21	38450974	38450990	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	44063493	44063506	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr10	96336611	96336631	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	169100594	169100608	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr22	42664283	42664297	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	129369583	129369601	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	128238270	128238283	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	46313141	46313152	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr21	43187464	43187466	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	91997534	91997539	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	2088342	2088354	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	118686890	118686900	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	137772641	137772666	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr1	155288679	155288689	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	242024812	242024838	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	128978473	128978492	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	53848510	53848519	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	74058157	74058165	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	54896642	54896651	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr12	53856360	53856367	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	71505203	71505235	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	32799162	32799191	iCLIP#TIA1_wang2010a_hg19*TIA1	44	+
+chr12	121784245	121784263	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	52250268	52250283	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	110462613	110462648	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	61578844	61578853	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	98736986	98737013	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr7	123322068	123322080	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	222638377	222638385	iCLIP#TIA1_wang2010a_hg19*TIA1	105	+
+chr16	83845312	83845331	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr12	20650751	20650790	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr17	30688068	30688080	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	58270439	58270466	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr1	165697115	165697154	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr13	79889013	79889042	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr2	157257336	157257338	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr10	13375793	13375805	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	2752220	2752238	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	65043482	65043487	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	5095742	5095766	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr7	12271772	12271802	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr9	39178161	39178162	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	127705731	127705780	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr2	44187270	44187291	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr3	47155342	47155352	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	10193276	10193310	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr15	72875923	72875940	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	125262208	125262254	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr20	57562881	57562902	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	6062249	6062256	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	34303972	34303992	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	33572195	33572223	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr8	66516317	66516329	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	88071595	88071596	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	82877183	82877210	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	154179218	154179235	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr6	166317651	166317664	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	12531513	12531515	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	217366130	217366160	iCLIP#TIA1_wang2010a_hg19*TIA1	34	+
+chr3	60522437	60522439	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	77959479	77959481	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	39079162	39079163	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	2245607	2245612	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	155629277	155629282	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	65198716	65198763	iCLIP#TIA1_wang2010a_hg19*TIA1	42	+
+chr6	27763654	27763655	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	22118359	22118381	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	50156693	50156762	iCLIP#TIA1_wang2010a_hg19*TIA1	57	+
+chr5	58305423	58305442	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	167758444	167758454	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	57917152	57917203	iCLIP#TIA1_wang2010a_hg19*TIA1	40	+
+chr12	101789168	101789201	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr15	66783634	66783679	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr2	7215826	7215840	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	167395852	167395861	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	57005332	57005347	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	97621816	97621837	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr14	95552919	95552959	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr6	163994506	163994527	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	54232127	54232147	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr21	40602146	40602158	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	143811075	143811101	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr4	164085330	164085354	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	70461207	70461218	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr19	59084338	59084341	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr8	128235437	128235463	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	23931107	23931127	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	8024290	8024298	iCLIP#TIA1_wang2010a_hg19*TIA1	82	+
+chr19	33873527	33873553	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr12	8907030	8907040	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	32353417	32353466	iCLIP#TIA1_wang2010a_hg19*TIA1	30	+
+chr7	6442919	6442957	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr17	73774588	73774624	iCLIP#TIA1_wang2010a_hg19*TIA1	39	-
+chr11	31509637	31509661	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr14	35568817	35568828	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	226820203	226820224	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	128356787	128356795	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr4	122746623	122746634	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	116605861	116605867	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	53091122	53091123	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	94794028	94794049	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr13	111556020	111556039	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	5292094	5292097	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	131094714	131094721	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	40038094	40038106	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	35672958	35672962	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	145279567	145279580	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	47005387	47005395	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	36976755	36976768	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	102465234	102465240	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	141590567	141590575	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	10143545	10143564	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	131164968	131164971	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	129023205	129023222	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	77958155	77958167	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	37227617	37227625	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	125611384	125611399	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr7	100279126	100279133	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	894652	894669	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	12514977	12514995	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr5	77330157	77330168	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr21	28211883	28211895	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	56292172	56292186	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr2	242661965	242661967	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	58197462	58197477	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	118377617	118377633	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr9	72939067	72939089	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr15	37110003	37110006	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr22	38890300	38890310	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	111992640	111992654	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	187509003	187509026	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	20585185	20585203	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr21	43063341	43063344	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	226107642	226107672	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr9	35075862	35075875	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	61914670	61914681	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	196557933	196557937	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	111499922	111499948	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	56083135	56083155	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chrX	153136205	153136220	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	9452578	9452599	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	133256750	133256753	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	78836220	78836222	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	105768103	105768106	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	27517284	27517307	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr17	79801489	79801515	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr19	54953393	54953399	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	97256270	97256273	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	64657876	64657935	iCLIP#TIA1_wang2010a_hg19*TIA1	28	-
+chr12	105533956	105533973	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	57049040	57049075	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr4	79517054	79517056	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	38885099	38885112	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	68594151	68594162	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	27387936	27387960	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr13	113845083	113845118	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr4	73941697	73941735	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr6	127616975	127617024	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr21	18966258	18966285	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr7	36450330	36450337	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr18	67834141	67834147	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	97001257	97001260	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	5720765	5720778	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	7213031	7213044	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	91090548	91090573	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	193220015	193220033	iCLIP#TIA1_wang2010a_hg19*TIA1	29	+
+chr5	58395026	58395036	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	58945266	58945280	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	24337027	24337048	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	7882388	7882417	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	135612331	135612337	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	74969602	74969619	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	24425823	24425838	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	66595683	66595691	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	112030872	112030908	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr6	170892475	170892487	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	133136234	133136256	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	38292747	38292755	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr15	52839288	52839298	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	92417116	92417138	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	40775457	40775496	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr7	74317111	74317116	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	107564270	107564303	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr7	27565093	27565122	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr15	43773326	43773333	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	20584376	20584406	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	228159291	228159316	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	150814876	150814883	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	29821985	29822028	iCLIP#TIA1_wang2010a_hg19*TIA1	36	+
+chr3	132401527	132401538	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	153435193	153435197	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	219617586	219617604	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	486563	486583	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	155200661	155200662	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr14	69926822	69926850	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr16	9206888	9206927	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr10	98281006	98281018	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	13733373	13733387	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	4457784	4457786	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	52563470	52563491	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	228222462	228222469	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	203709517	203709526	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr18	25732978	25732987	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	14520307	14520333	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	102013161	102013168	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	32380156	32380171	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	71590542	71590563	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	39014771	39014786	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	120436529	120436559	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr8	75275308	75275319	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	27466614	27466621	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr7	36463634	36463665	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	582866	582949	iCLIP#TIA1_wang2010a_hg19*TIA1	102	+
+chr7	116199349	116199406	iCLIP#TIA1_wang2010a_hg19*TIA1	76	+
+chr9	136217713	136217740	iCLIP#TIA1_wang2010a_hg19*TIA1	46	+
+chr20	5170995	5171021	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	26359261	26359271	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr6	117050541	117050543	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	107719314	107719315	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	10193058	10193083	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr7	36492989	36492996	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr7	86509446	86509468	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	219270020	219270042	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr11	3382021	3382036	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	5490260	5490287	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr22	25084304	25084308	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	98933834	98933847	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr14	21152227	21152231	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	74521391	74521393	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	26886079	26886088	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr16	84453845	84453846	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	128188603	128188617	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	88206103	88206109	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	43129235	43129258	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	227204393	227204418	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	56642248	56642261	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	245025895	245025910	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	92321158	92321165	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	5260973	5260986	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	48835476	48835535	iCLIP#TIA1_wang2010a_hg19*TIA1	53	+
+chr10	101157076	101157077	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	53068696	53068699	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	147930885	147930886	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	79670211	79670218	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	122180051	122180057	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	133699912	133699932	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr17	73030044	73030054	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	202469290	202469294	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	36370574	36370598	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	27387738	27387747	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	100387289	100387321	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr11	89933242	89933274	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	46758390	46758414	iCLIP#TIA1_wang2010a_hg19*TIA1	28	-
+chr10	94414692	94414798	iCLIP#TIA1_wang2010a_hg19*TIA1	30	+
+chr2	86719328	86719339	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr6	7287855	7287895	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr7	105097036	105097052	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	55502584	55502631	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chrX	41093173	41093216	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr14	56078799	56078838	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	127617302	127617304	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	231935038	231935052	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	7215529	7215558	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr17	58040077	58040080	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	47013509	47013525	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	23383603	23383615	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	15710058	15710083	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	112021658	112021685	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr7	141353282	141353311	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr10	93043849	93043855	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	86126145	86126170	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	97874522	97874527	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	87498736	87498752	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	93431328	93431336	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	217537241	217537255	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr6	117510715	117510716	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	176938612	176938630	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	151986894	151986903	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr22	26863167	26863173	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	125597220	125597255	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr17	4931579	4931585	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	123579353	123579383	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr17	5336369	5336382	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	23700833	23700844	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	97877113	97877132	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	12810214	12810251	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	45187479	45187511	iCLIP#TIA1_wang2010a_hg19*TIA1	157	-
+chr14	50053094	50053095	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	89529204	89529221	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	47321837	47321839	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	122692665	122692679	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	100095849	100095863	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	128590149	128590150	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	47129662	47129684	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	50363532	50363545	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	65269948	65270020	iCLIP#TIA1_wang2010a_hg19*TIA1	511	+
+chr9	112934584	112934619	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr6	52957384	52957413	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	114325345	114325348	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	20578933	20578947	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	193429786	193429787	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	103292327	103292361	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	98929288	98929302	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr20	43953962	43953984	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr13	96646169	96646170	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr9	88637120	88637130	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	74034988	74034997	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	74333218	74333228	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	71635923	71635931	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr15	43446098	43446102	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr21	34944958	34944971	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	20258625	20258627	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr19	35608467	35608468	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr16	15790726	15790729	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	203671215	203671236	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	24330890	24330900	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	160398248	160398271	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	121741395	121741414	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	24717676	24717689	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr1	93239286	93239297	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	109466845	109466854	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	147424977	147424986	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	153628323	153628346	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr10	80284612	80284613	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	94037305	94037324	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	79646983	79646994	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	61705625	61705667	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr13	48835421	48835455	iCLIP#TIA1_wang2010a_hg19*TIA1	36	+
+chr12	64203263	64203278	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr14	103946956	103946973	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	90815233	90815239	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	44538862	44538865	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
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+chrX	24406517	24406519	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	14939584	14939611	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr15	100211151	100211190	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	27293390	27293417	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr12	69663456	69663497	iCLIP#TIA1_wang2010a_hg19*TIA1	30	+
+chr7	129473170	129473178	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	41192637	41192638	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	161479693	161479700	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	17615654	17615747	iCLIP#TIA1_wang2010a_hg19*TIA1	46	-
+chr7	112102554	112102558	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	33183987	33184000	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr8	128187664	128187684	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr8	30041113	30041131	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	46757186	46757205	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	74755353	74755370	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	7481350	7481380	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr15	25360820	25360839	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	33046545	33046600	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr3	47098285	47098303	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	132575961	132575991	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr13	113902635	113902640	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	45490804	45490819	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	74705274	74705300	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	98514883	98514899	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	135513264	135513287	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr21	16333615	16333624	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr9	42211770	42211783	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr11	121875125	121875126	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr12	12619005	12619015	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	104478035	104478062	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	12272350	12272360	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	72192390	72192396	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	123313053	123313056	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	101471263	101471284	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	51140126	51140138	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	45708792	45708795	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	27759054	27759074	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr5	32601306	32601393	iCLIP#TIA1_wang2010a_hg19*TIA1	67	+
+chr18	11852612	11852633	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr2	20464234	20464244	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	197546190	197546210	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	100015165	100015188	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	94904257	94904281	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	13652858	13652880	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	32769384	32769386	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	2871556	2871577	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	203332427	203332447	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	113528341	113528361	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr14	50052980	50052991	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	8127564	8127594	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	88916083	88916109	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	74382154	74382160	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	34433638	34433658	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr7	72877071	72877087	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	2319743	2319759	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	107975443	107975462	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	95210779	95210804	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	226599289	226599297	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	131143668	131143669	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	19558933	19558937	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	30697116	30697131	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr14	71944759	71944761	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	63723911	63723930	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	47116033	47116068	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr12	20621097	20621104	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	116170219	116170240	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	85371819	85371840	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	66647516	66647518	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	30601784	30601794	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	56151144	56151153	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	109407900	109407917	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	20903081	20903143	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr1	225971083	225971101	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	197091256	197091264	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	22336554	22336557	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	120085622	120085634	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	79801668	79801711	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr2	86439883	86439888	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	25916117	25916123	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	156221163	156221186	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	33731011	33731065	iCLIP#TIA1_wang2010a_hg19*TIA1	48	-
+chr1	67878805	67878844	iCLIP#TIA1_wang2010a_hg19*TIA1	35	-
+chr1	236714061	236714148	iCLIP#TIA1_wang2010a_hg19*TIA1	46	-
+chr6	105204289	105204293	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	102124239	102124260	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr16	53404523	53404524	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	183900849	183900852	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	100153476	100153477	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	5329411	5329434	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr20	47788968	47788984	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	174034635	174034652	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	44545979	44546004	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr7	73929938	73929950	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	33431105	33431144	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr20	35869909	35869994	iCLIP#TIA1_wang2010a_hg19*TIA1	34	+
+chr11	130764367	130764369	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	144127256	144127257	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	21837714	21837747	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr14	97032214	97032225	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	194145075	194145091	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	149009908	149009909	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	58878670	58878683	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	31535376	31535399	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	190647557	190647566	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	150132700	150132718	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	33809456	33809465	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	20704096	20704121	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	151127437	151127450	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr10	109216855	109216856	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	83275694	83275702	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr17	74430888	74430894	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	103440501	103440528	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	38458467	38458474	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr4	73959758	73959779	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	165624737	165624831	iCLIP#TIA1_wang2010a_hg19*TIA1	197	+
+chr11	110113603	110113607	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	6931823	6931882	iCLIP#TIA1_wang2010a_hg19*TIA1	27	+
+chr1	206823395	206823407	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	207497190	207497204	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	30863652	30863658	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr11	61166257	61166276	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	69535340	69535341	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	125842972	125842974	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	38068388	38068392	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	187542395	187542414	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr7	1031345	1031346	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr14	76117693	76117833	iCLIP#TIA1_wang2010a_hg19*TIA1	47	-
+chr2	21755332	21755346	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	23402606	23402615	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	50623369	50623385	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	38154158	38154165	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr19	50191646	50191680	iCLIP#TIA1_wang2010a_hg19*TIA1	26	+
+chr21	46933610	46933616	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	110406429	110406437	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr6	126330719	126330744	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	70690348	70690376	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	179224642	179224694	iCLIP#TIA1_wang2010a_hg19*TIA1	33	-
+chr4	65819441	65819442	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	46694319	46694335	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	65200272	65200377	iCLIP#TIA1_wang2010a_hg19*TIA1	68	+
+chr10	61552281	61552308	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	120596927	120596956	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	26515622	26515633	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	215675165	215675167	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	6212510	6212512	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	27473637	27473641	iCLIP#TIA1_wang2010a_hg19*TIA1	46	-
+chr7	123316487	123316500	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	31046051	31046079	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	130210134	130210143	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	48794006	48794029	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	93477083	93477088	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr17	61896553	61896565	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr16	24807271	24807295	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr15	30057370	30057387	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr21	33040920	33040934	iCLIP#TIA1_wang2010a_hg19*TIA1	28	+
+chr3	33586487	33586502	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr8	124383431	124383445	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	52304619	52304632	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	10269293	10269314	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr20	25427584	25427600	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	48059867	48059891	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	61743276	61743331	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	139241325	139241338	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	113455532	113455551	iCLIP#TIA1_wang2010a_hg19*TIA1	25	-
+chr14	100744014	100744040	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr9	19229522	19229535	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	33849006	33849014	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	98712640	98712655	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	1462307	1462310	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	186326489	186326492	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	34117870	34117877	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	26423786	26423795	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	95694878	95694908	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr6	5109558	5109569	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	39890701	39890702	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	81048006	81048019	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	98175143	98175144	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	226172092	226172120	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr2	169721547	169721549	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	61876995	61877035	iCLIP#TIA1_wang2010a_hg19*TIA1	38	+
+chr11	1823278	1823279	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	59495364	59495386	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr1	100573161	100573175	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr4	83346691	83346708	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr1	97270135	97270181	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr15	66180364	66180367	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	107769385	107769415	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	91993138	91993155	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	145522314	145522324	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	185540899	185540933	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	26231001	26231036	iCLIP#TIA1_wang2010a_hg19*TIA1	81	-
+chr5	58448114	58448122	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	42874571	42874586	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	99809703	99809714	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	145283186	145283202	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	23538121	23538137	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	104513189	104513202	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr16	4038968	4038971	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	79658877	79658885	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	127799937	127799951	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chrY	3235813	3235815	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr15	62155924	62155937	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	52608862	52608864	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	104403620	104403622	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	85371496	85371505	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	32108709	32108715	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	146925196	146925200	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	77402650	77402666	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	93256142	93256149	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	149731512	149731527	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	14693524	14693569	iCLIP#TIA1_wang2010a_hg19*TIA1	34	+
+chr19	16628869	16628902	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr7	158542977	158542993	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	45740558	45740567	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	7304502	7304507	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	119500273	119500300	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr22	50882757	50882779	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr12	56990483	56990514	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr4	1205489	1205498	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	10661097	10661106	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	17714715	17714734	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr4	3131814	3131836	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	112898601	112898607	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	48576500	48576532	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr13	115092682	115092706	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr4	174217009	174217029	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr15	99264595	99264600	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	175815195	175815204	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	30707303	30707331	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	73316151	73316189	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr11	65200936	65201003	iCLIP#TIA1_wang2010a_hg19*TIA1	84	+
+chr3	40207234	40207235	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	38698677	38698688	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	210882295	210882296	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr7	93515972	93516002	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr1	32794770	32794783	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr11	33094805	33094834	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	54137604	54137631	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	23003421	23003446	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr22	41222212	41222234	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr1	198247223	198247236	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr22	22326209	22326211	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	56050799	56050819	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr11	13728627	13728648	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	94953120	94953126	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	38175083	38175091	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	135399435	135399460	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	105922572	105922585	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr19	54659361	54659385	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	241757041	241757067	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr19	49593785	49593789	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	74904356	74904363	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	39325925	39325936	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	44869198	44869213	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr8	144898637	144898659	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr3	52725409	52725428	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr16	3777228	3777249	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	212277462	212277489	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	112640764	112640790	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	73199897	73199923	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	125885860	125885880	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	43142374	43142397	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	63834209	63834252	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr1	150192494	150192522	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr5	162918332	162918344	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr10	102123868	102123889	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr19	13054887	13055014	iCLIP#TIA1_wang2010a_hg19*TIA1	416	+
+chr14	81643056	81643063	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	49397477	49397607	iCLIP#TIA1_wang2010a_hg19*TIA1	114	-
+chr9	127460409	127460410	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	57609975	57610010	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr10	21683958	21683959	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr21	34876293	34876309	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr8	121408141	121408170	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr19	10368006	10368015	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr20	47730759	47730796	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	64295066	64295067	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	37325959	37325962	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	53994716	53994725	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	180618698	180618702	iCLIP#TIA1_wang2010a_hg19*TIA1	32	-
+chrX	123236261	123236320	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr12	20656701	20656720	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	5621313	5621349	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	139984518	139984532	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	130568253	130568255	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	34293082	34293109	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	43561360	43561373	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	36392651	36392652	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	69053560	69053583	iCLIP#TIA1_wang2010a_hg19*TIA1	37	+
+chr7	89984463	89984478	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	10830342	10830351	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr5	70860729	70860738	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr22	37904342	37904345	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	200801068	200801090	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	71920589	71920618	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chrX	40585911	40585935	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	1605033	1605050	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr8	52751967	52751998	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	6713650	6713666	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	141641024	141641043	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	27734649	27734658	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	42805294	42805309	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	153992738	153992773	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr6	10530079	10530094	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	151139535	151139581	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr4	186082246	186082264	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr7	44839181	44839200	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	35853552	35853573	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	30916796	30916815	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	54595330	54595333	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	75848021	75848029	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	150000985	150000998	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrY	8030019	8030020	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	73452272	73452295	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	77773169	77773186	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr17	73774646	73774665	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr11	85371729	85371754	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	73500328	73500329	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	127794005	127794020	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	113149913	113149926	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	35272627	35272636	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr8	46984723	46984724	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	149294680	149294685	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	34904123	34904140	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	117119551	117119610	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr4	80673634	80673635	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	59247208	59247223	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr20	61510414	61510462	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr1	85402503	85402518	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	128580976	128581010	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr9	131371952	131371976	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	48649504	48649526	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr10	129250480	129250504	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr6	166400981	166401004	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chr5	134670338	134670349	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr20	62374770	62374785	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	65267867	65267886	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	147625896	147625903	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	92236603	92236609	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	153664659	153664688	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr13	111289609	111289624	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	45196599	45196616	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	41461555	41461559	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	5705882	5705883	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	34934645	34934671	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	70795616	70795639	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr12	25362707	25362715	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr9	125642538	125642545	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chrX	48935267	48935280	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	59892035	59892050	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	1189336	1189361	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	37330098	37330113	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	75549004	75549012	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	19953053	19953073	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	195776209	195776232	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr3	87303257	87303286	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr16	87438131	87438165	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr13	97842679	97842687	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr9	36212023	36212027	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	9603189	9603201	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	71529329	71529355	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr4	41526517	41526535	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	113420933	113420949	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr11	34121101	34121120	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr2	46613798	46613801	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	99852397	99852414	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chrX	15849506	15849510	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	40477573	40477584	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	12895866	12895884	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr9	6421152	6421177	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	72764849	72764868	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	32530640	32530676	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr7	158526516	158526543	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr2	37431789	37431812	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	65090640	65090651	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	118588556	118588564	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr21	38493974	38493986	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	217070517	217070524	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	10005750	10005772	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	76432655	76432662	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr16	46732210	46732223	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr9	91041219	91041223	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	95694715	95694727	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	72207951	72207977	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	78163529	78163547	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	47387331	47387443	iCLIP#TIA1_wang2010a_hg19*TIA1	150	-
+chr6	7883167	7883212	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr6	161540967	161540970	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	77084401	77084429	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr8	128208350	128208356	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	162870713	162870716	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	204373616	204373626	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	176883969	176883983	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	94639162	94639187	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	167600134	167600138	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr11	9469143	9469160	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	88196814	88196821	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	59417117	59417149	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr12	67695635	67695639	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	47552470	47552502	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	131201712	131201719	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	131016115	131016135	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	6715293	6715301	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	88745277	88745278	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	129810190	129810208	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	153386313	153386327	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	41679646	41679651	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
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+chr7	32917728	32917731	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	42875497	42875498	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	78915926	78915941	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	122757458	122757480	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr8	128235492	128235528	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chr1	227493080	227493096	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	6443247	6443282	iCLIP#TIA1_wang2010a_hg19*TIA1	30	+
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+chr13	33349933	33349952	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	141789028	141789034	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	9403720	9403721	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	141531530	141531574	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr3	156870751	156870767	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr17	7138534	7138584	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr14	100744417	100744424	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	58824192	58824211	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	44866807	44866824	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	70694792	70694821	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr14	77935584	77935590	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr4	140302398	140302411	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	70764492	70764574	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
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+chr3	57305183	57305203	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	158296695	158296703	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	9303293	9303310	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr18	57639964	57639966	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	125839452	125839463	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	86276523	86276531	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr16	11642909	11642923	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chr11	65210905	65210927	iCLIP#TIA1_wang2010a_hg19*TIA1	31	+
+chr14	67249075	67249077	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	93261097	93261117	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	55198181	55198194	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	94296788	94296829	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr12	13070718	13070719	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	46418094	46418103	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	72876795	72876831	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	72182083	72182105	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	95358097	95358098	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	16089784	16089793	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	138810425	138810437	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr10	73993409	73993421	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	63359281	63359282	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	27640243	27640248	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	80128139	80128157	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr13	47325541	47325559	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	123939801	123939818	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	200586685	200586687	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	61503586	61503595	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	160280298	160280314	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	64539205	64539215	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	129918319	129918346	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	234591351	234591353	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	30808891	30808906	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr15	41578446	41578449	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	170051054	170051073	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr19	36260214	36260216	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	1477214	1477226	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr20	44689674	44689714	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr7	101894258	101894290	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr11	103082698	103082709	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	27652876	27652887	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	2707474	2707483	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	109180671	109180738	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr4	86243637	86243638	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	15348381	15348443	iCLIP#TIA1_wang2010a_hg19*TIA1	33	-
+chr16	53341873	53341881	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	47141601	47141620	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr20	37570776	37570792	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	112214078	112214080	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	158689195	158689212	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr4	95588980	95589001	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	19429758	19429783	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	21218443	21218460	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr11	43703511	43703524	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	239125	239143	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	75794086	75794137	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr5	134113424	134113453	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr19	33077917	33077920	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	74730369	74730416	iCLIP#TIA1_wang2010a_hg19*TIA1	45	-
+chr1	236139225	236139340	iCLIP#TIA1_wang2010a_hg19*TIA1	51	-
+chr9	127904883	127904897	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	120729616	120729646	iCLIP#TIA1_wang2010a_hg19*TIA1	42	-
+chr16	69602466	69602477	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	20659533	20659536	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	166161154	166161156	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	32973892	32973933	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr1	151054056	151054069	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	9545741	9545773	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	34645334	34645342	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chrX	147031763	147031788	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	29460671	29460700	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	217529102	217529127	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr13	86960385	86960386	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	142280026	142280035	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	85916956	85916964	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	64149198	64149200	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	128202645	128202657	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	134067589	134067590	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	172379493	172379507	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	225704886	225704890	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	110948032	110948053	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	41829528	41829531	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr6	105548684	105548713	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	96632955	96632966	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	69187595	69187597	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr13	52764583	52764596	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr9	2802648	2802679	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	23649886	23649904	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	42151398	42151411	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	72025726	72025739	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	147640739	147640758	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	201758324	201758330	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	55757371	55757384	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	58899135	58899163	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	70694728	70694747	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	38945450	38945461	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	1635774	1635797	iCLIP#TIA1_wang2010a_hg19*TIA1	133	-
+chr5	32125148	32125171	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chrX	71531693	71531695	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	38886414	38886436	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	164061250	164061258	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	42958984	42959001	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	135044746	135044774	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr20	30825793	30825822	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	26357967	26358000	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr19	46112689	46112700	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	166279507	166279523	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	203142739	203142765	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	111553331	111553354	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	32173606	32173639	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	77327225	77327242	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	26205193	26205218	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr3	101405257	101405264	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	174919277	174919296	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	153290377	153290380	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	89825104	89825139	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	128232532	128232548	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chrX	134482819	134482839	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	79826274	79826287	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	205057435	205057448	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	40730338	40730355	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	153063913	153063923	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr21	18827120	18827122	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	112101680	112101694	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	29723714	29723716	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	139236319	139236331	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr20	43560676	43560688	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr13	78856378	78856379	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	70513943	70513952	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	103922714	103922737	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr1	44885118	44885135	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	67703258	67703259	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	226476385	226476393	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	160840652	160840668	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	48697720	48697722	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	9468684	9468729	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr2	112101614	112101626	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	175913524	175913529	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	71898853	71898866	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	33728896	33728904	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	74557687	74557697	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	163371513	163371514	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	154467536	154467550	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr14	102547939	102547974	iCLIP#TIA1_wang2010a_hg19*TIA1	233	-
+chr19	21308876	21308879	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	207026616	207026637	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	236732385	236732415	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr9	131483180	131483192	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	79730124	79730135	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	18118376	18118381	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	150192836	150192866	iCLIP#TIA1_wang2010a_hg19*TIA1	41	-
+chr6	158993076	158993086	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	78433627	78433630	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	126194514	126194530	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	118704271	118704286	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	4765928	4765939	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	110221121	110221139	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	48073240	48073261	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	128773934	128773955	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	55539881	55539905	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	26575859	26575872	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr4	1205529	1205596	iCLIP#TIA1_wang2010a_hg19*TIA1	28	-
+chrX	112053037	112053057	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	140310413	140310427	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr8	84128440	84128449	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	135118700	135118722	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	39846452	39846464	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	139093041	139093066	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	111907736	111907750	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	10168289	10168339	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr6	34393837	34393848	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	160896206	160896211	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	61920836	61920839	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	168212637	168212646	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	202488869	202488878	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr8	121512153	121512168	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	97346258	97346288	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr10	83490449	83490450	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	197447965	197447966	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	40465105	40465175	iCLIP#TIA1_wang2010a_hg19*TIA1	46	+
+chr6	127609093	127609105	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	94806268	94806275	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	95452052	95452056	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	45738663	45738675	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	113013046	113013052	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	78834388	78834401	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	139946402	139946408	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	179433791	179433801	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	45023898	45023931	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr1	8414582	8414600	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	179156743	179156781	iCLIP#TIA1_wang2010a_hg19*TIA1	37	+
+chr4	1093567	1093579	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	95908067	95908089	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr8	128232586	128232602	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr1	22054636	22054654	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	196657927	196657940	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	75947537	75947557	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chrX	112018909	112018922	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	45540705	45540707	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	19007598	19007603	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	109215402	109215412	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	220142056	220142068	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chrX	73164728	73164731	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	77086833	77086834	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	55907686	55907696	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	74657531	74657547	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	158539965	158539976	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	203425558	203425576	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr16	58550842	58550849	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	21133023	21133039	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	75478197	75478206	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	62538158	62538185	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr17	7132217	7132238	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	111727049	111727063	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr21	45113493	45113504	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	63849232	63849244	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr1	224377790	224377827	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr2	172848402	172848442	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr8	99130178	99130184	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	97873141	97873158	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	61923296	61923318	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr8	26221210	26221211	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr14	51722333	51722389	iCLIP#TIA1_wang2010a_hg19*TIA1	30	+
+chrX	56591812	56591826	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	128129087	128129109	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	58806503	58806518	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	23358980	23359005	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	92227816	92227818	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	139163242	139163251	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	128206959	128206978	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	38885192	38885207	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr12	4665437	4665449	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	80944582	80944615	iCLIP#TIA1_wang2010a_hg19*TIA1	32	+
+chr14	76647216	76647232	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	102548008	102548030	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr12	109548551	109548561	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr14	26486294	26486295	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr11	100803911	100803913	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	24358788	24358789	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr22	22117289	22117298	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	4954899	4954917	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	32508302	32508423	iCLIP#TIA1_wang2010a_hg19*TIA1	60	+
+chr18	12033829	12033830	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	47088682	47088704	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr15	69751374	69751375	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	71413044	71413067	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	179814986	179814993	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	37291680	37291700	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr16	15961241	15961272	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	207931033	207931044	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	45911428	45911432	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	118717482	118717519	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr15	89878328	89878361	iCLIP#TIA1_wang2010a_hg19*TIA1	332	+
+chr5	159855683	159855712	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr9	98733891	98733912	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	35668498	35668511	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	36177404	36177412	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	1637621	1637628	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	83345929	83345963	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr20	34299055	34299069	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	6679370	6679393	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr7	26231852	26231907	iCLIP#TIA1_wang2010a_hg19*TIA1	42	-
+chr3	123675016	123675025	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	12870361	12870381	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	162945565	162945582	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr1	93297597	93297603	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr5	138704604	138704626	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr17	8023679	8023680	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr17	71280451	71280462	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr12	124140857	124140863	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	9367247	9367250	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	70229290	70229309	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chrX	16862808	16862839	iCLIP#TIA1_wang2010a_hg19*TIA1	39	-
+chr18	55217712	55217743	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	185266997	185267012	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr14	71761948	71761959	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	153627946	153627954	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	111893818	111893822	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	73043764	73043768	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr20	13055717	13055718	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	119936230	119936237	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr13	77861839	77861858	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	39019296	39019301	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	11744426	11744427	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	131750509	131750525	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	123714750	123714761	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	75977182	75977191	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	90602132	90602137	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	44547937	44547946	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	70696216	70696245	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	65196646	65196694	iCLIP#TIA1_wang2010a_hg19*TIA1	44	+
+chr5	76987166	76987197	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr22	17618474	17618490	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	6775868	6775883	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	61725599	61725615	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	59142548	59142572	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	73568956	73568964	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	152182038	152182068	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr1	186368190	186368202	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	1258893	1258909	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chrX	102933406	102933409	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	124261194	124261228	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chrX	150574687	150574720	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr19	49972250	49972260	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	97270504	97270519	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	2138665	2138666	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	4443106	4443121	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	46657508	46657510	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	88384775	88384787	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	70064848	70064858	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	33810522	33810524	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	137735194	137735224	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr7	139103345	139103360	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	73604076	73604088	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	8451914	8451926	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	41092777	41092779	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	93707740	93707751	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	17395710	17395716	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	103572654	103572671	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr20	46288425	46288430	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	62587369	62587370	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	100564402	100564421	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	48534162	48534167	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	45244317	45244340	iCLIP#TIA1_wang2010a_hg19*TIA1	53	+
+chr1	32373946	32373990	iCLIP#TIA1_wang2010a_hg19*TIA1	32	-
+chr3	156260894	156260896	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	138568852	138568854	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr2	71598164	71598193	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	20532200	20532218	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	10580636	10580673	iCLIP#TIA1_wang2010a_hg19*TIA1	42	-
+chr7	139724287	139724294	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	158712468	158712481	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr11	129112724	129112750	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	34905682	34905705	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr4	39739144	39739159	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	171676362	171676366	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	166385378	166385394	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	67877162	67877170	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	130146309	130146333	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr5	142657610	142657630	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr2	234462772	234462774	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	618904	618905	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	10262857	10262869	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr13	92151810	92151835	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	244850193	244850209	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	24529298	24529325	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr5	32604002	32604011	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr5	38958738	38958752	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	98653000	98653033	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	161401255	161401281	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	93299027	93299037	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr12	20890017	20890037	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	118888191	118888208	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	179041765	179041804	iCLIP#TIA1_wang2010a_hg19*TIA1	126	-
+chr19	31211056	31211059	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	58960351	58960374	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr20	25428952	25428978	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	8941109	8941122	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	154554603	154554629	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	225921625	225921626	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	107401146	107401152	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	33755287	33755303	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	110969134	110969147	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	58738616	58738663	iCLIP#TIA1_wang2010a_hg19*TIA1	47	+
+chr16	78214880	78214889	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	73595404	73595446	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr4	160279884	160279898	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	134490528	134490554	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr10	75101133	75101144	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	191798550	191798566	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	229632222	229632238	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	106857405	106857412	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	211546248	211546256	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	65193806	65193857	iCLIP#TIA1_wang2010a_hg19*TIA1	64	+
+chr14	53324473	53324503	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr14	67029797	67029806	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	78185653	78185661	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	122359261	122359296	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr9	101553748	101553757	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	147618169	147618182	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	20450872	20450903	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr12	116534439	116534450	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	115249495	115249512	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	40020846	40020847	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	98235868	98235882	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	82877949	82877968	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr11	42012189	42012190	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	105906026	105906029	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	73057095	73057105	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr12	13070797	13070806	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	49628389	49628428	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	76359002	76359005	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	32510435	32510460	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	160219423	160219432	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	83606426	83606437	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	77620847	77620849	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	79839163	79839176	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	56083422	56083446	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	42175826	42175854	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr11	75116743	75116759	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	39418245	39418275	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chrX	73809655	73809668	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	191792680	191792688	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	149779790	149779814	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	125760091	125760092	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	156985023	156985028	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	29993530	29993546	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chrX	133420838	133420839	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr13	114523574	114523590	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	133635676	133635690	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	171562526	171562558	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr1	70695343	70695370	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	866891	866901	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr5	80715906	80715930	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	145787673	145787702	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr17	61822845	61822868	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr22	29899495	29899518	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	48779104	48779136	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	27993188	27993189	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	62095598	62095636	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr2	85768507	85768515	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	122735001	122735020	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	19823328	19823337	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	224741374	224741381	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	95371216	95371217	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	148683071	148683072	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	18803799	18803821	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chr11	66693871	66693881	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	36653804	36653838	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr3	152181432	152181486	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr20	49507516	49507538	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr15	64050353	64050367	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	38848902	38848911	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	176884003	176884037	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr1	233807332	233807352	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	180694099	180694122	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr1	29486846	29486879	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr7	98963752	98963770	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	235906986	235906987	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	72818365	72818388	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	57915523	57915544	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	9563818	9563825	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	73070026	73070331	iCLIP#TIA1_wang2010a_hg19*TIA1	251	-
+chr7	93623565	93623585	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	21306861	21306868	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	128214987	128215069	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr6	160206887	160206922	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	81052546	81052563	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr14	75601096	75601101	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr14	53385817	53385820	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	68308718	68308719	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr9	139303942	139303952	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	201724813	201724846	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr10	98755664	98755681	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	46030074	46030091	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr11	103037021	103037036	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	73873277	73873283	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	170070510	170070527	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	74934790	74934796	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	53405586	53405621	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr15	97954520	97954525	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	117209058	117209071	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	100181453	100181469	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	98280901	98280913	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	10851753	10851765	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr5	31468022	31468036	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr21	38452149	38452161	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	139364134	139364138	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr8	66638159	66638167	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	129918966	129918977	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	6669317	6669340	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr5	58976460	58976483	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr19	9529857	9529873	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	13073192	13073206	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	58979189	58979213	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	121901565	121901581	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr19	39889727	39889732	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	127011915	127011917	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	33271842	33271853	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	153209183	153209186	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	34168026	34168047	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr14	23947325	23947339	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr4	24335058	24335110	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	128211899	128211915	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	74304404	74304410	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	720919	720922	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	114884405	114884546	iCLIP#TIA1_wang2010a_hg19*TIA1	184	+
+chr17	65334208	65334232	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	72549640	72549654	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	1152318	1152324	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	746034	746043	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	17953449	17953451	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	187509649	187509664	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr2	169730059	169730083	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	99501182	99501191	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	96394718	96394747	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr5	74669670	74669699	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	211918802	211918838	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	141445418	141445434	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	20493530	20493553	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	28641626	28641628	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	62095653	62095663	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	154129133	154129159	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr12	42835346	42835363	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	37006655	37006672	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr7	135612995	135613039	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr9	5905494	5905502	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	57814865	57814876	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	39371823	39371855	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr17	73737121	73737122	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	40738309	40738329	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	56076492	56076503	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	177065626	177065633	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	99752123	99752134	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	38296210	38296221	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	20653437	20653454	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	184574888	184574899	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	49994433	49994469	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr12	116675247	116675264	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	160812866	160812869	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	134174973	134174974	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	25168879	25168907	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr12	56555230	56555311	iCLIP#TIA1_wang2010a_hg19*TIA1	71	+
+chr2	260018	260030	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	28456799	28456811	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr3	150345914	150345942	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	57812074	57812101	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	111555762	111555813	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr2	29149972	29149976	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr6	131160600	131160635	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr1	168217046	168217063	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	40505273	40505288	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	108835734	108835752	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	45905394	45905400	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	92952508	92952520	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	170070628	170070652	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	38327159	38327190	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr15	101252190	101252191	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	34328692	34328721	iCLIP#TIA1_wang2010a_hg19*TIA1	29	-
+chr15	63364025	63364073	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr8	62614273	62614292	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	116200782	116200849	iCLIP#TIA1_wang2010a_hg19*TIA1	32	+
+chr1	51323568	51323588	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	224840335	224840353	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	36093668	36093669	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	207249608	207249619	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	24364799	24364803	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr21	45524260	45524274	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	57897198	57897220	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr6	101308599	101308612	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	234741560	234741601	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr17	76849281	76849350	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chr5	133493208	133493250	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr12	75893595	75893630	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr19	48886447	48886477	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr9	14306966	14306973	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	76449804	76449807	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	197091469	197091507	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr20	47458947	47458950	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	66527163	66527186	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr8	121536849	121536851	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	73189163	73189191	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	128241122	128241395	iCLIP#TIA1_wang2010a_hg19*TIA1	118	-
+chr4	82074364	82074367	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	16783419	16783430	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	27114062	27114077	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	134020688	134020694	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr21	33069705	33069713	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	58448907	58448913	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	65475443	65475453	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	46543167	46543177	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	33349970	33350006	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr17	6546378	6546391	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr14	62235255	62235271	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	125001255	125001259	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	128532791	128532888	iCLIP#TIA1_wang2010a_hg19*TIA1	65	+
+chr12	111907512	111907534	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	69549646	69549665	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	78410000	78410005	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	33138640	33138654	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	112021225	112021232	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr1	164816149	164816166	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	74669300	74669310	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	179325378	179325401	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	8364747	8364748	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	8704769	8704780	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	25838929	25838937	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	17714654	17714684	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	50938303	50938307	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	73045341	73045373	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr6	35542600	35542610	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	67507793	67507807	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	65204232	65204264	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr3	56656951	56656963	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr15	77777877	77777909	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	96069807	96069812	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	32503919	32503928	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	180003033	180003042	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chrX	21863516	21863524	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	228207410	228207418	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	1189379	1189400	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	189877424	189877439	iCLIP#TIA1_wang2010a_hg19*TIA1	42	+
+chr15	43768789	43768805	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	6754605	6754614	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	96661172	96661207	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	209101621	209101679	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr6	17780898	17780914	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	108152616	108152626	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	142203792	142203797	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	169639880	169639895	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	144290153	144290157	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	112211069	112211077	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	74893890	74893897	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr18	19423192	19423205	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	61921889	61921897	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	176918356	176918377	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	147641537	147641552	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	129962745	129962757	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	67035455	67035467	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	2755752	2755766	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	65588440	65588480	iCLIP#TIA1_wang2010a_hg19*TIA1	83	+
+chr15	85634435	85634445	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	47126403	47126426	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	11358429	11358433	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	107968744	107968761	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	48057213	48057241	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr3	128198390	128198415	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	70014478	70014512	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	13971147	13971172	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr21	38501170	38501181	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	151372035	151372051	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr9	137736302	137736334	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr18	33572640	33572650	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	78670537	78670551	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	48702616	48702644	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	10318473	10318477	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr18	673337	673369	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr5	133492785	133492796	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chrX	153689128	153689139	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr20	34636727	34636740	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	70764903	70764905	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr18	37331272	37331284	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	52224023	52224028	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	176684160	176684165	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	194176416	194176417	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	109817819	109817850	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	127565281	127565291	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr6	126250439	126250463	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr20	34327080	34327085	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	133562707	133562737	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	8099906	8099919	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	57247088	57247094	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	11319608	11319609	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	113440033	113440052	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	191181514	191181515	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	20578473	20578492	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	99002428	99002438	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	105236045	105236065	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	45035862	45035865	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	179157663	179157689	iCLIP#TIA1_wang2010a_hg19*TIA1	46	+
+chr22	19371123	19371130	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	133318364	133318380	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	153779312	153779328	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr12	50156790	50156843	iCLIP#TIA1_wang2010a_hg19*TIA1	58	+
+chr9	114309603	114309618	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	48845540	48845565	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	32227436	32227455	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	69108335	69108353	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	56643156	56643168	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr18	21059407	21059416	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	42957350	42957364	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	65883568	65883596	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	85706661	85706681	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	5206061	5206079	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr12	27863904	27863917	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	136237510	136237524	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	97285574	97285593	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	65266716	65266740	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr15	101710306	101710314	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	225235544	225235555	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	1695164	1695193	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr5	121400727	121400764	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr4	151186711	151186715	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	135282174	135282197	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr18	13492045	13492053	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	4067242	4067264	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	146054485	146054502	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	38270127	38270133	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr22	35515194	35515198	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	128208928	128208952	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	48812807	48812822	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	13025989	13026001	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	65857210	65857235	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chrX	73063929	73063939	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr1	226107601	226107626	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	56334907	56334919	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr22	21242263	21242268	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	9954712	9954728	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr15	93428393	93428403	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr8	128188933	128188950	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	134489258	134489262	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	9198740	9198759	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	26613104	26613143	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chrX	3732166	3732167	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	20580023	20580037	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	108916703	108916712	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr15	78732235	78732255	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr1	173835634	173835653	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr14	65398968	65398971	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	85707835	85707853	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	191545625	191545637	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr18	33703897	33703903	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	26358890	26358919	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr22	41221473	41221497	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr18	3458366	3458378	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	92236079	92236108	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	30921961	30921962	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	7786529	7786542	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	73500176	73500191	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr17	2380942	2380960	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	46142867	46142870	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	153893507	153893511	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	115446465	115446475	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	35899144	35899166	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	82560879	82560881	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	77968400	77968426	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr19	5668430	5668454	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr14	69929026	69929048	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	22007275	22007290	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	90180609	90180639	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr17	42971737	42971747	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	157439635	157439673	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr8	78800713	78800715	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	58953306	58953322	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	23636460	23636522	iCLIP#TIA1_wang2010a_hg19*TIA1	36	-
+chrY	16250658	16250662	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	89358046	89358066	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	34929685	34929703	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	175585546	175585555	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	128412174	128412178	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	124499529	124499568	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr8	128189217	128189223	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	53353493	53353504	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	153371528	153371544	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	24955875	24955897	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	36534338	36534363	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	171760544	171760559	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr8	97622364	97622377	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr1	40556969	40556976	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	202103205	202103221	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	117038834	117038912	iCLIP#TIA1_wang2010a_hg19*TIA1	53	+
+chr6	31508086	31508092	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	37327213	37327232	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	128233520	128233543	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr13	50274863	50274876	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	73774141	73774165	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr6	132211682	132211704	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	16357406	16357407	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	52579511	52579533	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	147639472	147639509	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr1	173827047	173827083	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr6	31804444	31804452	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	1110120	1110139	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	76603277	76603287	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	203155188	203155201	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	41812881	41812921	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr16	27471998	27472037	iCLIP#TIA1_wang2010a_hg19*TIA1	34	-
+chr13	76426141	76426143	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	182390862	182390865	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	2575691	2575707	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	196649109	196649122	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	51431682	51431695	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr14	102548313	102548329	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	10551333	10551345	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	63825308	63825319	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	35548150	35548161	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	72639714	72639732	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	126999918	126999919	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr5	6606892	6606924	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	97715715	97715724	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	59955498	59955502	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	23540612	23540628	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	178095292	178095308	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	122589286	122589331	iCLIP#TIA1_wang2010a_hg19*TIA1	42	-
+chr14	21101237	21101257	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	17625880	17625896	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chrX	48435939	48435971	iCLIP#TIA1_wang2010a_hg19*TIA1	29	+
+chr17	19871660	19871673	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	157217524	157217543	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	57557580	57557663	iCLIP#TIA1_wang2010a_hg19*TIA1	49	-
+chr3	52570854	52570860	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	203839134	203839159	iCLIP#TIA1_wang2010a_hg19*TIA1	40	+
+chr8	16604695	16604704	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr1	68575889	68575892	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	47495737	47495750	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr8	38021055	38021071	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr15	52201171	52201196	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr2	32526577	32526584	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	28909138	28909177	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr16	46729715	46729727	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	161070376	161070460	iCLIP#TIA1_wang2010a_hg19*TIA1	68	-
+chr17	42268823	42268860	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chrX	16100868	16100869	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	133242581	133242588	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	54259048	54259051	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	21307793	21307820	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	153884891	153884897	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	176808930	176808955	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	15897029	15897059	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	147660533	147660547	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr5	138661358	138661409	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr2	228214791	228214799	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	1295667	1295675	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	62621164	62621192	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr15	63198782	63198783	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	170642319	170642355	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	28849209	28849212	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr19	39220711	39220723	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr16	28854262	28854264	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	65271577	65272915	iCLIP#TIA1_wang2010a_hg19*TIA1	5594	+
+chr15	65868754	65868844	iCLIP#TIA1_wang2010a_hg19*TIA1	39	+
+chr13	96548068	96548081	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	3025962	3025971	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	33606704	33606720	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	73041015	73041039	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr9	95274766	95274767	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	53180061	53180077	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr22	38886499	38886523	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr3	145788330	145788334	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	62214852	62214936	iCLIP#TIA1_wang2010a_hg19*TIA1	121	+
+chr20	6760035	6760062	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	203745478	203745486	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	20681187	20681212	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	19311451	19311461	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	48939742	48939793	iCLIP#TIA1_wang2010a_hg19*TIA1	28	-
+chr5	76723588	76723603	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	131206484	131206506	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	42283995	42284006	iCLIP#TIA1_wang2010a_hg19*TIA1	34	-
+chrX	24229775	24229800	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr9	14320611	14320612	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	126360076	126360093	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr1	6284555	6284565	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr12	74934640	74934670	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr15	93427347	93427382	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	93746179	93746180	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	27640196	27640201	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	149132505	149132530	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	79868275	79868276	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	76869947	76869949	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	23740591	23740598	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	41595272	41595273	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	153616654	153616680	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr14	73569235	73569251	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr9	131720356	131720360	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	47704560	47704563	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	65862443	65862455	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr18	14117967	14117971	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	198284781	198284809	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr10	127701084	127701102	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	56383168	56383180	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	122734903	122734911	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	166272782	166272786	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	44871652	44871679	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	32663422	32663449	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr6	30688225	30688238	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr19	57811627	57811653	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr12	133330923	133330928	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	52189072	52189073	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	107965248	107965273	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	30696984	30697024	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr6	133834188	133834198	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	65897596	65897632	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr4	139086156	139086182	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	48945993	48946005	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	197112192	197112215	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr18	7261933	7261935	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	32136191	32136205	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr6	16433359	16433379	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	232655893	232655905	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	170519601	170519604	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	163298110	163298135	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr7	86792654	86792666	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	18224444	18224467	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr3	156259421	156259456	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr1	33145959	33145977	iCLIP#TIA1_wang2010a_hg19*TIA1	43	+
+chr4	174253007	174253050	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr11	62609204	62609235	iCLIP#TIA1_wang2010a_hg19*TIA1	1044	-
+chr5	180615477	180615488	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr4	170642048	170642075	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	110784300	110784328	iCLIP#TIA1_wang2010a_hg19*TIA1	97	+
+chr15	63617031	63617051	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	93661716	93661726	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	9800383	9800422	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	10567392	10567399	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	71687917	71687944	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	108344862	108344891	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	2966669	2966694	iCLIP#TIA1_wang2010a_hg19*TIA1	44	-
+chr1	185275121	185275128	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	49994174	49994198	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr5	58289653	58289661	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	9564637	9564648	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	40713551	40713552	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr9	139745362	139745369	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	37073716	37073725	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	57915765	57915836	iCLIP#TIA1_wang2010a_hg19*TIA1	38	+
+chr2	47387710	47387804	iCLIP#TIA1_wang2010a_hg19*TIA1	91	-
+chr12	101019973	101019980	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	62798357	62798374	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	34149998	34150013	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	96355357	96355359	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	114279579	114279594	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	48890318	48890388	iCLIP#TIA1_wang2010a_hg19*TIA1	42	+
+chr1	61578018	61578029	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	187370355	187370368	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr16	15723983	15723998	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	123047679	123047704	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	51142347	51142362	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	96336863	96336905	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	77955744	77955781	iCLIP#TIA1_wang2010a_hg19*TIA1	36	+
+chr1	25167610	25167624	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr10	102120846	102120877	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr1	64095779	64095794	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	75956865	75956879	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr17	38556831	38556836	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	64848225	64848248	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	28847094	28847126	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	186292339	186292348	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr20	60962156	60962163	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr6	52551298	52551322	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr3	149235067	149235071	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr16	56395651	56395683	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr6	146239626	146239639	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	56536545	56536561	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	60753902	60753905	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	60639673	60639740	iCLIP#TIA1_wang2010a_hg19*TIA1	76	-
+chr3	142742867	142742919	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr12	133253423	133253431	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	3121847	3121854	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	130803763	130803765	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	58661123	58661133	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	119010512	119010541	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chrX	141133216	141133228	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	76168628	76168651	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	111030681	111030692	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	4745693	4745700	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	18428823	18428851	iCLIP#TIA1_wang2010a_hg19*TIA1	31	+
+chr1	168219162	168219176	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	76183957	76183966	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	6715244	6715271	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr22	42556310	42556324	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	32843292	32843308	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr9	88261415	88261419	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	34411529	34411558	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr7	63960674	63960699	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	3465193	3465207	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	93708214	93708245	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr14	81645067	81645102	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	201950366	201950418	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr17	70122510	70122530	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	155300486	155300506	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	128748893	128748912	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr5	72151759	72151786	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	13879267	13879279	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	34904221	34904232	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	88542341	88542347	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	90002429	90002466	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	45823406	45823430	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	176793877	176793888	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	58463705	58463730	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	43276030	43276054	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	2638143	2638161	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	208382322	208382324	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	39927827	39927828	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	31702372	31702401	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	619239	619261	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	105728823	105728831	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	27012373	27012386	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr22	43011451	43011456	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	176012348	176012349	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	24727431	24727448	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	39640095	39640110	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	30691634	30691647	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	3552455	3552468	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	81644287	81644293	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	51072946	51072947	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	106901628	106901647	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	47387819	47387834	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr9	128347817	128347820	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	201824070	201824083	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	98666149	98666167	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	162569193	162569200	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	175292870	175292879	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	126362000	126362003	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	104754142	104754153	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr5	140090866	140090929	iCLIP#TIA1_wang2010a_hg19*TIA1	433	+
+chr5	35644641	35644648	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	29686316	29686326	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	108152072	108152103	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	36467622	36467635	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	166741722	166741744	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	98515860	98515890	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr3	33911928	33911938	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	33092902	33092911	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	72172798	72172810	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	61579984	61579998	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	141536291	141536305	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	20270519	20270557	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	28865465	28865475	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	86592580	86592595	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	7571759	7571802	iCLIP#TIA1_wang2010a_hg19*TIA1	38	-
+chr2	228439416	228439425	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	109689243	109689277	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr10	105360586	105360599	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	191784466	191784478	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	51298621	51298623	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	113163846	113163862	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	101886157	101886162	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	234171895	234171897	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	20574301	20574306	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	69271957	69271964	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	37556476	37556560	iCLIP#TIA1_wang2010a_hg19*TIA1	33	+
+chr8	128219075	128219094	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	52539173	52539180	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	31681575	31681578	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	101197436	101197445	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	11878385	11878393	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	77692094	77692122	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	75477184	75477211	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	131453514	131453539	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr19	10501852	10501859	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	42671104	42671127	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	70690407	70690416	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	46754607	46754618	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr5	114950896	114950925	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr6	64290858	64290882	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr17	27233032	27233057	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	134079753	134079758	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	55267566	55267577	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	129277766	129277787	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr18	4854491	4854497	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr8	48889449	48889528	iCLIP#TIA1_wang2010a_hg19*TIA1	96	+
+chr22	41756016	41756027	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	42211112	42211113	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr13	92239936	92239969	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	37083839	37083853	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	62917336	62917369	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr1	17740007	17740023	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	34728688	34728689	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr10	118659355	118659356	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	147642901	147642934	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chrX	110928348	110928378	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	45823461	45823486	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	99936073	99936131	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr12	123013141	123013142	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	87607847	87607859	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	179047294	179047325	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr5	114949237	114949310	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr22	27625463	27625464	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	110333223	110333251	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr13	92101312	92101314	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	39613854	39613889	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr7	90896488	90896501	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	15995057	15995069	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr22	31736838	31736866	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	27198260	27198273	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr3	195778081	195778117	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr19	40313104	40313107	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	30982150	30982157	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	73586514	73586564	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr5	179157862	179157888	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr8	119936032	119936062	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	42661823	42661833	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr15	64429992	64430005	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	76941820	76941838	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	66708817	66708825	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	17507732	17507742	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	8089731	8089732	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr8	98737612	98737627	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	35661438	35661450	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	153127235	153127266	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	230631732	230631739	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	191764150	191764178	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	94852345	94852369	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	188893624	188893628	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	36214424	36214443	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	460098	460103	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	128237070	128237090	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr18	46386632	46386636	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	28043338	28043339	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	25634971	25634993	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr19	38205683	38205698	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	61569713	61569733	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	94214617	94214653	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr16	277784	277794	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	35598810	35598817	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	32125006	32125013	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr5	93855300	93855316	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	17249869	17249899	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	128208270	128208297	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	63595124	63595137	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	125767720	125767741	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	56142449	56142465	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	3566292	3566348	iCLIP#TIA1_wang2010a_hg19*TIA1	32	-
+chr16	89849203	89849206	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	49775381	49775401	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr20	35156628	35156646	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	1613003	1613052	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr3	41279582	41279606	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	32553814	32553837	iCLIP#TIA1_wang2010a_hg19*TIA1	36	-
+chr14	21820747	21820757	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr2	224764456	224764479	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	109416691	109416698	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	57057469	57057499	iCLIP#TIA1_wang2010a_hg19*TIA1	183	-
+chr19	50489894	50489903	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	68942045	68942059	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	200376093	200376100	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	115260348	115260373	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr1	21133753	21133767	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr4	77956961	77956965	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	127633619	127633627	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	6747144	6747149	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	19612327	19612328	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	35944571	35944593	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr3	135905824	135905837	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	89585111	89585118	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr14	78184235	78184270	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr15	78766331	78766349	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	153511864	153511874	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	230338615	230338625	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	133308486	133308488	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	19372357	19372366	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	47710144	47710180	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	232322105	232322108	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	10585261	10585266	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	86802450	86802459	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	115292618	115292632	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr11	32165356	32165357	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr5	170817139	170817152	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr7	19735290	19735311	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr9	74597149	74597154	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	51846020	51846021	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	138650432	138650444	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	11906937	11906960	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr19	50000992	50001007	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr6	110421183	110421235	iCLIP#TIA1_wang2010a_hg19*TIA1	35	-
+chr5	1811224	1811254	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr10	96336947	96336979	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	84660397	84660411	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	107259429	107259457	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr20	36756955	36756987	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr15	68497435	68497448	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	152659430	152659440	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	34104430	34104439	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr15	99503258	99503284	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr10	96322687	96322719	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	25821407	25821420	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	26497600	26497616	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	62580778	62580783	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	53897773	53897782	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	53078274	53078282	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	134653184	134653222	iCLIP#TIA1_wang2010a_hg19*TIA1	38	+
+chr1	38433692	38433703	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	45582708	45582737	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	117650705	117650708	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	37943168	37943173	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	137892772	137892774	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	80127565	80127633	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr5	79773982	79774002	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr2	3589096	3589104	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	79825743	79825752	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	233114162	233114164	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr21	44834417	44834436	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr5	37267101	37267108	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	14710503	14710528	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr9	88611469	88611479	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	94354329	94354347	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr3	38540583	38540597	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	26611925	26611939	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	120978865	120978881	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	133176911	133176912	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	203831404	203831420	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	147827741	147827750	iCLIP#TIA1_wang2010a_hg19*TIA1	31	+
+chr22	31355393	31355399	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	41506397	41506405	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	230417593	230417596	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr22	36135500	36135512	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	53777413	53777431	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr8	92097405	92097420	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr20	29907162	29907164	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	69171795	69171801	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	6442217	6442244	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr4	77052340	77052371	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	126172223	126172277	iCLIP#TIA1_wang2010a_hg19*TIA1	63	+
+chr16	21667188	21667212	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr5	147581364	147581365	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	70520462	70520476	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr21	44267215	44267247	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr6	34256140	34256168	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr1	224565756	224565763	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	43107297	43107314	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	150192733	150192769	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr12	126608721	126608724	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	73118700	73118705	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr12	117622693	117622694	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	2142916	2142926	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	37428930	37428951	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	122168207	122168232	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	4414166	4414182	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr19	10789406	10789431	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	178081681	178081715	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr12	20636818	20636837	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	130535855	130535872	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	97400097	97400099	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	169101363	169101396	iCLIP#TIA1_wang2010a_hg19*TIA1	36	+
+chr1	235577965	235577985	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	31539978	31539990	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	19079505	19079517	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	18226381	18226388	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	33477650	33477665	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr11	89944860	89944888	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	109472893	109472924	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr10	5924947	5924956	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	168222203	168222231	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	58450967	58450983	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	157529246	157529262	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	123065086	123065087	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	44620647	44620682	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr3	176763899	176763910	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr14	31576266	31576278	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	56119265	56119290	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr10	134000718	134000719	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	57075993	57076034	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr15	89859734	89859741	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	44546540	44546551	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	52938656	52938669	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	117476764	117476768	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	46591541	46591580	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr7	77272072	77272073	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	73047350	73047354	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	44694018	44694029	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	16965637	16965667	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr8	144674775	144674801	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chrX	9684704	9684727	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	37259699	37259705	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	157744961	157744962	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr11	65210489	65210524	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr11	12961282	12961296	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr8	81432220	81432243	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr15	57580351	57580370	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr19	3976262	3976294	iCLIP#TIA1_wang2010a_hg19*TIA1	45	-
+chr11	66453151	66453153	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	21515311	21515312	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	103978592	103978595	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	19380218	19380231	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	40026564	40026587	iCLIP#TIA1_wang2010a_hg19*TIA1	25	-
+chr19	10796351	10796372	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr1	180010124	180010159	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	128233391	128233440	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr8	19709498	19709524	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chrX	48436079	48436098	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr14	65399018	65399028	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	86321498	86321520	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chrX	39910689	39910731	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr6	4061614	4061631	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr12	52453195	52453220	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr9	36083577	36083596	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	145882845	145882864	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	64892917	64892930	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	95285979	95285987	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr21	43220999	43221011	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	103922184	103922219	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr5	89975483	89975504	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	202721969	202721980	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	131344180	131344208	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	71199476	71199496	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	228426347	228426349	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	46754526	46754584	iCLIP#TIA1_wang2010a_hg19*TIA1	36	-
+chr8	128171824	128171848	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	5469715	5469724	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	48436580	48436587	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr16	87760588	87760590	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	45448890	45448894	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	74656362	74656372	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr2	106782500	106782503	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	32862572	32862584	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	148875728	148875764	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	69237897	69237924	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	136239400	136239409	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	36200287	36200289	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	212220772	212220787	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chrX	83401956	83401970	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	90683138	90683145	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	89739871	89739880	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr15	38644756	38644770	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr19	36066781	36066785	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr6	28122334	28122339	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	113629971	113629982	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	69524285	69524327	iCLIP#TIA1_wang2010a_hg19*TIA1	103	+
+chr5	133295229	133295247	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	249168439	249168440	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	52103126	52103137	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	205683027	205683056	iCLIP#TIA1_wang2010a_hg19*TIA1	35	-
+chr1	10240343	10240371	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr9	72972740	72972746	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	236431161	236431171	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr21	45937725	45937735	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	21903448	21903464	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	55199859	55199869	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr8	128231765	128231789	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr15	58885981	58885983	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr13	76432343	76432362	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	85775956	85775957	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	47799704	47799751	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr1	41477406	41477439	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chrX	77381771	77381794	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr6	114262129	114262137	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	64814044	64814052	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	152140477	152140479	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	211545409	211545424	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	70514338	70514352	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	5851960	5851961	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	75964431	75964479	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr12	54705421	54705425	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr21	36157816	36157817	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr15	42483433	42483444	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	106300181	106300213	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	138709614	138709636	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	53861510	53861515	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	83921585	83921589	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	49678379	49678390	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	233600261	233600273	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	42442457	42442477	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	160328657	160328706	iCLIP#TIA1_wang2010a_hg19*TIA1	28	+
+chr22	19442300	19442313	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	88837908	88837909	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	160526472	160526502	iCLIP#TIA1_wang2010a_hg19*TIA1	32	+
+chr20	3781154	3781155	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	22279065	22279105	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr8	48783880	48783896	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	48605308	48605310	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	69423152	69423169	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr2	15052816	15052821	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr15	28422079	28422081	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	14696005	14696032	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr13	114018420	114018422	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	62521990	62522031	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr17	41602093	41602101	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	170802912	170802927	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	22754967	22754968	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	31921835	31921847	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	97775996	97776010	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	6755503	6755525	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	110464634	110464662	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr14	34927254	34927267	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	35657782	35657827	iCLIP#TIA1_wang2010a_hg19*TIA1	34	-
+chr1	113213103	113213146	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr6	133846003	133846012	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	32395143	32395165	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17_gl000205_random	37694	37711	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	71911016	71911022	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr8	131191471	131191485	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	26056700	26056702	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	44171898	44171902	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	71910291	71910329	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr9	100620308	100620330	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	111556538	111556562	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	172744107	172744164	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr12	20568876	20568898	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	27051038	27051053	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	51623841	51623843	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	41211435	41211439	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	49572939	49573002	iCLIP#TIA1_wang2010a_hg19*TIA1	61	+
+chr2	178306557	178306578	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	39981484	39981523	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr18	19105164	19105168	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	27618753	27618760	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	38229767	38229787	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	102101680	102101685	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	161928712	161928727	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	45707617	45707618	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	102527268	102527289	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	19089642	19089661	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr1	63912445	63912471	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	134653833	134653856	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr19	44231203	44231204	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	113455238	113455259	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr6	32949046	32949059	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	214525653	214525660	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	48856955	48856959	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr8	101715388	101715406	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr6	136582011	136582040	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr4	141784875	141784878	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	25549678	25549688	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	151791384	151791401	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	107844769	107844799	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	56872937	56872942	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	46614625	46614655	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr2	223809182	223809202	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr20	5098874	5098899	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	109178196	109178222	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr14	56150871	56150915	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr13	93924315	93924320	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	151154010	151154022	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	81643638	81643641	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	187037548	187037550	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	40554657	40554700	iCLIP#TIA1_wang2010a_hg19*TIA1	47	-
+chr5	108670665	108670693	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr5	145886782	145886797	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr19	48230108	48230113	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	52843735	52843764	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr17	37595294	37595299	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	53237921	53237925	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	9429266	9429273	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	109818304	109818329	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	8090249	8090250	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	96327906	96327927	iCLIP#TIA1_wang2010a_hg19*TIA1	44	+
+chr3	197509088	197509108	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	26251973	26251993	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr6	136663787	136663789	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	83748125	83748127	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	72274401	72274411	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	50649655	50649688	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr21	27253664	27253802	iCLIP#TIA1_wang2010a_hg19*TIA1	105	-
+chr11	65202461	65202503	iCLIP#TIA1_wang2010a_hg19*TIA1	39	+
+chr12	79747425	79747427	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	2972945	2972964	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	78413464	78413487	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	78162870	78162914	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr3	33444559	33444565	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	103868765	103868777	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	82265191	82265198	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr1	154522517	154522589	iCLIP#TIA1_wang2010a_hg19*TIA1	78	-
+chr17	41154915	41154937	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr1	23519486	23519510	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	48192346	48192351	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	91092453	91092472	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	67451248	67451285	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr3	161761664	161761675	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	176729377	176729390	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	126172436	126172488	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chrX	70628146	70628149	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	145524160	145524178	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr5	145512224	145512228	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	103970456	103970471	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	128210348	128210377	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	3123749	3123804	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr13	50587321	50587328	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	47891652	47891659	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr20	36668992	36669008	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	36770608	36770627	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr5	94011145	94011150	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	41637419	41637436	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	37159118	37159139	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	154916983	154917000	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr1	185266628	185266652	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	143708697	143708715	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	102966024	102966038	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	43256081	43256091	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	65864720	65864733	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	147582725	147582736	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrM	15984	16014	iCLIP#TIA1_wang2010a_hg19*TIA1	46	-
+chr5	71503168	71503179	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	48770833	48770843	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	24999450	24999484	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr12	111160411	111160425	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	55530370	55530495	iCLIP#TIA1_wang2010a_hg19*TIA1	72	+
+chr17	47127698	47127723	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	241665712	241665735	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	21622501	21622518	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr17	48828737	48828789	iCLIP#TIA1_wang2010a_hg19*TIA1	74	+
+chr5	24187809	24187817	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr21	34903769	34903785	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	124089511	124089528	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	61607941	61607944	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	69105913	69105920	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	10397875	10397878	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	114935546	114935571	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	56084838	56084847	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr20	34400680	34400682	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	56297473	56297493	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	57875322	57875381	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr6	149838145	149838171	iCLIP#TIA1_wang2010a_hg19*TIA1	38	-
+chr15	85212975	85212987	iCLIP#TIA1_wang2010a_hg19*TIA1	33	-
+chr4	103612001	103612024	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	203071905	203071968	iCLIP#TIA1_wang2010a_hg19*TIA1	84	-
+chr4	152534762	152534763	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	189876485	189876568	iCLIP#TIA1_wang2010a_hg19*TIA1	76	+
+chr4	186292228	186292245	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	90051047	90051052	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	89532963	89532974	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	38147426	38147483	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr6	16763037	16763050	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	154557165	154557192	iCLIP#TIA1_wang2010a_hg19*TIA1	52	-
+chr15	63501094	63501096	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	230631683	230631702	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	150595100	150595127	iCLIP#TIA1_wang2010a_hg19*TIA1	36	-
+chr1	205055701	205055725	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	8986821	8986829	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	147640403	147640418	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr16	18849690	18849698	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	5587100	5587118	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr7	132523799	132523803	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	201984965	201984982	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	120455308	120455337	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr4	146026854	146026860	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	96341292	96341305	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr9	97787038	97787054	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	128217153	128217166	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	51401672	51401688	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	57737883	57737911	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	128409455	128409510	iCLIP#TIA1_wang2010a_hg19*TIA1	94	+
+chr2	242590763	242590769	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	160130267	160130291	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	171560364	171560379	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr1	197093192	197093205	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	218504461	218504471	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr10	88856791	88856794	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	73055979	73055998	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	108681666	108681672	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	79084222	79084226	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	230417671	230417682	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chrX	30872976	30872977	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	58781234	58781265	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	28220277	28220290	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	93431571	93431590	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	211542760	211542784	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	52889216	52889262	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr12	56501054	56501078	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	87209080	87209107	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	123806398	123806424	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	88879635	88879646	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	162496790	162496807	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	142660865	142660894	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr18	21714970	21714976	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	93412726	93412731	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	171508959	171508977	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr14	81642947	81642968	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr5	154196563	154196610	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr7	97599041	97599065	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	14954352	14954360	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	42671645	42671657	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	43760803	43760817	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	23802529	23802536	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr15	65954098	65954114	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr7	18001047	18001048	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr15	66628985	66628989	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	71784064	71784090	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	66737054	66737068	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	56150937	56150954	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	48940282	48940291	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr7	33046031	33046037	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr13	53215401	53215408	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	58301882	58301885	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	69874792	69874793	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr13	109920416	109920422	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	11991673	11991686	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	136362	136375	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	25635785	25635815	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	160303326	160303356	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr12	53584541	53584544	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	129198336	129198337	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	36877292	36877300	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	113334456	113334463	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	6501408	6501522	iCLIP#TIA1_wang2010a_hg19*TIA1	116	-
+chr2	208442394	208442415	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	128839008	128839022	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	151221875	151221901	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chrX	119572321	119572339	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	8377658	8377670	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	36467597	36467600	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	22032787	22032790	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	182783198	182783219	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	98928153	98928221	iCLIP#TIA1_wang2010a_hg19*TIA1	26	+
+chr1	200374157	200374182	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chrX	41379095	41379135	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr5	54460233	54460247	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	133781334	133781341	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr14	86087800	86087814	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	72798647	72798653	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	116598244	116598279	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr6	79650186	79650195	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	50357677	50357695	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr8	128214759	128214777	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	121597109	121597114	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	10970156	10970157	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	2172377	2172385	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	207941178	207941208	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr9	104152587	104152611	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr2	20648645	20648703	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr6	134490439	134490509	iCLIP#TIA1_wang2010a_hg19*TIA1	39	-
+chr6	109688648	109688668	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr17	30696811	30696846	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chr10	70412366	70412374	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	167726668	167726691	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr17	30705026	30705059	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr7	98963715	98963735	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr13	113913382	113913408	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	85760480	85760481	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr14	20925811	20925866	iCLIP#TIA1_wang2010a_hg19*TIA1	44	+
+chr10	60154939	60154962	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr18	12985145	12985160	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	41461778	41461787	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	96368633	96368650	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr20	57608733	57608781	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chrX	38547947	38547979	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr13	52991095	52991109	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	11148340	11148344	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	47507928	47507930	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	158712070	158712108	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr5	121400656	121400690	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr1	46505493	46505494	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	179999277	179999288	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	48336540	48336542	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	5764921	5764922	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	147556318	147556338	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	36211844	36211917	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chr9	68727298	68727301	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	28048090	28048104	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	32883820	32883822	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	77241596	77241724	iCLIP#TIA1_wang2010a_hg19*TIA1	72	+
+chr3	130720783	130720785	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr22	22052671	22052672	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	70284196	70284210	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	117032822	117032834	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	34152018	34152036	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	673087	673094	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	44108653	44108674	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	65959811	65959812	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	28213139	28213142	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	93606050	93606069	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	21160263	21160269	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr13	73651626	73651651	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr6	11136654	11136665	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	8131038	8131049	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr18	56063952	56063959	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	59387291	59387339	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr6	18225299	18225335	iCLIP#TIA1_wang2010a_hg19*TIA1	50	-
+chr1	178128665	178128669	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	36680561	36680563	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	126448969	126448974	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	39851461	39851468	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	71529179	71529218	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr5	158595962	158595977	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	38572833	38572848	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	26842108	26842144	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr6	31321808	31321811	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chrX	16789901	16789923	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	187542067	187542087	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr5	58464536	58464538	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	20100630	20100631	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	122619763	122619773	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	100744535	100744558	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	27210310	27210334	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr5	132216299	132216367	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr9	127113666	127113674	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	81433685	81433703	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr18	57571181	57571239	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr13	53233463	53233475	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	245107448	245107455	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr7	151833216	151833232	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr19	12903801	12903839	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr19	41767517	41767530	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	43147637	43147642	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	160248505	160248511	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	93471255	93471262	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	52203843	52203885	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr17	37009254	37009267	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	9304487	9304503	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr14	75600981	75601005	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr15	99472697	99472709	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr6	26545188	26545196	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	123041233	123041237	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	79277222	79277248	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	6617114	6617135	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr7	45139750	45139756	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	56078216	56078224	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	101313072	101313079	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	90059469	90059488	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	55511930	55511933	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	55863360	55863368	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	38962523	38962551	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr21	34954441	34954462	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr5	141524257	141524258	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	184568864	184568868	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	104733057	104733075	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr15	91512657	91512665	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr11	46765275	46765302	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr1	52928379	52928401	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	11319941	11319990	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr2	232673379	232673389	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr1	192998638	192998649	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	24409704	24409708	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	48729929	48729932	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	72333097	72333116	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr6	75904631	75904640	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	47057808	47057823	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	102267417	102267444	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr8	129031469	129031488	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr21	46536963	46536968	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	33953269	33953273	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	5081041	5081049	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	72883816	72883831	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	20191481	20191494	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	230829391	230829415	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr6	79645765	79645771	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	56366124	56366152	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	27108329	27108365	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr1	1721957	1721963	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	239098456	239098464	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	222846623	222846633	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	39382408	39382419	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	79149523	79149524	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	150143807	150143818	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	16344568	16344579	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr18	43664180	43664222	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chrX	123234715	123234733	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr5	65458611	65458631	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr14	35031787	35031814	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr20	5562503	5562504	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	185348746	185348772	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	1687403	1687407	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	72897510	72897525	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	31732652	31732686	iCLIP#TIA1_wang2010a_hg19*TIA1	52	-
+chr17	34151561	34151588	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	123206924	123206941	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	108537213	108537248	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr9	37885331	37885332	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	54563378	54563394	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	45026954	45026955	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	33491087	33491088	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	19673059	19673079	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr14	78182150	78182176	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr9	135501034	135501043	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	47843804	47843826	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	121600252	121600254	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	173915296	173915298	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr22	46318233	46318245	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr10	69777908	69777936	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	194124323	194124333	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	72818676	72818697	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	114950594	114950652	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr7	39610233	39610257	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	148891586	148891589	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	55602380	55602389	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	80530372	80530380	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	128235076	128235099	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	13359928	13359943	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	118658706	118658715	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	39868643	39868669	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	36353117	36353131	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	40815311	40815329	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	130279053	130279056	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	49239224	49239243	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
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+chrX	124097283	124097291	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	48199398	48199412	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	134075123	134075147	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	187509516	187509530	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	175956056	175956077	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	43559046	43559048	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	65868642	65868667	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	145688356	145688371	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	33047055	33047146	iCLIP#TIA1_wang2010a_hg19*TIA1	50	-
+chr11	64539249	64539259	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	41104466	41104483	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	116092161	116092162	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	53963191	53963224	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	71629512	71629531	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	75858901	75858929	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr18	9402249	9402288	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr10	72247437	72247439	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	33371044	33371068	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr2	70313537	70313554	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	67755636	67755650	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	30808524	30808542	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr16	87866183	87866309	iCLIP#TIA1_wang2010a_hg19*TIA1	540	-
+chr1	235274472	235274522	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr11	95567957	95567980	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	31916152	31916167	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	203764935	203764956	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	47729834	47729843	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	14510192	14510210	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr20	17948695	17948714	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	133562137	133562182	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr3	45488278	45488295	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	98828300	98828328	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	48549317	48549318	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	230628692	230628722	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	107524665	107524695	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	55801480	55801490	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	146767379	146767384	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	57685604	57685631	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr5	179201887	179201934	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr11	68343341	68343360	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chrX	150156716	150156724	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	151148962	151148966	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr22	40981939	40981953	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	53570993	53570995	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	64566921	64566938	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr9	123549846	123549859	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	112791212	112791213	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	31221261	31221280	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	24229868	24229886	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	78808276	78808291	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	112498024	112498059	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr11	33730453	33730480	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr7	38269859	38269868	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	89199917	89199926	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	102991063	102991079	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	100616983	100617001	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	36068479	36068508	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr6	49709358	49709359	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	73597477	73597506	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr9	105795112	105795113	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	144669412	144669431	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	156278784	156278862	iCLIP#TIA1_wang2010a_hg19*TIA1	83	-
+chrX	138820041	138820060	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	50325516	50325535	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	120501784	120501819	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	22994767	22994790	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	48816385	48816397	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	9610581	9610605	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr2	191796884	191796911	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	64448200	64448207	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr13	92002031	92002078	iCLIP#TIA1_wang2010a_hg19*TIA1	46	+
+chr8	38175280	38175291	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	20361953	20361957	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	37415549	37415560	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	99947519	99947531	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	30808238	30808265	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr9	75785148	75785233	iCLIP#TIA1_wang2010a_hg19*TIA1	65	+
+chr2	74901778	74901792	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	58672934	58672942	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	118377444	118377486	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr5	135273246	135273253	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	36607693	36607709	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	57468707	57468716	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	10481158	10481172	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	102267092	102267173	iCLIP#TIA1_wang2010a_hg19*TIA1	49	-
+chr4	99802658	99802676	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	30086670	30086713	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr8	99538949	99538958	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	34300955	34300963	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	41903063	41903076	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	47840671	47840687	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	195776647	195776698	iCLIP#TIA1_wang2010a_hg19*TIA1	33	-
+chr3	45266247	45266268	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr16	58589559	58589574	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	229456820	229456830	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	97369338	97369351	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	72818418	72818442	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	58269364	58269399	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr1	182828039	182828070	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	12624212	12624220	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	114294652	114294665	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	56756978	56757008	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr2	189458854	189458890	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	12982754	12982767	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr3	52293198	52293201	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	10436989	10437019	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr5	147653952	147654003	iCLIP#TIA1_wang2010a_hg19*TIA1	50	+
+chr15	93470575	93470591	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	135363823	135363834	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	2428196	2428215	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr12	49952110	49952146	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr4	128950016	128950020	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	166282598	166282612	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	17646275	17646286	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	37328440	37328450	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	31201730	31201748	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr1	113196382	113196405	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	56787878	56787880	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	27101273	27101277	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	64012006	64012023	iCLIP#TIA1_wang2010a_hg19*TIA1	46	-
+chr13	100638420	100638457	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr5	69372332	69372334	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	2980972	2980985	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	92408862	92408906	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr13	42866648	42866664	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr18	33605683	33605705	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr19	34718883	34718898	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	1981277	1981280	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr22	30165845	30165894	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr3	145788128	145788166	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr16	11855240	11855247	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	119498505	119498520	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	64285593	64285599	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	94297217	94297230	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr2	99727284	99727300	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	216224669	216224679	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	123674864	123674885	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr1	28975276	28975300	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	64122655	64122683	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr4	38699108	38699116	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr8	16618669	16618670	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr13	113873512	113873524	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	169837186	169837191	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	1322926	1322938	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	41503885	41503900	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	134124293	134124316	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	47108479	47108494	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr13	60707061	60707073	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	127756771	127756787	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	3764547	3764555	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr14	75302793	75302805	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr1	36521604	36521639	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr14	32328585	32328590	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	175816650	175816662	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr7	21085973	21085974	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	58025249	58025274	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	57628308	57628342	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chr9	140503702	140503708	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	76579752	76579756	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	20905363	20905379	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr9	135137163	135137195	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	191784407	191784429	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr9	139147557	139147558	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	80890624	80890639	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	155141967	155142008	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	319504	319528	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	214525676	214525685	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	44174973	44174994	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	29992924	29992933	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	167395022	167395043	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	96264031	96264045	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	62392345	62392372	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr1	168205975	168205976	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	95451911	95451935	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr5	147796277	147796279	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	123745799	123745827	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr1	110943975	110944025	iCLIP#TIA1_wang2010a_hg19*TIA1	28	-
+chr3	169712059	169712076	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	50596607	50596618	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	70042749	70042760	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	65200708	65200762	iCLIP#TIA1_wang2010a_hg19*TIA1	41	+
+chr4	122599453	122599491	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	45116910	45116917	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	74688216	74688224	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	41092360	41092376	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	120130056	120130070	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	85208194	85208197	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	176758959	176758998	iCLIP#TIA1_wang2010a_hg19*TIA1	40	-
+chr8	25365545	25365548	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr4	120219788	120219806	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr8	42978202	42978216	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr3	32533305	32533313	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	76849848	76849897	iCLIP#TIA1_wang2010a_hg19*TIA1	50	-
+chr17	45679127	45679143	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	150290539	150290540	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	34725160	34725161	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr19	47567539	47567563	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	103062737	103062763	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	76168661	76168669	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	43514040	43514054	iCLIP#TIA1_wang2010a_hg19*TIA1	61	+
+chr3	153877073	153877088	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	11078534	11078535	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	20154219	20154233	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr21	40588138	40588139	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	80863796	80863816	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr13	71054151	71054152	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	119542730	119542771	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr12	10863095	10863110	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	86820354	86820377	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	70695329	70695347	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chrX	8196457	8196464	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	53562245	53562256	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	135513911	135513913	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	172692862	172692884	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	86174412	86174413	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	105764779	105764787	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	69650642	69650645	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	7302076	7302078	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	74934101	74934112	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	99695800	99695805	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	38796399	38796404	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	53318392	53318397	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	131014707	131014712	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	95226473	95226486	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	58320537	58320540	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	99105164	99105179	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr1	3549925	3549927	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	129734169	129734172	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	73832404	73832411	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	220384128	220384132	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	121351705	121351757	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr18	45429982	45429998	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	64875740	64875749	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	29041327	29041366	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr17	40851786	40851810	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	18964194	18964205	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	35654623	35654636	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	86133602	86133607	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	19701759	19701774	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	231684036	231684112	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr12	72026984	72027019	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	30601500	30601501	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	121768650	121768667	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	118673146	118673158	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	75957403	75957419	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr11	20389002	20389010	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	48131647	48131663	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrM	2233	2264	iCLIP#TIA1_wang2010a_hg19*TIA1	26	+
+chr6	166376614	166376620	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	62109478	62109490	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	154557111	154557150	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	58334664	58334674	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	101477311	101477314	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	75653361	75653363	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	95297403	95297409	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	51574141	51574153	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr13	92108367	92108368	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	20588313	20588325	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	154441854	154441859	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	20834859	20834908	iCLIP#TIA1_wang2010a_hg19*TIA1	39	+
+chr4	146049385	146049408	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	44438995	44438997	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	110546018	110546029	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	42750758	42750772	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	64484136	64484147	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	39501147	39501163	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	160212163	160212174	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	201694750	201694757	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr12	133298516	133298518	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	98281209	98281246	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr1	35836603	35836628	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	153693280	153693286	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	42982235	42982301	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr1	246830739	246830769	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	204503485	204503496	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	56554413	56554423	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	115312185	115312210	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	39014816	39014818	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	121549380	121549390	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	36146346	36146359	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr20	11905351	11905440	iCLIP#TIA1_wang2010a_hg19*TIA1	78	+
+chr11	75946903	75946909	iCLIP#TIA1_wang2010a_hg19*TIA1	49	-
+chr3	78981584	78981591	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	98723794	98723810	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	142729730	142729757	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr11	118472175	118472205	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	245136295	245136298	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	192543150	192543159	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	20925563	20925565	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	66512814	66512820	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	57608632	57608671	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr6	74230756	74230758	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	73044622	73044644	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr8	128206932	128206940	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	118721455	118721457	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	156437250	156437273	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr5	77082263	77082290	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr12	40148896	40148901	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	148638578	148638646	iCLIP#TIA1_wang2010a_hg19*TIA1	750	+
+chr1	115292507	115292555	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr2	231684212	231684227	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr7	19740027	19740035	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	77268781	77268799	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr9	140730466	140730533	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr3	100093842	100093852	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	24021291	24021300	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr16	71891061	71891080	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	126887713	126887719	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	42836168	42836183	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	228286774	228286807	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr6	163994290	163994329	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr13	41949973	41949985	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	133541549	133541563	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	156260414	156260430	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr12	76476609	76476633	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	6411079	6411080	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	100967577	100967590	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	94745048	94745068	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	93431358	93431363	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	128210834	128210851	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	89689728	89689741	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	68167883	68167908	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr13	96295144	96295175	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	54867516	54867520	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	131809741	131809788	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chrX	48399906	48399921	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	156193469	156193474	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	38687325	38687340	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	119042514	119042542	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr18	76463433	76463438	iCLIP#TIA1_wang2010a_hg19*TIA1	238	-
+chr10	128860112	128860126	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	64818982	64819003	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr16	240484	240503	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	37288842	37288852	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	67796609	67796654	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	69455511	69455512	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	61832770	61832776	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	28040604	28040605	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	106890709	106890750	iCLIP#TIA1_wang2010a_hg19*TIA1	32	+
+chr8	26151387	26151390	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	188331008	188331024	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr2	37872165	37872176	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	77330582	77330596	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	9687550	9687562	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	103504575	103504582	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	134077115	134077126	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	153513544	153513558	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	132539776	132539782	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	105148767	105148777	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	10270541	10270646	iCLIP#TIA1_wang2010a_hg19*TIA1	72	+
+chr6	138734512	138734531	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	14654472	14654479	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	34306605	34306612	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chrX	107966203	107966224	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr19	8528408	8528431	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	138709222	138709226	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	1581782	1581788	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	232597223	232597230	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	95363239	95363272	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr8	141526251	141526277	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr4	76735294	76735298	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	70255830	70255867	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr22	29932589	29932596	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	74017032	74017059	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	59319260	59319295	iCLIP#TIA1_wang2010a_hg19*TIA1	43	+
+chr13	113909453	113909459	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	76432168	76432217	iCLIP#TIA1_wang2010a_hg19*TIA1	26	+
+chr22	21242193	21242200	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	84936029	84936041	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	126345116	126345127	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	24828861	24828862	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	148524192	148524201	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr18	32912269	32912280	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	64857250	64857277	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr17	40126450	40126464	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	2326567	2326593	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	99104504	99104516	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	150548326	150548373	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr1	151844874	151844875	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	67878471	67878483	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	36493152	36493263	iCLIP#TIA1_wang2010a_hg19*TIA1	34	+
+chr15	70340959	70340979	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	182821291	182821300	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	92970985	92970997	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	28180948	28180985	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	161351071	161351108	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	111846129	111846136	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	40328477	40328494	iCLIP#TIA1_wang2010a_hg19*TIA1	29	-
+chr7	10978502	10978512	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr17	78367661	78367686	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr2	26613363	26613398	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	93854539	93854545	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr15	34522324	34522357	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr20	35399793	35399801	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	80584735	80584750	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	59376471	59376473	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	76635832	76635842	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr16	22207045	22207088	iCLIP#TIA1_wang2010a_hg19*TIA1	262	-
+chr2	63834162	63834175	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	201843883	201843906	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	70225382	70225391	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	19850861	19850863	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr15	48634391	48634437	iCLIP#TIA1_wang2010a_hg19*TIA1	37	+
+chr22	42271736	42271747	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	129892033	129892046	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	30086749	30086765	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr15	91298180	91298183	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	879637	879669	iCLIP#TIA1_wang2010a_hg19*TIA1	55	-
+chr7	149246254	149246269	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	17834147	17834163	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	203872744	203872756	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr16	23543681	23543696	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	179113925	179113984	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr12	98898060	98898086	iCLIP#TIA1_wang2010a_hg19*TIA1	37	+
+chr5	179266415	179266425	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	96328131	96328145	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr19	39874280	39874298	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr5	34925098	34925108	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	150049489	150049506	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr15	39888531	39888610	iCLIP#TIA1_wang2010a_hg19*TIA1	57	+
+chr1	203839101	203839109	iCLIP#TIA1_wang2010a_hg19*TIA1	27	+
+chr14	41107250	41107253	iCLIP#TIA1_wang2010a_hg19*TIA1	34	-
+chr13	115052161	115052189	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	84513301	84513309	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	62498020	62498078	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr6	166373653	166373659	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	28126065	28126074	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	56194328	56194342	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	120927586	120927609	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	66410781	66410797	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	192257962	192257970	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	44443708	44443729	iCLIP#TIA1_wang2010a_hg19*TIA1	29	+
+chr5	5469612	5469636	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	50142595	50142618	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	203424959	203424968	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	71766699	71766712	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	57587108	57587115	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	112666436	112666438	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	47466820	47466834	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	60087896	60087900	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	52446781	52446783	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	21721474	21721565	iCLIP#TIA1_wang2010a_hg19*TIA1	54	+
+chr1	1254103	1254123	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	100869567	100869621	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr2	135700277	135700288	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr18	23168361	23168363	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	94745261	94745298	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr5	79774118	79774138	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	95494551	95494554	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	92932912	92932917	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	118736704	118736705	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	116199542	116199581	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chrX	24766871	24766875	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	39501153	39501189	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr16	31193754	31193763	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr12	20802982	20802990	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	47278170	47278192	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	34213643	34213662	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr10	98281978	98281985	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	79981657	79981672	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	47011934	47011937	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	197098087	197098165	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr7	99160252	99160265	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	32154201	32154228	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	124902126	124902128	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	32830884	32830913	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr10	62547237	62547256	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	15340578	15340580	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	118588739	118588758	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	242012340	242012343	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	124082127	124082157	iCLIP#TIA1_wang2010a_hg19*TIA1	29	+
+chr6	139277907	139277917	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	135213338	135213350	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	60182174	60182176	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	22066896	22066941	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	109181851	109181882	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr2	175994198	175994232	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	3392789	3392815	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr17	39735584	39735585	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr16	67605180	67605188	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	53222361	53222362	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	182856738	182856770	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	46300040	46300060	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	71686465	71686489	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr20	33303046	33303052	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	10730948	10730959	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	113623875	113623886	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	151832270	151832285	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	160798603	160798614	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	124923492	124923522	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr18	29496199	29496225	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	19121711	19121712	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	45762624	45762642	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	18244419	18244431	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	24767035	24767064	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	127920421	127920445	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	21670942	21670989	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	45719321	45719327	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr13	48517413	48517436	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr9	131262973	131262989	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr17	4902635	4902643	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	108192860	108192866	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	138994209	138994221	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	32255507	32255509	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr15	69740413	69740443	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	27272679	27272683	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	120567575	120567586	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	45699790	45699803	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr14	59835579	59835598	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	43050117	43050119	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	52649990	52650004	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr21	30704760	30704773	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	66793676	66793708	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	230372185	230372187	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	18970522	18970540	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	28703165	28703201	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr16	2819294	2819306	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	113438483	113438494	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr1	226483518	226483531	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	1362789	1362790	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	89983941	89983953	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr8	61778875	61778890	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	242650918	242650936	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	111710807	111710827	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	32933427	32933440	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	69733381	69733411	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	109040894	109040930	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	25168979	25169073	iCLIP#TIA1_wang2010a_hg19*TIA1	41	+
+chr11	92913901	92913930	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	173457055	173457075	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	85258920	85258928	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	61475613	61475632	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	241792215	241792224	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	204088886	204088900	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	40723814	40723824	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	1694564	1694582	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr5	14509353	14509369	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	156474171	156474210	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	17188466	17188471	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	132740722	132740731	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	155578839	155578847	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	245017074	245017079	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr10	18840697	18840700	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	120441877	120441985	iCLIP#TIA1_wang2010a_hg19*TIA1	25	-
+chr22	33256394	33256425	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr9	77562708	77562715	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	40033977	40033994	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	33461324	33461346	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr9	140481246	140481254	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	72113767	72113776	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	108152460	108152494	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	59247022	59247052	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr7	73604661	73604669	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr12	20598652	20598677	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	172952349	172952354	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	224863991	224864020	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	71494789	71494801	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	16744301	16744308	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	10228920	10228937	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	58386532	58386540	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	146956492	146956498	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	610752	610755	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	140105749	140105788	iCLIP#TIA1_wang2010a_hg19*TIA1	217	+
+chr2	146462147	146462148	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	37288272	37288297	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr19	9671033	9671042	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	138614815	138614833	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr14	99439265	99439266	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	55461704	55461708	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	44221358	44221377	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr9	33318837	33318852	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	125629146	125629164	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	131457409	131457420	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr6	160101579	160101603	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr10	75531856	75531872	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr11	86782668	86782675	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	97038931	97038934	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	92002105	92002151	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr2	242291647	242291684	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr12	127650631	127650641	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr1	94354506	94354516	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr3	141166238	141166256	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr5	94020993	94021033	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	116956913	116956941	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr8	60368453	60368456	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	101898843	101898868	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	127920477	127920502	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	102106895	102106896	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	31144692	31144704	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	58924452	58924457	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	135119409	135119430	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	47837667	47837683	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	110784498	110784530	iCLIP#TIA1_wang2010a_hg19*TIA1	38	+
+chr1	9790066	9790077	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr19	32838270	32838289	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	234564849	234564860	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	128202257	128202295	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	201719705	201719710	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	65198958	65199006	iCLIP#TIA1_wang2010a_hg19*TIA1	36	+
+chr12	12875164	12875185	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	65204812	65204851	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr8	25365563	25365564	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	116191948	116191974	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr22	39069800	39069818	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	94025895	94025909	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	46111212	46111216	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	48603038	48603043	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	52215883	52215886	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	135569378	135569395	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	107720124	107720125	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr16	24584145	24584154	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	96446906	96446914	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	126330596	126330599	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	14560656	14560680	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr22	47075647	47075653	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	34326999	34327022	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	11968539	11968557	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	10284456	10284469	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	36418589	36418590	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr21	48080993	48080999	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	93429497	93429499	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	112021280	112021295	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	101253863	101253897	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	112641405	112641424	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	151125637	151125651	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr13	113208840	113208859	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	17097028	17097054	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chrX	69722285	69722315	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	182794825	182794839	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	130674001	130674010	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	79800420	79800424	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr7	112101985	112101989	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	24765295	24765306	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	16681828	16681848	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	47343172	47343174	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	142735829	142735850	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	156495604	156495616	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	98737929	98737944	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr20	61510277	61510298	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	116146844	116146857	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr16	89765559	89765560	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	128229650	128229651	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	73897770	73897784	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	128190319	128190347	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	136229169	136229224	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr12	50476320	50476335	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	10338337	10338341	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	56078803	56078851	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr12	122506116	122506133	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	9725325	9725340	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	61903330	61903340	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	128208769	128208794	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	74380963	74380990	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	45023184	45023222	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	26880529	26880538	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	26970102	26970111	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr9	19240051	19240068	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	70694644	70694651	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	177638035	177638090	iCLIP#TIA1_wang2010a_hg19*TIA1	64	+
+chr13	49616468	49616499	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	109796274	109796276	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	34262406	34262425	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	191797604	191797696	iCLIP#TIA1_wang2010a_hg19*TIA1	42	+
+chr6	27858120	27858151	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr17	4849096	4849145	iCLIP#TIA1_wang2010a_hg19*TIA1	652	-
+chr17	18112616	18112663	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr13	76007077	76007091	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	29247676	29247677	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	14458152	14458158	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	38976615	38976618	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	128214379	128214414	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr18	13662509	13662510	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	82302747	82302767	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	17425262	17425313	iCLIP#TIA1_wang2010a_hg19*TIA1	32	+
+chr16	56595322	56595329	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr1	225195253	225195271	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	9002690	9002704	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	65641464	65641491	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr19	7993636	7993644	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	54059072	54059077	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	52028917	52028920	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	133135874	133135888	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr5	77771799	77771811	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	183114545	183114559	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr7	6063337	6063355	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr8	87486471	87486490	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	33572037	33572045	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	50456330	50456331	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	17095773	17095785	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	55757526	55757545	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	94899728	94899730	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	110784344	110784368	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr10	120810669	120810684	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	182856676	182856689	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr2	10053128	10053130	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	63678161	63678170	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	160726768	160726776	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	96940521	96940545	iCLIP#TIA1_wang2010a_hg19*TIA1	39	-
+chr12	56599344	56599352	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr15	85189400	85189405	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	28794570	28794582	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	178044330	178044333	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	27489109	27489148	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr20	17924448	17924457	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	78959318	78959333	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	56584172	56584198	iCLIP#TIA1_wang2010a_hg19*TIA1	73	+
+chr10	105104756	105104763	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	4800936	4800947	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	120114983	120115176	iCLIP#TIA1_wang2010a_hg19*TIA1	242	-
+chr11	62545835	62545845	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	73283089	73283126	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr4	39781759	39781795	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr5	140963602	140963629	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	110302210	110302248	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr2	182781167	182781235	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr1	40759676	40759697	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr1	36754365	36754385	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr6	28918853	28918863	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr1	150783109	150783134	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	41571995	41572008	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	71536403	71536418	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	126306803	126306809	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	46759179	46759182	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	167644297	167644298	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	128190098	128190106	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	33689371	33689395	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr1	28159336	28159352	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	147660389	147660418	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	114483057	114483083	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chrX	37265528	37265537	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	24556329	24556340	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	16862870	16862908	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr1	145586486	145586501	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr2	61874075	61874094	iCLIP#TIA1_wang2010a_hg19*TIA1	120	+
+chr15	68476021	68476032	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	57557496	57557506	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr6	10887831	10887837	iCLIP#TIA1_wang2010a_hg19*TIA1	82	+
+chr11	61922144	61922169	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	110782050	110782052	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	101008706	101008724	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	93828184	93828202	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	4697777	4697791	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	56151081	56151104	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr9	35759921	35759945	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	43752868	43752872	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr2	110300592	110300633	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr13	111553427	111553470	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr10	88687413	88687416	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	118588345	118588405	iCLIP#TIA1_wang2010a_hg19*TIA1	27	+
+chr1	167395628	167395647	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	29444441	29444458	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	92002968	92002978	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chrX	55878464	55878465	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	12551453	12551472	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	41789580	41789598	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	32525820	32525846	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	68169056	68169074	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chrX	13734103	13734112	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	117770029	117770030	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	149409473	149409497	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	89150153	89150174	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	54266324	54266326	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	103718523	103718532	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	83404510	83404522	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	144295411	144295417	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	62704589	62704619	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr2	152332261	152332266	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	60988972	60988974	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	27037488	27037495	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	12269238	12269255	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	8921165	8921192	iCLIP#TIA1_wang2010a_hg19*TIA1	29	-
+chr4	74096462	74096486	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	94029044	94029062	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	159877585	159877586	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	108410036	108410038	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	73901137	73901141	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	183596067	183596088	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	235993514	235993516	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	92256738	92256741	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	116927408	116927433	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	69810340	69810356	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	124107165	124107175	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	100419744	100419754	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	93441680	93441693	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	74083532	74083554	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	101733932	101733950	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr4	24539756	24539774	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	53861040	53861048	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	17662184	17662191	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	50623481	50623495	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	123042416	123042434	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	110109259	110109279	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr18	34375953	34375968	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	179054929	179054932	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	55511126	55511146	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr7	101463894	101463912	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	135518321	135518392	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr5	132203181	132203202	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr1	192984358	192984371	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	95892475	95892491	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	83845358	83845396	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr9	22029737	22029752	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	53598608	53598610	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	121768943	121768961	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	7306337	7306350	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr7	42977277	42977329	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	47260152	47260153	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	84194633	84194643	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	53039211	53039246	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr1	226259200	226259209	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr6	79911981	79911988	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr20	34297044	34297072	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr19	1258518	1258543	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr10	114925759	114925787	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr19	19616811	19616819	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	32125383	32125419	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr5	89689827	89689838	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	69255024	69255048	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr1	202736251	202736256	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	23725977	23725987	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	171504994	171505014	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr20	61431634	61431678	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr11	43882242	43882247	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	47133208	47133245	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7_gl000195_random	83622	83625	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	134235273	134235298	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	32395202	32395229	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	74591710	74591726	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr13	72012124	72012152	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	77081967	77081969	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	65161217	65161218	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	110872745	110872794	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr6	161653037	161653059	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	214531050	214531102	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr17	13459189	13459206	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	188608390	188608396	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	208477503	208477526	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	166579898	166579899	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	34130393	34130402	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	4475487	4475488	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	51361479	51361489	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	51744755	51744759	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr20	34291041	34291044	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	42795096	42795102	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	42113096	42113117	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	22889606	22889609	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	242291593	242291627	iCLIP#TIA1_wang2010a_hg19*TIA1	27	+
+chrX	55781597	55781605	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	47814312	47814332	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	96881784	96881804	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr2	176459310	176459322	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr5	38906453	38906461	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr14	31828081	31828088	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	11113527	11113528	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr15	62160843	62160851	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	28640105	28640131	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	35044929	35044946	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	70517152	70517169	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr7	91502326	91502339	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	54398995	54399011	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	4064220	4064226	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	69616595	69616611	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	27534972	27534975	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	30866946	30866962	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr19	39327383	39327407	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr14	24705375	24705384	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	211434438	211434453	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	35155672	35155677	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	15452393	15452396	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	128213995	128214007	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	6439817	6439848	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	48828089	48828100	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr6	76079530	76079531	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	54820074	54820098	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chrX	83754960	83754973	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	87789981	87789991	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	150549057	150549113	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr18	25726301	25726310	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	36036197	36036208	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr13	96529719	96529731	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	49606856	49606881	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	117360243	117360334	iCLIP#TIA1_wang2010a_hg19*TIA1	145	+
+chrX	107852915	107852929	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	106902751	106902771	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	30706043	30706061	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	149363065	149363085	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	70476136	70476143	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	128996448	128996510	iCLIP#TIA1_wang2010a_hg19*TIA1	37	+
+chr18	60998676	60998702	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr6	133634608	133634618	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	158178805	158178813	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	10304542	10304554	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	196558215	196558238	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr15	65999538	65999547	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	178380831	178380835	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	128230758	128230814	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr6	32949010	32949018	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr1	151669133	151669142	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	156474125	156474152	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr11	65271081	65271242	iCLIP#TIA1_wang2010a_hg19*TIA1	292	+
+chr3	14530418	14530450	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chr16	97111	97123	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	77700806	77700814	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	96361463	96361498	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr7	35673152	35673186	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr3	152183467	152183496	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr11	9302743	9302756	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	52729551	52729562	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr11	65836233	65836240	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr7	91864100	91864108	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	118963395	118963396	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	81432275	81432296	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	92707411	92707429	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	10481359	10481381	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	127003384	127003405	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	166263512	166263528	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr2	55208839	55208844	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	4494204	4494205	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	72640813	72640841	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr19	47613879	47613880	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	38887883	38887888	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	16710915	16710930	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	260909	260929	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	73333570	73333605	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr18	2772407	2772424	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	74750287	74750307	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	137492655	137492672	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	178085193	178085220	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr13	34407096	34407100	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	7289736	7289760	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	1801307	1801337	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	77378316	77378320	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	10210779	10210787	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	13665835	13665863	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	33538565	33538610	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr12	50484197	50484212	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	170834815	170834819	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	55232534	55232544	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	67987361	67987370	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	66755939	66755950	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	147110995	147111012	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr10	7844840	7844856	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	106856223	106856237	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	56291565	56291687	iCLIP#TIA1_wang2010a_hg19*TIA1	38	+
+chr22	43193428	43193458	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	61563794	61563795	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	76170479	76170495	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	67800386	67800414	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr14	21698505	21698520	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	232184499	232184502	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	125582279	125582307	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	77025367	77025368	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	46854602	46854604	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	78413306	78413346	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr8	26221190	26221191	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr2	106710266	106710284	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	81599658	81599673	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	148684340	148684341	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	96108551	96108555	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	47129047	47129089	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	52883785	52883793	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	23544772	23544809	iCLIP#TIA1_wang2010a_hg19*TIA1	39	-
+chr16	19564618	19564623	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr22	40827894	40827896	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	27877962	27877972	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	65198390	65198431	iCLIP#TIA1_wang2010a_hg19*TIA1	30	+
+chr16	74496851	74496852	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	74774344	74774354	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	46476836	46476838	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	114658501	114658514	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	198288778	198288806	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	163994348	163994351	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	224581824	224581834	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	121340430	121340436	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr3	179114120	179114123	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	129022699	129022736	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	70694443	70694491	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr10	3199582	3199607	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	183642846	183642893	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr18	8639219	8639237	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	36474297	36474313	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	65204951	65204991	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr3	52579410	52579417	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr4	24355916	24355917	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	105148908	105148919	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	125627731	125627745	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	129957355	129957358	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	18418063	18418084	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chr3	47894498	47894513	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	110290557	110290559	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	22838135	22838146	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr11	68524951	68524972	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr5	151184030	151184050	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr17	45195095	45195134	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	14203926	14203937	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	101098367	101098379	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	49643362	49643398	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	70694004	70694024	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	60552036	60552061	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	173907575	173907589	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr2	158593201	158593206	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	78422195	78422208	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	234742638	234742769	iCLIP#TIA1_wang2010a_hg19*TIA1	98	-
+chr7	75958106	75958129	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr1	84964196	84964229	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr12	21668973	21668988	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr7	56067482	56067486	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	179114717	179114721	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	21610647	21610649	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	135285960	135285967	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	77415069	77415110	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chrX	17755818	17755825	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	68941969	68941998	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	200827547	200827573	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr19	12928391	12928392	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	9469298	9469323	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr6	117882946	117882959	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	53705690	53705719	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	111902423	111902451	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	155154725	155154743	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	220179135	220179138	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	193056209	193056214	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr22	36716870	36716881	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	65199472	65199549	iCLIP#TIA1_wang2010a_hg19*TIA1	109	+
+chr6	46207388	46207389	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	27591246	27591285	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr6	27198195	27198207	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	105562284	105562304	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	76255820	76255844	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	65847306	65847310	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	67384863	67384864	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	37025559	37025560	iCLIP#TIA1_wang2010a_hg19*TIA1	25	-
+chr22	28293036	28293053	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	77157703	77157713	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr7	44871702	44871731	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr6	138967834	138967839	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	2810247	2810288	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	73886295	73886304	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	96498707	96498709	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	21829492	21829503	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	17720545	17720546	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	35550444	35550461	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	52636937	52636955	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	116991581	116991582	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr18	77725661	77725666	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr16	11862859	11862868	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	66394756	66394769	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr14	35031681	35031684	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr3	108286756	108286772	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	67733276	67733289	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	146882840	146882844	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	42981343	42981368	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	134695572	134695580	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	70265972	70265980	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	74230684	74230687	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	71471649	71471653	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	97933213	97933227	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	33461536	33461546	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	119401610	119401622	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	138665099	138665108	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	131506052	131506072	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr17	58024661	58024682	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr13	80125909	80125919	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	92115097	92115103	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	71708040	71708051	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	157679363	157679372	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	107863665	107863675	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	37075119	37075122	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	224764077	224764094	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	88027650	88027665	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	64307952	64307963	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	44815402	44815421	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	38002967	38002977	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	63743902	63743951	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr12	62971015	62971027	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr18	9954232	9954251	iCLIP#TIA1_wang2010a_hg19*TIA1	34	+
+chr1	235274318	235274356	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr17	1326753	1326770	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr11	75283778	75283805	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr15	30054515	30054528	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	207941006	207941045	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr16	4895035	4895040	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	121832930	121832962	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr3	131187086	131187106	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	83275275	83275291	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr12	60179391	60179401	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	203770777	203770800	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr1	228288168	228288179	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	54624909	54624926	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	96371300	96371312	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr13	49743058	49743060	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	161500979	161501009	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr5	147620252	147620262	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	205682343	205682395	iCLIP#TIA1_wang2010a_hg19*TIA1	81	-
+chr4	44704437	44704445	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr6	75947652	75947670	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	57557183	57557205	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	151606760	151606765	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	92629667	92629688	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr9	114314404	114314425	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	76183397	76183407	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	31792021	31792036	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	128930473	128930490	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	81271325	81271331	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	96074529	96074534	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	47132590	47132613	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr1	15966562	15966565	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	138412469	138412507	iCLIP#TIA1_wang2010a_hg19*TIA1	65	-
+chr17	56081136	56081152	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr13	75860621	75860638	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr22	34252752	34252753	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	56078759	56078783	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chrM	1814	1827	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chr15	40468884	40468904	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	29189979	29189980	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	113435008	113435019	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	30866980	30867012	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	48893668	48893669	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	38974458	38974471	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	112200239	112200251	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	39453586	39453616	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr7	38269890	38269956	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr16	86512949	86512962	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	20454569	20454571	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	44445523	44445536	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr17	79477718	79477722	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr3	186505381	186505392	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr1	146556260	146556278	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr8	128231369	128231474	iCLIP#TIA1_wang2010a_hg19*TIA1	58	-
+chr3	50296720	50296735	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chrX	40569857	40569874	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	47143764	47143782	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	73000530	73000566	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr5	14507156	14507166	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr8	146074609	146074610	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	111694630	111694640	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	213037866	213037884	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	79845771	79845852	iCLIP#TIA1_wang2010a_hg19*TIA1	169	-
+chr12	50711953	50711954	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	104909225	104909245	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	94036163	94036178	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	60962932	60962941	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr19	6413372	6413421	iCLIP#TIA1_wang2010a_hg19*TIA1	43	-
+chr13	92432697	92432701	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	136690339	136690340	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	6423059	6423061	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	123816377	123816387	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	98281477	98281500	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr21	47722328	47722343	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	5805215	5805232	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr18	57571471	57571488	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	113192100	113192121	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	56557172	56557187	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	86324263	86324296	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr3	30045703	30045710	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	163298192	163298205	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	23286960	23286967	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	28164982	28164995	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	231701049	231701058	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr6	159058125	159058151	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	72204955	72204978	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr15	77242147	77242173	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr14	58740660	58740670	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	107102817	107102829	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	43652009	43652045	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	119031156	119031171	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	228428043	228428051	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	54388410	54388431	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	35751417	35751428	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr20	11905246	11905267	iCLIP#TIA1_wang2010a_hg19*TIA1	30	+
+chr6	163876463	163876481	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	97525505	97525508	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	70229397	70229412	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr17	57918944	57918981	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr16	12758701	12758713	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	185635242	185635297	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr4	48834708	48834722	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr15	65768980	65768992	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	73079213	73079226	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	119644104	119644108	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	13048557	13048561	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	108786093	108786109	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	229624418	229624429	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	92007588	92007606	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	62019690	62019691	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr8	141958745	141958753	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	54163536	54163547	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	96516896	96516898	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	35016672	35016682	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	75797604	75797618	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr22	19956477	19956508	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr1	46725787	46725800	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr13	107210067	107210096	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	17088296	17088307	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr22	35666412	35666418	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	134308822	134308828	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	187542524	187542550	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr18	55146088	55146094	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	36690711	36690719	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	104704448	104704449	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	89938643	89938657	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr11	108175664	108175680	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	67165839	67165882	iCLIP#TIA1_wang2010a_hg19*TIA1	117	-
+chr14	68465563	68465573	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	45608679	45608695	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	118394394	118394413	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	128236756	128236779	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr8	124826647	124826652	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	46093373	46093399	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	28697170	28697189	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr5	138270431	138270454	iCLIP#TIA1_wang2010a_hg19*TIA1	29	+
+chr1	113159506	113159519	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	243858840	243858870	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	17383299	17383317	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	34086598	34086631	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr20	49509366	49509380	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	117041322	117041330	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	90399567	90399578	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	76754904	76754912	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	101893560	101893597	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr6	2785841	2785877	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr20	52185290	52185299	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	27570392	27570396	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr10	7849689	7849736	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr3	127838137	127838151	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	64123099	64123103	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr18	3278028	3278057	iCLIP#TIA1_wang2010a_hg19*TIA1	26	+
+chr20	34291674	34291688	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	23932609	23932612	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	101924264	101924267	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	28834750	28834759	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	36492332	36492366	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	190488078	190488079	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	119948134	119948136	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	96260169	96260190	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr13	72865047	72865048	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	24346745	24346750	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	73112213	73112267	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr2	61027966	61027980	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	226548997	226549053	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr17	3511699	3511711	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	65872493	65872508	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr5	901552	901577	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	106695992	106696010	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	62620223	62620270	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr4	41668697	41668703	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr22	38089429	38089444	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr11	65116438	65116440	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	68169098	68169196	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr8	57074290	57074293	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	97366316	97366325	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr2	18736771	18736794	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	138710398	138710424	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr8	128231283	128231306	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chrX	122772113	122772128	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	132422926	132422935	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	92195305	92195319	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	466303	466319	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	48702543	48702581	iCLIP#TIA1_wang2010a_hg19*TIA1	25	-
+chr14	93695496	93695505	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	27870163	27870199	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr7	156475964	156475976	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	95588368	95588388	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	165880772	165880794	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	22012767	22012793	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr4	170642164	170642186	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	99856217	99856234	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	110811219	110811229	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	159057742	159057782	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr1	200584622	200584648	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	158015890	158015901	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	42924480	42924486	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr16	30566177	30566190	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	66841596	66841615	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	139086317	139086372	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr3	139087075	139087078	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	120198127	120198128	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	166335688	166335696	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	82639087	82639090	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	44443754	44443764	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr2	118866180	118866194	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	191757048	191757075	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr10	12209453	12209457	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	81643175	81643193	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr1	32638102	32638114	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr17	65336832	65336893	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr5	58436843	58436844	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	128239790	128239804	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr16	70606045	70606074	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr19	32928120	32928130	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	47714942	47714943	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	13067984	13067986	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	47629271	47629315	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr11	68227640	68227678	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr1	16840603	16840613	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	74752723	74752736	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	157213782	157213789	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr21	38523192	38523193	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	60544040	60544064	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	20559571	20559611	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	48725483	48725536	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr2	182781743	182781774	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr8	101734191	101734194	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	29496088	29496117	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	165892964	165892976	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	242045794	242045806	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	109181188	109181199	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	76100598	76100638	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr20	36073957	36073958	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	17276464	17276580	iCLIP#TIA1_wang2010a_hg19*TIA1	279	+
+chr2	191761083	191761101	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	16579335	16579338	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	122515036	122515050	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	70744671	70744685	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr16	11984883	11984909	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chrX	123236231	123236243	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chrY	21153180	21153185	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr18	9536958	9536976	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	30826277	30826286	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	224380432	224380465	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr6	34386123	34386136	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	20598206	20598209	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	47344565	47344581	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr16	50265521	50265532	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	64848265	64848277	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	8029116	8029119	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	94266179	94266185	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	5690061	5690064	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	134022389	134022433	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr6	52362257	52362281	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	4663840	4663842	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	58564923	58564934	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	198640233	198640237	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr16	84813062	84813089	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	154196101	154196121	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr5	36195007	36195019	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	10260811	10260817	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	70497198	70497225	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr19	57811196	57811234	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr2	54131047	54131077	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	53221617	53221636	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr10	74769521	74769529	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	151139936	151139948	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	73978016	73978030	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	73638703	73638705	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	54628740	54628756	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	182794898	182794928	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr12	46582247	46582325	iCLIP#TIA1_wang2010a_hg19*TIA1	41	-
+chr1	225589956	225589998	iCLIP#TIA1_wang2010a_hg19*TIA1	28	-
+chr11	66687490	66687509	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	89513384	89513419	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr10	63999313	63999327	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	128235363	128235387	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	108533015	108533036	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	27387867	27387902	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr11	65200793	65200826	iCLIP#TIA1_wang2010a_hg19*TIA1	37	+
+chrX	147985801	147985803	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	167453990	167454002	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	42835473	42835504	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	686748	686766	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr8	62596500	62596532	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	70101447	70101455	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	80061320	80061321	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	128209660	128209673	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	57771310	57771414	iCLIP#TIA1_wang2010a_hg19*TIA1	54	+
+chr10	99198393	99198410	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	65336667	65336695	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chrX	3733577	3733578	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	170876111	170876133	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	17742680	17742697	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr22	26921808	26921839	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	68359301	68359314	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	48886492	48886512	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	74351073	74351092	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	130688292	130688300	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	149250344	149250367	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	91196400	91196401	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	75116673	75116710	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr20	48740818	48740845	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr2	61753513	61753538	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	206902828	206902833	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	150445963	150445982	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	23961186	23961229	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr6	121431843	121431855	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	105476975	105476986	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr16	81744911	81744930	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	72004447	72004463	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr1	164532561	164532582	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	21190190	21190191	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	5149781	5149819	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr20	48568723	48568728	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	153616922	153616936	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	32053092	32053096	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	123236138	123236162	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	23615608	23615633	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	23044052	23044056	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr9	2804227	2804237	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	72207849	72207878	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr20	33026526	33026553	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	128217289	128217298	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	77957875	77957896	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	130003443	130003449	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	229728886	229728893	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	224831949	224831961	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr19	49470062	49470104	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr11	14526876	14526879	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	34327816	34327830	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr21	30378649	30378655	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr21	27253433	27253523	iCLIP#TIA1_wang2010a_hg19*TIA1	113	-
+chr19	13250154	13250165	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	61576708	61576730	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr7	5566975	5566995	iCLIP#TIA1_wang2010a_hg19*TIA1	63	-
+chr3	160092467	160092507	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	168212479	168212484	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	107259376	107259392	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	42034121	42034138	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr16	22285128	22285139	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	58964046	58964055	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	79893626	79893662	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr17	55198094	55198108	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	161729596	161729607	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	179047106	179047132	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr9	125759026	125759054	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr3	78963425	78963433	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	218504552	218504582	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr10	99434259	99434267	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	52550908	52550932	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr7	21941793	21941819	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	104341588	104341615	iCLIP#TIA1_wang2010a_hg19*TIA1	81	+
+chr20	11879160	11879181	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	55241103	55241104	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	67452447	67452464	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	142136665	142136666	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	70695181	70695184	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	125042025	125042036	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	32300017	32300123	iCLIP#TIA1_wang2010a_hg19*TIA1	53	-
+chr11	59323933	59323957	iCLIP#TIA1_wang2010a_hg19*TIA1	437	+
+chr8	67970296	67970309	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	37588125	37588129	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	32053244	32053253	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	99959590	99959603	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	70861769	70861790	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	156304781	156304793	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	55758135	55758160	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	11639609	11639616	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	25851024	25851026	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	57684188	57684191	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	66113140	66113158	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr15	79851546	79851548	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	92053636	92053637	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	227504677	227504693	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr2	160811681	160811692	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	159831505	159831506	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	93352248	93352262	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	32411566	32411590	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr7	139051066	139051095	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	38513208	38513210	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	29921127	29921132	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	119759940	119759981	iCLIP#TIA1_wang2010a_hg19*TIA1	37	-
+chr13	95279705	95279728	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	139867214	139867217	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	41773507	41773534	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr6	7288118	7288184	iCLIP#TIA1_wang2010a_hg19*TIA1	51	-
+chr20	34459759	34459799	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr8	135817228	135817231	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	42601900	42601904	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	229796357	229796374	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	121746219	121746242	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	54941591	54941607	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	46596756	46596778	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	79836965	79836993	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	169101699	169101748	iCLIP#TIA1_wang2010a_hg19*TIA1	41	+
+chr19	8027328	8027350	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	110101091	110101120	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr12	120635323	120635350	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	4810931	4810990	iCLIP#TIA1_wang2010a_hg19*TIA1	43	+
+chr10	58116568	58116592	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	86357873	86357885	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr20	56226879	56226886	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	100730572	100730586	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	27273907	27273918	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	28128401	28128411	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	73046236	73046327	iCLIP#TIA1_wang2010a_hg19*TIA1	37	-
+chr9	70998647	70998648	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	20529843	20529861	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	18685961	18685975	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr5	149779616	149779648	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	212240739	212240763	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	30824141	30824151	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	39757368	39757377	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	180326696	180326699	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	178516315	178516330	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	172115519	172115555	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr1	146788726	146788727	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	2809706	2809723	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	77382146	77382175	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr12	123087444	123087461	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	87828622	87828626	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	145117516	145117540	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	131731161	131731175	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	91870268	91870297	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr14	38731156	38731164	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	33730497	33730533	iCLIP#TIA1_wang2010a_hg19*TIA1	29	-
+chr13	76432593	76432623	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	49020858	49020904	iCLIP#TIA1_wang2010a_hg19*TIA1	27	+
+chr4	99958327	99958340	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	129841403	129841419	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	40834480	40834498	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	23932202	23932250	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr9	111693571	111693587	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr8	63936412	63936424	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	72798829	72798835	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	20634390	20634405	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	71687774	71687792	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr4	110177663	110177681	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	17846502	17846532	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr16	86512899	86512917	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	155979183	155979185	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	207634425	207634438	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	90666702	90666712	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr6	36892298	36892314	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	135851273	135851291	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	26168806	26168809	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	35250988	35251051	iCLIP#TIA1_wang2010a_hg19*TIA1	46	+
+chr20	33864772	33864789	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr14	81641882	81641886	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr8	42032907	42032913	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	147652107	147652112	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	73029165	73029199	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	27877856	27877884	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	153902272	153902289	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	111546403	111546446	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr21	45525428	45525439	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	120898034	120898040	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	133605287	133605291	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	71530929	71530934	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr9	86530938	86530948	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	88190059	88190103	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr3	173525643	173525646	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	49330532	49330589	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr3	78733044	78733053	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	2803274	2803279	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	34120975	34120996	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr5	44823632	44823640	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	167385475	167385483	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	2013621	2013628	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr3	49572005	49572054	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr17	57232452	57232470	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	151743658	151743662	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	56466509	56466538	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chr3	70392137	70392138	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	200284182	200284193	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	120384140	120384154	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	30423709	30423720	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	91044677	91044734	iCLIP#TIA1_wang2010a_hg19*TIA1	43	+
+chr17	35441958	35441973	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	4961784	4961789	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr16	3230581	3230594	iCLIP#TIA1_wang2010a_hg19*TIA1	40	-
+chr19	38220259	38220273	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	12409035	12409039	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	10265086	10265099	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr5	64868124	64868126	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	42411873	42411874	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	201939131	201939141	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	20729033	20729051	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr9	125973436	125973454	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	41152142	41152152	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	128239496	128239530	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr6	135713437	135713446	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	34967641	34967663	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	20835551	20835584	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	20541813	20541826	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	83346464	83346500	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr17	36668403	36668453	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr2	242606136	242606147	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	58359889	58359898	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	43247500	43247514	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	27412209	27412221	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	21863177	21863185	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	110933092	110933116	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	20576584	20576623	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	105557485	105557488	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	68473524	68473590	iCLIP#TIA1_wang2010a_hg19*TIA1	51	+
+chr13	113977552	113977610	iCLIP#TIA1_wang2010a_hg19*TIA1	114	+
+chr12	65108264	65108295	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr9	21867090	21867100	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	12730256	12730263	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	3436150	3436165	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	56970189	56970215	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr14	105477132	105477164	iCLIP#TIA1_wang2010a_hg19*TIA1	33	-
+chr11	44255673	44255685	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	25367507	25367519	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	52518207	52518215	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	89859673	89859690	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr21	33686485	33686492	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	95131920	95131952	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr9	88916642	88916646	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	6749782	6749784	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	24835888	24835899	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	76736041	76736043	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr22	28144369	28144386	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	194154490	194154492	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	15652754	15652763	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	42979534	42979548	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	67706705	67706800	iCLIP#TIA1_wang2010a_hg19*TIA1	39	+
+chr2	178127569	178127586	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	41696507	41696510	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	58446655	58446666	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	19528848	19528886	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	41651773	41651782	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	118606225	118606227	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	166395379	166395399	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	54880509	54880521	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	64035651	64035653	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	25656709	25656719	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	26229403	26229405	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	87443172	87443198	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr13	109898330	109898342	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	114520341	114520361	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	136590239	136590277	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr5	179008029	179008031	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	125516464	125516487	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	112851074	112851087	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	145498849	145498925	iCLIP#TIA1_wang2010a_hg19*TIA1	31	+
+chr1	35887458	35887468	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	145787587	145787618	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr7	86822679	86822708	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr8	128233801	128233861	iCLIP#TIA1_wang2010a_hg19*TIA1	40	-
+chr3	16345175	16345177	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	42810050	42810075	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	38132183	38132194	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	136598486	136598501	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	70256165	70256188	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	58884389	58884398	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	57918658	57918666	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr11	94696474	94696490	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr13	50618538	50618545	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	133307647	133307720	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr12	1076939	1076940	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	109150203	109150205	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	57746141	57746172	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr11	120312536	120312551	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	5098602	5098607	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	26689203	26689227	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	64566593	64566608	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	110207209	110207214	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr13	111558356	111558371	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr17	55938998	55939012	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	78815413	78815431	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	53050488	53050504	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	9197275	9197286	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	133292486	133292513	iCLIP#TIA1_wang2010a_hg19*TIA1	37	-
+chr7	39664476	39664478	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	28687515	28687519	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	198291435	198291459	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr18	12725521	12725525	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	66858952	66858953	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	23531452	23531458	iCLIP#TIA1_wang2010a_hg19*TIA1	62	-
+chr14	76529568	76529569	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	73041860	73041911	iCLIP#TIA1_wang2010a_hg19*TIA1	34	-
+chr11	10877652	10877686	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	204531615	204531616	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	179114175	179114177	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr18	46389035	46389049	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	30644192	30644230	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr8	62519265	62519288	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	150574308	150574350	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr11	65688934	65688951	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr11	66390112	66390127	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	36754408	36754422	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	74933909	74933914	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	76423563	76423569	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	9094275	9094292	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	138709079	138709119	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr8	128231333	128231354	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	220093253	220093259	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	115259953	115259968	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr2	85769115	85769133	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	20310562	20310564	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	178388539	178388543	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	96579253	96579271	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	70132274	70132289	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	12271817	12271833	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	75407418	75407428	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	33539335	33539347	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	3536298	3536316	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	2580550	2580568	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	100388277	100388289	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	47713347	47713369	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr7	4826406	4826411	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	39396321	39396330	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	17616138	17616152	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr17	79838332	79838337	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	86690129	86690152	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr17	75089459	75089464	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	100044041	100044066	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	115024746	115024752	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	56130939	56130955	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr22	39131093	39131111	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	47786778	47786803	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	93054475	93054482	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	110466784	110466785	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	39910890	39910943	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr3	160964791	160964813	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	85770983	85771006	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr14	54897005	54897020	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr3	158366973	158366983	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	75794174	75794217	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr2	27255569	27255574	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	126331444	126331469	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	48190397	48190403	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	42980312	42980340	iCLIP#TIA1_wang2010a_hg19*TIA1	27	+
+chr4	170642394	170642403	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	5639431	5639433	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	36339251	36339256	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	120219751	120219772	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr2	232319743	232319772	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr10	72060459	72060460	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	42551044	42551082	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chrX	45624832	45624865	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	99801986	99802000	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr5	145531395	145531402	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	10436683	10436700	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	41625817	41625818	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	65199922	65199985	iCLIP#TIA1_wang2010a_hg19*TIA1	53	+
+chr6	57276511	57276516	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	56975672	56975675	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	38467446	38467447	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	91406623	91406627	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr9	89559377	89559407	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr20	32868379	32868381	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	67671835	67671859	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr20	61827888	61827905	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr12	69162672	69162674	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	148692945	148692951	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	43227845	43227877	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr1	37961696	37961697	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	21231302	21231313	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	145536818	145536820	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	128229573	128229594	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr15	56727013	56727020	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	51375120	51375147	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	34629101	34629111	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	33113360	33113367	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr5	145863005	145863009	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	83666996	83667014	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	224577222	224577247	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr1	85786174	85786213	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr12	62998000	62998019	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	106631729	106631741	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr2	10580752	10580783	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr10	1043493	1043522	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	128746866	128746876	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	145523794	145523812	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	94852587	94852599	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr8	27667495	27667518	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	150602997	150603011	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	78841343	78841373	iCLIP#TIA1_wang2010a_hg19*TIA1	59	+
+chr2	95767401	95767412	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	247050474	247050492	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	100296021	100296033	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	128207981	128208010	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr1	246490474	246490489	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	17318402	17318405	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	160232928	160232948	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr4	845454	845469	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	30568222	30568245	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr9	82341279	82341302	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	6931907	6931970	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr1	36068546	36068566	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr13	103486919	103486926	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	146674721	146674732	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	141526195	141526212	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr12	123061331	123061355	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	157440762	157440800	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr10	53336489	53336497	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	128215177	128215197	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	36493341	36493375	iCLIP#TIA1_wang2010a_hg19*TIA1	27	+
+chr3	127788589	127788632	iCLIP#TIA1_wang2010a_hg19*TIA1	82	+
+chr1	150082755	150082761	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	70724757	70724787	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	219118904	219118945	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr19	17693201	17693226	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr15	59191643	59191660	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	119242746	119242759	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr14	23527802	23527845	iCLIP#TIA1_wang2010a_hg19*TIA1	42	-
+chr11	65198907	65198942	iCLIP#TIA1_wang2010a_hg19*TIA1	44	+
+chr17	65156366	65156368	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	6546343	6546345	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	108382931	108382958	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	1425762	1425781	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	58575263	58575265	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	159040435	159040451	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	69774303	69774306	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	167984300	167984311	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr4	57861008	57861017	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	39388384	39388395	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr19	10468203	10468212	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	96331196	96331214	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	61889402	61889404	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	198256759	198256796	iCLIP#TIA1_wang2010a_hg19*TIA1	41	-
+chr14	55408159	55408183	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr13	27827991	27828000	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr15	30053322	30053328	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	62137599	62137600	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	115898473	115898494	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr8	37302844	37302845	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	120455240	120455291	iCLIP#TIA1_wang2010a_hg19*TIA1	32	-
+chr14	69901666	69901674	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	148523532	148523538	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	9844962	9844964	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	112415662	112415667	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	155408100	155408110	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	201827696	201827720	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	171290459	171290468	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	38876486	38876501	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	83376022	83376042	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	50732900	50732919	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	2108803	2108815	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	62392967	62392972	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr2	29274996	29275032	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr10	89519801	89519805	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	1374999	1375050	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr8	124265446	124265452	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	101931502	101931525	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	90214689	90214690	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	225600230	225600237	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	16266863	16266904	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr11	8707793	8707801	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	131232326	131232328	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	202345483	202345514	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	85771963	85771969	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	136542541	136542555	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr8	58659038	58659040	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	200520983	200520996	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	70497094	70497168	iCLIP#TIA1_wang2010a_hg19*TIA1	48	+
+chr16	18817682	18817686	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr20	52835695	52835717	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr17	41418472	41418487	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	212584099	212584102	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	225590870	225590896	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr12	54678132	54678139	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	5646167	5646242	iCLIP#TIA1_wang2010a_hg19*TIA1	79	+
+chr4	170473129	170473140	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	108155087	108155113	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	155785885	155785898	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	70520885	70520965	iCLIP#TIA1_wang2010a_hg19*TIA1	175	+
+chr4	69179421	69179448	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	231701672	231701684	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr18	45533659	45533660	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr20	39752613	39752634	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr1	52254026	52254038	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	6154840	6154858	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	46661614	46661617	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	58903230	58903234	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	200589453	200589461	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	111620409	111620444	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr11	29770317	29770318	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	128621159	128621181	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	43418129	43418137	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	34954938	34954942	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr11	75117857	75117873	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	83645790	83645802	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chr16	2871166	2871170	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	138270405	138270430	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	227848316	227848331	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	20273748	20273751	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	111092815	111092817	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr13	49781077	49781091	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	118622258	118622282	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr22	20925675	20925693	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	115387993	115387997	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	61651749	61651767	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	76670279	76670333	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr5	129287538	129287546	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr21	46471391	46471398	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	174773636	174773649	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr5	180002472	180002489	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	111289027	111289042	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	39870964	39871004	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	74441982	74442028	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr3	99422237	99422262	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	174983609	174983636	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr16	450589	450597	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	32999381	32999404	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr14	56151232	56151234	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	68941879	68941911	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr6	27740140	27740141	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	114255476	114255480	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr13	98664571	98664587	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr6	18225417	18225453	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr19	36729442	36729477	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr1	228286119	228286139	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr7	98610707	98610721	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	197057336	197057365	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	46159864	46159889	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr19	10291001	10291011	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	80206633	80206635	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	147110850	147110892	iCLIP#TIA1_wang2010a_hg19*TIA1	26	+
+chr15	52840127	52840145	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	139775298	139775299	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	161324141	161324169	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	4442626	4442653	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr2	44173204	44173222	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr3	33128373	33128376	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	56366372	56366392	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr2	182754927	182754941	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	133136462	133136501	iCLIP#TIA1_wang2010a_hg19*TIA1	29	+
+chr3	45786838	45786857	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr21	47690376	47690389	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr22	40939341	40939350	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	3673822	3673823	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	58386413	58386475	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr1	33765829	33765844	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr13	42896972	42897023	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr7	86788821	86788828	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	31085793	31085815	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr6	151790464	151790496	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr5	58973332	58973344	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	134109627	134109638	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	125923227	125923246	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	102493051	102493056	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	68227603	68227607	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	57805534	57805544	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr5	115910124	115910138	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	32915246	32915267	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	30435048	30435087	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr21	35478023	35478070	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr1	97278706	97278727	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	77411483	77411488	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	53126689	53126691	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	96363324	96363328	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	70742805	70742844	iCLIP#TIA1_wang2010a_hg19*TIA1	33	+
+chr14	23321862	23321868	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	128190261	128190281	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	234613893	234613910	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	75283702	75283733	iCLIP#TIA1_wang2010a_hg19*TIA1	28	+
+chr5	6380000	6380009	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	189875428	189875439	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	123119879	123119880	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	166419384	166419418	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chrX	129040966	129040982	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	44053165	44053171	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	183704644	183704654	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	77557695	77557703	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	6513838	6513876	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr18	66356141	66356168	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	27435579	27435590	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	152165576	152165593	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	128215242	128215267	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	118472118	118472155	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr15	52203186	52203194	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr9	36347149	36347150	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	42947193	42947194	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr22	51205965	51205982	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	70563433	70563452	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	5346985	5346989	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	120048292	120048312	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	134230182	134230185	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	38044144	38044148	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	24608114	24608127	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr4	95607647	95607648	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	64421872	64421879	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	183746367	183746371	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	63336526	63336534	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	84964115	84964148	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr5	58441491	58441495	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr21	40718911	40718937	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	32526715	32526741	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr20	43128574	43128577	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	158584519	158584535	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr22	44564726	44564734	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	49060654	49060694	iCLIP#TIA1_wang2010a_hg19*TIA1	41	+
+chr14	75599338	75599362	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr1	35483042	35483063	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	72005522	72005554	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	31731242	31731246	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	71503802	71503813	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr17	36879879	36879892	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	118252923	118252947	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	11140788	11140800	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	39826549	39826580	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr1	44531087	44531090	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	90974474	90974502	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr9	140730133	140730146	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	76441883	76441897	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	123324412	123324473	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr10	91534521	91534544	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	15127876	15127886	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	34160391	34160415	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	29022647	29022708	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr15	34440791	34440814	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	151375672	151375680	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	40834558	40834560	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	46299726	46299751	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	109484375	109484394	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	201750398	201750412	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr15	43831713	43831714	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	96090466	96090482	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	16629262	16629281	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr12	42768886	42768899	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr1	85732021	85732046	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	145498941	145498996	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr7	111127235	111127264	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr8	109245658	109245697	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	215795079	215795090	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	136281721	136281734	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	79896249	79896253	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	44816301	44816319	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	49372869	49372884	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	40946773	40946780	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	55217048	55217065	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr22	28146541	28146547	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	156565615	156565637	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	43712461	43712463	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	49199429	49199457	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	127806021	127806035	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	14441114	14441116	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	31197650	31197677	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr9	72330113	72330130	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	69124713	69124735	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	95586127	95586136	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	35161011	35161032	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	24043266	24043267	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	126331496	126331503	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	128601934	128601937	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	54344286	54344298	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	65871910	65871912	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	68007977	68007995	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr15	60648095	60648102	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	204295681	204295700	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	32623946	32623973	iCLIP#TIA1_wang2010a_hg19*TIA1	37	+
+chr9	95142853	95142866	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	40956272	40956276	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	17924937	17924959	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	15258843	15258846	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	15154309	15154333	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	26613690	26613713	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	170586057	170586076	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr22	40719645	40719651	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr11	94899421	94899442	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr15	79172936	79172947	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	202006203	202006222	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	156669424	156669437	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr18	38071772	38071773	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr22	38881896	38881908	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr20	47852590	47852591	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	169633093	169633118	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	78412922	78412937	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr15	56383238	56383249	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	62444967	62444981	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	28444136	28444143	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chr3	179183417	179183421	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	38458290	38458291	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	76568198	76568211	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr2	48034746	48034769	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	147594530	147594619	iCLIP#TIA1_wang2010a_hg19*TIA1	283	+
+chr17	79084242	79084264	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	17513780	17513838	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr14	70235979	70235993	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr14	81643927	81643929	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	74404250	74404251	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr20	2637612	2637616	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	33112042	33112100	iCLIP#TIA1_wang2010a_hg19*TIA1	39	-
+chr2	217537139	217537163	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	149698493	149698496	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	110928832	110928833	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	1018424	1018465	iCLIP#TIA1_wang2010a_hg19*TIA1	90	+
+chr4	151771856	151771866	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	25637238	25637257	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	196601461	196601492	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr20	30157287	30157317	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr6	170881892	170881904	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr3	127788782	127788805	iCLIP#TIA1_wang2010a_hg19*TIA1	28	+
+chr3	52083135	52083143	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	79801367	79801375	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	36352389	36352406	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	32052935	32052938	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	465289	465305	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	142753727	142753744	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	12874763	12874769	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	211319915	211319917	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	104439490	104439493	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	119042125	119042134	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	120649707	120649721	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr3	149235176	149235204	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr15	75648951	75648952	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	21125652	21125659	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	94972741	94972775	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr7	44842541	44842548	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	10076922	10076931	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr5	17279976	17279977	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	169100913	169100940	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr11	130014465	130014499	iCLIP#TIA1_wang2010a_hg19*TIA1	50	+
+chr3	124481867	124481871	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	72054023	72054050	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	159999484	159999504	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	154510176	154510183	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	97675641	97675643	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	226376364	226376365	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	101487155	101487158	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	7006930	7006947	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	176946841	176946874	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr22	41576030	41576048	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr8	47298674	47298675	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	117767882	117767891	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr8	8643052	8643084	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr7	150935867	150935870	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	146242	146243	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	116200868	116200905	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr3	136230309	136230312	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	65320290	65320311	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr16	24815646	24815652	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	31102277	31102290	iCLIP#TIA1_wang2010a_hg19*TIA1	46	-
+chr2	142567809	142567832	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	2240901	2240912	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr21	45733638	45733641	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	47006371	47006399	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr6	36892425	36892464	iCLIP#TIA1_wang2010a_hg19*TIA1	31	+
+chr17	70121826	70121852	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr13	50623148	50623155	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	217070463	217070492	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	45582852	45582880	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	171822691	171822717	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	86371157	86371168	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr19	14281475	14281484	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	68458585	68458622	iCLIP#TIA1_wang2010a_hg19*TIA1	45	+
+chr1	66492625	66492645	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	38029456	38029469	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	78414811	78414831	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr10	96336569	96336594	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr16	66836958	66836971	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	134126060	134126088	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr6	151790805	151790815	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	27908465	27908515	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr22	36134905	36134933	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr6	97717714	97717731	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	23458363	23458387	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chrX	114864287	114864303	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr7	38270021	38270037	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr15	34780999	34781000	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	125500083	125500089	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	145862601	145862644	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr2	47708024	47708033	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	45629456	45629476	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr14	65398989	65398990	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	184567601	184567607	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	46460018	46460019	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr11	59342961	59342978	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	46907589	46907591	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr11	33369787	33369807	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
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+chr1	71530629	71530641	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr17	27117378	27117388	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	56650886	56650907	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	72207913	72207924	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	139615831	139615839	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	124333321	124333353	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr2	87906307	87906310	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
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+chr1	70689023	70689047	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	111500529	111500542	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	5438524	5438551	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	120743044	120743070	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	75649427	75649441	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr19	58024429	58024434	iCLIP#TIA1_wang2010a_hg19*TIA1	524	-
+chr17	73211894	73211902	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
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+chr2	183866950	183866971	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	78790709	78790720	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	78018405	78018431	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	101405537	101405557	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr17	1908201	1908202	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	18958084	18958105	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	43769667	43769669	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	123943296	123943322	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	48199963	48199992	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr4	174243014	174243037	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	131226760	131226771	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
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+chr2	47710231	47710264	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr12	21788092	21788093	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr13	99896889	99896908	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	48769677	48769703	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	57233182	57233195	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	21821624	21821628	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	43289930	43289957	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr2	114688982	114689012	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
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+chr5	147630498	147630535	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	121383033	121383035	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	80330686	80330720	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	54631023	54631051	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr19	17417509	17417534	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr1	71534850	71534887	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr19	59010470	59010477	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	139723269	139723279	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	101197105	101197106	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	125324987	125325012	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	60187092	60187105	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	244595818	244595836	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	28305559	28305560	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	49762777	49762805	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	198400362	198400380	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	55392287	55392288	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
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+chr16	66766157	66766235	iCLIP#TIA1_wang2010a_hg19*TIA1	26	-
+chr1	61922763	61922777	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	58740685	58740701	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	86143195	86143200	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	234746147	234746165	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr6	27618684	27618691	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	33469194	33469195	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	50262631	50262633	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	170827383	170827390	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	41393464	41393488	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
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+chr13	92851495	92851498	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	64089144	64089158	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	79631112	79631119	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr14	50110312	50110327	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	48806783	48806784	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	71871701	71871723	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	15768654	15768657	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	117442619	117442620	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	124499859	124499887	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	27860880	27860915	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	26227111	26227143	iCLIP#TIA1_wang2010a_hg19*TIA1	37	-
+chr2	203344620	203344626	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	62929500	62929505	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	47843467	47843488	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr12	20564451	20564461	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	49413257	49413269	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr19	1611041	1611105	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chrX	31143301	31143306	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	164593054	164593055	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	90769247	90769259	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	56151008	56151024	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	43473966	43473971	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	131458133	131458147	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	98235372	98235414	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr10	68841990	68841992	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	74130677	74130698	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	87808882	87808893	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	43095900	43095911	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	78410810	78410833	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	17080059	17080070	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	96361669	96361713	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr1	145646476	145646487	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	53652029	53652031	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	67026499	67026502	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	64286901	64286907	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	133532956	133532999	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr6	111349349	111349365	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	90994928	90994934	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	44751406	44751409	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	33078262	33078300	iCLIP#TIA1_wang2010a_hg19*TIA1	28	+
+chr11	129862727	129862733	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	44685165	44685176	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	93849369	93849377	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	40487296	40487319	iCLIP#TIA1_wang2010a_hg19*TIA1	36	+
+chr16	31202755	31202761	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr15	51854866	51854867	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	34302077	34302106	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr13	45857807	45857831	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr11	94905707	94905710	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	76349802	76349810	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	21070936	21070980	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chr10	103569899	103569928	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	50384812	50384817	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	64961373	64961433	iCLIP#TIA1_wang2010a_hg19*TIA1	38	+
+chr5	6599400	6599416	iCLIP#TIA1_wang2010a_hg19*TIA1	47	-
+chr18	23657784	23657811	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	20195652	20195655	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	34956449	34956473	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr13	20300305	20300316	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	233415018	233415043	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	151058277	151058298	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	127992082	127992083	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr11	43365778	43365815	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	164820807	164820822	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr7	129096864	129096871	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	1037962	1038011	iCLIP#TIA1_wang2010a_hg19*TIA1	44	+
+chr1	12677863	12677871	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	19102360	19102372	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	102471483	102471525	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr21	44525869	44525882	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	17250716	17250717	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	134494549	134494579	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	173457877	173457910	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr2	29022309	29022323	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr15	68099373	68099387	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	100090152	100090164	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	57505920	57505927	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	123799896	123799913	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	47005032	47005047	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	96364269	96364284	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr22	38170085	38170110	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr5	92956179	92956192	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	194123431	194123459	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr7	5346877	5346881	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	48175218	48175236	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	49060946	49060947	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	54626562	54626569	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	31604671	31604691	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	110279660	110279666	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	42881615	42881624	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	31661234	31661253	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	78432347	78432362	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	116933220	116933229	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	74105729	74105730	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	3023755	3023758	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	69376733	69376752	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	20493872	20493898	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	64945960	64945962	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	31871514	31871525	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	33139040	33139053	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	150133923	150133926	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	151183848	151183879	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr16	75611433	75611487	iCLIP#TIA1_wang2010a_hg19*TIA1	46	+
+chr3	130720679	130720690	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	24338277	24338284	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr14	104053709	104053729	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	124457839	124457845	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	166263221	166263236	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	94296503	94296546	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr13	34409719	34409735	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	120204878	120204881	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	166395676	166395693	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	49330641	49330677	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr21	38453746	38453758	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	75010528	75010541	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	80168935	80168972	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	175786441	175786457	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	58322229	58322235	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	130279073	130279078	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	118065749	118065758	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	35263693	35263700	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	138709299	138709316	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr15	65409848	65409850	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	166317915	166317931	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	11302372	11302401	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	71503852	71503868	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	220379475	220379490	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	164442196	164442212	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	27651942	27651955	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	92264072	92264081	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	113528885	113528903	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr11	65266542	65266701	iCLIP#TIA1_wang2010a_hg19*TIA1	199	+
+chr15	32928123	32928124	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	73064461	73064477	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr12	102117581	102117602	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr5	142107548	142107549	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	159999125	159999140	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	126101467	126101468	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	119222878	119222902	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	19238242	19238270	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	54626991	54626992	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr14	69254904	69254954	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr10	47397158	47397174	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	93714552	93714570	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	76255173	76255211	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr1	100736368	100736370	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	58288992	58289005	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	59941417	59941429	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr14	24658412	24658447	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr22	36135616	36135622	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	70195791	70195806	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	31566335	31566347	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	42981844	42981855	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr13	92182082	92182091	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	43297611	43297618	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	17357743	17357744	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr14	21830274	21830292	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	137025006	137025029	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr18	66693092	66693093	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	4961808	4961822	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	17242997	17243017	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr13	73592276	73592280	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	33047274	33047290	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr19	13255230	13255247	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	26325861	26325862	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	29222116	29222143	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr5	142962125	142962126	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	29096092	29096110	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	39847801	39847869	iCLIP#TIA1_wang2010a_hg19*TIA1	69	+
+chr3	10192290	10192319	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr20	32873232	32873236	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	174252885	174252920	iCLIP#TIA1_wang2010a_hg19*TIA1	25	-
+chr3	120049406	120049437	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr12	70915020	70915033	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	169654345	169654372	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	30738840	30738843	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	76454096	76454105	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	151832145	151832166	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	102365311	102365353	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr16	46833187	46833197	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	33713343	33713354	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	170508809	170508828	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	80127662	80127759	iCLIP#TIA1_wang2010a_hg19*TIA1	31	+
+chr11	57540924	57540928	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	51204523	51204526	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	49029565	49029571	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	91226058	91226081	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr4	77082601	77082603	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	109589916	109589919	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr2	54128464	54128473	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	77695447	77695484	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr5	135398891	135398896	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	205443303	205443307	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr1	169767860	169767876	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	147653203	147653225	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr13	45010687	45010704	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr9	5710563	5710569	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	71397594	71397617	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	40345035	40345049	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	39847111	39847145	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr17	26905600	26905615	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	138413001	138413044	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr1	33134504	33134520	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr21	16341475	16341490	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	135416214	135416257	iCLIP#TIA1_wang2010a_hg19*TIA1	289	-
+chr20	43954917	43954946	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr6	36823215	36823224	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	6284610	6284627	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr13	81371777	81371782	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	32444300	32444316	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr2	48725512	48725519	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	133627647	133627649	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	137013480	137013485	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	98642299	98642311	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	120860939	120860940	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr22	28146464	28146480	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr20	34317345	34317372	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr18	77772969	77772999	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	139884565	139884579	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	58900468	58900488	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	57727093	57727116	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	96108707	96108726	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr5	68467294	68467298	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	55199906	55199936	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr4	53579699	53579745	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr2	74595370	74595376	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	115447911	115447916	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	93517291	93517303	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	43901279	43901292	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr13	82393715	82393716	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr22	18211946	18211947	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	65319426	65319434	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	120129976	120129998	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	10521380	10521385	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr18	8631829	8631857	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	71503593	71503602	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	86584014	86584041	iCLIP#TIA1_wang2010a_hg19*TIA1	36	-
+chr7	889250	889269	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	28422538	28422550	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	2036344	2036363	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	76085710	76085712	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	62146735	62146755	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	125424172	125424186	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr22	38886568	38886587	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr21	40195641	40195702	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr11	35251423	35251464	iCLIP#TIA1_wang2010a_hg19*TIA1	26	+
+chrX	107967878	107967916	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr12	57607058	57607090	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	185348196	185348218	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr14	43722999	43723002	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	173457483	173457519	iCLIP#TIA1_wang2010a_hg19*TIA1	35	+
+chr9	88637608	88637617	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr21	11186537	11186542	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	70132172	70132185	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	40758877	40758923	iCLIP#TIA1_wang2010a_hg19*TIA1	36	+
+chr3	159713768	159713770	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	57812140	57812163	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr19	16630945	16630950	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	24313789	24313808	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	9611010	9611051	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr12	7074645	7074674	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	59038696	59038712	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	23298853	23298857	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	75281486	75281488	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	32919298	32919300	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	116115088	116115090	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr22	24497744	24497751	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	53629975	53629979	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	153436010	153436026	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr13	96642204	96642217	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	133768028	133768064	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	27405364	27405380	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	233114193	233114221	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	179203995	179204004	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	136476720	136476721	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	25960588	25960604	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr14	105482346	105482348	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	52281959	52281970	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr8	144510293	144510299	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	185202572	185202578	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	151773129	151773134	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	65977614	65977630	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	10265115	10265162	iCLIP#TIA1_wang2010a_hg19*TIA1	46	+
+chr4	39826065	39826075	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	232319627	232319662	iCLIP#TIA1_wang2010a_hg19*TIA1	45	-
+chr1	224140066	224140067	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr13	23945202	23945212	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	33572694	33572698	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	73568852	73568878	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	40832608	40832621	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	168032010	168032018	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr13	98641484	98641500	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	141974691	141974715	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	133767913	133767949	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr14	62213941	62213984	iCLIP#TIA1_wang2010a_hg19*TIA1	54	+
+chr17	4788363	4788368	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	44096000	44096017	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	166390793	166390834	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr5	14696100	14696136	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr3	184457709	184457711	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	130704194	130704204	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	31541708	31541711	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	30432930	30432945	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	132182673	132182682	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	89880893	89880915	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr10	65215957	65215976	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	203429888	203429912	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr8	103279294	103279307	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	3029512	3029513	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	27876160	27876185	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	35342108	35342110	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	121378579	121378595	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	70695131	70695183	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr6	4061946	4061963	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr9	26905464	26905483	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	173834333	173834343	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr11	68562238	68562258	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	58571208	58571250	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr2	174398082	174398089	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr20	57469398	57469400	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	11879121	11879127	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	223959887	223959889	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	56510244	56510248	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	17755499	17755514	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	179969199	179969221	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	61671265	61671307	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr14	31835937	31835940	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	10480497	10480509	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	75663304	75663321	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr6	137518825	137518842	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr4	106638872	106638888	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	170458941	170458951	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	94504107	94504112	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	127788718	127788723	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr14	64150175	64150177	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	75227277	75227296	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	14496019	14496029	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	113629101	113629102	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr15	86289540	86289552	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	91426024	91426036	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr11	59342284	59342290	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	35148765	35148775	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr20	40081348	40081357	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	25394058	25394086	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	40818855	40818856	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr22	38686726	38686786	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr22	38363757	38363777	iCLIP#TIA1_wang2010a_hg19*TIA1	26	+
+chr4	140310360	140310370	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr5	58386160	58386164	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	100633431	100633432	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr13	52040241	52040242	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	98864718	98864739	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr13	25463420	25463432	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	1132139	1132141	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	28356436	28356467	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr6	136981255	136981268	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	54130939	54130947	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	123234782	123234805	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr5	83237163	83237195	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr6	149837981	149838007	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	142766972	142766996	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr10	126448722	126448739	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	10188332	10188339	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	90352534	90352573	iCLIP#TIA1_wang2010a_hg19*TIA1	28	-
+chr9	127167570	127167581	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr22	39913071	39913074	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	58470378	58470399	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	66793621	66793636	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	31597116	31597128	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	309217	309227	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	95131637	95131639	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	244869313	244869333	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	215785743	215785746	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	57897112	57897115	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	76304337	76304345	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	136582093	136582105	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	21678276	21678300	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	245008485	245008506	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr19	12741926	12741950	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	147030385	147030389	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	14136105	14136171	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr5	6706112	6706135	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	58157209	58157211	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr22	41190494	41190506	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	112052053	112052054	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	175954176	175954196	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	146225488	146225491	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	26098971	26098972	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	151373069	151373102	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr18	59901913	59901914	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	104743247	104743265	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr11	118619403	118619436	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr19	54959299	54959328	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr6	99852335	99852356	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	111543510	111543530	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	3283459	3283464	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	27198224	27198241	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	44068709	44068715	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	20761322	20761325	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	121489008	121489045	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	168216587	168216597	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	154558198	154558214	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	35577264	35577294	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	17557847	17557868	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	145012041	145012044	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	48808774	48808785	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr16	89958156	89958167	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	234546169	234546180	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	80716065	80716066	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr18	29128438	29128464	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr11	47504229	47504239	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	21533391	21533400	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	170834190	170834218	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr8	101254016	101254039	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	60690874	60690887	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr17	20219478	20219507	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	47155238	47155250	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	46159336	46159353	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	38058674	38058693	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	170832416	170832424	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr15	89824716	89824742	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	41499619	41499631	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	31231909	31231940	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	42887508	42887530	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	11899271	11899292	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	150971931	150971942	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	33112618	33112653	iCLIP#TIA1_wang2010a_hg19*TIA1	53	-
+chr1	92811488	92811498	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	46579993	46579994	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	62496772	62496785	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	166343947	166343973	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	46713719	46713728	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	12401954	12401957	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	95717870	95717871	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	75536147	75536165	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	101899099	101899139	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr21	33715944	33715954	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	50208464	50208466	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr20	33098256	33098284	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr1	200575749	200575758	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	21081977	21081992	iCLIP#TIA1_wang2010a_hg19*TIA1	250	-
+chr1	41236835	41236854	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	6668454	6668481	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	23853061	23853076	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	48869959	48869979	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	230416165	230416185	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr2	44028073	44028085	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	57749844	57749884	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr5	58981688	58981724	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr15	55651746	55651770	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	135909675	135909683	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	36201295	36201310	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	112773341	112773372	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr10	3167456	3167498	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	98992298	98992317	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr14	103808570	103808585	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr12	98995396	98995424	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr20	32668001	32668014	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr19	18887677	18887680	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	8921135	8921138	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	146042397	146042431	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr15	44816940	44816973	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr1	109243352	109243404	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr17	65074259	65074271	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	48857148	48857163	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	168052801	168052807	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	33539979	33540000	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr14	81644368	81644373	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	24380062	24380063	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	94028983	94029010	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	82456428	82456441	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	85913458	85913459	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	13361079	13361099	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	116736987	116737033	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr5	79776721	79776724	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr15	72766503	72766504	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	152331770	152331791	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr4	120219222	120219234	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	128804750	128804766	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr7	116559126	116559177	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr7	95041387	95041399	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	20556283	20556291	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	135292959	135293047	iCLIP#TIA1_wang2010a_hg19*TIA1	38	+
+chr1	182352212	182352252	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr15	42956124	42956126	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	28167000	28167012	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	20619707	20619725	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	179439955	179439968	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	58956183	58956185	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	102933649	102933670	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	40134816	40134850	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr20	17924718	17924724	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr22	29927039	29927057	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	161928779	161928783	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr14	58740634	58740640	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	151184835	151184846	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	217792487	217792491	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	85916497	85916500	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr17	6917555	6917572	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr2	196593084	196593094	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr18	2728132	2728173	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	36492496	36492525	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr18	10550997	10551012	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	176580392	176580399	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	101732395	101732405	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	74335196	74335206	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	101597065	101597083	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	105878031	105878046	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	221319863	221319865	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	56236253	56236256	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	81114357	81114386	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	95157610	95157633	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	20905689	20905701	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	145860802	145860814	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	124042868	124042897	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	19419134	19419142	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	204393467	204393475	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	91044468	91044551	iCLIP#TIA1_wang2010a_hg19*TIA1	52	+
+chr12	74934828	74934839	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	133307680	133307704	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	6694395	6694414	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	464308	464353	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr9	100436815	100436816	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	42979275	42979285	iCLIP#TIA1_wang2010a_hg19*TIA1	27	+
+chr7	17937451	17937455	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	179046618	179046632	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr6	144629599	144629603	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	162946166	162946209	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr3	185644626	185644654	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr1	46072895	46072927	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr10	104499669	104499672	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	30754959	30755026	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr6	121007806	121007812	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr11	120278551	120278553	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr18	56995119	56995148	iCLIP#TIA1_wang2010a_hg19*TIA1	27	-
+chr5	111065233	111065235	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	40678722	40678727	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	58510912	58510928	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	126086376	126086397	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr19	18390859	18390892	iCLIP#TIA1_wang2010a_hg19*TIA1	78	-
+chr11	94904650	94904662	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	69233888	69233899	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	198351508	198351531	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	93444068	93444098	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr22	28146767	28146781	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr6	151277494	151277503	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	8027183	8027239	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr2	136872372	136872419	iCLIP#TIA1_wang2010a_hg19*TIA1	39	-
+chr11	66052073	66052083	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr18	2744088	2744101	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	183888501	183888524	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	129457138	129457139	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	108117721	108117733	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	157683502	157683521	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	26227385	26227451	iCLIP#TIA1_wang2010a_hg19*TIA1	96	-
+chr8	128156227	128156237	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	59733348	59733359	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	154227305	154227319	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	83602261	83602265	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	48437740	48437751	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	112034445	112034451	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	188419042	188419058	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	2442332	2442369	iCLIP#TIA1_wang2010a_hg19*TIA1	61	-
+chr18	19781857	19781867	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrM	5852	5863	iCLIP#TIA1_wang2010a_hg19*TIA1	212	-
+chr3	160122484	160122508	iCLIP#TIA1_wang2010a_hg19*TIA1	39	+
+chr11	57584846	57584858	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	6501535	6501542	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	108365230	108365258	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	5322584	5322592	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	131372018	131372038	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	123561963	123561990	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	79888611	79888615	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	50690250	50690255	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	70812152	70812162	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	2330893	2330918	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	20192830	20192839	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	45913944	45913960	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	28087635	28087646	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr4	117519717	117519729	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	102952754	102952778	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	36778039	36778104	iCLIP#TIA1_wang2010a_hg19*TIA1	60	+
+chr6	166300463	166300472	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	127805744	127805745	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	28872303	28872321	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	11691859	11691862	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr11	65198280	65198375	iCLIP#TIA1_wang2010a_hg19*TIA1	90	+
+chr15	87097795	87097796	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	227085539	227085563	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	136593096	136593112	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr18	47008480	47008526	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr11	66115621	66115653	iCLIP#TIA1_wang2010a_hg19*TIA1	285	+
+chr5	180665804	180665809	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	86520134	86520162	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	43365990	43366045	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr19	44093848	44093858	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	85772059	85772066	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	45468810	45468826	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	65384109	65384146	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr13	41507263	41507273	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	169377128	169377131	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	29060727	29060732	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	96443302	96443324	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	57161976	57161977	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	43644752	43644762	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	103720726	103720727	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	220872439	220872455	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	98467582	98467583	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr15	59942855	59942857	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	52761717	52761718	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	66627913	66627919	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	118889047	118889057	iCLIP#TIA1_wang2010a_hg19*TIA1	34	-
+chr15	64436336	64436358	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	55534337	55534346	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	148512576	148512586	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	74933654	74933668	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	169962617	169962634	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr8	38961496	38961501	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr12	9094220	9094236	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	117050917	117050943	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	208615528	208615544	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	108112398	108112421	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	145887356	145887363	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	80127887	80127964	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr6	17760730	17760739	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	105729598	105729599	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	33730672	33730697	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	193057990	193058046	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr9	2193351	2193374	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr11	10821436	10821449	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	32303489	32303505	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	191747252	191747258	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	41574025	41574033	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	20232621	20232683	iCLIP#TIA1_wang2010a_hg19*TIA1	75	-
+chr3	51738270	51738275	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	37327619	37327633	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	83891421	83891431	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr16	89874879	89874897	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	10271049	10271051	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	61704798	61704806	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	107940649	107940673	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	98191222	98191275	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr1	148354029	148354043	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	133402292	133402298	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	211449770	211449786	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	6687482	6687503	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	110553397	110553400	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	153291840	153291866	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	65978845	65978880	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr2	204245117	204245131	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	31817443	31817467	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr12	98931355	98931388	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr11	65205135	65205188	iCLIP#TIA1_wang2010a_hg19*TIA1	73	+
+chr10	81273486	81273495	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	37334226	37334234	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	123686107	123686111	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	169477313	169477314	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	73989478	73989516	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr11	122197328	122197336	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	1375074	1375083	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr22	20114670	20114766	iCLIP#TIA1_wang2010a_hg19*TIA1	214	+
+chr1	204375120	204375137	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr8	87479911	87479918	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	132528026	132528041	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	72194798	72194812	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	48734406	48734432	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	201725922	201725947	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	10435834	10435840	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	50143158	50143170	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	11101515	11101523	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	139062629	139062648	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	45531083	45531092	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	27475585	27475612	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chrX	18278157	18278173	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	127524932	127524950	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	35652516	35652532	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	59853711	59853750	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	32420483	32420510	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	20586487	20586520	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr14	53106815	53106845	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	61510224	61510251	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	45959095	45959136	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr12	44113156	44113171	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	6284654	6284673	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr4	104474696	104474717	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	20037660	20037667	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr3	41281407	41281455	iCLIP#TIA1_wang2010a_hg19*TIA1	131	+
+chr5	167915705	167915712	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	102107904	102107913	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr16	2011772	2011782	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	200520837	200520858	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr14	89039365	89039371	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr14	21678121	21678151	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr19	39306113	39306139	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr8	22279580	22279593	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr13	98585994	98585995	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	172195216	172195238	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr7	143003271	143003280	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr11	110036923	110036944	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr4	83817037	83817063	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	76350171	76350201	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	21598632	21598654	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	30955130	30955138	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	50889811	50889832	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	65383735	65383762	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr17	79477117	79477166	iCLIP#TIA1_wang2010a_hg19*TIA1	323	-
+chr5	27472657	27472666	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr18	59902521	59902522	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	20660230	20660266	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	135292285	135292310	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr11	66394406	66394462	iCLIP#TIA1_wang2010a_hg19*TIA1	28	+
+chr19	39926584	39926593	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr21	47832015	47832035	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	57771430	57771495	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr11	3012090	3012131	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr9	126331671	126331684	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	101671433	101671446	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr2	10270052	10270087	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr8	62593504	62593514	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr1	155197139	155197166	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr10	14944523	14944567	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr9	79186781	79186788	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	96851077	96851128	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr1	114954529	114954556	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	134982152	134982153	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	25162785	25162811	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr15	86292496	86292522	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr3	42635838	42635857	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	92243199	92243207	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	4907030	4907031	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	120882435	120882447	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	109463393	109463417	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	134120944	134120976	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	57319946	57319971	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	43891841	43891843	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	21101970	21101982	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	41466146	41466162	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	158424050	158424067	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	17222686	17222699	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	78087888	78087904	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr9	113006340	113006399	iCLIP#TIA1_wang2010a_hg19*TIA1	154	-
+chr5	179047559	179047578	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr17	65184416	65184427	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	120047640	120047658	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr14	38058932	38058934	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	64123431	64123442	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	38572655	38572660	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	122772982	122773007	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	45125409	45125417	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	247497780	247497781	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	7363988	7363998	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	65597327	65597328	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	160199873	160199894	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr19	4418084	4418095	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	212141468	212141489	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	59283156	59283163	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	128215290	128215401	iCLIP#TIA1_wang2010a_hg19*TIA1	76	-
+chr12	132199229	132199242	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	160812964	160812981	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	32974010	32974038	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	38810944	38810962	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	104312527	104312533	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	4129070	4129087	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	245018233	245018265	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chrX	64959970	64959981	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr5	56547016	56547025	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	101270265	101270294	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr15	91298212	91298214	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	126422513	126422535	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	20454863	20454872	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	2239202	2239207	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr12	123779175	123779193	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr12	8937393	8937403	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr14	73578103	73578111	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr1	78434677	78434697	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr18	66362118	66362138	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	197700692	197700702	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	9606998	9607022	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	160770110	160770118	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr15	93426834	93426836	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	78435143	78435150	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	49448220	49448235	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrY	21153769	21153791	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	19444584	19444588	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	3178817	3178870	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr15	82554004	82554015	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	10900037	10900048	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	13734315	13734342	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	1914785	1914787	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	89318668	89318723	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr2	44175528	44175543	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr7	131181637	131181652	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	103006714	103006739	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	128064921	128064955	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr15	28508042	28508044	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	143549394	143549400	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	204506645	204506656	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr20	4350608	4350610	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	41175806	41175812	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	14929995	14930008	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	102120709	102120716	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr5	147646615	147646645	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	36458829	36458831	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	124324748	124324764	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	20915741	20915759	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	69553652	69553666	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	171561853	171561881	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr20	43954883	43954891	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	75218123	75218141	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	87001288	87001316	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	99192769	99192799	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr6	114277164	114277167	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	38628598	38628599	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	23592359	23592387	iCLIP#TIA1_wang2010a_hg19*TIA1	36	-
+chr20	31025996	31026020	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr2	70259244	70259254	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	14188121	14188123	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	44483248	44483258	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	89535980	89535982	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	17771593	17771620	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr13	98664739	98664747	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	62393514	62393540	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	77569711	77569740	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr16	4560761	4560773	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	28975381	28975397	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	174940093	174940104	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	69532600	69532617	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	101468536	101468541	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	72205879	72205906	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	182543118	182543119	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	137842228	137842243	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr4	128811926	128811941	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	3714043	3714044	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	159111437	159111442	iCLIP#TIA1_wang2010a_hg19*TIA1	113	-
+chrX	41196740	41196748	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	56466632	56466637	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	89798500	89798506	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	2553309	2553340	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr5	58361489	58361494	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	37310758	37310759	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	132297778	132297789	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	62568783	62568813	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr22	42070357	42070379	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	55651066	55651098	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr8	71520613	71520614	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	95127674	95127675	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	65199731	65199740	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	20599192	20599213	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	12556242	12556244	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	150300126	150300139	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	48192311	48192320	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr8	134600148	134600150	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	165877140	165877152	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	69379507	69379508	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	32739147	32739150	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	108916580	108916621	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr4	69179485	69179510	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr10	24955821	24955825	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	43011352	43011369	iCLIP#TIA1_wang2010a_hg19*TIA1	83	+
+chr4	174244115	174244127	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	56704241	56704269	iCLIP#TIA1_wang2010a_hg19*TIA1	37	-
+chr10	120795414	120795454	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	81644839	81644850	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	73164529	73164556	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr12	133318340	133318349	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr21	34876178	34876187	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	60302453	60302466	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	205682499	205682514	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr14	74301252	74301253	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	73049964	73049982	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	109240682	109240710	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	94048841	94048882	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr8	86396026	86396027	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	21871826	21871836	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	110887420	110887465	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr21	45213093	45213106	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	144014111	144014118	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	93466427	93466465	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr6	56818573	56818577	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	156307885	156307912	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	68350622	68350635	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	83238603	83238684	iCLIP#TIA1_wang2010a_hg19*TIA1	66	-
+chr8	98863817	98863844	iCLIP#TIA1_wang2010a_hg19*TIA1	77	+
+chr7	26253053	26253055	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	33145348	33145385	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr3	133291928	133291929	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	1652230	1652248	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	133925229	133925240	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	85701255	85701280	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	33096287	33096293	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	22301432	22301461	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	69931771	69931800	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	67272733	67272734	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	8283882	8283909	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	158626048	158626057	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	77772030	77772076	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr1	225589740	225589770	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr6	116599068	116599083	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr3	123213652	123213672	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	1717454	1717506	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr12	132666601	132666607	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	44855143	44855148	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	33376752	33376773	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr3	44794583	44794601	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr4	57270123	57270134	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	167887343	167887349	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	92003246	92003303	iCLIP#TIA1_wang2010a_hg19*TIA1	47	+
+chr21	33640602	33640614	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	134126440	134126444	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	170070573	170070582	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	104742535	104742633	iCLIP#TIA1_wang2010a_hg19*TIA1	91	+
+chr5	94037738	94037742	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	172461539	172461570	iCLIP#TIA1_wang2010a_hg19*TIA1	33	+
+chr17	29059907	29059935	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	57049841	57049867	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	37410174	37410194	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	118362046	118362056	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	145787433	145787516	iCLIP#TIA1_wang2010a_hg19*TIA1	64	-
+chr21	35281477	35281486	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	65870083	65870087	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	6064036	6064061	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr21	35189816	35189825	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	111727475	111727490	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	890049	890065	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	176836608	176836611	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	80567075	80567084	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	48626732	48626746	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	16012080	16012087	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	15531736	15531737	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr9	131102392	131102393	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr21	33065570	33065602	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr17	79801543	79801548	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	32843351	32843368	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	108955785	108955803	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	27126787	27126799	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	77084503	77084524	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	155255655	155255666	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr16	31197770	31197780	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	124227308	124227310	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	66647577	66647589	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	44156176	44156178	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	166369282	166369292	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	58212834	58212843	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	124333024	124333042	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr14	51722254	51722311	iCLIP#TIA1_wang2010a_hg19*TIA1	26	+
+chr5	162918250	162918265	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	137846388	137846404	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	59955979	59956007	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr17	830810	830823	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	62568926	62568955	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr10	90683076	90683094	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	33349450	33349512	iCLIP#TIA1_wang2010a_hg19*TIA1	25	+
+chr13	50623208	50623235	iCLIP#TIA1_wang2010a_hg19*TIA1	78	-
+chr13	49781742	49781799	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr5	92930021	92930043	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr7	128252683	128252712	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	212194413	212194416	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	183642408	183642425	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	190322120	190322136	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	150549821	150549824	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	213168335	213168357	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	94035282	94035287	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	112099734	112099753	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr8	128231628	128231671	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr8	101931406	101931467	iCLIP#TIA1_wang2010a_hg19*TIA1	44	-
+chr3	14530775	14530820	iCLIP#TIA1_wang2010a_hg19*TIA1	46	+
+chr1	93308037	93308052	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	63983375	63983395	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	123942556	123942577	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr1	173459511	173459512	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	133634432	133634457	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr4	17626068	17626092	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	63713414	63713419	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	44753913	44753923	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	24706191	24706216	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	48854049	48854066	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chrX	153226181	153226197	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	6791102	6791106	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	231700874	231700930	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chrX	112021474	112021503	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	20619781	20619804	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	115312240	115312253	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	127853653	127853654	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr4	146042176	146042189	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	153931740	153931748	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	37958941	37958963	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr17	40554756	40554803	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr17	2609027	2609039	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	13570502	13570524	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr22	46239713	46239769	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr1	193056407	193056419	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr21	44891375	44891380	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	151677045	151677074	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chrX	41712327	41712340	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	50620964	50620981	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	29853915	29853916	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	228427907	228427926	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	166733425	166733451	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr12	6857477	6857514	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr1	113503265	113503277	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	55435070	55435075	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr19	17356460	17356461	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	10476483	10476499	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	37064431	37064462	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	147639330	147639338	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	125632023	125632030	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	109455814	109455824	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	39874414	39874417	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr22	46757305	46757324	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chrX	107971715	107971735	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	146016523	146016538	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	49551640	49551656	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	133753736	133753738	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr15	79188219	79188229	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	121858815	121858837	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	55025706	55025707	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	30482825	30482834	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	73191987	73192002	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	57750034	57750036	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	135612742	135612749	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	77412000	77412026	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	135657282	135657292	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	37270684	37270709	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	31508918	31508942	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr3	160952677	160952679	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	76179983	76179999	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	223962811	223962873	iCLIP#TIA1_wang2010a_hg19*TIA1	49	+
+chr1	38489503	38489531	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr3	152881457	152881472	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	134596130	134596149	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	77408849	77408872	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr5	110834190	110834197	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	133778577	133778596	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	94905448	94905449	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	32355550	32355582	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr11	118620954	118620980	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	10143072	10143086	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr1	22021886	22021895	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	48835851	48835881	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr12	102479516	102479529	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	110813539	110813555	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	32616496	32616527	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	62931058	62931080	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr22	50694457	50694494	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	79825955	79825982	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr20	34327639	34327667	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr18	48577853	48577882	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	93952833	93952861	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	65278894	65278903	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	139301448	139301463	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	135926951	135926970	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	10973221	10973269	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr1	21543786	21543816	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr2	191761431	191761453	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	96446858	96446882	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	17422962	17422967	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	142096063	142096074	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	148248158	148248173	iCLIP#TIA1_wang2010a_hg19*TIA1	56	+
+chr12	74894925	74894946	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr8	41468164	41468195	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	63906609	63906632	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	58298753	58298755	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	44400761	44400784	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	111718271	111718284	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	29019481	29019482	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	57862775	57862778	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	128218430	128218432	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr8	23289677	23289689	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	64125062	64125078	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	58269732	58269760	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr20	31026041	31026045	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr13	96552151	96552169	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	88102180	88102191	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	106734800	106734807	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	128239313	128239336	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr3	47057955	47057979	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr21	45564930	45564941	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	73063691	73063758	iCLIP#TIA1_wang2010a_hg19*TIA1	32	-
+chr1	44894788	44894796	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	141635292	141635306	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	34268646	34268647	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	93693637	93693667	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	124071391	124071408	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	155100053	155100066	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	114256205	114256224	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	27519749	27519799	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr7	44246093	44246098	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	48637032	48637034	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	114925900	114925919	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr7	34968536	34968578	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chrX	73041520	73041560	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr17	35879010	35879015	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	98675150	98675166	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr9	19050638	19050675	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr16	30370650	30370654	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	61171167	61171180	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	66357646	66357657	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	151138948	151138961	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	26365109	26365133	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	74934040	74934057	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	151313484	151313485	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	35469988	35470004	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	145499643	145499669	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	159888407	159888412	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	93805635	93805637	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	68407458	68407474	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr9	128125213	128125240	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr19	582812	582836	iCLIP#TIA1_wang2010a_hg19*TIA1	36	+
+chr20	17929903	17929927	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	15611658	15611668	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	8709365	8709366	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	109301203	109301227	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr15	77578747	77578754	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr16	81422856	81422869	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	49052927	49052937	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	167727892	167727908	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr1	59154912	59154930	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	35414273	35414277	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	84223545	84223547	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr14	78198815	78198817	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	17096219	17096242	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	172110317	172110320	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	231489602	231489629	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	102707893	102707894	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	101545369	101545373	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr22	50905389	50905396	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr2	32390699	32390700	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	153291704	153291742	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr11	62619699	62619743	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr19	34700074	34700086	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr10	5499581	5499653	iCLIP#TIA1_wang2010a_hg19*TIA1	38	+
+chr9	111782389	111782405	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	110885010	110885039	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	32535974	32535977	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	58380553	58380558	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	119817664	119817665	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr7	32526781	32526811	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr5	42990911	42990927	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	52598788	52598798	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	95512223	95512232	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	40714557	40714567	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	78433688	78433722	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	74133774	74133793	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	50788230	50788244	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	108962882	108962898	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	68706390	68706409	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	28866951	28866963	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	149867792	149867803	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	109253957	109253966	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	160055350	160055355	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	29709432	29709468	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr3	113114569	113114584	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	5287077	5287087	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr13	41634888	41634899	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	150866732	150866735	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	131528351	131528380	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chrX	16870841	16870861	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr1	32508447	32508515	iCLIP#TIA1_wang2010a_hg19*TIA1	52	+
+chr4	1984756	1984768	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	65193393	65193436	iCLIP#TIA1_wang2010a_hg19*TIA1	37	+
+chr1	228266284	228266285	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	76723645	76723666	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	109687768	109687813	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chrX	129449786	129449787	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	112992266	112992267	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	74204452	74204460	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	77863258	77863269	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr9	79955481	79955510	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	148242135	148242145	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	34907974	34907987	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	71591339	71591350	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	105179241	105179255	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	185208051	185208065	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	32148096	32148116	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	130775382	130775391	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	56050740	56050750	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	38792823	38792837	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	64796840	64796842	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	42908236	42908241	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	156109098	156109154	iCLIP#TIA1_wang2010a_hg19*TIA1	44	+
+chr1	116233996	116233998	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	22041561	22041571	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	5779057	5779072	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	179114277	179114283	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	83345786	83345787	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	59171832	59171836	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	4015404	4015415	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	101520866	101520867	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr14	76117562	76117577	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr12	19877480	19877498	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr13	92649078	92649099	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	78410059	78410073	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr16	84600206	84600240	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr13	34408969	34408982	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	96505769	96505783	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	74442111	74442169	iCLIP#TIA1_wang2010a_hg19*TIA1	30	+
+chr3	32524862	32524942	iCLIP#TIA1_wang2010a_hg19*TIA1	22	-
+chr1	113670868	113670876	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr7	30054217	30054250	iCLIP#TIA1_wang2010a_hg19*TIA1	29	-
+chr19	46021050	46021058	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	20541399	20541407	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	120980769	120980795	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr15	77338394	77338399	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr16	2821013	2821042	iCLIP#TIA1_wang2010a_hg19*TIA1	51	+
+chr1	11083118	11083127	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	56717811	56717819	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	67015736	67015751	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	188608419	188608425	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr20	50214710	50214736	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr3	73115131	73115162	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr15	89860264	89860311	iCLIP#TIA1_wang2010a_hg19*TIA1	30	+
+chr10	75878090	75878118	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr4	187509045	187509053	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	152443070	152443107	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	90973451	90973466	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr2	223773562	223773620	iCLIP#TIA1_wang2010a_hg19*TIA1	29	+
+chr6	98727354	98727355	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	74289737	74289738	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	93989063	93989064	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	65205935	65205958	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr19	42702707	42702710	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	116599553	116599595	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr4	164443366	164443367	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	42932522	42932533	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	194324971	194324980	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	57557257	57557292	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr1	41562086	41562099	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	207504652	207504673	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr7	135611820	135611893	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr1	153931622	153931667	iCLIP#TIA1_wang2010a_hg19*TIA1	35	-
+chr12	67706963	67706999	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr2	114476829	114476842	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr1	120454705	120454773	iCLIP#TIA1_wang2010a_hg19*TIA1	66	-
+chr8	90960027	90960040	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	109191209	109191214	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	207941867	207941879	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	11150546	11150566	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	64286718	64286750	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr17	78296815	78296818	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	161183998	161183999	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	219118983	219119020	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr15	52203396	52203437	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr6	146256017	146256037	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr13	97491456	97491480	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr7	137557082	137557086	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	92411742	92411757	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	152018284	152018301	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	156307379	156307411	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr14	31647124	31647130	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	52028980	52028988	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	26469704	26469743	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr20	25426822	25426853	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr12	104743940	104744008	iCLIP#TIA1_wang2010a_hg19*TIA1	91	+
+chr5	83236476	83236516	iCLIP#TIA1_wang2010a_hg19*TIA1	36	-
+chr6	36063855	36063884	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	127788652	127788681	iCLIP#TIA1_wang2010a_hg19*TIA1	42	+
+chr21	44834784	44834798	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr18	10979497	10979515	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr5	32355336	32355361	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr19	33878022	33878049	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	23696801	23696802	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	66999502	66999515	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	15465421	15465451	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr10	99217217	99217219	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	24884025	24884028	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	81672607	81672620	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	76582696	76582711	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	33231521	33231537	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	41236683	41236709	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr6	27543876	27543900	iCLIP#TIA1_wang2010a_hg19*TIA1	51	+
+chr3	41256227	41256234	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	87341437	87341446	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	36485457	36485459	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	160485759	160485774	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	1580848	1580851	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	20835008	20835014	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	49551453	49551466	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr19	1815637	1815648	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	32513775	32513794	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	72209506	72209525	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr8	13594511	13594512	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	40962487	40962511	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	58764234	58764243	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	63010541	63010562	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	55200154	55200166	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	49521584	49521662	iCLIP#TIA1_wang2010a_hg19*TIA1	94	-
+chr6	101214418	101214430	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	58906063	58906072	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	13855062	13855064	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr22	50637492	50637533	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr19	18682668	18682676	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	2321546	2321574	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr15	77241924	77241958	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr20	23614352	23614362	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	150176866	150176881	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	64122415	64122418	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	127714980	127714985	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr21	46512445	46512466	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	167976141	167976155	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr15	38529236	38529237	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr20	50214246	50214266	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	123235384	123235416	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr5	90678917	90678936	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	44839087	44839125	iCLIP#TIA1_wang2010a_hg19*TIA1	17	+
+chr14	93695320	93695352	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr10	105093660	105093666	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	93497969	93497985	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	59861836	59861854	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr14	24779485	24779489	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	32873920	32873922	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	60841483	60841503	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	76442030	76442052	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	21345537	21345550	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	51822174	51822203	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr1	93585073	93585088	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	35251567	35251602	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr11	65063478	65063483	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	37454929	37454944	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	101932347	101932348	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	70515671	70515680	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	73423873	73423893	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr6	26545750	26545781	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr8	128214228	128214229	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	34328636	34328648	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	33163184	33163208	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr11	85692777	85692779	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	82341239	82341253	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	179814733	179814745	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	25269596	25269628	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr8	62596572	62596589	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	75601235	75601266	iCLIP#TIA1_wang2010a_hg19*TIA1	72	-
+chr1	183374877	183374880	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	39087826	39087835	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	33585152	33585162	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	128409537	128409614	iCLIP#TIA1_wang2010a_hg19*TIA1	81	+
+chr5	33465470	33465476	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	166418820	166418895	iCLIP#TIA1_wang2010a_hg19*TIA1	34	+
+chr7	131015496	131015511	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	136310061	136310063	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	94668079	94668088	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	53371414	53371418	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	35646662	35646667	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr19	16548801	16548805	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	32696849	32696854	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	128759939	128759959	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	74701056	74701070	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	170067208	170067225	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr20	34636298	34636311	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	162496954	162496976	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	107510569	107510571	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr17	50876230	50876232	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	140830207	140830217	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	134491374	134491379	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr5	115166543	115166566	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	82400868	82400874	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr22	36140060	36140082	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	41996232	41996233	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	125555342	125555352	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	125609707	125609718	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	127565218	127565234	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr7	73112501	73112510	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	124809173	124809190	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	3809390	3809394	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	41092060	41092065	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr15	66180263	66180328	iCLIP#TIA1_wang2010a_hg19*TIA1	36	+
+chr12	46757550	46757573	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr2	30728225	30728226	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chrX	41095200	41095220	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	10928874	10928892	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	85464646	85464658	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	138651437	138651454	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr3	44486853	44486856	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	117881522	117881544	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr2	98824334	98824339	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	13054628	13054725	iCLIP#TIA1_wang2010a_hg19*TIA1	46	+
+chr1	226170546	226170578	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr8	126011461	126011484	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	61906343	61906349	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	229796406	229796429	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	134023003	134023010	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	79888862	79888865	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	22840727	22840756	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr12	6701847	6701849	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	44905612	44905613	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	112587733	112587734	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	24340103	24340119	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chrX	13791754	13791757	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	3742942	3742951	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr13	77720463	77720477	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr1	24086316	24086335	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	87811187	87811216	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr5	81574168	81574175	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	129921033	129921058	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	225170391	225170398	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	58873591	58873603	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	58701407	58701445	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr4	24345016	24345017	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	34147259	34147287	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	141471853	141471869	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	34923631	34923637	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	79279128	79279134	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	69789341	69789345	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	193412464	193412467	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	20623367	20623374	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	47142539	47142554	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr3	51426587	51426609	iCLIP#TIA1_wang2010a_hg19*TIA1	63	+
+chr3	143709278	143709335	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr1	43224505	43224510	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	10437450	10437480	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	136232832	136232841	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	46100618	46100627	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	91870032	91870051	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr22	30423760	30423768	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	61648652	61648682	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	35557203	35557222	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr20	13753748	13753772	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	128848079	128848092	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	191778168	191778177	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	62620054	62620084	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr2	242291497	242291551	iCLIP#TIA1_wang2010a_hg19*TIA1	34	+
+chr13	79885989	79886005	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	93472650	93472666	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	21546032	21546042	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr15	60678072	60678092	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	70694327	70694357	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr6	160198509	160198521	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	120927664	120927689	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr18	33571856	33571953	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr4	20416579	20416591	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	33253763	33253773	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	132995586	132995607	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	3158945	3158946	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	145659559	145659560	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	20616364	20616382	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	26158349	26158358	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr5	145522032	145522041	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	61601757	61601764	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr20	58515600	58515609	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr21	45176045	45176059	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr9	19491716	19491717	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	134182885	134182904	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr18	22901953	22901959	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	33046971	33046996	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	99286707	99286711	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	662743	662781	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr5	145504886	145504896	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	7758512	7758513	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	118821280	118821306	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	51665190	51665194	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	52803847	52803863	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	107965333	107965349	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	42981785	42981793	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr8	128219601	128219631	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	31659269	31659272	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr6	158613415	158613420	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr16	50072524	50072531	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	86000817	86000818	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr21	38120932	38120948	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	61533760	61533801	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	51435372	51435397	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr16	2869759	2869774	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	135119192	135119201	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	98988889	98988900	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	1656314	1656316	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	72205360	72205369	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr1	70695776	70695796	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	94904832	94904844	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	91978471	91978492	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	172538031	172538049	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	45647059	45647062	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	212794006	212794028	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	204392842	204392852	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	128605328	128605362	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr5	174939946	174939959	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	37003584	37003593	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	55503936	55503954	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr3	167726524	167726534	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr7	152281083	152281084	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr8	145162308	145162320	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	7251615	7251640	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	100802636	100802647	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	21666900	21666911	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr21	34950498	34950517	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr2	3502086	3502093	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr8	144380135	144380157	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	46739378	46739398	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	24095198	24095215	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr2	11334185	11334208	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	36320251	36320258	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	4834485	4834492	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	70236771	70236782	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr1	165697224	165697248	iCLIP#TIA1_wang2010a_hg19*TIA1	53	-
+chr1	70695263	70695281	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	160624688	160624700	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	37780479	37780490	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	30204237	30204260	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr10	94131662	94131664	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr21	34896372	34896415	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr2	65496156	65496165	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr12	66698941	66698957	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	93485350	93485371	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr11	117040314	117040318	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	75202160	75202194	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr14	76646744	76646747	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	74755225	74755245	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr4	140003253	140003274	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	64302257	64302272	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr18	56035158	56035164	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	11476156	11476161	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	145723223	145723228	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	124869636	124869638	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	46468829	46468840	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	76723890	76723895	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	76735209	76735222	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	83360364	83360371	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr4	77957911	77957922	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	3273037	3273041	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	147640618	147640635	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	90033561	90033571	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	194174016	194174019	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	87328650	87328701	iCLIP#TIA1_wang2010a_hg19*TIA1	73	-
+chr1	93171929	93171938	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	21546093	21546126	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr17	73132054	73132064	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr2	98264915	98264916	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr12	67619042	67619043	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr6	58149279	58149280	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	180645234	180645253	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr20	49507396	49507428	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chrX	39646210	39646213	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr12	29491405	29491419	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	156869522	156869529	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	98059029	98059030	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	180673933	180673945	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	122831502	122831522	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr9	99262543	99262558	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	59318486	59318489	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chrX	132670051	132670076	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr9	127639358	127639361	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	91044297	91044331	iCLIP#TIA1_wang2010a_hg19*TIA1	24	+
+chr9	15472594	15472619	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	48830280	48830295	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr3	160129883	160129916	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr2	100029146	100029153	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	157813926	157813949	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	31604799	31604820	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	75050014	75050017	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr13	47326934	47326942	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr10	101769805	101769806	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	126284235	126284239	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	94354132	94354197	iCLIP#TIA1_wang2010a_hg19*TIA1	39	-
+chr4	183722176	183722193	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr16	88874772	88874785	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	160219006	160219083	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr17	60754071	60754075	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	167727131	167727171	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr5	58488366	58488383	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	77780963	77780990	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr4	83740030	83740046	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr10	59954355	59954362	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	113850597	113850605	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	150076066	150076076	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	56465233	56465236	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	56168395	56168421	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	59894304	59894327	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr14	50361335	50361384	iCLIP#TIA1_wang2010a_hg19*TIA1	46	+
+chr3	133653454	133653465	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	121769121	121769130	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	170523642	170523652	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	237490942	237490972	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr19	57808554	57808578	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	169626208	169626227	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr5	94038395	94038424	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	197094132	197094157	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr17	30687800	30687818	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr18	45371666	45371696	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	186948518	186948533	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	3468603	3468672	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr7	128128534	128128546	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	35609992	35609996	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr7	5965531	5965551	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr17	79986567	79986572	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	100869287	100869298	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr17	7215257	7215277	iCLIP#TIA1_wang2010a_hg19*TIA1	133	+
+chr16	31196656	31196670	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr11	10293153	10293173	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	73494112	73494169	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr3	40558401	40558414	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	100548817	100548852	iCLIP#TIA1_wang2010a_hg19*TIA1	15	+
+chr5	127525112	127525145	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr11	881275	881288	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr12	48189352	48189356	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	89627262	89627271	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	36984497	36984521	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	92913813	92913831	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	151183935	151183975	iCLIP#TIA1_wang2010a_hg19*TIA1	83	+
+chr2	233722336	233722351	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr4	95589238	95589245	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	1897596	1897609	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr5	176869029	176869045	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr14	62262184	62262206	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	102103949	102103962	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chrX	99884986	99884988	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	111680130	111680135	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr12	42770180	42770189	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	36213488	36213498	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	76501496	76501500	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	207533659	207533670	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr5	68506136	68506153	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	20232741	20232798	iCLIP#TIA1_wang2010a_hg19*TIA1	89	-
+chr17	57816323	57816325	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr16	87380631	87380646	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	95875470	95875516	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr17	43298212	43298216	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	69868024	69868027	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	242618127	242618142	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	109913567	109913585	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	31797979	31798003	iCLIP#TIA1_wang2010a_hg19*TIA1	33	+
+chr16	3725354	3725362	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	32788583	32788612	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr2	197584999	197585009	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	46549169	46549184	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr9	86584184	86584236	iCLIP#TIA1_wang2010a_hg19*TIA1	198	-
+chr8	48961545	48961549	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	118855022	118855033	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr1	145598511	145598518	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	129896470	129896471	iCLIP#TIA1_wang2010a_hg19*TIA1	20	-
+chr17	48768893	48768919	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	123699263	123699280	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr22	25591700	25591711	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr17	35508155	35508159	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	21545942	21545961	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	134155417	134155441	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr17	30264086	30264114	iCLIP#TIA1_wang2010a_hg19*TIA1	26	+
+chr13	45967672	45967693	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	55905576	55905584	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr21	47695310	47695328	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	16266643	16266661	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	66530367	66530378	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	125610892	125610912	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	153735849	153735863	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	55530156	55530163	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr9	5656733	5656760	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	8824061	8824066	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr11	126145339	126145358	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	119500729	119500769	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr13	42870538	42870548	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	31414447	31414461	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	14143397	14143400	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	45700265	45700269	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr6	146119163	146119171	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	91924419	91924440	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr15	51242379	51242397	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	70712844	70712861	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr17	47005787	47005803	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	53180025	53180042	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	163994545	163994587	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr15	93337248	93337257	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	74382349	74382375	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr3	78742285	78742292	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	22094484	22094488	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	89427265	89427274	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	128218108	128218122	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr21	34904072	34904077	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	2961043	2961047	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	36933920	36933934	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	76425523	76425529	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr15	102182098	102182124	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr1	59223984	59223988	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	54958491	54958502	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr16	2820137	2820144	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	86215551	86215565	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr1	51009145	51009147	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr7	157061859	157061875	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr16	69718881	69718892	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr8	126071343	126071353	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	54891996	54892015	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr11	128332144	128332158	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	134490028	134490030	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr11	129279025	129279026	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr5	93746915	93746931	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr16	84695849	84695857	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	34853941	34853942	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	28002546	28002573	iCLIP#TIA1_wang2010a_hg19*TIA1	21	+
+chr2	203976493	203976509	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	149858471	149858481	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr3	142606498	142606500	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	76441134	76441151	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr10	30628731	30628746	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	110899018	110899036	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	34892291	34892306	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	5099389	5099406	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr19	17692725	17692738	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr7	95071532	95071533	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr3	149458670	149458696	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	127356628	127356634	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	24394502	24394510	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr16	277867	277878	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	30662200	30662214	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	69154375	69154381	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr14	41591377	41591378	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	96363140	96363157	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	134670488	134670532	iCLIP#TIA1_wang2010a_hg19*TIA1	34	-
+chr20	1349655	1349663	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr3	33697742	33697783	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr21	15743792	15743797	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	63765782	63765797	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	48739502	48739508	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	108441804	108441805	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr17	4230936	4230939	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	54675310	54675349	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr8	62593794	62593825	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr8	86393671	86393702	iCLIP#TIA1_wang2010a_hg19*TIA1	13	+
+chr15	78461710	78461729	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	198572911	198572930	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr11	9853789	9853798	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr2	169631585	169631617	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr17	61905386	61905388	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	66573297	66573309	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	153954230	153954245	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	66343280	66343291	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr13	34411667	34411686	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	74040754	74040755	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	58374109	58374116	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	53563212	53563215	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	47135589	47135591	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	110816330	110816343	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr11	65820592	65820604	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	101998890	101998896	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	29147285	29147291	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7	5568635	5568642	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	152173378	152173396	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr15	52842940	52842965	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr1	220955341	220955343	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chrX	114884800	114884814	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr18	51618477	51618479	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	172396691	172396695	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr20	23614515	23614528	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr8	144682450	144682458	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr19	42839569	42839580	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	19399619	19399648	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	79801613	79801626	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	48258200	48258202	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	17961830	17961854	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	158584588	158584607	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr3	27417630	27417666	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr6	25619927	25619934	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	52725108	52725135	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	213181524	213181526	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	58154183	58154195	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr1	155238471	155238477	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	128339026	128339084	iCLIP#TIA1_wang2010a_hg19*TIA1	83	-
+chrX	133931119	133931142	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	104682229	104682241	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr18	51681250	51681296	iCLIP#TIA1_wang2010a_hg19*TIA1	15	-
+chr14	21149901	21149906	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr10	69802654	69802663	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	19230921	19230937	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr4	146479862	146479881	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	55917034	55917059	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr12	107365590	107365616	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr8	130853614	130853623	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr19	58899856	58899865	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	189660657	189660671	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr3	167727785	167727814	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr3	179306029	179306048	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr19	50430930	50430939	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	5095680	5095706	iCLIP#TIA1_wang2010a_hg19*TIA1	33	-
+chr19	11257127	11257144	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	61624727	61624745	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	44176725	44176734	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr18	2803335	2803351	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr9	124103195	124103254	iCLIP#TIA1_wang2010a_hg19*TIA1	35	-
+chr22	43562950	43562951	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr11	59342690	59342703	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr15	58868307	58868308	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	13557116	13557118	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr9	36677547	36677587	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chrX	20153840	20153845	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	29068079	29068101	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	150315971	150315980	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr13	60266309	60266311	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	45605364	45605384	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	46744407	46744427	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr5	64875491	64875506	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr12	110785030	110785052	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr2	136541060	136541071	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr20	61509492	61509516	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	116947346	116947368	iCLIP#TIA1_wang2010a_hg19*TIA1	22	+
+chr1	78434120	78434125	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	58568928	58568939	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	2972416	2972434	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	153436077	153436097	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr15	74889144	74889159	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr9	14102402	14102412	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	55614111	55614122	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	58806457	58806465	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr15	78461631	78461641	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	207956463	207956466	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	235282616	235282636	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	119542874	119542892	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr14	68934990	68934995	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	25170660	25170691	iCLIP#TIA1_wang2010a_hg19*TIA1	34	+
+chr16	31195097	31195111	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr22	32603866	32603867	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	144990416	144990449	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr6	28601736	28601751	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	64016321	64016325	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr2	136407585	136407589	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	108180767	108180776	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	109944510	109944592	iCLIP#TIA1_wang2010a_hg19*TIA1	34	-
+chr4	39454272	39454277	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr5	58334640	58334642	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	55501689	55501807	iCLIP#TIA1_wang2010a_hg19*TIA1	48	-
+chr14	75356667	75356685	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	159029789	159029797	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	21731402	21731414	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr6	35452312	35452322	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr2	165542245	165542274	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	32696318	32696339	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	94905380	94905413	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr1	96914100	96914101	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	12628125	12628126	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	53421981	53421998	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	18250775	18250784	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	148884093	148884117	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	56185929	56185972	iCLIP#TIA1_wang2010a_hg19*TIA1	23	+
+chr1	224575620	224575622	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	5941594	5941596	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr12	109185942	109185945	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr16	47116729	47116771	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr1	155282268	155282272	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	5440047	5440050	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	96362447	96362467	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	52448636	52448644	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr5	114956219	114956246	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	38787825	38787834	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	23884659	23884664	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr12	54680280	54680288	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr14	60733862	60733877	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	48226113	48226127	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr11	20389385	20389397	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	187511499	187511516	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	48539770	48539839	iCLIP#TIA1_wang2010a_hg19*TIA1	55	+
+chr21	45113311	45113326	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	139251094	139251103	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	45678755	45678763	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	49593617	49593628	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr8	58988196	58988211	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr6	79616966	79616972	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr3	33038406	33038432	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	201717893	201717927	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr5	10410890	10410902	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	114181764	114181804	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr11	14284586	14284587	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr19	8553930	8553971	iCLIP#TIA1_wang2010a_hg19*TIA1	44	+
+chr12	120899218	120899239	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr20	47897507	47897531	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr12	57058534	57058549	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	19167033	19167034	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr15	64737326	64737328	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	54298145	54298155	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr15	74244401	74244412	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr17	5235468	5235482	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr4	863975	863982	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr10	75039693	75039697	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr4	110171133	110171138	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chrX	100082808	100082815	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr22	50282028	50282043	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr10	89693019	89693030	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chrX	73045472	73045488	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr14	75516901	75516921	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	47569643	47569655	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr8	101348864	101348877	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	86584116	86584126	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr18	55268526	55268554	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr10	91533966	91534000	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr10	31817578	31817589	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	218520401	218520409	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr4	41700672	41700699	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr6	33172107	33172158	iCLIP#TIA1_wang2010a_hg19*TIA1	26	+
+chr1	44089257	44089268	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	37596818	37596828	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	93789364	93789377	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr4	146048757	146048782	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr7_gl000195_random	83977	83981	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	193415247	193415253	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr15	72633300	72633301	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	104442283	104442294	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	164820996	164821023	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr9	127146834	127146852	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr7	139254613	139254638	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr9	136892480	136892508	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr16	51532599	51532603	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr10	96342819	96342841	iCLIP#TIA1_wang2010a_hg19*TIA1	38	+
+chr3	51431764	51431771	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr11	9316735	9316744	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr14	35037868	35037878	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr15	67486936	67486948	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	65090854	65090865	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr11	125034678	125034690	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr17	12628448	12628451	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	315068	315082	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	224380795	224380833	iCLIP#TIA1_wang2010a_hg19*TIA1	29	+
+chr1	207532988	207533018	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr7	34970314	34970329	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr16	57218055	57218057	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr19	19101768	19101787	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr4	123199275	123199286	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	20620116	20620139	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr13	60346151	60346159	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr10	96331238	96331256	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr2	44201266	44201275	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	17635621	17635623	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	67874244	67874261	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	36214962	36214980	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	18225365	18225377	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	113000539	113000559	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr20	3957397	3957400	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	26230804	26230893	iCLIP#TIA1_wang2010a_hg19*TIA1	33	-
+chr1	45213199	45213220	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	34890967	34891000	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr16	11980911	11980918	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr3	142122683	142122687	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr20	34295829	34295845	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr11	65205071	65205084	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr21	34941821	34941849	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr18	71920693	71920720	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr4	139088610	139088613	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr10	79800016	79800022	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	44571346	44571359	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	229577477	229577480	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	4657582	4657595	iCLIP#TIA1_wang2010a_hg19*TIA1	18	-
+chr11	102221505	102221523	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chrX	107975039	107975052	iCLIP#TIA1_wang2010a_hg19*TIA1	28	-
+chr22	36140174	36140198	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	84312241	84312242	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr8	48851947	48851949	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr18	61172257	61172281	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	45234562	45234586	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr18	25531287	25531333	iCLIP#TIA1_wang2010a_hg19*TIA1	31	-
+chr5	96108748	96108816	iCLIP#TIA1_wang2010a_hg19*TIA1	31	+
+chr1	52889292	52889338	iCLIP#TIA1_wang2010a_hg19*TIA1	19	-
+chr7	26241456	26241470	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr9	128409387	128409409	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	30665206	30665209	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr21	37789164	37789170	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	140194906	140194919	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr17	1801256	1801292	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr10	97089086	97089091	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chrX	73053263	73053290	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr19	2430834	2430856	iCLIP#TIA1_wang2010a_hg19*TIA1	13	-
+chr17	37682614	37682622	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr12	59265688	59265700	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	24176607	24176633	iCLIP#TIA1_wang2010a_hg19*TIA1	18	+
+chr15	75651622	75651627	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	65454528	65454546	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	152043157	152043162	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr1	214584987	214585009	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr1	71529536	71529550	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr4	76894644	76894660	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	71665614	71665619	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	18800270	18800279	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	75135233	75135262	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr6	149731228	149731235	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr5	112900070	112900090	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	15935135	15935190	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr2	174817448	174817464	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr5	17262711	17262720	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	64124683	64124690	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr13	77457971	77458029	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr1	200578126	200578137	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr17	22023953	22023954	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr4	128760064	128760071	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	160209294	160209317	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr7	22999821	22999830	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	3224813	3224827	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr12	14654316	14654326	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr21	27782688	27782689	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	110116671	110116676	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr11	65120536	65120537	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	154935144	154935172	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr1	211836186	211836200	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr2	32380331	32380359	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr12	93803730	93803761	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr18	32721560	32721578	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr7	80360757	80360766	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	14471591	14471600	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	185270206	185270216	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	224840135	224840197	iCLIP#TIA1_wang2010a_hg19*TIA1	44	-
+chr3	140686242	140686269	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr2	198256856	198256897	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr9	125758943	125758947	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr22	42302225	42302240	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	73813035	73813037	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	141784831	141784858	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr10	111893991	111894013	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr2	175994822	175994842	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	14967527	14967534	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	165696751	165696762	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr2	198339727	198339734	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr1	224473611	224473643	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrX	112020104	112020121	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chr2	20648932	20648973	iCLIP#TIA1_wang2010a_hg19*TIA1	33	+
+chr16	83845115	83845211	iCLIP#TIA1_wang2010a_hg19*TIA1	46	+
+chr18	65182211	65182220	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr13	42887827	42887829	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr2	25451427	25451442	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr15	58887680	58887715	iCLIP#TIA1_wang2010a_hg19*TIA1	21	-
+chr2	74335047	74335079	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr3	136117576	136117578	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	172348808	172348816	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr6	155188597	155188622	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr14	81644933	81644944	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr3	169381093	169381106	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr22	42482144	42482156	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr18	21663055	21663069	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr11	47789230	47789237	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr10	114205222	114205235	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	14271020	14271037	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	166373902	166373905	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr20	36146846	36146877	iCLIP#TIA1_wang2010a_hg19*TIA1	14	-
+chr19	39399494	39399495	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr15	44951444	44951450	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chrX	39911145	39911191	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr13	77841935	77841953	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr2	242434486	242434497	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	904826	904829	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr5	150070976	150070998	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	52602775	52602810	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr6	5613568	5613577	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	153628770	153628771	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	81881003	81881011	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr22	38687060	38687086	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr16	31197864	31197871	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr12	107385503	107385527	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	38521242	38521246	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr7	139102534	139102554	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	98622622	98622623	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr11	77336729	77336752	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr4	106650668	106650682	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	36682057	36682073	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr1	225599010	225599028	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr1	230974876	230974920	iCLIP#TIA1_wang2010a_hg19*TIA1	10	-
+chrX	73072535	73072550	iCLIP#TIA1_wang2010a_hg19*TIA1	24	-
+chr12	67688078	67688087	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr9	96938200	96938209	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr20	34635560	34635569	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr5	175876064	175876069	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	4860946	4860958	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr3	142275644	142275645	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	49713572	49713576	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	120636328	120636341	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr19	46206454	46206468	iCLIP#TIA1_wang2010a_hg19*TIA1	7	+
+chr17	74729305	74729307	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr16	82691511	82691525	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr8	54628424	54628440	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr12	120936191	120936234	iCLIP#TIA1_wang2010a_hg19*TIA1	117	+
+chr22	42060000	42060010	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr5	41312088	41312089	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr6	155065883	155065897	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	152318994	152319002	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr19	40029520	40029538	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	10283741	10283756	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	228879635	228879656	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	2971951	2971958	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr19	36564403	36564419	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr3	129023715	129023735	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	173833785	173833805	iCLIP#TIA1_wang2010a_hg19*TIA1	17	-
+chr14	45672528	45672546	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr16	21513978	21513986	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	46544780	46544788	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	43759397	43759402	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	76255079	76255101	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr10	105205397	105205418	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr7	131122321	131122344	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr9	4849566	4849576	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr12	46577748	46577758	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	43150888	43150892	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	94983996	94984019	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chrX	41201307	41201326	iCLIP#TIA1_wang2010a_hg19*TIA1	20	+
+chr15	50645785	50645788	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr7	3516027	3516042	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr1	182821868	182821892	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr4	83271810	83271820	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	70695210	70695248	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr7	44869783	44869796	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr2	133013172	133013174	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr3	72799343	72799346	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	133533440	133533458	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr7	26251873	26251898	iCLIP#TIA1_wang2010a_hg19*TIA1	31	+
+chr2	219460137	219460153	iCLIP#TIA1_wang2010a_hg19*TIA1	10	+
+chr2	44036932	44036941	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr11	8122551	8122569	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr5	135276550	135276562	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	54531124	54531125	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr1	101460524	101460530	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	180670854	180670861	iCLIP#TIA1_wang2010a_hg19*TIA1	8	-
+chr2	242035099	242035127	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr12	97313945	97313964	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr8	62569607	62569633	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr17	61176725	61176738	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr1	43166973	43166993	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	46963268	46963270	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr5	14399325	14399339	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr6	99852179	99852203	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr16	57181675	57181688	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr1	40759048	40759078	iCLIP#TIA1_wang2010a_hg19*TIA1	16	+
+chr17	4071101	4071105	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr10	75879886	75879889	iCLIP#TIA1_wang2010a_hg19*TIA1	11	+
+chr1	94982891	94982892	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chrX	153671428	153671432	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr3	98515988	98516014	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr22	50181580	50181595	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr21	33043413	33043429	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr17	34174122	34174157	iCLIP#TIA1_wang2010a_hg19*TIA1	14	+
+chr9	101471384	101471389	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr15	57756140	57756141	iCLIP#TIA1_wang2010a_hg19*TIA1	2	+
+chr9	77602130	77602135	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr4	7584319	7584340	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	1479603	1479622	iCLIP#TIA1_wang2010a_hg19*TIA1	9	-
+chr9	12972574	12972589	iCLIP#TIA1_wang2010a_hg19*TIA1	23	-
+chr10	3163335	3163351	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr3	138352021	138352027	iCLIP#TIA1_wang2010a_hg19*TIA1	6	+
+chr4	122589510	122589521	iCLIP#TIA1_wang2010a_hg19*TIA1	12	-
+chr12	46752494	46752584	iCLIP#TIA1_wang2010a_hg19*TIA1	69	-
+chr3	185635101	185635121	iCLIP#TIA1_wang2010a_hg19*TIA1	16	-
+chr19	57808594	57808617	iCLIP#TIA1_wang2010a_hg19*TIA1	8	+
+chr5	37327735	37327751	iCLIP#TIA1_wang2010a_hg19*TIA1	28	-
+chr2	69351782	69351796	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr19	10265555	10265565	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr14	75601363	75601383	iCLIP#TIA1_wang2010a_hg19*TIA1	11	-
+chr5	34687090	34687098	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr15	59956068	59956086	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr3	50325571	50325576	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chrM	679	715	iCLIP#TIA1_wang2010a_hg19*TIA1	12	+
+chr5	98191904	98191912	iCLIP#TIA1_wang2010a_hg19*TIA1	4	-
+chr6	149731577	149731641	iCLIP#TIA1_wang2010a_hg19*TIA1	19	+
+chr19	37835024	37835039	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr1	22051802	22051814	iCLIP#TIA1_wang2010a_hg19*TIA1	3	-
+chr1	174881027	174881028	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr17	27528586	27528594	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr9	86553535	86553546	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr19	36616772	36616810	iCLIP#TIA1_wang2010a_hg19*TIA1	28	+
+chr13	66361692	66361700	iCLIP#TIA1_wang2010a_hg19*TIA1	5	-
+chr13	92237996	92237997	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr6	7480721	7480724	iCLIP#TIA1_wang2010a_hg19*TIA1	2	-
+chr6	30692268	30692319	iCLIP#TIA1_wang2010a_hg19*TIA1	252	+
+chr1	243449723	243449731	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr18	57018617	57018630	iCLIP#TIA1_wang2010a_hg19*TIA1	6	-
+chr11	3383709	3383750	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
+chr6	144635086	144635089	iCLIP#TIA1_wang2010a_hg19*TIA1	4	+
+chr4	144475129	144475143	iCLIP#TIA1_wang2010a_hg19*TIA1	5	+
+chr2	17963500	17963515	iCLIP#TIA1_wang2010a_hg19*TIA1	3	+
+chr11	57093506	57093540	iCLIP#TIA1_wang2010a_hg19*TIA1	30	-
+chr13	100037791	100037808	iCLIP#TIA1_wang2010a_hg19*TIA1	9	+
+chr13	22067304	22067334	iCLIP#TIA1_wang2010a_hg19*TIA1	7	-
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/input.msigdb_test.gmt	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,10 @@
+KEGG_GLYCOLYSIS_GLUCONEOGENESIS	http://www.broadinstitute.org/gsea/msigdb/cards/KEGG_GLYCOLYSIS_GLUCONEOGENESIS	55902	2645	5232	5230	5162	5160	5161	55276	7167	84532	2203	125	3099	126	3098	3101	127	5224	128	5223	124	230	501	92483	5313	160287	2023	5315	5214	669	5106	5105	219	217	218	10327	8789	5213	5211	3948	2597	2027	2026	441531	131	130	3945	220	221	222	223	224	130589	226	1738	1737	229	57818	3939	2538	5236	2821
+KEGG_CITRATE_CYCLE_TCA_CYCLE	http://www.broadinstitute.org/gsea/msigdb/cards/KEGG_CITRATE_CYCLE_TCA_CYCLE	3420	1743	5106	1431	5162	5105	5160	642502	5161	283398	2271	6392	4967	6390	3419	6391	3418	3417	48	47	4191	1738	4190	1737	55753	5091	6389	8802	8803	8801	3421	50
+KEGG_PENTOSE_PHOSPHATE_PATHWAY	http://www.broadinstitute.org/gsea/msigdb/cards/KEGG_PENTOSE_PHOSPHATE_PATHWAY	6120	22934	55276	25796	5634	8789	5213	5211	6888	7086	2203	84076	5226	64080	226	230	229	9563	729020	221823	5631	51071	2539	5236	8277	5214	2821
+KEGG_PENTOSE_AND_GLUCURONATE_INTERCONVERSIONS	http://www.broadinstitute.org/gsea/msigdb/cards/KEGG_PENTOSE_AND_GLUCURONATE_INTERCONVERSIONS	54575	54576	6120	54577	54578	54490	54579	51084	7358	10941	2990	54600	51181	729020	27294	10720	7360	9942	7365	231	7364	7363	79799	54657	7367	54658	54659	7366
+KEGG_FRUCTOSE_AND_MANNOSE_METABOLISM	http://www.broadinstitute.org/gsea/msigdb/cards/KEGG_FRUCTOSE_AND_MANNOSE_METABOLISM	4351	5373	5372	8789	5213	2762	5210	5211	9107	7167	29085	5209	197258	5208	8776	5207	57016	8790	3795	2203	8898	3099	3101	3098	226	230	229	9108	7264	231	6652	29926	5214	29925
+KEGG_GALACTOSE_METABOLISM	http://www.broadinstitute.org/gsea/msigdb/cards/KEGG_GALACTOSE_METABOLISM	2645	2584	2720	2582	2683	55276	3906	5213	5211	8972	3099	3098	3101	2592	57818	2717	2595	3938	2585	2538	7360	5236	231	8704	2548	5214
+KEGG_ASCORBATE_AND_ALDARATE_METABOLISM	http://www.broadinstitute.org/gsea/msigdb/cards/KEGG_ASCORBATE_AND_ALDARATE_METABOLISM	54575	54576	54577	54578	219	54490	217	54579	55586	7358	10941	223	224	54600	501	10720	7365	7364	7363	79799	54657	54658	7367	54659	7366
+KEGG_FATTY_ACID_METABOLISM	http://www.broadinstitute.org/gsea/msigdb/cards/KEGG_FATTY_ACID_METABOLISM	1374	126129	35	219	36	33	217	34	1579	39	37	38	10449	3033	3032	3030	284541	131	130	23305	125	126	127	1892	128	223	224	51703	124	1962	2639	501	8310	2180	30	1376	1375	51	10455	1632	2181	2182
+KEGG_STEROID_BIOSYNTHESIS	http://www.broadinstitute.org/gsea/msigdb/cards/KEGG_STEROID_BIOSYNTHESIS	6646	4047	6713	10682	1595	1717	1594	1718	51478	6307	2222	6309	3988	1056	7108	50814	8435
+KEGG_PRIMARY_BILE_ACID_BIOSYNTHESIS	http://www.broadinstitute.org/gsea/msigdb/cards/KEGG_PRIMARY_BILE_ACID_BIOSYNTHESIS	10858	10998	570	9420	1109	3295	6342	6718	8309	80270	1593	23600	1581	1582	51302	9023
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/motif_analysis_table.data.tsv	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,5 @@
+patterns	scores	fgHits	bgHits	fgSeq	bgSeq	ratio	fgFrac	bgFrac
+1	ATTTTT	26	1719	412	1623	393	4.2	0.1624	0.0393
+2	TTTTTA	27.9	1864	404	1746	391	4.6	0.1747	0.0391
+3	TTTTCT	22.2	1280	296	1200	282	4.3	0.1201	0.0282
+4	TTTATT	22.3	1402	341	1280	314	4.1	0.1281	0.0314
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/output.TIA1.bed.RCAS.report.html	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,530 @@
+<!DOCTYPE html>
+
+<html xmlns="http://www.w3.org/1999/xhtml">
+
+<head>
+
+<meta charset="utf-8">
+<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
+<meta name="generator" content="pandoc" />
+<meta name="viewport" content="width=device-width, initial-scale=1">
+
+<meta name="author" content="Bora Uyar, Dilmurat Yusuf, Ricardo Wurmus, Altuna Akalin" />
+
+<meta name="date" content="2017-04-07" />
+
+<title>The RNA Centric Analysis System Report</title>
+
+<script src="data:application/x-javascript;base64,/*! jQuery v1.12.4 | (c) jQuery Foundation | jquery.org/license */
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s,l,u=e(this),d=u.outerWidth(),c=u.outerHeight(),f=i(this,"marginLeft"),b=i(this,"marginTop"),D=d+f+i(this,"marginRight")+w.width,S=c+b+i(this,"marginBottom")+w.height,N=e.extend({},y),M=t(T.my,u.outerWidth(),u.outerHeight());"right"===n.my[0]?N.left-=d:"center"===n.my[0]&&(N.left-=d/2),"bottom"===n.my[1]?N.top-=c:"center"===n.my[1]&&(N.top-=c/2),N.left+=M[0],N.top+=M[1],a||(N.left=h(N.left),N.top=h(N.top)),s={marginLeft:f,marginTop:b},e.each(["left","top"],function(t,i){e.ui.position[k[t]]&&e.ui.position[k[t]][i](N,{targetWidth:m,targetHeight:g,elemWidth:d,elemHeight:c,collisionPosition:s,collisionWidth:D,collisionHeight:S,offset:[p[0]+M[0],p[1]+M[1]],my:n.my,at:n.at,within:x,elem:u})}),n.using&&(l=function(e){var t=v.left-N.left,i=t+m-d,s=v.top-N.top,a=s+g-c,h={target:{element:_,left:v.left,top:v.top,width:m,height:g},element:{element:u,left:N.left,top:N.top,width:d,height:c},horizontal:0>i?"left":t>0?"right":"center",vertical:0>a?"top":s>0?"bottom":"middle"};d>m&&m>r(t+i)&&(h.horizontal="center"),c>g&&g>r(s+a)&&(h.vertical="middle"),h.important=o(r(t),r(i))>o(r(s),r(a))?"horizontal":"vertical",n.using.call(this,e,h)}),u.offset(e.extend(N,{using:l}))})},e.ui.position={fit:{left:function(e,t){var i,s=t.within,n=s.isWindow?s.scrollLeft:s.offset.left,a=s.width,r=e.left-t.collisionPosition.marginLeft,h=n-r,l=r+t.collisionWidth-a-n;t.collisionWidth>a?h>0&&0>=l?(i=e.left+h+t.collisionWidth-a-n,e.left+=h-i):e.left=l>0&&0>=h?n:h>l?n+a-t.collisionWidth:n:h>0?e.left+=h:l>0?e.left-=l:e.left=o(e.left-r,e.left)},top:function(e,t){var i,s=t.within,n=s.isWindow?s.scrollTop:s.offset.top,a=t.within.height,r=e.top-t.collisionPosition.marginTop,h=n-r,l=r+t.collisionHeight-a-n;t.collisionHeight>a?h>0&&0>=l?(i=e.top+h+t.collisionHeight-a-n,e.top+=h-i):e.top=l>0&&0>=h?n:h>l?n+a-t.collisionHeight:n:h>0?e.top+=h:l>0?e.top-=l:e.top=o(e.top-r,e.top)}},flip:{left:function(e,t){var i,s,n=t.within,a=n.offset.left+n.scrollLeft,o=n.width,h=n.isWindow?n.scrollLeft:n.offset.left,l=e.left-t.collisionPosition.marginLeft,u=l-h,d=l+t.collisionWidth-o-h,c="left"===t.my[0]?-t.elemWidth:"right"===t.my[0]?t.elemWidth:0,p="left"===t.at[0]?t.targetWidth:"right"===t.at[0]?-t.targetWidth:0,f=-2*t.offset[0];0>u?(i=e.left+c+p+f+t.collisionWidth-o-a,(0>i||r(u)>i)&&(e.left+=c+p+f)):d>0&&(s=e.left-t.collisionPosition.marginLeft+c+p+f-h,(s>0||d>r(s))&&(e.left+=c+p+f))},top:function(e,t){var i,s,n=t.within,a=n.offset.top+n.scrollTop,o=n.height,h=n.isWindow?n.scrollTop:n.offset.top,l=e.top-t.collisionPosition.marginTop,u=l-h,d=l+t.collisionHeight-o-h,c="top"===t.my[1],p=c?-t.elemHeight:"bottom"===t.my[1]?t.elemHeight:0,f="top"===t.at[1]?t.targetHeight:"bottom"===t.at[1]?-t.targetHeight:0,m=-2*t.offset[1];0>u?(s=e.top+p+f+m+t.collisionHeight-o-a,(0>s||r(u)>s)&&(e.top+=p+f+m)):d>0&&(i=e.top-t.collisionPosition.marginTop+p+f+m-h,(i>0||d>r(i))&&(e.top+=p+f+m))}},flipfit:{left:function(){e.ui.position.flip.left.apply(this,arguments),e.ui.position.fit.left.apply(this,arguments)},top:function(){e.ui.position.flip.top.apply(this,arguments),e.ui.position.fit.top.apply(this,arguments)}}},function(){var t,i,s,n,o,r=document.getElementsByTagName("body")[0],h=document.createElement("div");t=document.createElement(r?"div":"body"),s={visibility:"hidden",width:0,height:0,border:0,margin:0,background:"none"},r&&e.extend(s,{position:"absolute",left:"-1000px",top:"-1000px"});for(o in s)t.style[o]=s[o];t.appendChild(h),i=r||document.documentElement,i.insertBefore(t,i.firstChild),h.style.cssText="position: absolute; left: 10.7432222px;",n=e(h).offset().left,a=n>10&&11>n,t.innerHTML="",i.removeChild(t)}()}(),e.ui.position,e.widget("ui.draggable",e.ui.mouse,{version:"1.11.4",widgetEventPrefix:"drag",options:{addClasses:!0,appendTo:"parent",axis:!1,connectToSortable:!1,containment:!1,cursor:"auto",cursorAt:!1,grid:!1,handle:!1,helper:"original",iframeFix:!1,opacity:!1,refreshPositions:!1,revert:!1,revertDuration:500,scope:"default",scroll:!0,scrollSensitivity:20,scrollSpeed:20,snap:!1,snapMode:"both",snapTolerance:20,stack:!1,zIndex:!1,drag:null,start:null,stop:null},_create:function(){"original"===this.options.helper&&this._setPositionRelative(),this.options.addClasses&&this.element.addClass("ui-draggable"),this.options.disabled&&this.element.addClass("ui-draggable-disabled"),this._setHandleClassName(),this._mouseInit()},_setOption:function(e,t){this._super(e,t),"handle"===e&&(this._removeHandleClassName(),this._setHandleClassName())},_destroy:function(){return(this.helper||this.element).is(".ui-draggable-dragging")?(this.destroyOnClear=!0,void 0):(this.element.removeClass("ui-draggable ui-draggable-dragging ui-draggable-disabled"),this._removeHandleClassName(),this._mouseDestroy(),void 0)},_mouseCapture:function(t){var i=this.options;return this._blurActiveElement(t),this.helper||i.disabled||e(t.target).closest(".ui-resizable-handle").length>0?!1:(this.handle=this._getHandle(t),this.handle?(this._blockFrames(i.iframeFix===!0?"iframe":i.iframeFix),!0):!1)},_blockFrames:function(t){this.iframeBlocks=this.document.find(t).map(function(){var t=e(this);return e("<div>").css("position","absolute").appendTo(t.parent()).outerWidth(t.outerWidth()).outerHeight(t.outerHeight()).offset(t.offset())[0]})},_unblockFrames:function(){this.iframeBlocks&&(this.iframeBlocks.remove(),delete this.iframeBlocks)},_blurActiveElement:function(t){var i=this.document[0];if(this.handleElement.is(t.target))try{i.activeElement&&"body"!==i.activeElement.nodeName.toLowerCase()&&e(i.activeElement).blur()}catch(s){}},_mouseStart:function(t){var i=this.options;return this.helper=this._createHelper(t),this.helper.addClass("ui-draggable-dragging"),this._cacheHelperProportions(),e.ui.ddmanager&&(e.ui.ddmanager.current=this),this._cacheMargins(),this.cssPosition=this.helper.css("position"),this.scrollParent=this.helper.scrollParent(!0),this.offsetParent=this.helper.offsetParent(),this.hasFixedAncestor=this.helper.parents().filter(function(){return"fixed"===e(this).css("position")}).length>0,this.positionAbs=this.element.offset(),this._refreshOffsets(t),this.originalPosition=this.position=this._generatePosition(t,!1),this.originalPageX=t.pageX,this.originalPageY=t.pageY,i.cursorAt&&this._adjustOffsetFromHelper(i.cursorAt),this._setContainment(),this._trigger("start",t)===!1?(this._clear(),!1):(this._cacheHelperProportions(),e.ui.ddmanager&&!i.dropBehaviour&&e.ui.ddmanager.prepareOffsets(this,t),this._normalizeRightBottom(),this._mouseDrag(t,!0),e.ui.ddmanager&&e.ui.ddmanager.dragStart(this,t),!0)},_refreshOffsets:function(e){this.offset={top:this.positionAbs.top-this.margins.top,left:this.positionAbs.left-this.margins.left,scroll:!1,parent:this._getParentOffset(),relative:this._getRelativeOffset()},this.offset.click={left:e.pageX-this.offset.left,top:e.pageY-this.offset.top}},_mouseDrag:function(t,i){if(this.hasFixedAncestor&&(this.offset.parent=this._getParentOffset()),this.position=this._generatePosition(t,!0),this.positionAbs=this._convertPositionTo("absolute"),!i){var s=this._uiHash();if(this._trigger("drag",t,s)===!1)return this._mouseUp({}),!1;this.position=s.position}return this.helper[0].style.left=this.position.left+"px",this.helper[0].style.top=this.position.top+"px",e.ui.ddmanager&&e.ui.ddmanager.drag(this,t),!1},_mouseStop:function(t){var i=this,s=!1;return e.ui.ddmanager&&!this.options.dropBehaviour&&(s=e.ui.ddmanager.drop(this,t)),this.dropped&&(s=this.dropped,this.dropped=!1),"invalid"===this.options.revert&&!s||"valid"===this.options.revert&&s||this.options.revert===!0||e.isFunction(this.options.revert)&&this.options.revert.call(this.element,s)?e(this.helper).animate(this.originalPosition,parseInt(this.options.revertDuration,10),function(){i._trigger("stop",t)!==!1&&i._clear()}):this._trigger("stop",t)!==!1&&this._clear(),!1},_mouseUp:function(t){return this._unblockFrames(),e.ui.ddmanager&&e.ui.ddmanager.dragStop(this,t),this.handleElement.is(t.target)&&this.element.focus(),e.ui.mouse.prototype._mouseUp.call(this,t)},cancel:function(){return this.helper.is(".ui-draggable-dragging")?this._mouseUp({}):this._clear(),this},_getHandle:function(t){return this.options.handle?!!e(t.target).closest(this.element.find(this.options.handle)).length:!0},_setHandleClassName:function(){this.handleElement=this.options.handle?this.element.find(this.options.handle):this.element,this.handleElement.addClass("ui-draggable-handle")},_removeHandleClassName:function(){this.handleElement.removeClass("ui-draggable-handle")},_createHelper:function(t){var i=this.options,s=e.isFunction(i.helper),n=s?e(i.helper.apply(this.element[0],[t])):"clone"===i.helper?this.element.clone().removeAttr("id"):this.element;return n.parents("body").length||n.appendTo("parent"===i.appendTo?this.element[0].parentNode:i.appendTo),s&&n[0]===this.element[0]&&this._setPositionRelative(),n[0]===this.element[0]||/(fixed|absolute)/.test(n.css("position"))||n.css("position","absolute"),n},_setPositionRelative:function(){/^(?:r|a|f)/.test(this.element.css("position"))||(this.element[0].style.position="relative")},_adjustOffsetFromHelper:function(t){"string"==typeof t&&(t=t.split(" ")),e.isArray(t)&&(t={left:+t[0],top:+t[1]||0}),"left"in t&&(this.offset.click.left=t.left+this.margins.left),"right"in t&&(this.offset.click.left=this.helperProportions.width-t.right+this.margins.left),"top"in t&&(this.offset.click.top=t.top+this.margins.top),"bottom"in t&&(this.offset.click.top=this.helperProportions.height-t.bottom+this.margins.top)},_isRootNode:function(e){return/(html|body)/i.test(e.tagName)||e===this.document[0]},_getParentOffset:function(){var t=this.offsetParent.offset(),i=this.document[0];return"absolute"===this.cssPosition&&this.scrollParent[0]!==i&&e.contains(this.scrollParent[0],this.offsetParent[0])&&(t.left+=this.scrollParent.scrollLeft(),t.top+=this.scrollParent.scrollTop()),this._isRootNode(this.offsetParent[0])&&(t={top:0,left:0}),{top:t.top+(parseInt(this.offsetParent.css("borderTopWidth"),10)||0),left:t.left+(parseInt(this.offsetParent.css("borderLeftWidth"),10)||0)}},_getRelativeOffset:function(){if("relative"!==this.cssPosition)return{top:0,left:0};var e=this.element.position(),t=this._isRootNode(this.scrollParent[0]);return{top:e.top-(parseInt(this.helper.css("top"),10)||0)+(t?0:this.scrollParent.scrollTop()),left:e.left-(parseInt(this.helper.css("left"),10)||0)+(t?0:this.scrollParent.scrollLeft())}},_cacheMargins:function(){this.margins={left:parseInt(this.element.css("marginLeft"),10)||0,top:parseInt(this.element.css("marginTop"),10)||0,right:parseInt(this.element.css("marginRight"),10)||0,bottom:parseInt(this.element.css("marginBottom"),10)||0}},_cacheHelperProportions:function(){this.helperProportions={width:this.helper.outerWidth(),height:this.helper.outerHeight()}},_setContainment:function(){var t,i,s,n=this.options,a=this.document[0];return this.relativeContainer=null,n.containment?"window"===n.containment?(this.containment=[e(window).scrollLeft()-this.offset.relative.left-this.offset.parent.left,e(window).scrollTop()-this.offset.relative.top-this.offset.parent.top,e(window).scrollLeft()+e(window).width()-this.helperProportions.width-this.margins.left,e(window).scrollTop()+(e(window).height()||a.body.parentNode.scrollHeight)-this.helperProportions.height-this.margins.top],void 0):"document"===n.containment?(this.containment=[0,0,e(a).width()-this.helperProportions.width-this.margins.left,(e(a).height()||a.body.parentNode.scrollHeight)-this.helperProportions.height-this.margins.top],void 0):n.containment.constructor===Array?(this.containment=n.containment,void 0):("parent"===n.containment&&(n.containment=this.helper[0].parentNode),i=e(n.containment),s=i[0],s&&(t=/(scroll|auto)/.test(i.css("overflow")),this.containment=[(parseInt(i.css("borderLeftWidth"),10)||0)+(parseInt(i.css("paddingLeft"),10)||0),(parseInt(i.css("borderTopWidth"),10)||0)+(parseInt(i.css("paddingTop"),10)||0),(t?Math.max(s.scrollWidth,s.offsetWidth):s.offsetWidth)-(parseInt(i.css("borderRightWidth"),10)||0)-(parseInt(i.css("paddingRight"),10)||0)-this.helperProportions.width-this.margins.left-this.margins.right,(t?Math.max(s.scrollHeight,s.offsetHeight):s.offsetHeight)-(parseInt(i.css("borderBottomWidth"),10)||0)-(parseInt(i.css("paddingBottom"),10)||0)-this.helperProportions.height-this.margins.top-this.margins.bottom],this.relativeContainer=i),void 0):(this.containment=null,void 0)},_convertPositionTo:function(e,t){t||(t=this.position);var i="absolute"===e?1:-1,s=this._isRootNode(this.scrollParent[0]);return{top:t.top+this.offset.relative.top*i+this.offset.parent.top*i-("fixed"===this.cssPosition?-this.offset.scroll.top:s?0:this.offset.scroll.top)*i,left:t.left+this.offset.relative.left*i+this.offset.parent.left*i-("fixed"===this.cssPosition?-this.offset.scroll.left:s?0:this.offset.scroll.left)*i}},_generatePosition:function(e,t){var i,s,n,a,o=this.options,r=this._isRootNode(this.scrollParent[0]),h=e.pageX,l=e.pageY;return r&&this.offset.scroll||(this.offset.scroll={top:this.scrollParent.scrollTop(),left:this.scrollParent.scrollLeft()}),t&&(this.containment&&(this.relativeContainer?(s=this.relativeContainer.offset(),i=[this.containment[0]+s.left,this.containment[1]+s.top,this.containment[2]+s.left,this.containment[3]+s.top]):i=this.containment,e.pageX-this.offset.click.left<i[0]&&(h=i[0]+this.offset.click.left),e.pageY-this.offset.click.top<i[1]&&(l=i[1]+this.offset.click.top),e.pageX-this.offset.click.left>i[2]&&(h=i[2]+this.offset.click.left),e.pageY-this.offset.click.top>i[3]&&(l=i[3]+this.offset.click.top)),o.grid&&(n=o.grid[1]?this.originalPageY+Math.round((l-this.originalPageY)/o.grid[1])*o.grid[1]:this.originalPageY,l=i?n-this.offset.click.top>=i[1]||n-this.offset.click.top>i[3]?n:n-this.offset.click.top>=i[1]?n-o.grid[1]:n+o.grid[1]:n,a=o.grid[0]?this.originalPageX+Math.round((h-this.originalPageX)/o.grid[0])*o.grid[0]:this.originalPageX,h=i?a-this.offset.click.left>=i[0]||a-this.offset.click.left>i[2]?a:a-this.offset.click.left>=i[0]?a-o.grid[0]:a+o.grid[0]:a),"y"===o.axis&&(h=this.originalPageX),"x"===o.axis&&(l=this.originalPageY)),{top:l-this.offset.click.top-this.offset.relative.top-this.offset.parent.top+("fixed"===this.cssPosition?-this.offset.scroll.top:r?0:this.offset.scroll.top),left:h-this.offset.click.left-this.offset.relative.left-this.offset.parent.left+("fixed"===this.cssPosition?-this.offset.scroll.left:r?0:this.offset.scroll.left)}},_clear:function(){this.helper.removeClass("ui-draggable-dragging"),this.helper[0]===this.element[0]||this.cancelHelperRemoval||this.helper.remove(),this.helper=null,this.cancelHelperRemoval=!1,this.destroyOnClear&&this.destroy()},_normalizeRightBottom:function(){"y"!==this.options.axis&&"auto"!==this.helper.css("right")&&(this.helper.width(this.helper.width()),this.helper.css("right","auto")),"x"!==this.options.axis&&"auto"!==this.helper.css("bottom")&&(this.helper.height(this.helper.height()),this.helper.css("bottom","auto"))},_trigger:function(t,i,s){return s=s||this._uiHash(),e.ui.plugin.call(this,t,[i,s,this],!0),/^(drag|start|stop)/.test(t)&&(this.positionAbs=this._convertPositionTo("absolute"),s.offset=this.positionAbs),e.Widget.prototype._trigger.call(this,t,i,s)},plugins:{},_uiHash:function(){return{helper:this.helper,position:this.position,originalPosition:this.originalPosition,offset:this.positionAbs}}}),e.ui.plugin.add("draggable","connectToSortable",{start:function(t,i,s){var n=e.extend({},i,{item:s.element});s.sortables=[],e(s.options.connectToSortable).each(function(){var i=e(this).sortable("instance");i&&!i.options.disabled&&(s.sortables.push(i),i.refreshPositions(),i._trigger("activate",t,n))})},stop:function(t,i,s){var n=e.extend({},i,{item:s.element});s.cancelHelperRemoval=!1,e.each(s.sortables,function(){var e=this;e.isOver?(e.isOver=0,s.cancelHelperRemoval=!0,e.cancelHelperRemoval=!1,e._storedCSS={position:e.placeholder.css("position"),top:e.placeholder.css("top"),left:e.placeholder.css("left")},e._mouseStop(t),e.options.helper=e.options._helper):(e.cancelHelperRemoval=!0,e._trigger("deactivate",t,n))})},drag:function(t,i,s){e.each(s.sortables,function(){var n=!1,a=this;a.positionAbs=s.positionAbs,a.helperProportions=s.helperProportions,a.offset.click=s.offset.click,a._intersectsWith(a.containerCache)&&(n=!0,e.each(s.sortables,function(){return this.positionAbs=s.positionAbs,this.helperProportions=s.helperProportions,this.offset.click=s.offset.click,this!==a&&this._intersectsWith(this.containerCache)&&e.contains(a.element[0],this.element[0])&&(n=!1),n
})),n?(a.isOver||(a.isOver=1,s._parent=i.helper.parent(),a.currentItem=i.helper.appendTo(a.element).data("ui-sortable-item",!0),a.options._helper=a.options.helper,a.options.helper=function(){return i.helper[0]},t.target=a.currentItem[0],a._mouseCapture(t,!0),a._mouseStart(t,!0,!0),a.offset.click.top=s.offset.click.top,a.offset.click.left=s.offset.click.left,a.offset.parent.left-=s.offset.parent.left-a.offset.parent.left,a.offset.parent.top-=s.offset.parent.top-a.offset.parent.top,s._trigger("toSortable",t),s.dropped=a.element,e.each(s.sortables,function(){this.refreshPositions()}),s.currentItem=s.element,a.fromOutside=s),a.currentItem&&(a._mouseDrag(t),i.position=a.position)):a.isOver&&(a.isOver=0,a.cancelHelperRemoval=!0,a.options._revert=a.options.revert,a.options.revert=!1,a._trigger("out",t,a._uiHash(a)),a._mouseStop(t,!0),a.options.revert=a.options._revert,a.options.helper=a.options._helper,a.placeholder&&a.placeholder.remove(),i.helper.appendTo(s._parent),s._refreshOffsets(t),i.position=s._generatePosition(t,!0),s._trigger("fromSortable",t),s.dropped=!1,e.each(s.sortables,function(){this.refreshPositions()}))})}}),e.ui.plugin.add("draggable","cursor",{start:function(t,i,s){var n=e("body"),a=s.options;n.css("cursor")&&(a._cursor=n.css("cursor")),n.css("cursor",a.cursor)},stop:function(t,i,s){var n=s.options;n._cursor&&e("body").css("cursor",n._cursor)}}),e.ui.plugin.add("draggable","opacity",{start:function(t,i,s){var n=e(i.helper),a=s.options;n.css("opacity")&&(a._opacity=n.css("opacity")),n.css("opacity",a.opacity)},stop:function(t,i,s){var n=s.options;n._opacity&&e(i.helper).css("opacity",n._opacity)}}),e.ui.plugin.add("draggable","scroll",{start:function(e,t,i){i.scrollParentNotHidden||(i.scrollParentNotHidden=i.helper.scrollParent(!1)),i.scrollParentNotHidden[0]!==i.document[0]&&"HTML"!==i.scrollParentNotHidden[0].tagName&&(i.overflowOffset=i.scrollParentNotHidden.offset())},drag:function(t,i,s){var n=s.options,a=!1,o=s.scrollParentNotHidden[0],r=s.document[0];o!==r&&"HTML"!==o.tagName?(n.axis&&"x"===n.axis||(s.overflowOffset.top+o.offsetHeight-t.pageY<n.scrollSensitivity?o.scrollTop=a=o.scrollTop+n.scrollSpeed:t.pageY-s.overflowOffset.top<n.scrollSensitivity&&(o.scrollTop=a=o.scrollTop-n.scrollSpeed)),n.axis&&"y"===n.axis||(s.overflowOffset.left+o.offsetWidth-t.pageX<n.scrollSensitivity?o.scrollLeft=a=o.scrollLeft+n.scrollSpeed:t.pageX-s.overflowOffset.left<n.scrollSensitivity&&(o.scrollLeft=a=o.scrollLeft-n.scrollSpeed))):(n.axis&&"x"===n.axis||(t.pageY-e(r).scrollTop()<n.scrollSensitivity?a=e(r).scrollTop(e(r).scrollTop()-n.scrollSpeed):e(window).height()-(t.pageY-e(r).scrollTop())<n.scrollSensitivity&&(a=e(r).scrollTop(e(r).scrollTop()+n.scrollSpeed))),n.axis&&"y"===n.axis||(t.pageX-e(r).scrollLeft()<n.scrollSensitivity?a=e(r).scrollLeft(e(r).scrollLeft()-n.scrollSpeed):e(window).width()-(t.pageX-e(r).scrollLeft())<n.scrollSensitivity&&(a=e(r).scrollLeft(e(r).scrollLeft()+n.scrollSpeed)))),a!==!1&&e.ui.ddmanager&&!n.dropBehaviour&&e.ui.ddmanager.prepareOffsets(s,t)}}),e.ui.plugin.add("draggable","snap",{start:function(t,i,s){var n=s.options;s.snapElements=[],e(n.snap.constructor!==String?n.snap.items||":data(ui-draggable)":n.snap).each(function(){var t=e(this),i=t.offset();this!==s.element[0]&&s.snapElements.push({item:this,width:t.outerWidth(),height:t.outerHeight(),top:i.top,left:i.left})})},drag:function(t,i,s){var n,a,o,r,h,l,u,d,c,p,f=s.options,m=f.snapTolerance,g=i.offset.left,v=g+s.helperProportions.width,y=i.offset.top,b=y+s.helperProportions.height;for(c=s.snapElements.length-1;c>=0;c--)h=s.snapElements[c].left-s.margins.left,l=h+s.snapElements[c].width,u=s.snapElements[c].top-s.margins.top,d=u+s.snapElements[c].height,h-m>v||g>l+m||u-m>b||y>d+m||!e.contains(s.snapElements[c].item.ownerDocument,s.snapElements[c].item)?(s.snapElements[c].snapping&&s.options.snap.release&&s.options.snap.release.call(s.element,t,e.extend(s._uiHash(),{snapItem:s.snapElements[c].item})),s.snapElements[c].snapping=!1):("inner"!==f.snapMode&&(n=m>=Math.abs(u-b),a=m>=Math.abs(d-y),o=m>=Math.abs(h-v),r=m>=Math.abs(l-g),n&&(i.position.top=s._convertPositionTo("relative",{top:u-s.helperProportions.height,left:0}).top),a&&(i.position.top=s._convertPositionTo("relative",{top:d,left:0}).top),o&&(i.position.left=s._convertPositionTo("relative",{top:0,left:h-s.helperProportions.width}).left),r&&(i.position.left=s._convertPositionTo("relative",{top:0,left:l}).left)),p=n||a||o||r,"outer"!==f.snapMode&&(n=m>=Math.abs(u-y),a=m>=Math.abs(d-b),o=m>=Math.abs(h-g),r=m>=Math.abs(l-v),n&&(i.position.top=s._convertPositionTo("relative",{top:u,left:0}).top),a&&(i.position.top=s._convertPositionTo("relative",{top:d-s.helperProportions.height,left:0}).top),o&&(i.position.left=s._convertPositionTo("relative",{top:0,left:h}).left),r&&(i.position.left=s._convertPositionTo("relative",{top:0,left:l-s.helperProportions.width}).left)),!s.snapElements[c].snapping&&(n||a||o||r||p)&&s.options.snap.snap&&s.options.snap.snap.call(s.element,t,e.extend(s._uiHash(),{snapItem:s.snapElements[c].item})),s.snapElements[c].snapping=n||a||o||r||p)}}),e.ui.plugin.add("draggable","stack",{start:function(t,i,s){var n,a=s.options,o=e.makeArray(e(a.stack)).sort(function(t,i){return(parseInt(e(t).css("zIndex"),10)||0)-(parseInt(e(i).css("zIndex"),10)||0)});o.length&&(n=parseInt(e(o[0]).css("zIndex"),10)||0,e(o).each(function(t){e(this).css("zIndex",n+t)}),this.css("zIndex",n+o.length))}}),e.ui.plugin.add("draggable","zIndex",{start:function(t,i,s){var n=e(i.helper),a=s.options;n.css("zIndex")&&(a._zIndex=n.css("zIndex")),n.css("zIndex",a.zIndex)},stop:function(t,i,s){var n=s.options;n._zIndex&&e(i.helper).css("zIndex",n._zIndex)}}),e.ui.draggable,e.widget("ui.droppable",{version:"1.11.4",widgetEventPrefix:"drop",options:{accept:"*",activeClass:!1,addClasses:!0,greedy:!1,hoverClass:!1,scope:"default",tolerance:"intersect",activate:null,deactivate:null,drop:null,out:null,over:null},_create:function(){var t,i=this.options,s=i.accept;this.isover=!1,this.isout=!0,this.accept=e.isFunction(s)?s:function(e){return e.is(s)},this.proportions=function(){return arguments.length?(t=arguments[0],void 0):t?t:t={width:this.element[0].offsetWidth,height:this.element[0].offsetHeight}},this._addToManager(i.scope),i.addClasses&&this.element.addClass("ui-droppable")},_addToManager:function(t){e.ui.ddmanager.droppables[t]=e.ui.ddmanager.droppables[t]||[],e.ui.ddmanager.droppables[t].push(this)},_splice:function(e){for(var t=0;e.length>t;t++)e[t]===this&&e.splice(t,1)},_destroy:function(){var t=e.ui.ddmanager.droppables[this.options.scope];this._splice(t),this.element.removeClass("ui-droppable ui-droppable-disabled")},_setOption:function(t,i){if("accept"===t)this.accept=e.isFunction(i)?i:function(e){return e.is(i)};else if("scope"===t){var s=e.ui.ddmanager.droppables[this.options.scope];this._splice(s),this._addToManager(i)}this._super(t,i)},_activate:function(t){var i=e.ui.ddmanager.current;this.options.activeClass&&this.element.addClass(this.options.activeClass),i&&this._trigger("activate",t,this.ui(i))},_deactivate:function(t){var i=e.ui.ddmanager.current;this.options.activeClass&&this.element.removeClass(this.options.activeClass),i&&this._trigger("deactivate",t,this.ui(i))},_over:function(t){var i=e.ui.ddmanager.current;i&&(i.currentItem||i.element)[0]!==this.element[0]&&this.accept.call(this.element[0],i.currentItem||i.element)&&(this.options.hoverClass&&this.element.addClass(this.options.hoverClass),this._trigger("over",t,this.ui(i)))},_out:function(t){var i=e.ui.ddmanager.current;i&&(i.currentItem||i.element)[0]!==this.element[0]&&this.accept.call(this.element[0],i.currentItem||i.element)&&(this.options.hoverClass&&this.element.removeClass(this.options.hoverClass),this._trigger("out",t,this.ui(i)))},_drop:function(t,i){var s=i||e.ui.ddmanager.current,n=!1;return s&&(s.currentItem||s.element)[0]!==this.element[0]?(this.element.find(":data(ui-droppable)").not(".ui-draggable-dragging").each(function(){var i=e(this).droppable("instance");return i.options.greedy&&!i.options.disabled&&i.options.scope===s.options.scope&&i.accept.call(i.element[0],s.currentItem||s.element)&&e.ui.intersect(s,e.extend(i,{offset:i.element.offset()}),i.options.tolerance,t)?(n=!0,!1):void 0}),n?!1:this.accept.call(this.element[0],s.currentItem||s.element)?(this.options.activeClass&&this.element.removeClass(this.options.activeClass),this.options.hoverClass&&this.element.removeClass(this.options.hoverClass),this._trigger("drop",t,this.ui(s)),this.element):!1):!1},ui:function(e){return{draggable:e.currentItem||e.element,helper:e.helper,position:e.position,offset:e.positionAbs}}}),e.ui.intersect=function(){function e(e,t,i){return e>=t&&t+i>e}return function(t,i,s,n){if(!i.offset)return!1;var a=(t.positionAbs||t.position.absolute).left+t.margins.left,o=(t.positionAbs||t.position.absolute).top+t.margins.top,r=a+t.helperProportions.width,h=o+t.helperProportions.height,l=i.offset.left,u=i.offset.top,d=l+i.proportions().width,c=u+i.proportions().height;switch(s){case"fit":return a>=l&&d>=r&&o>=u&&c>=h;case"intersect":return a+t.helperProportions.width/2>l&&d>r-t.helperProportions.width/2&&o+t.helperProportions.height/2>u&&c>h-t.helperProportions.height/2;case"pointer":return e(n.pageY,u,i.proportions().height)&&e(n.pageX,l,i.proportions().width);case"touch":return(o>=u&&c>=o||h>=u&&c>=h||u>o&&h>c)&&(a>=l&&d>=a||r>=l&&d>=r||l>a&&r>d);default:return!1}}}(),e.ui.ddmanager={current:null,droppables:{"default":[]},prepareOffsets:function(t,i){var s,n,a=e.ui.ddmanager.droppables[t.options.scope]||[],o=i?i.type:null,r=(t.currentItem||t.element).find(":data(ui-droppable)").addBack();e:for(s=0;a.length>s;s++)if(!(a[s].options.disabled||t&&!a[s].accept.call(a[s].element[0],t.currentItem||t.element))){for(n=0;r.length>n;n++)if(r[n]===a[s].element[0]){a[s].proportions().height=0;continue e}a[s].visible="none"!==a[s].element.css("display"),a[s].visible&&("mousedown"===o&&a[s]._activate.call(a[s],i),a[s].offset=a[s].element.offset(),a[s].proportions({width:a[s].element[0].offsetWidth,height:a[s].element[0].offsetHeight}))}},drop:function(t,i){var s=!1;return e.each((e.ui.ddmanager.droppables[t.options.scope]||[]).slice(),function(){this.options&&(!this.options.disabled&&this.visible&&e.ui.intersect(t,this,this.options.tolerance,i)&&(s=this._drop.call(this,i)||s),!this.options.disabled&&this.visible&&this.accept.call(this.element[0],t.currentItem||t.element)&&(this.isout=!0,this.isover=!1,this._deactivate.call(this,i)))}),s},dragStart:function(t,i){t.element.parentsUntil("body").bind("scroll.droppable",function(){t.options.refreshPositions||e.ui.ddmanager.prepareOffsets(t,i)})},drag:function(t,i){t.options.refreshPositions&&e.ui.ddmanager.prepareOffsets(t,i),e.each(e.ui.ddmanager.droppables[t.options.scope]||[],function(){if(!this.options.disabled&&!this.greedyChild&&this.visible){var s,n,a,o=e.ui.intersect(t,this,this.options.tolerance,i),r=!o&&this.isover?"isout":o&&!this.isover?"isover":null;r&&(this.options.greedy&&(n=this.options.scope,a=this.element.parents(":data(ui-droppable)").filter(function(){return e(this).droppable("instance").options.scope===n}),a.length&&(s=e(a[0]).droppable("instance"),s.greedyChild="isover"===r)),s&&"isover"===r&&(s.isover=!1,s.isout=!0,s._out.call(s,i)),this[r]=!0,this["isout"===r?"isover":"isout"]=!1,this["isover"===r?"_over":"_out"].call(this,i),s&&"isout"===r&&(s.isout=!1,s.isover=!0,s._over.call(s,i)))}})},dragStop:function(t,i){t.element.parentsUntil("body").unbind("scroll.droppable"),t.options.refreshPositions||e.ui.ddmanager.prepareOffsets(t,i)}},e.ui.droppable,e.widget("ui.resizable",e.ui.mouse,{version:"1.11.4",widgetEventPrefix:"resize",options:{alsoResize:!1,animate:!1,animateDuration:"slow",animateEasing:"swing",aspectRatio:!1,autoHide:!1,containment:!1,ghost:!1,grid:!1,handles:"e,s,se",helper:!1,maxHeight:null,maxWidth:null,minHeight:10,minWidth:10,zIndex:90,resize:null,start:null,stop:null},_num:function(e){return parseInt(e,10)||0},_isNumber:function(e){return!isNaN(parseInt(e,10))},_hasScroll:function(t,i){if("hidden"===e(t).css("overflow"))return!1;var s=i&&"left"===i?"scrollLeft":"scrollTop",n=!1;return t[s]>0?!0:(t[s]=1,n=t[s]>0,t[s]=0,n)},_create:function(){var t,i,s,n,a,o=this,r=this.options;if(this.element.addClass("ui-resizable"),e.extend(this,{_aspectRatio:!!r.aspectRatio,aspectRatio:r.aspectRatio,originalElement:this.element,_proportionallyResizeElements:[],_helper:r.helper||r.ghost||r.animate?r.helper||"ui-resizable-helper":null}),this.element[0].nodeName.match(/^(canvas|textarea|input|select|button|img)$/i)&&(this.element.wrap(e("<div class='ui-wrapper' style='overflow: hidden;'></div>").css({position:this.element.css("position"),width:this.element.outerWidth(),height:this.element.outerHeight(),top:this.element.css("top"),left:this.element.css("left")})),this.element=this.element.parent().data("ui-resizable",this.element.resizable("instance")),this.elementIsWrapper=!0,this.element.css({marginLeft:this.originalElement.css("marginLeft"),marginTop:this.originalElement.css("marginTop"),marginRight:this.originalElement.css("marginRight"),marginBottom:this.originalElement.css("marginBottom")}),this.originalElement.css({marginLeft:0,marginTop:0,marginRight:0,marginBottom:0}),this.originalResizeStyle=this.originalElement.css("resize"),this.originalElement.css("resize","none"),this._proportionallyResizeElements.push(this.originalElement.css({position:"static",zoom:1,display:"block"})),this.originalElement.css({margin:this.originalElement.css("margin")}),this._proportionallyResize()),this.handles=r.handles||(e(".ui-resizable-handle",this.element).length?{n:".ui-resizable-n",e:".ui-resizable-e",s:".ui-resizable-s",w:".ui-resizable-w",se:".ui-resizable-se",sw:".ui-resizable-sw",ne:".ui-resizable-ne",nw:".ui-resizable-nw"}:"e,s,se"),this._handles=e(),this.handles.constructor===String)for("all"===this.handles&&(this.handles="n,e,s,w,se,sw,ne,nw"),t=this.handles.split(","),this.handles={},i=0;t.length>i;i++)s=e.trim(t[i]),a="ui-resizable-"+s,n=e("<div class='ui-resizable-handle "+a+"'></div>"),n.css({zIndex:r.zIndex}),"se"===s&&n.addClass("ui-icon ui-icon-gripsmall-diagonal-se"),this.handles[s]=".ui-resizable-"+s,this.element.append(n);this._renderAxis=function(t){var i,s,n,a;t=t||this.element;for(i in this.handles)this.handles[i].constructor===String?this.handles[i]=this.element.children(this.handles[i]).first().show():(this.handles[i].jquery||this.handles[i].nodeType)&&(this.handles[i]=e(this.handles[i]),this._on(this.handles[i],{mousedown:o._mouseDown})),this.elementIsWrapper&&this.originalElement[0].nodeName.match(/^(textarea|input|select|button)$/i)&&(s=e(this.handles[i],this.element),a=/sw|ne|nw|se|n|s/.test(i)?s.outerHeight():s.outerWidth(),n=["padding",/ne|nw|n/.test(i)?"Top":/se|sw|s/.test(i)?"Bottom":/^e$/.test(i)?"Right":"Left"].join(""),t.css(n,a),this._proportionallyResize()),this._handles=this._handles.add(this.handles[i])},this._renderAxis(this.element),this._handles=this._handles.add(this.element.find(".ui-resizable-handle")),this._handles.disableSelection(),this._handles.mouseover(function(){o.resizing||(this.className&&(n=this.className.match(/ui-resizable-(se|sw|ne|nw|n|e|s|w)/i)),o.axis=n&&n[1]?n[1]:"se")}),r.autoHide&&(this._handles.hide(),e(this.element).addClass("ui-resizable-autohide").mouseenter(function(){r.disabled||(e(this).removeClass("ui-resizable-autohide"),o._handles.show())}).mouseleave(function(){r.disabled||o.resizing||(e(this).addClass("ui-resizable-autohide"),o._handles.hide())})),this._mouseInit()},_destroy:function(){this._mouseDestroy();var t,i=function(t){e(t).removeClass("ui-resizable ui-resizable-disabled ui-resizable-resizing").removeData("resizable").removeData("ui-resizable").unbind(".resizable").find(".ui-resizable-handle").remove()};return this.elementIsWrapper&&(i(this.element),t=this.element,this.originalElement.css({position:t.css("position"),width:t.outerWidth(),height:t.outerHeight(),top:t.css("top"),left:t.css("left")}).insertAfter(t),t.remove()),this.originalElement.css("resize",this.originalResizeStyle),i(this.originalElement),this},_mouseCapture:function(t){var i,s,n=!1;for(i in this.handles)s=e(this.handles[i])[0],(s===t.target||e.contains(s,t.target))&&(n=!0);return!this.options.disabled&&n},_mouseStart:function(t){var i,s,n,a=this.options,o=this.element;return this.resizing=!0,this._renderProxy(),i=this._num(this.helper.css("left")),s=this._num(this.helper.css("top")),a.containment&&(i+=e(a.containment).scrollLeft()||0,s+=e(a.containment).scrollTop()||0),this.offset=this.helper.offset(),this.position={left:i,top:s},this.size=this._helper?{width:this.helper.width(),height:this.helper.height()}:{width:o.width(),height:o.height()},this.originalSize=this._helper?{width:o.outerWidth(),height:o.outerHeight()}:{width:o.width(),height:o.height()},this.sizeDiff={width:o.outerWidth()-o.width(),height:o.outerHeight()-o.height()},this.originalPosition={left:i,top:s},this.originalMousePosition={left:t.pageX,top:t.pageY},this.aspectRatio="number"==typeof a.aspectRatio?a.aspectRatio:this.originalSize.width/this.originalSize.height||1,n=e(".ui-resizable-"+this.axis).css("cursor"),e("body").css("cursor","auto"===n?this.axis+"-resize":n),o.addClass("ui-resizable-resizing"),this._propagate("start",t),!0},_mouseDrag:function(t){var i,s,n=this.originalMousePosition,a=this.axis,o=t.pageX-n.left||0,r=t.pageY-n.top||0,h=this._change[a];return this._updatePrevProperties(),h?(i=h.apply(this,[t,o,r]),this._updateVirtualBoundaries(t.shiftKey),(this._aspectRatio||t.shiftKey)&&(i=this._updateRatio(i,t)),i=this._respectSize(i,t),this._updateCache(i),this._propagate("resize",t),s=this._applyChanges(),!this._helper&&this._proportionallyResizeElements.length&&this._proportionallyResize(),e.isEmptyObject(s)||(this._updatePrevProperties(),this._trigger("resize",t,this.ui()),this._applyChanges()),!1):!1},_mouseStop:function(t){this.resizing=!1;var i,s,n,a,o,r,h,l=this.options,u=this;return this._helper&&(i=this._proportionallyResizeElements,s=i.length&&/textarea/i.test(i[0].nodeName),n=s&&this._hasScroll(i[0],"left")?0:u.sizeDiff.height,a=s?0:u.sizeDiff.width,o={width:u.helper.width()-a,height:u.helper.height()-n},r=parseInt(u.element.css("left"),10)+(u.position.left-u.originalPosition.left)||null,h=parseInt(u.element.css("top"),10)+(u.position.top-u.originalPosition.top)||null,l.animate||this.element.css(e.extend(o,{top:h,left:r})),u.helper.height(u.size.height),u.helper.width(u.size.width),this._helper&&!l.animate&&this._proportionallyResize()),e("body").css("cursor","auto"),this.element.removeClass("ui-resizable-resizing"),this._propagate("stop",t),this._helper&&this.helper.remove(),!1},_updatePrevProperties:function(){this.prevPosition={top:this.position.top,left:this.position.left},this.prevSize={width:this.size.width,height:this.size.height}},_applyChanges:function(){var e={};return this.position.top!==this.prevPosition.top&&(e.top=this.position.top+"px"),this.position.left!==this.prevPosition.left&&(e.left=this.position.left+"px"),this.size.width!==this.prevSize.width&&(e.width=this.size.width+"px"),this.size.height!==this.prevSize.height&&(e.height=this.size.height+"px"),this.helper.css(e),e},_updateVirtualBoundaries:function(e){var t,i,s,n,a,o=this.options;a={minWidth:this._isNumber(o.minWidth)?o.minWidth:0,maxWidth:this._isNumber(o.maxWidth)?o.maxWidth:1/0,minHeight:this._isNumber(o.minHeight)?o.minHeight:0,maxHeight:this._isNumber(o.maxHeight)?o.maxHeight:1/0},(this._aspectRatio||e)&&(t=a.minHeight*this.aspectRatio,s=a.minWidth/this.aspectRatio,i=a.maxHeight*this.aspectRatio,n=a.maxWidth/this.aspectRatio,t>a.minWidth&&(a.minWidth=t),s>a.minHeight&&(a.minHeight=s),a.maxWidth>i&&(a.maxWidth=i),a.maxHeight>n&&(a.maxHeight=n)),this._vBoundaries=a},_updateCache:function(e){this.offset=this.helper.offset(),this._isNumber(e.left)&&(this.position.left=e.left),this._isNumber(e.top)&&(this.position.top=e.top),this._isNumber(e.height)&&(this.size.height=e.height),this._isNumber(e.width)&&(this.size.width=e.width)},_updateRatio:function(e){var t=this.position,i=this.size,s=this.axis;return this._isNumber(e.height)?e.width=e.height*this.aspectRatio:this._isNumber(e.width)&&(e.height=e.width/this.aspectRatio),"sw"===s&&(e.left=t.left+(i.width-e.width),e.top=null),"nw"===s&&(e.top=t.top+(i.height-e.height),e.left=t.left+(i.width-e.width)),e},_respectSize:function(e){var t=this._vBoundaries,i=this.axis,s=this._isNumber(e.width)&&t.maxWidth&&t.maxWidth<e.width,n=this._isNumber(e.height)&&t.maxHeight&&t.maxHeight<e.height,a=this._isNumber(e.width)&&t.minWidth&&t.minWidth>e.width,o=this._isNumber(e.height)&&t.minHeight&&t.minHeight>e.height,r=this.originalPosition.left+this.originalSize.width,h=this.position.top+this.size.height,l=/sw|nw|w/.test(i),u=/nw|ne|n/.test(i);return a&&(e.width=t.minWidth),o&&(e.height=t.minHeight),s&&(e.width=t.maxWidth),n&&(e.height=t.maxHeight),a&&l&&(e.left=r-t.minWidth),s&&l&&(e.left=r-t.maxWidth),o&&u&&(e.top=h-t.minHeight),n&&u&&(e.top=h-t.maxHeight),e.width||e.height||e.left||!e.top?e.width||e.height||e.top||!e.left||(e.left=null):e.top=null,e},_getPaddingPlusBorderDimensions:function(e){for(var t=0,i=[],s=[e.css("borderTopWidth"),e.css("borderRightWidth"),e.css("borderBottomWidth"),e.css("borderLeftWidth")],n=[e.css("paddingTop"),e.css("paddingRight"),e.css("paddingBottom"),e.css("paddingLeft")];4>t;t++)i[t]=parseInt(s[t],10)||0,i[t]+=parseInt(n[t],10)||0;return{height:i[0]+i[2],width:i[1]+i[3]}},_proportionallyResize:function(){if(this._proportionallyResizeElements.length)for(var e,t=0,i=this.helper||this.element;this._proportionallyResizeElements.length>t;t++)e=this._proportionallyResizeElements[t],this.outerDimensions||(this.outerDimensions=this._getPaddingPlusBorderDimensions(e)),e.css({height:i.height()-this.outerDimensions.height||0,width:i.width()-this.outerDimensions.width||0})},_renderProxy:function(){var t=this.element,i=this.options;this.elementOffset=t.offset(),this._helper?(this.helper=this.helper||e("<div style='overflow:hidden;'></div>"),this.helper.addClass(this._helper).css({width:this.element.outerWidth()-1,height:this.element.outerHeight()-1,position:"absolute",left:this.elementOffset.left+"px",top:this.elementOffset.top+"px",zIndex:++i.zIndex}),this.helper.appendTo("body").disableSelection()):this.helper=this.element},_change:{e:function(e,t){return{width:this.originalSize.width+t}},w:function(e,t){var i=this.originalSize,s=this.originalPosition;return{left:s.left+t,width:i.width-t}},n:function(e,t,i){var s=this.originalSize,n=this.originalPosition;return{top:n.top+i,height:s.height-i}},s:function(e,t,i){return{height:this.originalSize.height+i}},se:function(t,i,s){return e.extend(this._change.s.apply(this,arguments),this._change.e.apply(this,[t,i,s]))},sw:function(t,i,s){return e.extend(this._change.s.apply(this,arguments),this._change.w.apply(this,[t,i,s]))},ne:function(t,i,s){return e.extend(this._change.n.apply(this,arguments),this._change.e.apply(this,[t,i,s]))},nw:function(t,i,s){return e.extend(this._change.n.apply(this,arguments),this._change.w.apply(this,[t,i,s]))}},_propagate:function(t,i){e.ui.plugin.call(this,t,[i,this.ui()]),"resize"!==t&&this._trigger(t,i,this.ui())},plugins:{},ui:function(){return{originalElement:this.originalElement,element:this.element,helper:this.helper,position:this.position,size:this.size,originalSize:this.originalSize,originalPosition:this.originalPosition}}}),e.ui.plugin.add("resizable","animate",{stop:function(t){var i=e(this).resizable("instance"),s=i.options,n=i._proportionallyResizeElements,a=n.length&&/textarea/i.test(n[0].nodeName),o=a&&i._hasScroll(n[0],"left")?0:i.sizeDiff.height,r=a?0:i.sizeDiff.width,h={width:i.size.width-r,height:i.size.height-o},l=parseInt(i.element.css("left"),10)+(i.position.left-i.originalPosition.left)||null,u=parseInt(i.element.css("top"),10)+(i.position.top-i.originalPosition.top)||null;i.element.animate(e.extend(h,u&&l?{top:u,left:l}:{}),{duration:s.animateDuration,easing:s.animateEasing,step:function(){var s={width:parseInt(i.element.css("width"),10),height:parseInt(i.element.css("height"),10),top:parseInt(i.element.css("top"),10),left:parseInt(i.element.css("left"),10)};n&&n.length&&e(n[0]).css({width:s.width,height:s.height}),i._updateCache(s),i._propagate("resize",t)}})}}),e.ui.plugin.add("resizable","containment",{start:function(){var t,i,s,n,a,o,r,h=e(this).resizable("instance"),l=h.options,u=h.element,d=l.containment,c=d instanceof e?d.get(0):/parent/.test(d)?u.parent().get(0):d;c&&(h.containerElement=e(c),/document/.test(d)||d===document?(h.containerOffset={left:0,top:0},h.containerPosition={left:0,top:0},h.parentData={element:e(document),left:0,top:0,width:e(document).width(),height:e(document).height()||document.body.parentNode.scrollHeight}):(t=e(c),i=[],e(["Top","Right","Left","Bottom"]).each(function(e,s){i[e]=h._num(t.css("padding"+s))}),h.containerOffset=t.offset(),h.containerPosition=t.position(),h.containerSize={height:t.innerHeight()-i[3],width:t.innerWidth()-i[1]},s=h.containerOffset,n=h.containerSize.height,a=h.containerSize.width,o=h._hasScroll(c,"left")?c.scrollWidth:a,r=h._hasScroll(c)?c.scrollHeight:n,h.parentData={element:c,left:s.left,top:s.top,width:o,height:r}))},resize:function(t){var i,s,n,a,o=e(this).resizable("instance"),r=o.options,h=o.containerOffset,l=o.position,u=o._aspectRatio||t.shiftKey,d={top:0,left:0},c=o.containerElement,p=!0;c[0]!==document&&/static/.test(c.css("position"))&&(d=h),l.left<(o._helper?h.left:0)&&(o.size.width=o.size.width+(o._helper?o.position.left-h.left:o.position.left-d.left),u&&(o.size.height=o.size.width/o.aspectRatio,p=!1),o.position.left=r.helper?h.left:0),l.top<(o._helper?h.top:0)&&(o.size.height=o.size.height+(o._helper?o.position.top-h.top:o.position.top),u&&(o.size.width=o.size.height*o.aspectRatio,p=!1),o.position.top=o._helper?h.top:0),n=o.containerElement.get(0)===o.element.parent().get(0),a=/relative|absolute/.test(o.containerElement.css("position")),n&&a?(o.offset.left=o.parentData.left+o.position.left,o.offset.top=o.parentData.top+o.position.top):(o.offset.left=o.element.offset().left,o.offset.top=o.element.offset().top),i=Math.abs(o.sizeDiff.width+(o._helper?o.offset.left-d.left:o.offset.left-h.left)),s=Math.abs(o.sizeDiff.height+(o._helper?o.offset.top-d.top:o.offset.top-h.top)),i+o.size.width>=o.parentData.width&&(o.size.width=o.parentData.width-i,u&&(o.size.height=o.size.width/o.aspectRatio,p=!1)),s+o.size.height>=o.parentData.height&&(o.size.height=o.parentData.height-s,u&&(o.size.width=o.size.height*o.aspectRatio,p=!1)),p||(o.position.left=o.prevPosition.left,o.position.top=o.prevPosition.top,o.size.width=o.prevSize.width,o.size.height=o.prevSize.height)},stop:function(){var t=e(this).resizable("instance"),i=t.options,s=t.containerOffset,n=t.containerPosition,a=t.containerElement,o=e(t.helper),r=o.offset(),h=o.outerWidth()-t.sizeDiff.width,l=o.outerHeight()-t.sizeDiff.height;t._helper&&!i.animate&&/relative/.test(a.css("position"))&&e(this).css({left:r.left-n.left-s.left,width:h,height:l}),t._helper&&!i.animate&&/static/.test(a.css("position"))&&e(this).css({left:r.left-n.left-s.left,width:h,height:l})}}),e.ui.plugin.add("resizable","alsoResize",{start:function(){var t=e(this).resizable("instance"),i=t.options;e(i.alsoResize).each(function(){var t=e(this);t.data("ui-resizable-alsoresize",{width:parseInt(t.width(),10),height:parseInt(t.height(),10),left:parseInt(t.css("left"),10),top:parseInt(t.css("top"),10)})})},resize:function(t,i){var s=e(this).resizable("instance"),n=s.options,a=s.originalSize,o=s.originalPosition,r={height:s.size.height-a.height||0,width:s.size.width-a.width||0,top:s.position.top-o.top||0,left:s.position.left-o.left||0};e(n.alsoResize).each(function(){var t=e(this),s=e(this).data("ui-resizable-alsoresize"),n={},a=t.parents(i.originalElement[0]).length?["width","height"]:["width","height","top","left"];e.each(a,function(e,t){var i=(s[t]||0)+(r[t]||0);i&&i>=0&&(n[t]=i||null)}),t.css(n)})},stop:function(){e(this).removeData("resizable-alsoresize")}}),e.ui.plugin.add("resizable","ghost",{start:function(){var t=e(this).resizable("instance"),i=t.options,s=t.size;t.ghost=t.originalElement.clone(),t.ghost.css({opacity:.25,display:"block",position:"relative",height:s.height,width:s.width,margin:0,left:0,top:0}).addClass("ui-resizable-ghost").addClass("string"==typeof i.ghost?i.ghost:""),t.ghost.appendTo(t.helper)},resize:function(){var t=e(this).resizable("instance");t.ghost&&t.ghost.css({position:"relative",height:t.size.height,width:t.size.width})},stop:function(){var t=e(this).resizable("instance");t.ghost&&t.helper&&t.helper.get(0).removeChild(t.ghost.get(0))}}),e.ui.plugin.add("resizable","grid",{resize:function(){var t,i=e(this).resizable("instance"),s=i.options,n=i.size,a=i.originalSize,o=i.originalPosition,r=i.axis,h="number"==typeof s.grid?[s.grid,s.grid]:s.grid,l=h[0]||1,u=h[1]||1,d=Math.round((n.width-a.width)/l)*l,c=Math.round((n.height-a.height)/u)*u,p=a.width+d,f=a.height+c,m=s.maxWidth&&p>s.maxWidth,g=s.maxHeight&&f>s.maxHeight,v=s.minWidth&&s.minWidth>p,y=s.minHeight&&s.minHeight>f;s.grid=h,v&&(p+=l),y&&(f+=u),m&&(p-=l),g&&(f-=u),/^(se|s|e)$/.test(r)?(i.size.width=p,i.size.height=f):/^(ne)$/.test(r)?(i.size.width=p,i.size.height=f,i.position.top=o.top-c):/^(sw)$/.test(r)?(i.size.width=p,i.size.height=f,i.position.left=o.left-d):((0>=f-u||0>=p-l)&&(t=i._getPaddingPlusBorderDimensions(this)),f-u>0?(i.size.height=f,i.position.top=o.top-c):(f=u-t.height,i.size.height=f,i.position.top=o.top+a.height-f),p-l>0?(i.size.width=p,i.position.left=o.left-d):(p=l-t.width,i.size.width=p,i.position.left=o.left+a.width-p))}}),e.ui.resizable,e.widget("ui.selectable",e.ui.mouse,{version:"1.11.4",options:{appendTo:"body",autoRefresh:!0,distance:0,filter:"*",tolerance:"touch",selected:null,selecting:null,start:null,stop:null,unselected:null,unselecting:null},_create:function(){var t,i=this;this.element.addClass("ui-selectable"),this.dragged=!1,this.refresh=function(){t=e(i.options.filter,i.element[0]),t.addClass("ui-selectee"),t.each(function(){var t=e(this),i=t.offset();e.data(this,"selectable-item",{element:this,$element:t,left:i.left,top:i.top,right:i.left+t.outerWidth(),bottom:i.top+t.outerHeight(),startselected:!1,selected:t.hasClass("ui-selected"),selecting:t.hasClass("ui-selecting"),unselecting:t.hasClass("ui-unselecting")})})},this.refresh(),this.selectees=t.addClass("ui-selectee"),this._mouseInit(),this.helper=e("<div class='ui-selectable-helper'></div>")},_destroy:function(){this.selectees.removeClass("ui-selectee").removeData("selectable-item"),this.element.removeClass("ui-selectable ui-selectable-disabled"),this._mouseDestroy()},_mouseStart:function(t){var i=this,s=this.options;this.opos=[t.pageX,t.pageY],this.options.disabled||(this.selectees=e(s.filter,this.element[0]),this._trigger("start",t),e(s.appendTo).append(this.helper),this.helper.css({left:t.pageX,top:t.pageY,width:0,height:0}),s.autoRefresh&&this.refresh(),this.selectees.filter(".ui-selected").each(function(){var s=e.data(this,"selectable-item");s.startselected=!0,t.metaKey||t.ctrlKey||(s.$element.removeClass("ui-selected"),s.selected=!1,s.$element.addClass("ui-unselecting"),s.unselecting=!0,i._trigger("unselecting",t,{unselecting:s.element}))}),e(t.target).parents().addBack().each(function(){var s,n=e.data(this,"selectable-item");return n?(s=!t.metaKey&&!t.ctrlKey||!n.$element.hasClass("ui-selected"),n.$element.removeClass(s?"ui-unselecting":"ui-selected").addClass(s?"ui-selecting":"ui-unselecting"),n.unselecting=!s,n.selecting=s,n.selected=s,s?i._trigger("selecting",t,{selecting:n.element}):i._trigger("unselecting",t,{unselecting:n.element}),!1):void 0}))},_mouseDrag:function(t){if(this.dragged=!0,!this.options.disabled){var i,s=this,n=this.options,a=this.opos[0],o=this.opos[1],r=t.pageX,h=t.pageY;return a>r&&(i=r,r=a,a=i),o>h&&(i=h,h=o,o=i),this.helper.css({left:a,top:o,width:r-a,height:h-o}),this.selectees.each(function(){var i=e.data(this,"selectable-item"),l=!1;
i&&i.element!==s.element[0]&&("touch"===n.tolerance?l=!(i.left>r||a>i.right||i.top>h||o>i.bottom):"fit"===n.tolerance&&(l=i.left>a&&r>i.right&&i.top>o&&h>i.bottom),l?(i.selected&&(i.$element.removeClass("ui-selected"),i.selected=!1),i.unselecting&&(i.$element.removeClass("ui-unselecting"),i.unselecting=!1),i.selecting||(i.$element.addClass("ui-selecting"),i.selecting=!0,s._trigger("selecting",t,{selecting:i.element}))):(i.selecting&&((t.metaKey||t.ctrlKey)&&i.startselected?(i.$element.removeClass("ui-selecting"),i.selecting=!1,i.$element.addClass("ui-selected"),i.selected=!0):(i.$element.removeClass("ui-selecting"),i.selecting=!1,i.startselected&&(i.$element.addClass("ui-unselecting"),i.unselecting=!0),s._trigger("unselecting",t,{unselecting:i.element}))),i.selected&&(t.metaKey||t.ctrlKey||i.startselected||(i.$element.removeClass("ui-selected"),i.selected=!1,i.$element.addClass("ui-unselecting"),i.unselecting=!0,s._trigger("unselecting",t,{unselecting:i.element})))))}),!1}},_mouseStop:function(t){var i=this;return this.dragged=!1,e(".ui-unselecting",this.element[0]).each(function(){var s=e.data(this,"selectable-item");s.$element.removeClass("ui-unselecting"),s.unselecting=!1,s.startselected=!1,i._trigger("unselected",t,{unselected:s.element})}),e(".ui-selecting",this.element[0]).each(function(){var s=e.data(this,"selectable-item");s.$element.removeClass("ui-selecting").addClass("ui-selected"),s.selecting=!1,s.selected=!0,s.startselected=!0,i._trigger("selected",t,{selected:s.element})}),this._trigger("stop",t),this.helper.remove(),!1}}),e.widget("ui.sortable",e.ui.mouse,{version:"1.11.4",widgetEventPrefix:"sort",ready:!1,options:{appendTo:"parent",axis:!1,connectWith:!1,containment:!1,cursor:"auto",cursorAt:!1,dropOnEmpty:!0,forcePlaceholderSize:!1,forceHelperSize:!1,grid:!1,handle:!1,helper:"original",items:"> *",opacity:!1,placeholder:!1,revert:!1,scroll:!0,scrollSensitivity:20,scrollSpeed:20,scope:"default",tolerance:"intersect",zIndex:1e3,activate:null,beforeStop:null,change:null,deactivate:null,out:null,over:null,receive:null,remove:null,sort:null,start:null,stop:null,update:null},_isOverAxis:function(e,t,i){return e>=t&&t+i>e},_isFloating:function(e){return/left|right/.test(e.css("float"))||/inline|table-cell/.test(e.css("display"))},_create:function(){this.containerCache={},this.element.addClass("ui-sortable"),this.refresh(),this.offset=this.element.offset(),this._mouseInit(),this._setHandleClassName(),this.ready=!0},_setOption:function(e,t){this._super(e,t),"handle"===e&&this._setHandleClassName()},_setHandleClassName:function(){this.element.find(".ui-sortable-handle").removeClass("ui-sortable-handle"),e.each(this.items,function(){(this.instance.options.handle?this.item.find(this.instance.options.handle):this.item).addClass("ui-sortable-handle")})},_destroy:function(){this.element.removeClass("ui-sortable ui-sortable-disabled").find(".ui-sortable-handle").removeClass("ui-sortable-handle"),this._mouseDestroy();for(var e=this.items.length-1;e>=0;e--)this.items[e].item.removeData(this.widgetName+"-item");return this},_mouseCapture:function(t,i){var s=null,n=!1,a=this;return this.reverting?!1:this.options.disabled||"static"===this.options.type?!1:(this._refreshItems(t),e(t.target).parents().each(function(){return e.data(this,a.widgetName+"-item")===a?(s=e(this),!1):void 0}),e.data(t.target,a.widgetName+"-item")===a&&(s=e(t.target)),s?!this.options.handle||i||(e(this.options.handle,s).find("*").addBack().each(function(){this===t.target&&(n=!0)}),n)?(this.currentItem=s,this._removeCurrentsFromItems(),!0):!1:!1)},_mouseStart:function(t,i,s){var n,a,o=this.options;if(this.currentContainer=this,this.refreshPositions(),this.helper=this._createHelper(t),this._cacheHelperProportions(),this._cacheMargins(),this.scrollParent=this.helper.scrollParent(),this.offset=this.currentItem.offset(),this.offset={top:this.offset.top-this.margins.top,left:this.offset.left-this.margins.left},e.extend(this.offset,{click:{left:t.pageX-this.offset.left,top:t.pageY-this.offset.top},parent:this._getParentOffset(),relative:this._getRelativeOffset()}),this.helper.css("position","absolute"),this.cssPosition=this.helper.css("position"),this.originalPosition=this._generatePosition(t),this.originalPageX=t.pageX,this.originalPageY=t.pageY,o.cursorAt&&this._adjustOffsetFromHelper(o.cursorAt),this.domPosition={prev:this.currentItem.prev()[0],parent:this.currentItem.parent()[0]},this.helper[0]!==this.currentItem[0]&&this.currentItem.hide(),this._createPlaceholder(),o.containment&&this._setContainment(),o.cursor&&"auto"!==o.cursor&&(a=this.document.find("body"),this.storedCursor=a.css("cursor"),a.css("cursor",o.cursor),this.storedStylesheet=e("<style>*{ cursor: "+o.cursor+" !important; }</style>").appendTo(a)),o.opacity&&(this.helper.css("opacity")&&(this._storedOpacity=this.helper.css("opacity")),this.helper.css("opacity",o.opacity)),o.zIndex&&(this.helper.css("zIndex")&&(this._storedZIndex=this.helper.css("zIndex")),this.helper.css("zIndex",o.zIndex)),this.scrollParent[0]!==this.document[0]&&"HTML"!==this.scrollParent[0].tagName&&(this.overflowOffset=this.scrollParent.offset()),this._trigger("start",t,this._uiHash()),this._preserveHelperProportions||this._cacheHelperProportions(),!s)for(n=this.containers.length-1;n>=0;n--)this.containers[n]._trigger("activate",t,this._uiHash(this));return e.ui.ddmanager&&(e.ui.ddmanager.current=this),e.ui.ddmanager&&!o.dropBehaviour&&e.ui.ddmanager.prepareOffsets(this,t),this.dragging=!0,this.helper.addClass("ui-sortable-helper"),this._mouseDrag(t),!0},_mouseDrag:function(t){var i,s,n,a,o=this.options,r=!1;for(this.position=this._generatePosition(t),this.positionAbs=this._convertPositionTo("absolute"),this.lastPositionAbs||(this.lastPositionAbs=this.positionAbs),this.options.scroll&&(this.scrollParent[0]!==this.document[0]&&"HTML"!==this.scrollParent[0].tagName?(this.overflowOffset.top+this.scrollParent[0].offsetHeight-t.pageY<o.scrollSensitivity?this.scrollParent[0].scrollTop=r=this.scrollParent[0].scrollTop+o.scrollSpeed:t.pageY-this.overflowOffset.top<o.scrollSensitivity&&(this.scrollParent[0].scrollTop=r=this.scrollParent[0].scrollTop-o.scrollSpeed),this.overflowOffset.left+this.scrollParent[0].offsetWidth-t.pageX<o.scrollSensitivity?this.scrollParent[0].scrollLeft=r=this.scrollParent[0].scrollLeft+o.scrollSpeed:t.pageX-this.overflowOffset.left<o.scrollSensitivity&&(this.scrollParent[0].scrollLeft=r=this.scrollParent[0].scrollLeft-o.scrollSpeed)):(t.pageY-this.document.scrollTop()<o.scrollSensitivity?r=this.document.scrollTop(this.document.scrollTop()-o.scrollSpeed):this.window.height()-(t.pageY-this.document.scrollTop())<o.scrollSensitivity&&(r=this.document.scrollTop(this.document.scrollTop()+o.scrollSpeed)),t.pageX-this.document.scrollLeft()<o.scrollSensitivity?r=this.document.scrollLeft(this.document.scrollLeft()-o.scrollSpeed):this.window.width()-(t.pageX-this.document.scrollLeft())<o.scrollSensitivity&&(r=this.document.scrollLeft(this.document.scrollLeft()+o.scrollSpeed))),r!==!1&&e.ui.ddmanager&&!o.dropBehaviour&&e.ui.ddmanager.prepareOffsets(this,t)),this.positionAbs=this._convertPositionTo("absolute"),this.options.axis&&"y"===this.options.axis||(this.helper[0].style.left=this.position.left+"px"),this.options.axis&&"x"===this.options.axis||(this.helper[0].style.top=this.position.top+"px"),i=this.items.length-1;i>=0;i--)if(s=this.items[i],n=s.item[0],a=this._intersectsWithPointer(s),a&&s.instance===this.currentContainer&&n!==this.currentItem[0]&&this.placeholder[1===a?"next":"prev"]()[0]!==n&&!e.contains(this.placeholder[0],n)&&("semi-dynamic"===this.options.type?!e.contains(this.element[0],n):!0)){if(this.direction=1===a?"down":"up","pointer"!==this.options.tolerance&&!this._intersectsWithSides(s))break;this._rearrange(t,s),this._trigger("change",t,this._uiHash());break}return this._contactContainers(t),e.ui.ddmanager&&e.ui.ddmanager.drag(this,t),this._trigger("sort",t,this._uiHash()),this.lastPositionAbs=this.positionAbs,!1},_mouseStop:function(t,i){if(t){if(e.ui.ddmanager&&!this.options.dropBehaviour&&e.ui.ddmanager.drop(this,t),this.options.revert){var s=this,n=this.placeholder.offset(),a=this.options.axis,o={};a&&"x"!==a||(o.left=n.left-this.offset.parent.left-this.margins.left+(this.offsetParent[0]===this.document[0].body?0:this.offsetParent[0].scrollLeft)),a&&"y"!==a||(o.top=n.top-this.offset.parent.top-this.margins.top+(this.offsetParent[0]===this.document[0].body?0:this.offsetParent[0].scrollTop)),this.reverting=!0,e(this.helper).animate(o,parseInt(this.options.revert,10)||500,function(){s._clear(t)})}else this._clear(t,i);return!1}},cancel:function(){if(this.dragging){this._mouseUp({target:null}),"original"===this.options.helper?this.currentItem.css(this._storedCSS).removeClass("ui-sortable-helper"):this.currentItem.show();for(var t=this.containers.length-1;t>=0;t--)this.containers[t]._trigger("deactivate",null,this._uiHash(this)),this.containers[t].containerCache.over&&(this.containers[t]._trigger("out",null,this._uiHash(this)),this.containers[t].containerCache.over=0)}return this.placeholder&&(this.placeholder[0].parentNode&&this.placeholder[0].parentNode.removeChild(this.placeholder[0]),"original"!==this.options.helper&&this.helper&&this.helper[0].parentNode&&this.helper.remove(),e.extend(this,{helper:null,dragging:!1,reverting:!1,_noFinalSort:null}),this.domPosition.prev?e(this.domPosition.prev).after(this.currentItem):e(this.domPosition.parent).prepend(this.currentItem)),this},serialize:function(t){var i=this._getItemsAsjQuery(t&&t.connected),s=[];return t=t||{},e(i).each(function(){var i=(e(t.item||this).attr(t.attribute||"id")||"").match(t.expression||/(.+)[\-=_](.+)/);i&&s.push((t.key||i[1]+"[]")+"="+(t.key&&t.expression?i[1]:i[2]))}),!s.length&&t.key&&s.push(t.key+"="),s.join("&")},toArray:function(t){var i=this._getItemsAsjQuery(t&&t.connected),s=[];return t=t||{},i.each(function(){s.push(e(t.item||this).attr(t.attribute||"id")||"")}),s},_intersectsWith:function(e){var t=this.positionAbs.left,i=t+this.helperProportions.width,s=this.positionAbs.top,n=s+this.helperProportions.height,a=e.left,o=a+e.width,r=e.top,h=r+e.height,l=this.offset.click.top,u=this.offset.click.left,d="x"===this.options.axis||s+l>r&&h>s+l,c="y"===this.options.axis||t+u>a&&o>t+u,p=d&&c;return"pointer"===this.options.tolerance||this.options.forcePointerForContainers||"pointer"!==this.options.tolerance&&this.helperProportions[this.floating?"width":"height"]>e[this.floating?"width":"height"]?p:t+this.helperProportions.width/2>a&&o>i-this.helperProportions.width/2&&s+this.helperProportions.height/2>r&&h>n-this.helperProportions.height/2},_intersectsWithPointer:function(e){var t="x"===this.options.axis||this._isOverAxis(this.positionAbs.top+this.offset.click.top,e.top,e.height),i="y"===this.options.axis||this._isOverAxis(this.positionAbs.left+this.offset.click.left,e.left,e.width),s=t&&i,n=this._getDragVerticalDirection(),a=this._getDragHorizontalDirection();return s?this.floating?a&&"right"===a||"down"===n?2:1:n&&("down"===n?2:1):!1},_intersectsWithSides:function(e){var t=this._isOverAxis(this.positionAbs.top+this.offset.click.top,e.top+e.height/2,e.height),i=this._isOverAxis(this.positionAbs.left+this.offset.click.left,e.left+e.width/2,e.width),s=this._getDragVerticalDirection(),n=this._getDragHorizontalDirection();return this.floating&&n?"right"===n&&i||"left"===n&&!i:s&&("down"===s&&t||"up"===s&&!t)},_getDragVerticalDirection:function(){var e=this.positionAbs.top-this.lastPositionAbs.top;return 0!==e&&(e>0?"down":"up")},_getDragHorizontalDirection:function(){var e=this.positionAbs.left-this.lastPositionAbs.left;return 0!==e&&(e>0?"right":"left")},refresh:function(e){return this._refreshItems(e),this._setHandleClassName(),this.refreshPositions(),this},_connectWith:function(){var e=this.options;return e.connectWith.constructor===String?[e.connectWith]:e.connectWith},_getItemsAsjQuery:function(t){function i(){r.push(this)}var s,n,a,o,r=[],h=[],l=this._connectWith();if(l&&t)for(s=l.length-1;s>=0;s--)for(a=e(l[s],this.document[0]),n=a.length-1;n>=0;n--)o=e.data(a[n],this.widgetFullName),o&&o!==this&&!o.options.disabled&&h.push([e.isFunction(o.options.items)?o.options.items.call(o.element):e(o.options.items,o.element).not(".ui-sortable-helper").not(".ui-sortable-placeholder"),o]);for(h.push([e.isFunction(this.options.items)?this.options.items.call(this.element,null,{options:this.options,item:this.currentItem}):e(this.options.items,this.element).not(".ui-sortable-helper").not(".ui-sortable-placeholder"),this]),s=h.length-1;s>=0;s--)h[s][0].each(i);return e(r)},_removeCurrentsFromItems:function(){var t=this.currentItem.find(":data("+this.widgetName+"-item)");this.items=e.grep(this.items,function(e){for(var i=0;t.length>i;i++)if(t[i]===e.item[0])return!1;return!0})},_refreshItems:function(t){this.items=[],this.containers=[this];var i,s,n,a,o,r,h,l,u=this.items,d=[[e.isFunction(this.options.items)?this.options.items.call(this.element[0],t,{item:this.currentItem}):e(this.options.items,this.element),this]],c=this._connectWith();if(c&&this.ready)for(i=c.length-1;i>=0;i--)for(n=e(c[i],this.document[0]),s=n.length-1;s>=0;s--)a=e.data(n[s],this.widgetFullName),a&&a!==this&&!a.options.disabled&&(d.push([e.isFunction(a.options.items)?a.options.items.call(a.element[0],t,{item:this.currentItem}):e(a.options.items,a.element),a]),this.containers.push(a));for(i=d.length-1;i>=0;i--)for(o=d[i][1],r=d[i][0],s=0,l=r.length;l>s;s++)h=e(r[s]),h.data(this.widgetName+"-item",o),u.push({item:h,instance:o,width:0,height:0,left:0,top:0})},refreshPositions:function(t){this.floating=this.items.length?"x"===this.options.axis||this._isFloating(this.items[0].item):!1,this.offsetParent&&this.helper&&(this.offset.parent=this._getParentOffset());var i,s,n,a;for(i=this.items.length-1;i>=0;i--)s=this.items[i],s.instance!==this.currentContainer&&this.currentContainer&&s.item[0]!==this.currentItem[0]||(n=this.options.toleranceElement?e(this.options.toleranceElement,s.item):s.item,t||(s.width=n.outerWidth(),s.height=n.outerHeight()),a=n.offset(),s.left=a.left,s.top=a.top);if(this.options.custom&&this.options.custom.refreshContainers)this.options.custom.refreshContainers.call(this);else for(i=this.containers.length-1;i>=0;i--)a=this.containers[i].element.offset(),this.containers[i].containerCache.left=a.left,this.containers[i].containerCache.top=a.top,this.containers[i].containerCache.width=this.containers[i].element.outerWidth(),this.containers[i].containerCache.height=this.containers[i].element.outerHeight();return this},_createPlaceholder:function(t){t=t||this;var i,s=t.options;s.placeholder&&s.placeholder.constructor!==String||(i=s.placeholder,s.placeholder={element:function(){var s=t.currentItem[0].nodeName.toLowerCase(),n=e("<"+s+">",t.document[0]).addClass(i||t.currentItem[0].className+" ui-sortable-placeholder").removeClass("ui-sortable-helper");return"tbody"===s?t._createTrPlaceholder(t.currentItem.find("tr").eq(0),e("<tr>",t.document[0]).appendTo(n)):"tr"===s?t._createTrPlaceholder(t.currentItem,n):"img"===s&&n.attr("src",t.currentItem.attr("src")),i||n.css("visibility","hidden"),n},update:function(e,n){(!i||s.forcePlaceholderSize)&&(n.height()||n.height(t.currentItem.innerHeight()-parseInt(t.currentItem.css("paddingTop")||0,10)-parseInt(t.currentItem.css("paddingBottom")||0,10)),n.width()||n.width(t.currentItem.innerWidth()-parseInt(t.currentItem.css("paddingLeft")||0,10)-parseInt(t.currentItem.css("paddingRight")||0,10)))}}),t.placeholder=e(s.placeholder.element.call(t.element,t.currentItem)),t.currentItem.after(t.placeholder),s.placeholder.update(t,t.placeholder)},_createTrPlaceholder:function(t,i){var s=this;t.children().each(function(){e("<td>&#160;</td>",s.document[0]).attr("colspan",e(this).attr("colspan")||1).appendTo(i)})},_contactContainers:function(t){var i,s,n,a,o,r,h,l,u,d,c=null,p=null;for(i=this.containers.length-1;i>=0;i--)if(!e.contains(this.currentItem[0],this.containers[i].element[0]))if(this._intersectsWith(this.containers[i].containerCache)){if(c&&e.contains(this.containers[i].element[0],c.element[0]))continue;c=this.containers[i],p=i}else this.containers[i].containerCache.over&&(this.containers[i]._trigger("out",t,this._uiHash(this)),this.containers[i].containerCache.over=0);if(c)if(1===this.containers.length)this.containers[p].containerCache.over||(this.containers[p]._trigger("over",t,this._uiHash(this)),this.containers[p].containerCache.over=1);else{for(n=1e4,a=null,u=c.floating||this._isFloating(this.currentItem),o=u?"left":"top",r=u?"width":"height",d=u?"clientX":"clientY",s=this.items.length-1;s>=0;s--)e.contains(this.containers[p].element[0],this.items[s].item[0])&&this.items[s].item[0]!==this.currentItem[0]&&(h=this.items[s].item.offset()[o],l=!1,t[d]-h>this.items[s][r]/2&&(l=!0),n>Math.abs(t[d]-h)&&(n=Math.abs(t[d]-h),a=this.items[s],this.direction=l?"up":"down"));if(!a&&!this.options.dropOnEmpty)return;if(this.currentContainer===this.containers[p])return this.currentContainer.containerCache.over||(this.containers[p]._trigger("over",t,this._uiHash()),this.currentContainer.containerCache.over=1),void 0;a?this._rearrange(t,a,null,!0):this._rearrange(t,null,this.containers[p].element,!0),this._trigger("change",t,this._uiHash()),this.containers[p]._trigger("change",t,this._uiHash(this)),this.currentContainer=this.containers[p],this.options.placeholder.update(this.currentContainer,this.placeholder),this.containers[p]._trigger("over",t,this._uiHash(this)),this.containers[p].containerCache.over=1}},_createHelper:function(t){var i=this.options,s=e.isFunction(i.helper)?e(i.helper.apply(this.element[0],[t,this.currentItem])):"clone"===i.helper?this.currentItem.clone():this.currentItem;return s.parents("body").length||e("parent"!==i.appendTo?i.appendTo:this.currentItem[0].parentNode)[0].appendChild(s[0]),s[0]===this.currentItem[0]&&(this._storedCSS={width:this.currentItem[0].style.width,height:this.currentItem[0].style.height,position:this.currentItem.css("position"),top:this.currentItem.css("top"),left:this.currentItem.css("left")}),(!s[0].style.width||i.forceHelperSize)&&s.width(this.currentItem.width()),(!s[0].style.height||i.forceHelperSize)&&s.height(this.currentItem.height()),s},_adjustOffsetFromHelper:function(t){"string"==typeof t&&(t=t.split(" ")),e.isArray(t)&&(t={left:+t[0],top:+t[1]||0}),"left"in t&&(this.offset.click.left=t.left+this.margins.left),"right"in t&&(this.offset.click.left=this.helperProportions.width-t.right+this.margins.left),"top"in t&&(this.offset.click.top=t.top+this.margins.top),"bottom"in t&&(this.offset.click.top=this.helperProportions.height-t.bottom+this.margins.top)},_getParentOffset:function(){this.offsetParent=this.helper.offsetParent();var t=this.offsetParent.offset();return"absolute"===this.cssPosition&&this.scrollParent[0]!==this.document[0]&&e.contains(this.scrollParent[0],this.offsetParent[0])&&(t.left+=this.scrollParent.scrollLeft(),t.top+=this.scrollParent.scrollTop()),(this.offsetParent[0]===this.document[0].body||this.offsetParent[0].tagName&&"html"===this.offsetParent[0].tagName.toLowerCase()&&e.ui.ie)&&(t={top:0,left:0}),{top:t.top+(parseInt(this.offsetParent.css("borderTopWidth"),10)||0),left:t.left+(parseInt(this.offsetParent.css("borderLeftWidth"),10)||0)}},_getRelativeOffset:function(){if("relative"===this.cssPosition){var e=this.currentItem.position();return{top:e.top-(parseInt(this.helper.css("top"),10)||0)+this.scrollParent.scrollTop(),left:e.left-(parseInt(this.helper.css("left"),10)||0)+this.scrollParent.scrollLeft()}}return{top:0,left:0}},_cacheMargins:function(){this.margins={left:parseInt(this.currentItem.css("marginLeft"),10)||0,top:parseInt(this.currentItem.css("marginTop"),10)||0}},_cacheHelperProportions:function(){this.helperProportions={width:this.helper.outerWidth(),height:this.helper.outerHeight()}},_setContainment:function(){var t,i,s,n=this.options;"parent"===n.containment&&(n.containment=this.helper[0].parentNode),("document"===n.containment||"window"===n.containment)&&(this.containment=[0-this.offset.relative.left-this.offset.parent.left,0-this.offset.relative.top-this.offset.parent.top,"document"===n.containment?this.document.width():this.window.width()-this.helperProportions.width-this.margins.left,("document"===n.containment?this.document.width():this.window.height()||this.document[0].body.parentNode.scrollHeight)-this.helperProportions.height-this.margins.top]),/^(document|window|parent)$/.test(n.containment)||(t=e(n.containment)[0],i=e(n.containment).offset(),s="hidden"!==e(t).css("overflow"),this.containment=[i.left+(parseInt(e(t).css("borderLeftWidth"),10)||0)+(parseInt(e(t).css("paddingLeft"),10)||0)-this.margins.left,i.top+(parseInt(e(t).css("borderTopWidth"),10)||0)+(parseInt(e(t).css("paddingTop"),10)||0)-this.margins.top,i.left+(s?Math.max(t.scrollWidth,t.offsetWidth):t.offsetWidth)-(parseInt(e(t).css("borderLeftWidth"),10)||0)-(parseInt(e(t).css("paddingRight"),10)||0)-this.helperProportions.width-this.margins.left,i.top+(s?Math.max(t.scrollHeight,t.offsetHeight):t.offsetHeight)-(parseInt(e(t).css("borderTopWidth"),10)||0)-(parseInt(e(t).css("paddingBottom"),10)||0)-this.helperProportions.height-this.margins.top])},_convertPositionTo:function(t,i){i||(i=this.position);var s="absolute"===t?1:-1,n="absolute"!==this.cssPosition||this.scrollParent[0]!==this.document[0]&&e.contains(this.scrollParent[0],this.offsetParent[0])?this.scrollParent:this.offsetParent,a=/(html|body)/i.test(n[0].tagName);return{top:i.top+this.offset.relative.top*s+this.offset.parent.top*s-("fixed"===this.cssPosition?-this.scrollParent.scrollTop():a?0:n.scrollTop())*s,left:i.left+this.offset.relative.left*s+this.offset.parent.left*s-("fixed"===this.cssPosition?-this.scrollParent.scrollLeft():a?0:n.scrollLeft())*s}},_generatePosition:function(t){var i,s,n=this.options,a=t.pageX,o=t.pageY,r="absolute"!==this.cssPosition||this.scrollParent[0]!==this.document[0]&&e.contains(this.scrollParent[0],this.offsetParent[0])?this.scrollParent:this.offsetParent,h=/(html|body)/i.test(r[0].tagName);return"relative"!==this.cssPosition||this.scrollParent[0]!==this.document[0]&&this.scrollParent[0]!==this.offsetParent[0]||(this.offset.relative=this._getRelativeOffset()),this.originalPosition&&(this.containment&&(t.pageX-this.offset.click.left<this.containment[0]&&(a=this.containment[0]+this.offset.click.left),t.pageY-this.offset.click.top<this.containment[1]&&(o=this.containment[1]+this.offset.click.top),t.pageX-this.offset.click.left>this.containment[2]&&(a=this.containment[2]+this.offset.click.left),t.pageY-this.offset.click.top>this.containment[3]&&(o=this.containment[3]+this.offset.click.top)),n.grid&&(i=this.originalPageY+Math.round((o-this.originalPageY)/n.grid[1])*n.grid[1],o=this.containment?i-this.offset.click.top>=this.containment[1]&&i-this.offset.click.top<=this.containment[3]?i:i-this.offset.click.top>=this.containment[1]?i-n.grid[1]:i+n.grid[1]:i,s=this.originalPageX+Math.round((a-this.originalPageX)/n.grid[0])*n.grid[0],a=this.containment?s-this.offset.click.left>=this.containment[0]&&s-this.offset.click.left<=this.containment[2]?s:s-this.offset.click.left>=this.containment[0]?s-n.grid[0]:s+n.grid[0]:s)),{top:o-this.offset.click.top-this.offset.relative.top-this.offset.parent.top+("fixed"===this.cssPosition?-this.scrollParent.scrollTop():h?0:r.scrollTop()),left:a-this.offset.click.left-this.offset.relative.left-this.offset.parent.left+("fixed"===this.cssPosition?-this.scrollParent.scrollLeft():h?0:r.scrollLeft())}},_rearrange:function(e,t,i,s){i?i[0].appendChild(this.placeholder[0]):t.item[0].parentNode.insertBefore(this.placeholder[0],"down"===this.direction?t.item[0]:t.item[0].nextSibling),this.counter=this.counter?++this.counter:1;var n=this.counter;this._delay(function(){n===this.counter&&this.refreshPositions(!s)})},_clear:function(e,t){function i(e,t,i){return function(s){i._trigger(e,s,t._uiHash(t))}}this.reverting=!1;var s,n=[];if(!this._noFinalSort&&this.currentItem.parent().length&&this.placeholder.before(this.currentItem),this._noFinalSort=null,this.helper[0]===this.currentItem[0]){for(s in this._storedCSS)("auto"===this._storedCSS[s]||"static"===this._storedCSS[s])&&(this._storedCSS[s]="");this.currentItem.css(this._storedCSS).removeClass("ui-sortable-helper")}else this.currentItem.show();for(this.fromOutside&&!t&&n.push(function(e){this._trigger("receive",e,this._uiHash(this.fromOutside))}),!this.fromOutside&&this.domPosition.prev===this.currentItem.prev().not(".ui-sortable-helper")[0]&&this.domPosition.parent===this.currentItem.parent()[0]||t||n.push(function(e){this._trigger("update",e,this._uiHash())}),this!==this.currentContainer&&(t||(n.push(function(e){this._trigger("remove",e,this._uiHash())}),n.push(function(e){return function(t){e._trigger("receive",t,this._uiHash(this))}}.call(this,this.currentContainer)),n.push(function(e){return function(t){e._trigger("update",t,this._uiHash(this))}}.call(this,this.currentContainer)))),s=this.containers.length-1;s>=0;s--)t||n.push(i("deactivate",this,this.containers[s])),this.containers[s].containerCache.over&&(n.push(i("out",this,this.containers[s])),this.containers[s].containerCache.over=0);if(this.storedCursor&&(this.document.find("body").css("cursor",this.storedCursor),this.storedStylesheet.remove()),this._storedOpacity&&this.helper.css("opacity",this._storedOpacity),this._storedZIndex&&this.helper.css("zIndex","auto"===this._storedZIndex?"":this._storedZIndex),this.dragging=!1,t||this._trigger("beforeStop",e,this._uiHash()),this.placeholder[0].parentNode.removeChild(this.placeholder[0]),this.cancelHelperRemoval||(this.helper[0]!==this.currentItem[0]&&this.helper.remove(),this.helper=null),!t){for(s=0;n.length>s;s++)n[s].call(this,e);this._trigger("stop",e,this._uiHash())}return this.fromOutside=!1,!this.cancelHelperRemoval},_trigger:function(){e.Widget.prototype._trigger.apply(this,arguments)===!1&&this.cancel()},_uiHash:function(t){var i=t||this;return{helper:i.helper,placeholder:i.placeholder||e([]),position:i.position,originalPosition:i.originalPosition,offset:i.positionAbs,item:i.currentItem,sender:t?t.element:null}}}),e.widget("ui.accordion",{version:"1.11.4",options:{active:0,animate:{},collapsible:!1,event:"click",header:"> li > :first-child,> :not(li):even",heightStyle:"auto",icons:{activeHeader:"ui-icon-triangle-1-s",header:"ui-icon-triangle-1-e"},activate:null,beforeActivate:null},hideProps:{borderTopWidth:"hide",borderBottomWidth:"hide",paddingTop:"hide",paddingBottom:"hide",height:"hide"},showProps:{borderTopWidth:"show",borderBottomWidth:"show",paddingTop:"show",paddingBottom:"show",height:"show"},_create:function(){var t=this.options;this.prevShow=this.prevHide=e(),this.element.addClass("ui-accordion ui-widget ui-helper-reset").attr("role","tablist"),t.collapsible||t.active!==!1&&null!=t.active||(t.active=0),this._processPanels(),0>t.active&&(t.active+=this.headers.length),this._refresh()},_getCreateEventData:function(){return{header:this.active,panel:this.active.length?this.active.next():e()}},_createIcons:function(){var t=this.options.icons;t&&(e("<span>").addClass("ui-accordion-header-icon ui-icon "+t.header).prependTo(this.headers),this.active.children(".ui-accordion-header-icon").removeClass(t.header).addClass(t.activeHeader),this.headers.addClass("ui-accordion-icons"))},_destroyIcons:function(){this.headers.removeClass("ui-accordion-icons").children(".ui-accordion-header-icon").remove()},_destroy:function(){var e;this.element.removeClass("ui-accordion ui-widget ui-helper-reset").removeAttr("role"),this.headers.removeClass("ui-accordion-header ui-accordion-header-active ui-state-default ui-corner-all ui-state-active ui-state-disabled ui-corner-top").removeAttr("role").removeAttr("aria-expanded").removeAttr("aria-selected").removeAttr("aria-controls").removeAttr("tabIndex").removeUniqueId(),this._destroyIcons(),e=this.headers.next().removeClass("ui-helper-reset ui-widget-content ui-corner-bottom ui-accordion-content ui-accordion-content-active ui-state-disabled").css("display","").removeAttr("role").removeAttr("aria-hidden").removeAttr("aria-labelledby").removeUniqueId(),"content"!==this.options.heightStyle&&e.css("height","")},_setOption:function(e,t){return"active"===e?(this._activate(t),void 0):("event"===e&&(this.options.event&&this._off(this.headers,this.options.event),this._setupEvents(t)),this._super(e,t),"collapsible"!==e||t||this.options.active!==!1||this._activate(0),"icons"===e&&(this._destroyIcons(),t&&this._createIcons()),"disabled"===e&&(this.element.toggleClass("ui-state-disabled",!!t).attr("aria-disabled",t),this.headers.add(this.headers.next()).toggleClass("ui-state-disabled",!!t)),void 0)},_keydown:function(t){if(!t.altKey&&!t.ctrlKey){var i=e.ui.keyCode,s=this.headers.length,n=this.headers.index(t.target),a=!1;switch(t.keyCode){case i.RIGHT:case i.DOWN:a=this.headers[(n+1)%s];break;case i.LEFT:case i.UP:a=this.headers[(n-1+s)%s];break;case i.SPACE:case i.ENTER:this._eventHandler(t);break;case i.HOME:a=this.headers[0];break;case i.END:a=this.headers[s-1]}a&&(e(t.target).attr("tabIndex",-1),e(a).attr("tabIndex",0),a.focus(),t.preventDefault())}},_panelKeyDown:function(t){t.keyCode===e.ui.keyCode.UP&&t.ctrlKey&&e(t.currentTarget).prev().focus()},refresh:function(){var t=this.options;this._processPanels(),t.active===!1&&t.collapsible===!0||!this.headers.length?(t.active=!1,this.active=e()):t.active===!1?this._activate(0):this.active.length&&!e.contains(this.element[0],this.active[0])?this.headers.length===this.headers.find(".ui-state-disabled").length?(t.active=!1,this.active=e()):this._activate(Math.max(0,t.active-1)):t.active=this.headers.index(this.active),this._destroyIcons(),this._refresh()},_processPanels:function(){var e=this.headers,t=this.panels;this.headers=this.element.find(this.options.header).addClass("ui-accordion-header ui-state-default ui-corner-all"),this.panels=this.headers.next().addClass("ui-accordion-content ui-helper-reset ui-widget-content ui-corner-bottom").filter(":not(.ui-accordion-content-active)").hide(),t&&(this._off(e.not(this.headers)),this._off(t.not(this.panels)))},_refresh:function(){var t,i=this.options,s=i.heightStyle,n=this.element.parent();this.active=this._findActive(i.active).addClass("ui-accordion-header-active ui-state-active ui-corner-top").removeClass("ui-corner-all"),this.active.next().addClass("ui-accordion-content-active").show(),this.headers.attr("role","tab").each(function(){var t=e(this),i=t.uniqueId().attr("id"),s=t.next(),n=s.uniqueId().attr("id");t.attr("aria-controls",n),s.attr("aria-labelledby",i)}).next().attr("role","tabpanel"),this.headers.not(this.active).attr({"aria-selected":"false","aria-expanded":"false",tabIndex:-1}).next().attr({"aria-hidden":"true"}).hide(),this.active.length?this.active.attr({"aria-selected":"true","aria-expanded":"true",tabIndex:0}).next().attr({"aria-hidden":"false"}):this.headers.eq(0).attr("tabIndex",0),this._createIcons(),this._setupEvents(i.event),"fill"===s?(t=n.height(),this.element.siblings(":visible").each(function(){var i=e(this),s=i.css("position");"absolute"!==s&&"fixed"!==s&&(t-=i.outerHeight(!0))}),this.headers.each(function(){t-=e(this).outerHeight(!0)}),this.headers.next().each(function(){e(this).height(Math.max(0,t-e(this).innerHeight()+e(this).height()))}).css("overflow","auto")):"auto"===s&&(t=0,this.headers.next().each(function(){t=Math.max(t,e(this).css("height","").height())}).height(t))},_activate:function(t){var i=this._findActive(t)[0];i!==this.active[0]&&(i=i||this.active[0],this._eventHandler({target:i,currentTarget:i,preventDefault:e.noop}))},_findActive:function(t){return"number"==typeof t?this.headers.eq(t):e()},_setupEvents:function(t){var i={keydown:"_keydown"};t&&e.each(t.split(" "),function(e,t){i[t]="_eventHandler"}),this._off(this.headers.add(this.headers.next())),this._on(this.headers,i),this._on(this.headers.next(),{keydown:"_panelKeyDown"}),this._hoverable(this.headers),this._focusable(this.headers)},_eventHandler:function(t){var i=this.options,s=this.active,n=e(t.currentTarget),a=n[0]===s[0],o=a&&i.collapsible,r=o?e():n.next(),h=s.next(),l={oldHeader:s,oldPanel:h,newHeader:o?e():n,newPanel:r};
t.preventDefault(),a&&!i.collapsible||this._trigger("beforeActivate",t,l)===!1||(i.active=o?!1:this.headers.index(n),this.active=a?e():n,this._toggle(l),s.removeClass("ui-accordion-header-active ui-state-active"),i.icons&&s.children(".ui-accordion-header-icon").removeClass(i.icons.activeHeader).addClass(i.icons.header),a||(n.removeClass("ui-corner-all").addClass("ui-accordion-header-active ui-state-active ui-corner-top"),i.icons&&n.children(".ui-accordion-header-icon").removeClass(i.icons.header).addClass(i.icons.activeHeader),n.next().addClass("ui-accordion-content-active")))},_toggle:function(t){var i=t.newPanel,s=this.prevShow.length?this.prevShow:t.oldPanel;this.prevShow.add(this.prevHide).stop(!0,!0),this.prevShow=i,this.prevHide=s,this.options.animate?this._animate(i,s,t):(s.hide(),i.show(),this._toggleComplete(t)),s.attr({"aria-hidden":"true"}),s.prev().attr({"aria-selected":"false","aria-expanded":"false"}),i.length&&s.length?s.prev().attr({tabIndex:-1,"aria-expanded":"false"}):i.length&&this.headers.filter(function(){return 0===parseInt(e(this).attr("tabIndex"),10)}).attr("tabIndex",-1),i.attr("aria-hidden","false").prev().attr({"aria-selected":"true","aria-expanded":"true",tabIndex:0})},_animate:function(e,t,i){var s,n,a,o=this,r=0,h=e.css("box-sizing"),l=e.length&&(!t.length||e.index()<t.index()),u=this.options.animate||{},d=l&&u.down||u,c=function(){o._toggleComplete(i)};return"number"==typeof d&&(a=d),"string"==typeof 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t,i,s=this,n=this.options.icons.submenu,a=this.element.find(this.options.menus);this.element.toggleClass("ui-menu-icons",!!this.element.find(".ui-icon").length),a.filter(":not(.ui-menu)").addClass("ui-menu ui-widget ui-widget-content ui-front").hide().attr({role:this.options.role,"aria-hidden":"true","aria-expanded":"false"}).each(function(){var t=e(this),i=t.parent(),s=e("<span>").addClass("ui-menu-icon ui-icon "+n).data("ui-menu-submenu-carat",!0);i.attr("aria-haspopup","true").prepend(s),t.attr("aria-labelledby",i.attr("id"))}),t=a.add(this.element),i=t.find(this.options.items),i.not(".ui-menu-item").each(function(){var t=e(this);s._isDivider(t)&&t.addClass("ui-widget-content ui-menu-divider")}),i.not(".ui-menu-item, 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i,s;this.blur(e,e&&"focus"===e.type),this._scrollIntoView(t),this.active=t.first(),s=this.active.addClass("ui-state-focus").removeClass("ui-state-active"),this.options.role&&this.element.attr("aria-activedescendant",s.attr("id")),this.active.parent().closest(".ui-menu-item").addClass("ui-state-active"),e&&"keydown"===e.type?this._close():this.timer=this._delay(function(){this._close()},this.delay),i=t.children(".ui-menu"),i.length&&e&&/^mouse/.test(e.type)&&this._startOpening(i),this.activeMenu=t.parent(),this._trigger("focus",e,{item:t})},_scrollIntoView:function(t){var i,s,n,a,o,r;this._hasScroll()&&(i=parseFloat(e.css(this.activeMenu[0],"borderTopWidth"))||0,s=parseFloat(e.css(this.activeMenu[0],"paddingTop"))||0,n=t.offset().top-this.activeMenu.offset().top-i-s,a=this.activeMenu.scrollTop(),o=this.activeMenu.height(),r=t.outerHeight(),0>n?this.activeMenu.scrollTop(a+n):n+r>o&&this.activeMenu.scrollTop(a+n-o+r))},blur:function(e,t){t||clearTimeout(this.timer),this.active&&(this.active.removeClass("ui-state-focus"),this.active=null,this._trigger("blur",e,{item:this.active}))},_startOpening:function(e){clearTimeout(this.timer),"true"===e.attr("aria-hidden")&&(this.timer=this._delay(function(){this._close(),this._open(e)},this.delay))},_open:function(t){var i=e.extend({of:this.active},this.options.position);clearTimeout(this.timer),this.element.find(".ui-menu").not(t.parents(".ui-menu")).hide().attr("aria-hidden","true"),t.show().removeAttr("aria-hidden").attr("aria-expanded","true").position(i)},collapseAll:function(t,i){clearTimeout(this.timer),this.timer=this._delay(function(){var s=i?this.element:e(t&&t.target).closest(this.element.find(".ui-menu"));s.length||(s=this.element),this._close(s),this.blur(t),this.activeMenu=s},this.delay)},_close:function(e){e||(e=this.active?this.active.parent():this.element),e.find(".ui-menu").hide().attr("aria-hidden","true").attr("aria-expanded","false").end().find(".ui-state-active").not(".ui-state-focus").removeClass("ui-state-active")},_closeOnDocumentClick:function(t){return!e(t.target).closest(".ui-menu").length},_isDivider:function(e){return!/[^\-\u2014\u2013\s]/.test(e.text())},collapse:function(e){var t=this.active&&this.active.parent().closest(".ui-menu-item",this.element);t&&t.length&&(this._close(),this.focus(e,t))},expand:function(e){var t=this.active&&this.active.children(".ui-menu ").find(this.options.items).first();t&&t.length&&(this._open(t.parent()),this._delay(function(){this.focus(e,t)}))},next:function(e){this._move("next","first",e)},previous:function(e){this._move("prev","last",e)},isFirstItem:function(){return this.active&&!this.active.prevAll(".ui-menu-item").length},isLastItem:function(){return this.active&&!this.active.nextAll(".ui-menu-item").length},_move:function(e,t,i){var s;this.active&&(s="first"===e||"last"===e?this.active["first"===e?"prevAll":"nextAll"](".ui-menu-item").eq(-1):this.active[e+"All"](".ui-menu-item").eq(0)),s&&s.length&&this.active||(s=this.activeMenu.find(this.options.items)[t]()),this.focus(i,s)},nextPage:function(t){var i,s,n;return 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i=t.replace(/[\-\[\]{}()*+?.,\\\^$|#\s]/g,"\\$&"),s=RegExp("^"+i,"i");return this.activeMenu.find(this.options.items).filter(".ui-menu-item").filter(function(){return s.test(e.trim(e(this).text()))})}}),e.widget("ui.autocomplete",{version:"1.11.4",defaultElement:"<input>",options:{appendTo:null,autoFocus:!1,delay:300,minLength:1,position:{my:"left top",at:"left bottom",collision:"none"},source:null,change:null,close:null,focus:null,open:null,response:null,search:null,select:null},requestIndex:0,pending:0,_create:function(){var t,i,s,n=this.element[0].nodeName.toLowerCase(),a="textarea"===n,o="input"===n;this.isMultiLine=a?!0:o?!1:this.element.prop("isContentEditable"),this.valueMethod=this.element[a||o?"val":"text"],this.isNewMenu=!0,this.element.addClass("ui-autocomplete-input").attr("autocomplete","off"),this._on(this.element,{keydown:function(n){if(this.element.prop("readOnly"))return t=!0,s=!0,i=!0,void 0;t=!1,s=!1,i=!1;var a=e.ui.keyCode;switch(n.keyCode){case 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0):(n=i.item.data("ui-autocomplete-item"),!1!==this._trigger("focus",t,{item:n})&&t.originalEvent&&/^key/.test(t.originalEvent.type)&&this._value(n.value),s=i.item.attr("aria-label")||n.value,s&&e.trim(s).length&&(this.liveRegion.children().hide(),e("<div>").text(s).appendTo(this.liveRegion)),void 0)},menuselect:function(e,t){var i=t.item.data("ui-autocomplete-item"),s=this.previous;this.element[0]!==this.document[0].activeElement&&(this.element.focus(),this.previous=s,this._delay(function(){this.previous=s,this.selectedItem=i})),!1!==this._trigger("select",e,{item:i})&&this._value(i.value),this.term=this._value(),this.close(e),this.selectedItem=i}}),this.liveRegion=e("<span>",{role:"status","aria-live":"assertive","aria-relevant":"additions"}).addClass("ui-helper-hidden-accessible").appendTo(this.document[0].body),this._on(this.window,{beforeunload:function(){this.element.removeAttr("autocomplete")}})},_destroy:function(){clearTimeout(this.searching),this.element.removeClass("ui-autocomplete-input").removeAttr("autocomplete"),this.menu.element.remove(),this.liveRegion.remove()},_setOption:function(e,t){this._super(e,t),"source"===e&&this._initSource(),"appendTo"===e&&this.menu.element.appendTo(this._appendTo()),"disabled"===e&&t&&this.xhr&&this.xhr.abort()},_appendTo:function(){var t=this.options.appendTo;return t&&(t=t.jquery||t.nodeType?e(t):this.document.find(t).eq(0)),t&&t[0]||(t=this.element.closest(".ui-front")),t.length||(t=this.document[0].body),t},_initSource:function(){var t,i,s=this;e.isArray(this.options.source)?(t=this.options.source,this.source=function(i,s){s(e.ui.autocomplete.filter(t,i.term))}):"string"==typeof this.options.source?(i=this.options.source,this.source=function(t,n){s.xhr&&s.xhr.abort(),s.xhr=e.ajax({url:i,data:t,dataType:"json",success:function(e){n(e)},error:function(){n([])}})}):this.source=this.options.source},_searchTimeout:function(e){clearTimeout(this.searching),this.searching=this._delay(function(){var t=this.term===this._value(),i=this.menu.element.is(":visible"),s=e.altKey||e.ctrlKey||e.metaKey||e.shiftKey;(!t||t&&!i&&!s)&&(this.selectedItem=null,this.search(null,e))},this.options.delay)},search:function(e,t){return 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e.proxy(function(e){t===this.requestIndex&&this.__response(e),this.pending--,this.pending||this.element.removeClass("ui-autocomplete-loading")},this)},__response:function(e){e&&(e=this._normalize(e)),this._trigger("response",null,{content:e}),!this.options.disabled&&e&&e.length&&!this.cancelSearch?(this._suggest(e),this._trigger("open")):this._close()},close:function(e){this.cancelSearch=!0,this._close(e)},_close:function(e){this.menu.element.is(":visible")&&(this.menu.element.hide(),this.menu.blur(),this.isNewMenu=!0,this._trigger("close",e))},_change:function(e){this.previous!==this._value()&&this._trigger("change",e,{item:this.selectedItem})},_normalize:function(t){return t.length&&t[0].label&&t[0].value?t:e.map(t,function(t){return"string"==typeof t?{label:t,value:t}:e.extend({},t,{label:t.label||t.value,value:t.value||t.label})})},_suggest:function(t){var i=this.menu.element.empty();this._renderMenu(i,t),this.isNewMenu=!0,this.menu.refresh(),i.show(),this._resizeMenu(),i.position(e.extend({of:this.element},this.options.position)),this.options.autoFocus&&this.menu.next()},_resizeMenu:function(){var e=this.menu.element;e.outerWidth(Math.max(e.width("").outerWidth()+1,this.element.outerWidth()))},_renderMenu:function(t,i){var s=this;e.each(i,function(e,i){s._renderItemData(t,i)})},_renderItemData:function(e,t){return this._renderItem(e,t).data("ui-autocomplete-item",t)},_renderItem:function(t,i){return e("<li>").text(i.label).appendTo(t)},_move:function(e,t){return this.menu.element.is(":visible")?this.menu.isFirstItem()&&/^previous/.test(e)||this.menu.isLastItem()&&/^next/.test(e)?(this.isMultiLine||this._value(this.term),this.menu.blur(),void 0):(this.menu[e](t),void 0):(this.search(null,t),void 0)},widget:function(){return this.menu.element},_value:function(){return this.valueMethod.apply(this.element,arguments)},_keyEvent:function(e,t){(!this.isMultiLine||this.menu.element.is(":visible"))&&(this._move(e,t),t.preventDefault())}}),e.extend(e.ui.autocomplete,{escapeRegex:function(e){return e.replace(/[\-\[\]{}()*+?.,\\\^$|#\s]/g,"\\$&")},filter:function(t,i){var s=RegExp(e.ui.autocomplete.escapeRegex(i),"i");return e.grep(t,function(e){return s.test(e.label||e.value||e)})}}),e.widget("ui.autocomplete",e.ui.autocomplete,{options:{messages:{noResults:"No search results.",results:function(e){return e+(e>1?" results are":" result is")+" available, use up and down arrow keys to navigate."}}},__response:function(t){var i;this._superApply(arguments),this.options.disabled||this.cancelSearch||(i=t&&t.length?this.options.messages.results(t.length):this.options.messages.noResults,this.liveRegion.children().hide(),e("<div>").text(i).appendTo(this.liveRegion))}}),e.ui.autocomplete;var r,h="ui-button ui-widget ui-state-default ui-corner-all",l="ui-button-icons-only ui-button-icon-only ui-button-text-icons ui-button-text-icon-primary ui-button-text-icon-secondary ui-button-text-only",u=function(){var t=e(this);setTimeout(function(){t.find(":ui-button").button("refresh")},1)},d=function(t){var i=t.name,s=t.form,n=e([]);return i&&(i=i.replace(/'/g,"\\'"),n=s?e(s).find("[name='"+i+"'][type=radio]"):e("[name='"+i+"'][type=radio]",t.ownerDocument).filter(function(){return!this.form})),n};e.widget("ui.button",{version:"1.11.4",defaultElement:"<button>",options:{disabled:null,text:!0,label:null,icons:{primary:null,secondary:null}},_create:function(){this.element.closest("form").unbind("reset"+this.eventNamespace).bind("reset"+this.eventNamespace,u),"boolean"!=typeof this.options.disabled?this.options.disabled=!!this.element.prop("disabled"):this.element.prop("disabled",this.options.disabled),this._determineButtonType(),this.hasTitle=!!this.buttonElement.attr("title");var t=this,i=this.options,s="checkbox"===this.type||"radio"===this.type,n=s?"":"ui-state-active";null===i.label&&(i.label="input"===this.type?this.buttonElement.val():this.buttonElement.html()),this._hoverable(this.buttonElement),this.buttonElement.addClass(h).attr("role","button").bind("mouseenter"+this.eventNamespace,function(){i.disabled||this===r&&e(this).addClass("ui-state-active")}).bind("mouseleave"+this.eventNamespace,function(){i.disabled||e(this).removeClass(n)}).bind("click"+this.eventNamespace,function(e){i.disabled&&(e.preventDefault(),e.stopImmediatePropagation())}),this._on({focus:function(){this.buttonElement.addClass("ui-state-focus")},blur:function(){this.buttonElement.removeClass("ui-state-focus")}}),s&&this.element.bind("change"+this.eventNamespace,function(){t.refresh()}),"checkbox"===this.type?this.buttonElement.bind("click"+this.eventNamespace,function(){return i.disabled?!1:void 0}):"radio"===this.type?this.buttonElement.bind("click"+this.eventNamespace,function(){if(i.disabled)return!1;e(this).addClass("ui-state-active"),t.buttonElement.attr("aria-pressed","true");var s=t.element[0];d(s).not(s).map(function(){return e(this).button("widget")[0]}).removeClass("ui-state-active").attr("aria-pressed","false")}):(this.buttonElement.bind("mousedown"+this.eventNamespace,function(){return i.disabled?!1:(e(this).addClass("ui-state-active"),r=this,t.document.one("mouseup",function(){r=null}),void 0)}).bind("mouseup"+this.eventNamespace,function(){return i.disabled?!1:(e(this).removeClass("ui-state-active"),void 0)}).bind("keydown"+this.eventNamespace,function(t){return i.disabled?!1:((t.keyCode===e.ui.keyCode.SPACE||t.keyCode===e.ui.keyCode.ENTER)&&e(this).addClass("ui-state-active"),void 0)}).bind("keyup"+this.eventNamespace+" blur"+this.eventNamespace,function(){e(this).removeClass("ui-state-active")}),this.buttonElement.is("a")&&this.buttonElement.keyup(function(t){t.keyCode===e.ui.keyCode.SPACE&&e(this).click()})),this._setOption("disabled",i.disabled),this._resetButton()},_determineButtonType:function(){var e,t,i;this.type=this.element.is("[type=checkbox]")?"checkbox":this.element.is("[type=radio]")?"radio":this.element.is("input")?"input":"button","checkbox"===this.type||"radio"===this.type?(e=this.element.parents().last(),t="label[for='"+this.element.attr("id")+"']",this.buttonElement=e.find(t),this.buttonElement.length||(e=e.length?e.siblings():this.element.siblings(),this.buttonElement=e.filter(t),this.buttonElement.length||(this.buttonElement=e.find(t))),this.element.addClass("ui-helper-hidden-accessible"),i=this.element.is(":checked"),i&&this.buttonElement.addClass("ui-state-active"),this.buttonElement.prop("aria-pressed",i)):this.buttonElement=this.element},widget:function(){return this.buttonElement},_destroy:function(){this.element.removeClass("ui-helper-hidden-accessible"),this.buttonElement.removeClass(h+" ui-state-active "+l).removeAttr("role").removeAttr("aria-pressed").html(this.buttonElement.find(".ui-button-text").html()),this.hasTitle||this.buttonElement.removeAttr("title")},_setOption:function(e,t){return this._super(e,t),"disabled"===e?(this.widget().toggleClass("ui-state-disabled",!!t),this.element.prop("disabled",!!t),t&&("checkbox"===this.type||"radio"===this.type?this.buttonElement.removeClass("ui-state-focus"):this.buttonElement.removeClass("ui-state-focus ui-state-active")),void 0):(this._resetButton(),void 0)},refresh:function(){var t=this.element.is("input, button")?this.element.is(":disabled"):this.element.hasClass("ui-button-disabled");t!==this.options.disabled&&this._setOption("disabled",t),"radio"===this.type?d(this.element[0]).each(function(){e(this).is(":checked")?e(this).button("widget").addClass("ui-state-active").attr("aria-pressed","true"):e(this).button("widget").removeClass("ui-state-active").attr("aria-pressed","false")}):"checkbox"===this.type&&(this.element.is(":checked")?this.buttonElement.addClass("ui-state-active").attr("aria-pressed","true"):this.buttonElement.removeClass("ui-state-active").attr("aria-pressed","false"))},_resetButton:function(){if("input"===this.type)return this.options.label&&this.element.val(this.options.label),void 0;var t=this.buttonElement.removeClass(l),i=e("<span></span>",this.document[0]).addClass("ui-button-text").html(this.options.label).appendTo(t.empty()).text(),s=this.options.icons,n=s.primary&&s.secondary,a=[];s.primary||s.secondary?(this.options.text&&a.push("ui-button-text-icon"+(n?"s":s.primary?"-primary":"-secondary")),s.primary&&t.prepend("<span class='ui-button-icon-primary ui-icon "+s.primary+"'></span>"),s.secondary&&t.append("<span class='ui-button-icon-secondary ui-icon "+s.secondary+"'></span>"),this.options.text||(a.push(n?"ui-button-icons-only":"ui-button-icon-only"),this.hasTitle||t.attr("title",e.trim(i)))):a.push("ui-button-text-only"),t.addClass(a.join(" "))}}),e.widget("ui.buttonset",{version:"1.11.4",options:{items:"button, input[type=button], input[type=submit], input[type=reset], input[type=checkbox], input[type=radio], a, :data(ui-button)"},_create:function(){this.element.addClass("ui-buttonset")},_init:function(){this.refresh()},_setOption:function(e,t){"disabled"===e&&this.buttons.button("option",e,t),this._super(e,t)},refresh:function(){var t="rtl"===this.element.css("direction"),i=this.element.find(this.options.items),s=i.filter(":ui-button");i.not(":ui-button").button(),s.button("refresh"),this.buttons=i.map(function(){return e(this).button("widget")[0]}).removeClass("ui-corner-all ui-corner-left ui-corner-right").filter(":first").addClass(t?"ui-corner-right":"ui-corner-left").end().filter(":last").addClass(t?"ui-corner-left":"ui-corner-right").end().end()},_destroy:function(){this.element.removeClass("ui-buttonset"),this.buttons.map(function(){return e(this).button("widget")[0]}).removeClass("ui-corner-left ui-corner-right").end().button("destroy")}}),e.ui.button,e.widget("ui.dialog",{version:"1.11.4",options:{appendTo:"body",autoOpen:!0,buttons:[],closeOnEscape:!0,closeText:"Close",dialogClass:"",draggable:!0,hide:null,height:"auto",maxHeight:null,maxWidth:null,minHeight:150,minWidth:150,modal:!1,position:{my:"center",at:"center",of:window,collision:"fit",using:function(t){var i=e(this).css(t).offset().top;0>i&&e(this).css("top",t.top-i)}},resizable:!0,show:null,title:null,width:300,beforeClose:null,close:null,drag:null,dragStart:null,dragStop:null,focus:null,open:null,resize:null,resizeStart:null,resizeStop:null},sizeRelatedOptions:{buttons:!0,height:!0,maxHeight:!0,maxWidth:!0,minHeight:!0,minWidth:!0,width:!0},resizableRelatedOptions:{maxHeight:!0,maxWidth:!0,minHeight:!0,minWidth:!0},_create:function(){this.originalCss={display:this.element[0].style.display,width:this.element[0].style.width,minHeight:this.element[0].style.minHeight,maxHeight:this.element[0].style.maxHeight,height:this.element[0].style.height},this.originalPosition={parent:this.element.parent(),index:this.element.parent().children().index(this.element)},this.originalTitle=this.element.attr("title"),this.options.title=this.options.title||this.originalTitle,this._createWrapper(),this.element.show().removeAttr("title").addClass("ui-dialog-content ui-widget-content").appendTo(this.uiDialog),this._createTitlebar(),this._createButtonPane(),this.options.draggable&&e.fn.draggable&&this._makeDraggable(),this.options.resizable&&e.fn.resizable&&this._makeResizable(),this._isOpen=!1,this._trackFocus()},_init:function(){this.options.autoOpen&&this.open()},_appendTo:function(){var t=this.options.appendTo;return t&&(t.jquery||t.nodeType)?e(t):this.document.find(t||"body").eq(0)},_destroy:function(){var e,t=this.originalPosition;this._untrackInstance(),this._destroyOverlay(),this.element.removeUniqueId().removeClass("ui-dialog-content ui-widget-content").css(this.originalCss).detach(),this.uiDialog.stop(!0,!0).remove(),this.originalTitle&&this.element.attr("title",this.originalTitle),e=t.parent.children().eq(t.index),e.length&&e[0]!==this.element[0]?e.before(this.element):t.parent.append(this.element)},widget:function(){return this.uiDialog},disable:e.noop,enable:e.noop,close:function(t){var i,s=this;if(this._isOpen&&this._trigger("beforeClose",t)!==!1){if(this._isOpen=!1,this._focusedElement=null,this._destroyOverlay(),this._untrackInstance(),!this.opener.filter(":focusable").focus().length)try{i=this.document[0].activeElement,i&&"body"!==i.nodeName.toLowerCase()&&e(i).blur()}catch(n){}this._hide(this.uiDialog,this.options.hide,function(){s._trigger("close",t)})}},isOpen:function(){return this._isOpen},moveToTop:function(){this._moveToTop()},_moveToTop:function(t,i){var s=!1,n=this.uiDialog.siblings(".ui-front:visible").map(function(){return+e(this).css("z-index")}).get(),a=Math.max.apply(null,n);return a>=+this.uiDialog.css("z-index")&&(this.uiDialog.css("z-index",a+1),s=!0),s&&!i&&this._trigger("focus",t),s},open:function(){var t=this;return this._isOpen?(this._moveToTop()&&this._focusTabbable(),void 0):(this._isOpen=!0,this.opener=e(this.document[0].activeElement),this._size(),this._position(),this._createOverlay(),this._moveToTop(null,!0),this.overlay&&this.overlay.css("z-index",this.uiDialog.css("z-index")-1),this._show(this.uiDialog,this.options.show,function(){t._focusTabbable(),t._trigger("focus")}),this._makeFocusTarget(),this._trigger("open"),void 0)},_focusTabbable:function(){var e=this._focusedElement;e||(e=this.element.find("[autofocus]")),e.length||(e=this.element.find(":tabbable")),e.length||(e=this.uiDialogButtonPane.find(":tabbable")),e.length||(e=this.uiDialogTitlebarClose.filter(":tabbable")),e.length||(e=this.uiDialog),e.eq(0).focus()},_keepFocus:function(t){function i(){var t=this.document[0].activeElement,i=this.uiDialog[0]===t||e.contains(this.uiDialog[0],t);i||this._focusTabbable()}t.preventDefault(),i.call(this),this._delay(i)},_createWrapper:function(){this.uiDialog=e("<div>").addClass("ui-dialog ui-widget ui-widget-content ui-corner-all ui-front "+this.options.dialogClass).hide().attr({tabIndex:-1,role:"dialog"}).appendTo(this._appendTo()),this._on(this.uiDialog,{keydown:function(t){if(this.options.closeOnEscape&&!t.isDefaultPrevented()&&t.keyCode&&t.keyCode===e.ui.keyCode.ESCAPE)return t.preventDefault(),this.close(t),void 0;if(t.keyCode===e.ui.keyCode.TAB&&!t.isDefaultPrevented()){var i=this.uiDialog.find(":tabbable"),s=i.filter(":first"),n=i.filter(":last");t.target!==n[0]&&t.target!==this.uiDialog[0]||t.shiftKey?t.target!==s[0]&&t.target!==this.uiDialog[0]||!t.shiftKey||(this._delay(function(){n.focus()}),t.preventDefault()):(this._delay(function(){s.focus()}),t.preventDefault())}},mousedown:function(e){this._moveToTop(e)&&this._focusTabbable()}}),this.element.find("[aria-describedby]").length||this.uiDialog.attr({"aria-describedby":this.element.uniqueId().attr("id")})},_createTitlebar:function(){var t;this.uiDialogTitlebar=e("<div>").addClass("ui-dialog-titlebar ui-widget-header ui-corner-all ui-helper-clearfix").prependTo(this.uiDialog),this._on(this.uiDialogTitlebar,{mousedown:function(t){e(t.target).closest(".ui-dialog-titlebar-close")||this.uiDialog.focus()}}),this.uiDialogTitlebarClose=e("<button type='button'></button>").button({label:this.options.closeText,icons:{primary:"ui-icon-closethick"},text:!1}).addClass("ui-dialog-titlebar-close").appendTo(this.uiDialogTitlebar),this._on(this.uiDialogTitlebarClose,{click:function(e){e.preventDefault(),this.close(e)}}),t=e("<span>").uniqueId().addClass("ui-dialog-title").prependTo(this.uiDialogTitlebar),this._title(t),this.uiDialog.attr({"aria-labelledby":t.attr("id")})},_title:function(e){this.options.title||e.html("&#160;"),e.text(this.options.title)
},_createButtonPane:function(){this.uiDialogButtonPane=e("<div>").addClass("ui-dialog-buttonpane ui-widget-content ui-helper-clearfix"),this.uiButtonSet=e("<div>").addClass("ui-dialog-buttonset").appendTo(this.uiDialogButtonPane),this._createButtons()},_createButtons:function(){var t=this,i=this.options.buttons;return this.uiDialogButtonPane.remove(),this.uiButtonSet.empty(),e.isEmptyObject(i)||e.isArray(i)&&!i.length?(this.uiDialog.removeClass("ui-dialog-buttons"),void 0):(e.each(i,function(i,s){var n,a;s=e.isFunction(s)?{click:s,text:i}:s,s=e.extend({type:"button"},s),n=s.click,s.click=function(){n.apply(t.element[0],arguments)},a={icons:s.icons,text:s.showText},delete s.icons,delete s.showText,e("<button></button>",s).button(a).appendTo(t.uiButtonSet)}),this.uiDialog.addClass("ui-dialog-buttons"),this.uiDialogButtonPane.appendTo(this.uiDialog),void 0)},_makeDraggable:function(){function t(e){return{position:e.position,offset:e.offset}}var i=this,s=this.options;this.uiDialog.draggable({cancel:".ui-dialog-content, .ui-dialog-titlebar-close",handle:".ui-dialog-titlebar",containment:"document",start:function(s,n){e(this).addClass("ui-dialog-dragging"),i._blockFrames(),i._trigger("dragStart",s,t(n))},drag:function(e,s){i._trigger("drag",e,t(s))},stop:function(n,a){var o=a.offset.left-i.document.scrollLeft(),r=a.offset.top-i.document.scrollTop();s.position={my:"left top",at:"left"+(o>=0?"+":"")+o+" "+"top"+(r>=0?"+":"")+r,of:i.window},e(this).removeClass("ui-dialog-dragging"),i._unblockFrames(),i._trigger("dragStop",n,t(a))}})},_makeResizable:function(){function t(e){return{originalPosition:e.originalPosition,originalSize:e.originalSize,position:e.position,size:e.size}}var i=this,s=this.options,n=s.resizable,a=this.uiDialog.css("position"),o="string"==typeof n?n:"n,e,s,w,se,sw,ne,nw";this.uiDialog.resizable({cancel:".ui-dialog-content",containment:"document",alsoResize:this.element,maxWidth:s.maxWidth,maxHeight:s.maxHeight,minWidth:s.minWidth,minHeight:this._minHeight(),handles:o,start:function(s,n){e(this).addClass("ui-dialog-resizing"),i._blockFrames(),i._trigger("resizeStart",s,t(n))},resize:function(e,s){i._trigger("resize",e,t(s))},stop:function(n,a){var o=i.uiDialog.offset(),r=o.left-i.document.scrollLeft(),h=o.top-i.document.scrollTop();s.height=i.uiDialog.height(),s.width=i.uiDialog.width(),s.position={my:"left top",at:"left"+(r>=0?"+":"")+r+" "+"top"+(h>=0?"+":"")+h,of:i.window},e(this).removeClass("ui-dialog-resizing"),i._unblockFrames(),i._trigger("resizeStop",n,t(a))}}).css("position",a)},_trackFocus:function(){this._on(this.widget(),{focusin:function(t){this._makeFocusTarget(),this._focusedElement=e(t.target)}})},_makeFocusTarget:function(){this._untrackInstance(),this._trackingInstances().unshift(this)},_untrackInstance:function(){var t=this._trackingInstances(),i=e.inArray(this,t);-1!==i&&t.splice(i,1)},_trackingInstances:function(){var e=this.document.data("ui-dialog-instances");return e||(e=[],this.document.data("ui-dialog-instances",e)),e},_minHeight:function(){var e=this.options;return"auto"===e.height?e.minHeight:Math.min(e.minHeight,e.height)},_position:function(){var e=this.uiDialog.is(":visible");e||this.uiDialog.show(),this.uiDialog.position(this.options.position),e||this.uiDialog.hide()},_setOptions:function(t){var i=this,s=!1,n={};e.each(t,function(e,t){i._setOption(e,t),e in i.sizeRelatedOptions&&(s=!0),e in i.resizableRelatedOptions&&(n[e]=t)}),s&&(this._size(),this._position()),this.uiDialog.is(":data(ui-resizable)")&&this.uiDialog.resizable("option",n)},_setOption:function(e,t){var i,s,n=this.uiDialog;"dialogClass"===e&&n.removeClass(this.options.dialogClass).addClass(t),"disabled"!==e&&(this._super(e,t),"appendTo"===e&&this.uiDialog.appendTo(this._appendTo()),"buttons"===e&&this._createButtons(),"closeText"===e&&this.uiDialogTitlebarClose.button({label:""+t}),"draggable"===e&&(i=n.is(":data(ui-draggable)"),i&&!t&&n.draggable("destroy"),!i&&t&&this._makeDraggable()),"position"===e&&this._position(),"resizable"===e&&(s=n.is(":data(ui-resizable)"),s&&!t&&n.resizable("destroy"),s&&"string"==typeof t&&n.resizable("option","handles",t),s||t===!1||this._makeResizable()),"title"===e&&this._title(this.uiDialogTitlebar.find(".ui-dialog-title")))},_size:function(){var e,t,i,s=this.options;this.element.show().css({width:"auto",minHeight:0,maxHeight:"none",height:0}),s.minWidth>s.width&&(s.width=s.minWidth),e=this.uiDialog.css({height:"auto",width:s.width}).outerHeight(),t=Math.max(0,s.minHeight-e),i="number"==typeof s.maxHeight?Math.max(0,s.maxHeight-e):"none","auto"===s.height?this.element.css({minHeight:t,maxHeight:i,height:"auto"}):this.element.height(Math.max(0,s.height-e)),this.uiDialog.is(":data(ui-resizable)")&&this.uiDialog.resizable("option","minHeight",this._minHeight())},_blockFrames:function(){this.iframeBlocks=this.document.find("iframe").map(function(){var t=e(this);return e("<div>").css({position:"absolute",width:t.outerWidth(),height:t.outerHeight()}).appendTo(t.parent()).offset(t.offset())[0]})},_unblockFrames:function(){this.iframeBlocks&&(this.iframeBlocks.remove(),delete this.iframeBlocks)},_allowInteraction:function(t){return e(t.target).closest(".ui-dialog").length?!0:!!e(t.target).closest(".ui-datepicker").length},_createOverlay:function(){if(this.options.modal){var t=!0;this._delay(function(){t=!1}),this.document.data("ui-dialog-overlays")||this._on(this.document,{focusin:function(e){t||this._allowInteraction(e)||(e.preventDefault(),this._trackingInstances()[0]._focusTabbable())}}),this.overlay=e("<div>").addClass("ui-widget-overlay ui-front").appendTo(this._appendTo()),this._on(this.overlay,{mousedown:"_keepFocus"}),this.document.data("ui-dialog-overlays",(this.document.data("ui-dialog-overlays")||0)+1)}},_destroyOverlay:function(){if(this.options.modal&&this.overlay){var e=this.document.data("ui-dialog-overlays")-1;e?this.document.data("ui-dialog-overlays",e):this.document.unbind("focusin").removeData("ui-dialog-overlays"),this.overlay.remove(),this.overlay=null}}}),e.widget("ui.progressbar",{version:"1.11.4",options:{max:100,value:0,change:null,complete:null},min:0,_create:function(){this.oldValue=this.options.value=this._constrainedValue(),this.element.addClass("ui-progressbar ui-widget ui-widget-content ui-corner-all").attr({role:"progressbar","aria-valuemin":this.min}),this.valueDiv=e("<div class='ui-progressbar-value ui-widget-header ui-corner-left'></div>").appendTo(this.element),this._refreshValue()},_destroy:function(){this.element.removeClass("ui-progressbar ui-widget ui-widget-content ui-corner-all").removeAttr("role").removeAttr("aria-valuemin").removeAttr("aria-valuemax").removeAttr("aria-valuenow"),this.valueDiv.remove()},value:function(e){return void 0===e?this.options.value:(this.options.value=this._constrainedValue(e),this._refreshValue(),void 0)},_constrainedValue:function(e){return void 0===e&&(e=this.options.value),this.indeterminate=e===!1,"number"!=typeof e&&(e=0),this.indeterminate?!1:Math.min(this.options.max,Math.max(this.min,e))},_setOptions:function(e){var t=e.value;delete e.value,this._super(e),this.options.value=this._constrainedValue(t),this._refreshValue()},_setOption:function(e,t){"max"===e&&(t=Math.max(this.min,t)),"disabled"===e&&this.element.toggleClass("ui-state-disabled",!!t).attr("aria-disabled",t),this._super(e,t)},_percentage:function(){return this.indeterminate?100:100*(this.options.value-this.min)/(this.options.max-this.min)},_refreshValue:function(){var t=this.options.value,i=this._percentage();this.valueDiv.toggle(this.indeterminate||t>this.min).toggleClass("ui-corner-right",t===this.options.max).width(i.toFixed(0)+"%"),this.element.toggleClass("ui-progressbar-indeterminate",this.indeterminate),this.indeterminate?(this.element.removeAttr("aria-valuenow"),this.overlayDiv||(this.overlayDiv=e("<div class='ui-progressbar-overlay'></div>").appendTo(this.valueDiv))):(this.element.attr({"aria-valuemax":this.options.max,"aria-valuenow":t}),this.overlayDiv&&(this.overlayDiv.remove(),this.overlayDiv=null)),this.oldValue!==t&&(this.oldValue=t,this._trigger("change")),t===this.options.max&&this._trigger("complete")}}),e.widget("ui.selectmenu",{version:"1.11.4",defaultElement:"<select>",options:{appendTo:null,disabled:null,icons:{button:"ui-icon-triangle-1-s"},position:{my:"left top",at:"left bottom",collision:"none"},width:null,change:null,close:null,focus:null,open:null,select:null},_create:function(){var e=this.element.uniqueId().attr("id");this.ids={element:e,button:e+"-button",menu:e+"-menu"},this._drawButton(),this._drawMenu(),this.options.disabled&&this.disable()},_drawButton:function(){var t=this;this.label=e("label[for='"+this.ids.element+"']").attr("for",this.ids.button),this._on(this.label,{click:function(e){this.button.focus(),e.preventDefault()}}),this.element.hide(),this.button=e("<span>",{"class":"ui-selectmenu-button ui-widget ui-state-default ui-corner-all",tabindex:this.options.disabled?-1:0,id:this.ids.button,role:"combobox","aria-expanded":"false","aria-autocomplete":"list","aria-owns":this.ids.menu,"aria-haspopup":"true"}).insertAfter(this.element),e("<span>",{"class":"ui-icon "+this.options.icons.button}).prependTo(this.button),this.buttonText=e("<span>",{"class":"ui-selectmenu-text"}).appendTo(this.button),this._setText(this.buttonText,this.element.find("option:selected").text()),this._resizeButton(),this._on(this.button,this._buttonEvents),this.button.one("focusin",function(){t.menuItems||t._refreshMenu()}),this._hoverable(this.button),this._focusable(this.button)},_drawMenu:function(){var t=this;this.menu=e("<ul>",{"aria-hidden":"true","aria-labelledby":this.ids.button,id:this.ids.menu}),this.menuWrap=e("<div>",{"class":"ui-selectmenu-menu ui-front"}).append(this.menu).appendTo(this._appendTo()),this.menuInstance=this.menu.menu({role:"listbox",select:function(e,i){e.preventDefault(),t._setSelection(),t._select(i.item.data("ui-selectmenu-item"),e)},focus:function(e,i){var s=i.item.data("ui-selectmenu-item");null!=t.focusIndex&&s.index!==t.focusIndex&&(t._trigger("focus",e,{item:s}),t.isOpen||t._select(s,e)),t.focusIndex=s.index,t.button.attr("aria-activedescendant",t.menuItems.eq(s.index).attr("id"))}}).menu("instance"),this.menu.addClass("ui-corner-bottom").removeClass("ui-corner-all"),this.menuInstance._off(this.menu,"mouseleave"),this.menuInstance._closeOnDocumentClick=function(){return!1},this.menuInstance._isDivider=function(){return!1}},refresh:function(){this._refreshMenu(),this._setText(this.buttonText,this._getSelectedItem().text()),this.options.width||this._resizeButton()},_refreshMenu:function(){this.menu.empty();var e,t=this.element.find("option");t.length&&(this._parseOptions(t),this._renderMenu(this.menu,this.items),this.menuInstance.refresh(),this.menuItems=this.menu.find("li").not(".ui-selectmenu-optgroup"),e=this._getSelectedItem(),this.menuInstance.focus(null,e),this._setAria(e.data("ui-selectmenu-item")),this._setOption("disabled",this.element.prop("disabled")))},open:function(e){this.options.disabled||(this.menuItems?(this.menu.find(".ui-state-focus").removeClass("ui-state-focus"),this.menuInstance.focus(null,this._getSelectedItem())):this._refreshMenu(),this.isOpen=!0,this._toggleAttr(),this._resizeMenu(),this._position(),this._on(this.document,this._documentClick),this._trigger("open",e))},_position:function(){this.menuWrap.position(e.extend({of:this.button},this.options.position))},close:function(e){this.isOpen&&(this.isOpen=!1,this._toggleAttr(),this.range=null,this._off(this.document),this._trigger("close",e))},widget:function(){return this.button},menuWidget:function(){return this.menu},_renderMenu:function(t,i){var s=this,n="";e.each(i,function(i,a){a.optgroup!==n&&(e("<li>",{"class":"ui-selectmenu-optgroup ui-menu-divider"+(a.element.parent("optgroup").prop("disabled")?" ui-state-disabled":""),text:a.optgroup}).appendTo(t),n=a.optgroup),s._renderItemData(t,a)})},_renderItemData:function(e,t){return this._renderItem(e,t).data("ui-selectmenu-item",t)},_renderItem:function(t,i){var s=e("<li>");return i.disabled&&s.addClass("ui-state-disabled"),this._setText(s,i.label),s.appendTo(t)},_setText:function(e,t){t?e.text(t):e.html("&#160;")},_move:function(e,t){var i,s,n=".ui-menu-item";this.isOpen?i=this.menuItems.eq(this.focusIndex):(i=this.menuItems.eq(this.element[0].selectedIndex),n+=":not(.ui-state-disabled)"),s="first"===e||"last"===e?i["first"===e?"prevAll":"nextAll"](n).eq(-1):i[e+"All"](n).eq(0),s.length&&this.menuInstance.focus(t,s)},_getSelectedItem:function(){return this.menuItems.eq(this.element[0].selectedIndex)},_toggle:function(e){this[this.isOpen?"close":"open"](e)},_setSelection:function(){var e;this.range&&(window.getSelection?(e=window.getSelection(),e.removeAllRanges(),e.addRange(this.range)):this.range.select(),this.button.focus())},_documentClick:{mousedown:function(t){this.isOpen&&(e(t.target).closest(".ui-selectmenu-menu, #"+this.ids.button).length||this.close(t))}},_buttonEvents:{mousedown:function(){var e;window.getSelection?(e=window.getSelection(),e.rangeCount&&(this.range=e.getRangeAt(0))):this.range=document.selection.createRange()},click:function(e){this._setSelection(),this._toggle(e)},keydown:function(t){var i=!0;switch(t.keyCode){case e.ui.keyCode.TAB:case e.ui.keyCode.ESCAPE:this.close(t),i=!1;break;case e.ui.keyCode.ENTER:this.isOpen&&this._selectFocusedItem(t);break;case e.ui.keyCode.UP:t.altKey?this._toggle(t):this._move("prev",t);break;case e.ui.keyCode.DOWN:t.altKey?this._toggle(t):this._move("next",t);break;case e.ui.keyCode.SPACE:this.isOpen?this._selectFocusedItem(t):this._toggle(t);break;case e.ui.keyCode.LEFT:this._move("prev",t);break;case e.ui.keyCode.RIGHT:this._move("next",t);break;case e.ui.keyCode.HOME:case e.ui.keyCode.PAGE_UP:this._move("first",t);break;case e.ui.keyCode.END:case e.ui.keyCode.PAGE_DOWN:this._move("last",t);break;default:this.menu.trigger(t),i=!1}i&&t.preventDefault()}},_selectFocusedItem:function(e){var t=this.menuItems.eq(this.focusIndex);t.hasClass("ui-state-disabled")||this._select(t.data("ui-selectmenu-item"),e)},_select:function(e,t){var i=this.element[0].selectedIndex;this.element[0].selectedIndex=e.index,this._setText(this.buttonText,e.label),this._setAria(e),this._trigger("select",t,{item:e}),e.index!==i&&this._trigger("change",t,{item:e}),this.close(t)},_setAria:function(e){var t=this.menuItems.eq(e.index).attr("id");this.button.attr({"aria-labelledby":t,"aria-activedescendant":t}),this.menu.attr("aria-activedescendant",t)},_setOption:function(e,t){"icons"===e&&this.button.find("span.ui-icon").removeClass(this.options.icons.button).addClass(t.button),this._super(e,t),"appendTo"===e&&this.menuWrap.appendTo(this._appendTo()),"disabled"===e&&(this.menuInstance.option("disabled",t),this.button.toggleClass("ui-state-disabled",t).attr("aria-disabled",t),this.element.prop("disabled",t),t?(this.button.attr("tabindex",-1),this.close()):this.button.attr("tabindex",0)),"width"===e&&this._resizeButton()},_appendTo:function(){var t=this.options.appendTo;return t&&(t=t.jquery||t.nodeType?e(t):this.document.find(t).eq(0)),t&&t[0]||(t=this.element.closest(".ui-front")),t.length||(t=this.document[0].body),t},_toggleAttr:function(){this.button.toggleClass("ui-corner-top",this.isOpen).toggleClass("ui-corner-all",!this.isOpen).attr("aria-expanded",this.isOpen),this.menuWrap.toggleClass("ui-selectmenu-open",this.isOpen),this.menu.attr("aria-hidden",!this.isOpen)},_resizeButton:function(){var e=this.options.width;e||(e=this.element.show().outerWidth(),this.element.hide()),this.button.outerWidth(e)},_resizeMenu:function(){this.menu.outerWidth(Math.max(this.button.outerWidth(),this.menu.width("").outerWidth()+1))},_getCreateOptions:function(){return{disabled:this.element.prop("disabled")}},_parseOptions:function(t){var i=[];t.each(function(t,s){var n=e(s),a=n.parent("optgroup");i.push({element:n,index:t,value:n.val(),label:n.text(),optgroup:a.attr("label")||"",disabled:a.prop("disabled")||n.prop("disabled")})}),this.items=i},_destroy:function(){this.menuWrap.remove(),this.button.remove(),this.element.show(),this.element.removeUniqueId(),this.label.attr("for",this.ids.element)}}),e.widget("ui.slider",e.ui.mouse,{version:"1.11.4",widgetEventPrefix:"slide",options:{animate:!1,distance:0,max:100,min:0,orientation:"horizontal",range:!1,step:1,value:0,values:null,change:null,slide:null,start:null,stop:null},numPages:5,_create:function(){this._keySliding=!1,this._mouseSliding=!1,this._animateOff=!0,this._handleIndex=null,this._detectOrientation(),this._mouseInit(),this._calculateNewMax(),this.element.addClass("ui-slider ui-slider-"+this.orientation+" ui-widget"+" ui-widget-content"+" ui-corner-all"),this._refresh(),this._setOption("disabled",this.options.disabled),this._animateOff=!1},_refresh:function(){this._createRange(),this._createHandles(),this._setupEvents(),this._refreshValue()},_createHandles:function(){var t,i,s=this.options,n=this.element.find(".ui-slider-handle").addClass("ui-state-default ui-corner-all"),a="<span class='ui-slider-handle ui-state-default ui-corner-all' tabindex='0'></span>",o=[];for(i=s.values&&s.values.length||1,n.length>i&&(n.slice(i).remove(),n=n.slice(0,i)),t=n.length;i>t;t++)o.push(a);this.handles=n.add(e(o.join("")).appendTo(this.element)),this.handle=this.handles.eq(0),this.handles.each(function(t){e(this).data("ui-slider-handle-index",t)})},_createRange:function(){var t=this.options,i="";t.range?(t.range===!0&&(t.values?t.values.length&&2!==t.values.length?t.values=[t.values[0],t.values[0]]:e.isArray(t.values)&&(t.values=t.values.slice(0)):t.values=[this._valueMin(),this._valueMin()]),this.range&&this.range.length?this.range.removeClass("ui-slider-range-min ui-slider-range-max").css({left:"",bottom:""}):(this.range=e("<div></div>").appendTo(this.element),i="ui-slider-range ui-widget-header ui-corner-all"),this.range.addClass(i+("min"===t.range||"max"===t.range?" ui-slider-range-"+t.range:""))):(this.range&&this.range.remove(),this.range=null)},_setupEvents:function(){this._off(this.handles),this._on(this.handles,this._handleEvents),this._hoverable(this.handles),this._focusable(this.handles)},_destroy:function(){this.handles.remove(),this.range&&this.range.remove(),this.element.removeClass("ui-slider ui-slider-horizontal ui-slider-vertical ui-widget ui-widget-content ui-corner-all"),this._mouseDestroy()},_mouseCapture:function(t){var i,s,n,a,o,r,h,l,u=this,d=this.options;return d.disabled?!1:(this.elementSize={width:this.element.outerWidth(),height:this.element.outerHeight()},this.elementOffset=this.element.offset(),i={x:t.pageX,y:t.pageY},s=this._normValueFromMouse(i),n=this._valueMax()-this._valueMin()+1,this.handles.each(function(t){var i=Math.abs(s-u.values(t));(n>i||n===i&&(t===u._lastChangedValue||u.values(t)===d.min))&&(n=i,a=e(this),o=t)}),r=this._start(t,o),r===!1?!1:(this._mouseSliding=!0,this._handleIndex=o,a.addClass("ui-state-active").focus(),h=a.offset(),l=!e(t.target).parents().addBack().is(".ui-slider-handle"),this._clickOffset=l?{left:0,top:0}:{left:t.pageX-h.left-a.width()/2,top:t.pageY-h.top-a.height()/2-(parseInt(a.css("borderTopWidth"),10)||0)-(parseInt(a.css("borderBottomWidth"),10)||0)+(parseInt(a.css("marginTop"),10)||0)},this.handles.hasClass("ui-state-hover")||this._slide(t,o,s),this._animateOff=!0,!0))},_mouseStart:function(){return!0},_mouseDrag:function(e){var t={x:e.pageX,y:e.pageY},i=this._normValueFromMouse(t);return this._slide(e,this._handleIndex,i),!1},_mouseStop:function(e){return this.handles.removeClass("ui-state-active"),this._mouseSliding=!1,this._stop(e,this._handleIndex),this._change(e,this._handleIndex),this._handleIndex=null,this._clickOffset=null,this._animateOff=!1,!1},_detectOrientation:function(){this.orientation="vertical"===this.options.orientation?"vertical":"horizontal"},_normValueFromMouse:function(e){var t,i,s,n,a;return"horizontal"===this.orientation?(t=this.elementSize.width,i=e.x-this.elementOffset.left-(this._clickOffset?this._clickOffset.left:0)):(t=this.elementSize.height,i=e.y-this.elementOffset.top-(this._clickOffset?this._clickOffset.top:0)),s=i/t,s>1&&(s=1),0>s&&(s=0),"vertical"===this.orientation&&(s=1-s),n=this._valueMax()-this._valueMin(),a=this._valueMin()+s*n,this._trimAlignValue(a)},_start:function(e,t){var i={handle:this.handles[t],value:this.value()};return this.options.values&&this.options.values.length&&(i.value=this.values(t),i.values=this.values()),this._trigger("start",e,i)},_slide:function(e,t,i){var s,n,a;this.options.values&&this.options.values.length?(s=this.values(t?0:1),2===this.options.values.length&&this.options.range===!0&&(0===t&&i>s||1===t&&s>i)&&(i=s),i!==this.values(t)&&(n=this.values(),n[t]=i,a=this._trigger("slide",e,{handle:this.handles[t],value:i,values:n}),s=this.values(t?0:1),a!==!1&&this.values(t,i))):i!==this.value()&&(a=this._trigger("slide",e,{handle:this.handles[t],value:i}),a!==!1&&this.value(i))},_stop:function(e,t){var i={handle:this.handles[t],value:this.value()};this.options.values&&this.options.values.length&&(i.value=this.values(t),i.values=this.values()),this._trigger("stop",e,i)},_change:function(e,t){if(!this._keySliding&&!this._mouseSliding){var i={handle:this.handles[t],value:this.value()};this.options.values&&this.options.values.length&&(i.value=this.values(t),i.values=this.values()),this._lastChangedValue=t,this._trigger("change",e,i)}},value:function(e){return arguments.length?(this.options.value=this._trimAlignValue(e),this._refreshValue(),this._change(null,0),void 0):this._value()},values:function(t,i){var s,n,a;if(arguments.length>1)return this.options.values[t]=this._trimAlignValue(i),this._refreshValue(),this._change(null,t),void 0;if(!arguments.length)return this._values();if(!e.isArray(arguments[0]))return this.options.values&&this.options.values.length?this._values(t):this.value();for(s=this.options.values,n=arguments[0],a=0;s.length>a;a+=1)s[a]=this._trimAlignValue(n[a]),this._change(null,a);this._refreshValue()},_setOption:function(t,i){var s,n=0;switch("range"===t&&this.options.range===!0&&("min"===i?(this.options.value=this._values(0),this.options.values=null):"max"===i&&(this.options.value=this._values(this.options.values.length-1),this.options.values=null)),e.isArray(this.options.values)&&(n=this.options.values.length),"disabled"===t&&this.element.toggleClass("ui-state-disabled",!!i),this._super(t,i),t){case"orientation":this._detectOrientation(),this.element.removeClass("ui-slider-horizontal ui-slider-vertical").addClass("ui-slider-"+this.orientation),this._refreshValue(),this.handles.css("horizontal"===i?"bottom":"left","");break;case"value":this._animateOff=!0,this._refreshValue(),this._change(null,0),this._animateOff=!1;break;case"values":for(this._animateOff=!0,this._refreshValue(),s=0;n>s;s+=1)this._change(null,s);this._animateOff=!1;break;case"step":case"min":case"max":this._animateOff=!0,this._calculateNewMax(),this._refreshValue(),this._animateOff=!1;break;case"range":this._animateOff=!0,this._refresh(),this._animateOff=!1}},_value:function(){var e=this.options.value;return e=this._trimAlignValue(e)},_values:function(e){var t,i,s;if(arguments.length)return t=this.options.values[e],t=this._trimAlignValue(t);if(this.options.values&&this.options.values.length){for(i=this.options.values.slice(),s=0;i.length>s;s+=1)i[s]=this._trimAlignValue(i[s]);return i}return[]},_trimAlignValue:function(e){if(this._valueMin()>=e)return this._valueMin();if(e>=this._valueMax())return this._valueMax();var t=this.options.step>0?this.options.step:1,i=(e-this._valueMin())%t,s=e-i;return 2*Math.abs(i)>=t&&(s+=i>0?t:-t),parseFloat(s.toFixed(5))},_calculateNewMax:function(){var e=this.options.max,t=this._valueMin(),i=this.options.step,s=Math.floor(+(e-t).toFixed(this._precision())/i)*i;e=s+t,this.max=parseFloat(e.toFixed(this._precision()))},_precision:function(){var e=this._precisionOf(this.options.step);return null!==this.options.min&&(e=Math.max(e,this._precisionOf(this.options.min))),e},_precisionOf:function(e){var t=""+e,i=t.indexOf(".");return-1===i?0:t.length-i-1},_valueMin:function(){return this.options.min},_valueMax:function(){return this.max},_refreshValue:function(){var t,i,s,n,a,o=this.options.range,r=this.options,h=this,l=this._animateOff?!1:r.animate,u={};this.options.values&&this.options.values.length?this.handles.each(function(s){i=100*((h.values(s)-h._valueMin())/(h._valueMax()-h._valueMin())),u["horizontal"===h.orientation?"left":"bottom"]=i+"%",e(this).stop(1,1)[l?"animate":"css"](u,r.animate),h.options.range===!0&&("horizontal"===h.orientation?(0===s&&h.range.stop(1,1)[l?"animate":"css"]({left:i+"%"},r.animate),1===s&&h.range[l?"animate":"css"]({width:i-t+"%"},{queue:!1,duration:r.animate})):(0===s&&h.range.stop(1,1)[l?"animate":"css"]({bottom:i+"%"},r.animate),1===s&&h.range[l?"animate":"css"]({height:i-t+"%"},{queue:!1,duration:r.animate}))),t=i}):(s=this.value(),n=this._valueMin(),a=this._valueMax(),i=a!==n?100*((s-n)/(a-n)):0,u["horizontal"===this.orientation?"left":"bottom"]=i+"%",this.handle.stop(1,1)[l?"animate":"css"](u,r.animate),"min"===o&&"horizontal"===this.orientation&&this.range.stop(1,1)[l?"animate":"css"]({width:i+"%"},r.animate),"max"===o&&"horizontal"===this.orientation&&this.range[l?"animate":"css"]({width:100-i+"%"},{queue:!1,duration:r.animate}),"min"===o&&"vertical"===this.orientation&&this.range.stop(1,1)[l?"animate":"css"]({height:i+"%"},r.animate),"max"===o&&"vertical"===this.orientation&&this.range[l?"animate":"css"]({height:100-i+"%"},{queue:!1,duration:r.animate}))},_handleEvents:{keydown:function(t){var i,s,n,a,o=e(t.target).data("ui-slider-handle-index");switch(t.keyCode){case e.ui.keyCode.HOME:case e.ui.keyCode.END:case e.ui.keyCode.PAGE_UP:case e.ui.keyCode.PAGE_DOWN:case e.ui.keyCode.UP:case e.ui.keyCode.RIGHT:case e.ui.keyCode.DOWN:case e.ui.keyCode.LEFT:if(t.preventDefault(),!this._keySliding&&(this._keySliding=!0,e(t.target).addClass("ui-state-active"),i=this._start(t,o),i===!1))return}switch(a=this.options.step,s=n=this.options.values&&this.options.values.length?this.values(o):this.value(),t.keyCode){case e.ui.keyCode.HOME:n=this._valueMin();break;case e.ui.keyCode.END:n=this._valueMax();break;case e.ui.keyCode.PAGE_UP:n=this._trimAlignValue(s+(this._valueMax()-this._valueMin())/this.numPages);break;case e.ui.keyCode.PAGE_DOWN:n=this._trimAlignValue(s-(this._valueMax()-this._valueMin())/this.numPages);break;case e.ui.keyCode.UP:case e.ui.keyCode.RIGHT:if(s===this._valueMax())return;n=this._trimAlignValue(s+a);break;case e.ui.keyCode.DOWN:case e.ui.keyCode.LEFT:if(s===this._valueMin())return;n=this._trimAlignValue(s-a)}this._slide(t,o,n)},keyup:function(t){var i=e(t.target).data("ui-slider-handle-index");this._keySliding&&(this._keySliding=!1,this._stop(t,i),this._change(t,i),e(t.target).removeClass("ui-state-active"))}}}),e.widget("ui.spinner",{version:"1.11.4",defaultElement:"<input>",widgetEventPrefix:"spin",options:{culture:null,icons:{down:"ui-icon-triangle-1-s",up:"ui-icon-triangle-1-n"},incremental:!0,max:null,min:null,numberFormat:null,page:10,step:1,change:null,spin:null,start:null,stop:null},_create:function(){this._setOption("max",this.options.max),this._setOption("min",this.options.min),this._setOption("step",this.options.step),""!==this.value()&&this._value(this.element.val(),!0),this._draw(),this._on(this._events),this._refresh(),this._on(this.window,{beforeunload:function(){this.element.removeAttr("autocomplete")}})},_getCreateOptions:function(){var t={},i=this.element;return e.each(["min","max","step"],function(e,s){var n=i.attr(s);void 0!==n&&n.length&&(t[s]=n)}),t},_events:{keydown:function(e){this._start(e)&&this._keydown(e)&&e.preventDefault()},keyup:"_stop",focus:function(){this.previous=this.element.val()},blur:function(e){return this.cancelBlur?(delete this.cancelBlur,void 0):(this._stop(),this._refresh(),this.previous!==this.element.val()&&this._trigger("change",e),void 0)},mousewheel:function(e,t){if(t){if(!this.spinning&&!this._start(e))return!1;this._spin((t>0?1:-1)*this.options.step,e),clearTimeout(this.mousewheelTimer),this.mousewheelTimer=this._delay(function(){this.spinning&&this._stop(e)},100),e.preventDefault()}},"mousedown .ui-spinner-button":function(t){function i(){var e=this.element[0]===this.document[0].activeElement;e||(this.element.focus(),this.previous=s,this._delay(function(){this.previous=s}))}var s;s=this.element[0]===this.document[0].activeElement?this.previous:this.element.val(),t.preventDefault(),i.call(this),this.cancelBlur=!0,this._delay(function(){delete this.cancelBlur,i.call(this)}),this._start(t)!==!1&&this._repeat(null,e(t.currentTarget).hasClass("ui-spinner-up")?1:-1,t)},"mouseup .ui-spinner-button":"_stop","mouseenter .ui-spinner-button":function(t){return e(t.currentTarget).hasClass("ui-state-active")?this._start(t)===!1?!1:(this._repeat(null,e(t.currentTarget).hasClass("ui-spinner-up")?1:-1,t),void 0):void 0},"mouseleave .ui-spinner-button":"_stop"},_draw:function(){var e=this.uiSpinner=this.element.addClass("ui-spinner-input").attr("autocomplete","off").wrap(this._uiSpinnerHtml()).parent().append(this._buttonHtml());this.element.attr("role","spinbutton"),this.buttons=e.find(".ui-spinner-button").attr("tabIndex",-1).button().removeClass("ui-corner-all"),this.buttons.height()>Math.ceil(.5*e.height())&&e.height()>0&&e.height(e.height()),this.options.disabled&&this.disable()},_keydown:function(t){var i=this.options,s=e.ui.keyCode;switch(t.keyCode){case s.UP:return this._repeat(null,1,t),!0;case s.DOWN:return this._repeat(null,-1,t),!0;case s.PAGE_UP:return this._repeat(null,i.page,t),!0;case s.PAGE_DOWN:return this._repeat(null,-i.page,t),!0}return!1},_uiSpinnerHtml:function(){return"<span class='ui-spinner ui-widget ui-widget-content ui-corner-all'></span>"},_buttonHtml:function(){return"<a class='ui-spinner-button ui-spinner-up ui-corner-tr'><span class='ui-icon "+this.options.icons.up+"'>&#9650;</span>"+"</a>"+"<a class='ui-spinner-button 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+<link href="data:text/css;charset=utf-8,%0A%0A%2Etocify%20%7B%0Awidth%3A%2020%25%3B%0Amax%2Dheight%3A%2090%25%3B%0Aoverflow%3A%20auto%3B%0Amargin%2Dleft%3A%202%25%3B%0Aposition%3A%20fixed%3B%0Aborder%3A%201px%20solid%20%23ccc%3B%0Awebkit%2Dborder%2Dradius%3A%206px%3B%0Amoz%2Dborder%2Dradius%3A%206px%3B%0Aborder%2Dradius%3A%206px%3B%0A%7D%0A%0A%2Etocify%20ul%2C%20%2Etocify%20li%20%7B%0Alist%2Dstyle%3A%20none%3B%0Amargin%3A%200%3B%0Apadding%3A%200%3B%0Aborder%3A%20none%3B%0Aline%2Dheight%3A%2030px%3B%0A%7D%0A%0A%2Etocify%2Dheader%20%7B%0Atext%2Dindent%3A%2010px%3B%0A%7D%0A%0A%2Etocify%2Dsubheader%20%7B%0Atext%2Dindent%3A%2020px%3B%0Adisplay%3A%20none%3B%0A%7D%0A%0A%2Etocify%2Dsubheader%20li%20%7B%0Afont%2Dsize%3A%2012px%3B%0A%7D%0A%0A%2Etocify%2Dsubheader%20%2Etocify%2Dsubheader%20%7B%0Atext%2Dindent%3A%2030px%3B%0A%7D%0A%0A%2Etocify%2Dsubheader%20%2Etocify%2Dsubheader%20%2Etocify%2Dsubheader%20%7B%0Atext%2Dindent%3A%2040px%3B%0A%7D%0A%0A%2Etocify%20%2Etocify%2Ditem%20%3E%20a%2C%20%2Etocify%20%2Enav%2Dlist%20%2Enav%2Dheader%20%7B%0Amargin%3A%200px%3B%0A%7D%0A%0A%2Etocify%20%2Etocify%2Ditem%20a%2C%20%2Etocify%20%2Elist%2Dgroup%2Ditem%20%7B%0Apadding%3A%205px%3B%0A%7D%0A%2Etocify%20%2Enav%2Dpills%20%3E%20li%20%7B%0Afloat%3A%20none%3B%0A%7D%0A%0A%0A" rel="stylesheet" />
+<script src="data:application/x-javascript;base64,/* jquery Tocify - v1.9.1 - 2013-10-22
 * http://www.gregfranko.com/jquery.tocify.js/
 * Copyright (c) 2013 Greg Franko; Licensed MIT */

// Immediately-Invoked Function Expression (IIFE) [Ben Alman Blog Post](http://benalman.com/news/2010/11/immediately-invoked-function-expression/) that calls another IIFE that contains all of the plugin logic.  I used this pattern so that anyone viewing this code would not have to scroll to the bottom of the page to view the local parameters that were passed to the main IIFE.
(function(tocify) {

    // ECMAScript 5 Strict Mode: [John Resig Blog Post](http://ejohn.org/blog/ecmascript-5-strict-mode-json-and-more/)
    "use strict";

    // Calls the second IIFE and locally passes in the global jQuery, window, and document objects
    tocify(window.jQuery, window, document);

  }

  // Locally passes in `jQuery`, the `window` object, the `document` object, and an `undefined` variable.  The `jQuery`, `window` and `document` objects are passed in locally, to improve performance, since javascript first searches for a variable match within the local variables set before searching the global variables set.  All of the global variables are also passed in locally to be minifier friendly. `undefined` can be passed in locally, because it is not a reserved word in JavaScript.
  (function($, window, document, undefined) {

    // ECMAScript 5 Strict Mode: [John Resig Blog Post](http://ejohn.org/blog/ecmascript-5-strict-mode-json-and-more/)
    "use strict";

    var tocClassName = "tocify",
      tocClass = "." + tocClassName,
      tocFocusClassName = "tocify-focus",
      tocHoverClassName = "tocify-hover",
      hideTocClassName = "tocify-hide",
      hideTocClass = "." + hideTocClassName,
      headerClassName = "tocify-header",
      headerClass = "." + headerClassName,
      subheaderClassName = "tocify-subheader",
      subheaderClass = "." + subheaderClassName,
      itemClassName = "tocify-item",
      itemClass = "." + itemClassName,
      extendPageClassName = "tocify-extend-page",
      extendPageClass = "." + extendPageClassName;

    // Calling the jQueryUI Widget Factory Method
    $.widget("toc.tocify", {

      //Plugin version
      version: "1.9.1",

      // These options will be used as defaults
      options: {

        // **context**: Accepts String: Any jQuery selector
        // The container element that holds all of the elements used to generate the table of contents
        context: "body",

        // **ignoreSelector**: Accepts String: Any jQuery selector
        // A selector to any element that would be matched by selectors that you wish to be ignored
        ignoreSelector: null,

        // **selectors**: Accepts an Array of Strings: Any jQuery selectors
        // The element's used to generate the table of contents.  The order is very important since it will determine the table of content's nesting structure
        selectors: "h1, h2, h3",

        // **showAndHide**: Accepts a boolean: true or false
        // Used to determine if elements should be shown and hidden
        showAndHide: true,

        // **showEffect**: Accepts String: "none", "fadeIn", "show", or "slideDown"
        // Used to display any of the table of contents nested items
        showEffect: "slideDown",

        // **showEffectSpeed**: Accepts Number (milliseconds) or String: "slow", "medium", or "fast"
        // The time duration of the show animation
        showEffectSpeed: "medium",

        // **hideEffect**: Accepts String: "none", "fadeOut", "hide", or "slideUp"
        // Used to hide any of the table of contents nested items
        hideEffect: "slideUp",

        // **hideEffectSpeed**: Accepts Number (milliseconds) or String: "slow", "medium", or "fast"
        // The time duration of the hide animation
        hideEffectSpeed: "medium",

        // **smoothScroll**: Accepts a boolean: true or false
        // Determines if a jQuery animation should be used to scroll to specific table of contents items on the page
        smoothScroll: true,

        // **smoothScrollSpeed**: Accepts Number (milliseconds) or String: "slow", "medium", or "fast"
        // The time duration of the smoothScroll animation
        smoothScrollSpeed: "medium",

        // **scrollTo**: Accepts Number (pixels)
        // The amount of space between the top of page and the selected table of contents item after the page has been scrolled
        scrollTo: 0,

        // **showAndHideOnScroll**: Accepts a boolean: true or false
        // Determines if table of contents nested items should be shown and hidden while scrolling
        showAndHideOnScroll: true,

        // **highlightOnScroll**: Accepts a boolean: true or false
        // Determines if table of contents nested items should be highlighted (set to a different color) while scrolling
        highlightOnScroll: true,

        // **highlightOffset**: Accepts a number
        // The offset distance in pixels to trigger the next active table of contents item
        highlightOffset: 40,

        // **theme**: Accepts a string: "bootstrap", "jqueryui", or "none"
        // Determines if Twitter Bootstrap, jQueryUI, or Tocify classes should be added to the table of contents
        theme: "bootstrap",

        // **extendPage**: Accepts a boolean: true or false
        // If a user scrolls to the bottom of the page and the page is not tall enough to scroll to the last table of contents item, then the page height is increased
        extendPage: true,

        // **extendPageOffset**: Accepts a number: pixels
        // How close to the bottom of the page a user must scroll before the page is extended
        extendPageOffset: 100,

        // **history**: Accepts a boolean: true or false
        // Adds a hash to the page url to maintain history
        history: true,

        // **scrollHistory**: Accepts a boolean: true or false
        // Adds a hash to the page url, to maintain history, when scrolling to a TOC item
        scrollHistory: false,

        // **hashGenerator**: How the hash value (the anchor segment of the URL, following the
        // # character) will be generated.
        //
        // "compact" (default) - #CompressesEverythingTogether
        // "pretty" - #looks-like-a-nice-url-and-is-easily-readable
        // function(text, element){} - Your own hash generation function that accepts the text as an
        // argument, and returns the hash value.
        hashGenerator: "compact",

        // **highlightDefault**: Accepts a boolean: true or false
        // Set's the first TOC item as active if no other TOC item is active.
        highlightDefault: true

      },

      // _Create
      // -------
      //      Constructs the plugin.  Only called once.
      _create: function() {

        var self = this;

        self.extendPageScroll = true;

        // Internal array that keeps track of all TOC items (Helps to recognize if there are duplicate TOC item strings)
        self.items = [];

        // Generates the HTML for the dynamic table of contents
        self._generateToc();

        // Adds CSS classes to the newly generated table of contents HTML
        self._addCSSClasses();

        self.webkit = (function() {

          for (var prop in window) {

            if (prop) {

              if (prop.toLowerCase().indexOf("webkit") !== -1) {

                return true;

              }

            }

          }

          return false;

        }());

        // Adds jQuery event handlers to the newly generated table of contents
        self._setEventHandlers();

        // Binding to the Window load event to make sure the correct scrollTop is calculated
        $(window).load(function() {

          // Sets the active TOC item
          self._setActiveElement(true);

          // Once all animations on the page are complete, this callback function will be called
          $("html, body").promise().done(function() {

            setTimeout(function() {

              self.extendPageScroll = false;

            }, 0);

          });

        });

      },

      // _generateToc
      // ------------
      //      Generates the HTML for the dynamic table of contents
      _generateToc: function() {

        // _Local variables_

        // Stores the plugin context in the self variable
        var self = this,

          // All of the HTML tags found within the context provided (i.e. body) that match the top level jQuery selector above
          firstElem,

          // Instantiated variable that will store the top level newly created unordered list DOM element
          ul,
          ignoreSelector = self.options.ignoreSelector;


        // Determine the element to start the toc with
        // get all the top level selectors
        firstElem = [];
        var selectors = this.options.selectors.replace(/ /g, "").split(",");
        // find the first set that have at least one non-ignored element
        for(var i = 0; i < selectors.length; i++) {
          var foundSelectors = $(this.options.context).find(selectors[i]);
          for (var s = 0; s < foundSelectors.length; s++) {
            if (!$(foundSelectors[s]).is(ignoreSelector)) {
              firstElem = foundSelectors;
              break;
            }
          }
          if (firstElem.length> 0)
            break;
        }

        if (!firstElem.length) {

          self.element.addClass(hideTocClassName);

          return;

        }

        self.element.addClass(tocClassName);

        // Loops through each top level selector
        firstElem.each(function(index) {

          //If the element matches the ignoreSelector then we skip it
          if ($(this).is(ignoreSelector)) {
            return;
          }

          // Creates an unordered list HTML element and adds a dynamic ID and standard class name
          ul = $("<ul/>", {
            "id": headerClassName + index,
            "class": headerClassName
          }).

          // Appends a top level list item HTML element to the previously created HTML header
          append(self._nestElements($(this), index));

          // Add the created unordered list element to the HTML element calling the plugin
          self.element.append(ul);

          // Finds all of the HTML tags between the header and subheader elements
          $(this).nextUntil(this.nodeName.toLowerCase()).each(function() {

            // If there are no nested subheader elemements
            if ($(this).find(self.options.selectors).length === 0) {

              // Loops through all of the subheader elements
              $(this).filter(self.options.selectors).each(function() {

                //If the element matches the ignoreSelector then we skip it
                if ($(this).is(ignoreSelector)) {
                  return;
                }

                self._appendSubheaders.call(this, self, ul);

              });

            }

            // If there are nested subheader elements
            else {

              // Loops through all of the subheader elements
              $(this).find(self.options.selectors).each(function() {

                //If the element matches the ignoreSelector then we skip it
                if ($(this).is(ignoreSelector)) {
                  return;
                }

                self._appendSubheaders.call(this, self, ul);

              });

            }

          });

        });

      },

      _setActiveElement: function(pageload) {

        var self = this,

          hash = window.location.hash.substring(1),

          elem = self.element.find('li[data-unique="' + hash + '"]');

        if (hash.length) {

          // Removes highlighting from all of the list item's
          self.element.find("." + self.focusClass).removeClass(self.focusClass);

          // Highlights the current list item that was clicked
          elem.addClass(self.focusClass);

          // Triggers the click event on the currently focused TOC item
          elem.click();

        } else {

          // Removes highlighting from all of the list item's
          self.element.find("." + self.focusClass).removeClass(self.focusClass);

          if (!hash.length && pageload && self.options.highlightDefault) {

            // Highlights the first TOC item if no other items are highlighted
            self.element.find(itemClass).first().addClass(self.focusClass);

          }

        }

        return self;

      },

      // _nestElements
      // -------------
      //      Helps create the table of contents list by appending nested list items
      _nestElements: function(self, index) {

        var arr, item, hashValue;

        arr = $.grep(this.items, function(item) {

          return item === self.text();

        });

        // If there is already a duplicate TOC item
        if (arr.length) {

          // Adds the current TOC item text and index (for slight randomization) to the internal array
          this.items.push(self.text() + index);

        }

        // If there not a duplicate TOC item
        else {

          // Adds the current TOC item text to the internal array
          this.items.push(self.text());

        }

        hashValue = this._generateHashValue(arr, self, index);

        // Appends a list item HTML element to the last unordered list HTML element found within the HTML element calling the plugin
        item = $("<li/>", {

          // Sets a common class name to the list item
          "class": itemClassName,

          "data-unique": hashValue

        });

        if (this.options.theme !== "bootstrap3") {

          item.append($("<a/>", {

            "text": self.text()

          }));

        } else {

          item.text(self.text());

        }

        // Adds an HTML anchor tag before the currently traversed HTML element
        self.before($("<div/>", {

          // Sets a name attribute on the anchor tag to the text of the currently traversed HTML element (also making sure that all whitespace is replaced with an underscore)
          "name": hashValue,

          "data-unique": hashValue

        }));

        return item;

      },

      // _generateHashValue
      // ------------------
      //      Generates the hash value that will be used to refer to each item.
      _generateHashValue: function(arr, self, index) {

        var hashValue = "",
          hashGeneratorOption = this.options.hashGenerator;

        if (hashGeneratorOption === "pretty") {

          // prettify the text
          hashValue = self.text().toLowerCase().replace(/\s/g, "-");

          // fix double hyphens
          while (hashValue.indexOf("--") > -1) {
            hashValue = hashValue.replace(/--/g, "-");
          }

          // fix colon-space instances
          while (hashValue.indexOf(":-") > -1) {
            hashValue = hashValue.replace(/:-/g, "-");
          }

        } else if (typeof hashGeneratorOption === "function") {

          // call the function
          hashValue = hashGeneratorOption(self.text(), self);

        } else {

          // compact - the default
          hashValue = self.text().replace(/\s/g, "");

        }

        // add the index if we need to
        if (arr.length) {
          hashValue += "" + index;
        }

        // return the value
        return hashValue;

      },

      // _appendElements
      // ---------------
      //      Helps create the table of contents list by appending subheader elements

      _appendSubheaders: function(self, ul) {

        // The current element index
        var index = $(this).index(self.options.selectors),

          // Finds the previous header DOM element
          previousHeader = $(self.options.selectors).eq(index - 1),

          currentTagName = +$(this).prop("tagName").charAt(1),

          previousTagName = +previousHeader.prop("tagName").charAt(1),

          lastSubheader;

        // If the current header DOM element is smaller than the previous header DOM element or the first subheader
        if (currentTagName < previousTagName) {

          // Selects the last unordered list HTML found within the HTML element calling the plugin
          self.element.find(subheaderClass + "[data-tag=" + currentTagName + "]").last().append(self._nestElements($(this), index));

        }

        // If the current header DOM element is the same type of header(eg. h4) as the previous header DOM element
        else if (currentTagName === previousTagName) {

          ul.find(itemClass).last().after(self._nestElements($(this), index));

        } else {

          // Selects the last unordered list HTML found within the HTML element calling the plugin
          ul.find(itemClass).last().

          // Appends an unorderedList HTML element to the dynamic `unorderedList` variable and sets a common class name
          after($("<ul/>", {

            "class": subheaderClassName,

            "data-tag": currentTagName

          })).next(subheaderClass).

          // Appends a list item HTML element to the last unordered list HTML element found within the HTML element calling the plugin
          append(self._nestElements($(this), index));
        }

      },

      // _setEventHandlers
      // ----------------
      //      Adds jQuery event handlers to the newly generated table of contents
      _setEventHandlers: function() {

        // _Local variables_

        // Stores the plugin context in the self variable
        var self = this,

          // Instantiates a new variable that will be used to hold a specific element's context
          $self,

          // Instantiates a new variable that will be used to determine the smoothScroll animation time duration
          duration;

        // Event delegation that looks for any clicks on list item elements inside of the HTML element calling the plugin
        this.element.on("click.tocify", "li", function(event) {

          if (self.options.history) {

            window.location.hash = $(this).attr("data-unique");

          }

          // Removes highlighting from all of the list item's
          self.element.find("." + self.focusClass).removeClass(self.focusClass);

          // Highlights the current list item that was clicked
          $(this).addClass(self.focusClass);

          // If the showAndHide option is true
          if (self.options.showAndHide) {

            var elem = $('li[data-unique="' + $(this).attr("data-unique") + '"]');

            self._triggerShow(elem);

          }

          self._scrollTo($(this));

        });

        // Mouseenter and Mouseleave event handlers for the list item's within the HTML element calling the plugin
        this.element.find("li").on({

          // Mouseenter event handler
          "mouseenter.tocify": function() {

            // Adds a hover CSS class to the current list item
            $(this).addClass(self.hoverClass);

            // Makes sure the cursor is set to the pointer icon
            $(this).css("cursor", "pointer");

          },

          // Mouseleave event handler
          "mouseleave.tocify": function() {

            if (self.options.theme !== "bootstrap") {

              // Removes the hover CSS class from the current list item
              $(this).removeClass(self.hoverClass);

            }

          }
        });

        // only attach handler if needed (expensive in IE)
        if (self.options.extendPage || self.options.highlightOnScroll || self.options.scrollHistory || self.options.showAndHideOnScroll) {
          // Window scroll event handler
          $(window).on("scroll.tocify", function() {

            // Once all animations on the page are complete, this callback function will be called
            $("html, body").promise().done(function() {

              // Local variables

              // Stores how far the user has scrolled
              var winScrollTop = $(window).scrollTop(),

                // Stores the height of the window
                winHeight = $(window).height(),

                // Stores the height of the document
                docHeight = $(document).height(),

                scrollHeight = $("body")[0].scrollHeight,

                // Instantiates a variable that will be used to hold a selected HTML element
                elem,

                lastElem,

                lastElemOffset,

                currentElem;

              if (self.options.extendPage) {

                // If the user has scrolled to the bottom of the page and the last toc item is not focused
                if ((self.webkit && winScrollTop >= scrollHeight - winHeight - self.options.extendPageOffset) || (!self.webkit && winHeight + winScrollTop > docHeight - self.options.extendPageOffset)) {

                  if (!$(extendPageClass).length) {

                    lastElem = $('div[data-unique="' + $(itemClass).last().attr("data-unique") + '"]');

                    if (!lastElem.length) return;

                    // Gets the top offset of the page header that is linked to the last toc item
                    lastElemOffset = lastElem.offset().top;

                    // Appends a div to the bottom of the page and sets the height to the difference of the window scrollTop and the last element's position top offset
                    $(self.options.context).append($("<div/>", {

                      "class": extendPageClassName,

                      "height": Math.abs(lastElemOffset - winScrollTop) + "px",

                      "data-unique": extendPageClassName

                    }));

                    if (self.extendPageScroll) {

                      currentElem = self.element.find('li.' + self.focusClass);

                      self._scrollTo($('div[data-unique="' + currentElem.attr("data-unique") + '"]'));

                    }

                  }

                }

              }

              // The zero timeout ensures the following code is run after the scroll events
              setTimeout(function() {

                // _Local variables_

                // Stores the distance to the closest anchor
                var closestAnchorDistance = null,

                  // Stores the index of the closest anchor
                  closestAnchorIdx = null,

                  // Keeps a reference to all anchors
                  anchors = $(self.options.context).find("div[data-unique]"),

                  anchorText;

                // Determines the index of the closest anchor
                anchors.each(function(idx) {
                  var distance = Math.abs(($(this).next().length ? $(this).next() : $(this)).offset().top - winScrollTop - self.options.highlightOffset);
                  if (closestAnchorDistance == null || distance < closestAnchorDistance) {
                    closestAnchorDistance = distance;
                    closestAnchorIdx = idx;
                  } else {
                    return false;
                  }
                });

                anchorText = $(anchors[closestAnchorIdx]).attr("data-unique");

                // Stores the list item HTML element that corresponds to the currently traversed anchor tag
                elem = $('li[data-unique="' + anchorText + '"]');

                // If the `highlightOnScroll` option is true and a next element is found
                if (self.options.highlightOnScroll && elem.length) {

                  // Removes highlighting from all of the list item's
                  self.element.find("." + self.focusClass).removeClass(self.focusClass);

                  // Highlights the corresponding list item
                  elem.addClass(self.focusClass);

                }

                if (self.options.scrollHistory) {

                  if (window.location.hash !== "#" + anchorText) {

                    window.location.replace("#" + anchorText);

                  }
                }

                // If the `showAndHideOnScroll` option is true
                if (self.options.showAndHideOnScroll && self.options.showAndHide) {

                  self._triggerShow(elem, true);

                }

              }, 0);

            });

          });
        }

      },

      // Show
      // ----
      //      Opens the current sub-header
      show: function(elem, scroll) {

        // Stores the plugin context in the `self` variable
        var self = this,
          element = elem;

        // If the sub-header is not already visible
        if (!elem.is(":visible")) {

          // If the current element does not have any nested subheaders, is not a header, and its parent is not visible
          if (!elem.find(subheaderClass).length && !elem.parent().is(headerClass) && !elem.parent().is(":visible")) {

            // Sets the current element to all of the subheaders within the current header
            elem = elem.parents(subheaderClass).add(elem);

          }

          // If the current element does not have any nested subheaders and is not a header
          else if (!elem.children(subheaderClass).length && !elem.parent().is(headerClass)) {

            // Sets the current element to the closest subheader
            elem = elem.closest(subheaderClass);

          }

          //Determines what jQuery effect to use
          switch (self.options.showEffect) {

            //Uses `no effect`
            case "none":

              elem.show();

              break;

              //Uses the jQuery `show` special effect
            case "show":

              elem.show(self.options.showEffectSpeed);

              break;

              //Uses the jQuery `slideDown` special effect
            case "slideDown":

              elem.slideDown(self.options.showEffectSpeed);

              break;

              //Uses the jQuery `fadeIn` special effect
            case "fadeIn":

              elem.fadeIn(self.options.showEffectSpeed);

              break;

              //If none of the above options were passed, then a `jQueryUI show effect` is expected
            default:

              elem.show();

              break;

          }

        }

        // If the current subheader parent element is a header
        if (elem.parent().is(headerClass)) {

          // Hides all non-active sub-headers
          self.hide($(subheaderClass).not(elem));

        }

        // If the current subheader parent element is not a header
        else {

          // Hides all non-active sub-headers
          self.hide($(subheaderClass).not(elem.closest(headerClass).find(subheaderClass).not(elem.siblings())));

        }

        // Maintains chainablity
        return self;

      },

      // Hide
      // ----
      //      Closes the current sub-header
      hide: function(elem) {

        // Stores the plugin context in the `self` variable
        var self = this;

        //Determines what jQuery effect to use
        switch (self.options.hideEffect) {

          // Uses `no effect`
          case "none":

            elem.hide();

            break;

            // Uses the jQuery `hide` special effect
          case "hide":

            elem.hide(self.options.hideEffectSpeed);

            break;

            // Uses the jQuery `slideUp` special effect
          case "slideUp":

            elem.slideUp(self.options.hideEffectSpeed);

            break;

            // Uses the jQuery `fadeOut` special effect
          case "fadeOut":

            elem.fadeOut(self.options.hideEffectSpeed);

            break;

            // If none of the above options were passed, then a `jqueryUI hide effect` is expected
          default:

            elem.hide();

            break;

        }

        // Maintains chainablity
        return self;
      },

      // _triggerShow
      // ------------
      //      Determines what elements get shown on scroll and click
      _triggerShow: function(elem, scroll) {

        var self = this;

        // If the current element's parent is a header element or the next element is a nested subheader element
        if (elem.parent().is(headerClass) || elem.next().is(subheaderClass)) {

          // Shows the next sub-header element
          self.show(elem.next(subheaderClass), scroll);

        }

        // If the current element's parent is a subheader element
        else if (elem.parent().is(subheaderClass)) {

          // Shows the parent sub-header element
          self.show(elem.parent(), scroll);

        }

        // Maintains chainability
        return self;

      },

      // _addCSSClasses
      // --------------
      //      Adds CSS classes to the newly generated table of contents HTML
      _addCSSClasses: function() {

        // If the user wants a jqueryUI theme
        if (this.options.theme === "jqueryui") {

          this.focusClass = "ui-state-default";

          this.hoverClass = "ui-state-hover";

          //Adds the default styling to the dropdown list
          this.element.addClass("ui-widget").find(".toc-title").addClass("ui-widget-header").end().find("li").addClass("ui-widget-content");

        }

        // If the user wants a twitterBootstrap theme
        else if (this.options.theme === "bootstrap") {

          this.element.find(headerClass + "," + subheaderClass).addClass("nav nav-list");

          this.focusClass = "active";

        }

        // If the user wants a twitterBootstrap theme
        else if (this.options.theme === "bootstrap3") {

          this.element.find(headerClass + "," + subheaderClass).addClass("list-group");

          this.element.find(itemClass).addClass("list-group-item");

          this.focusClass = "active";

        }

        // If a user does not want a prebuilt theme
        else {

          // Adds more neutral classes (instead of jqueryui)

          this.focusClass = tocFocusClassName;

          this.hoverClass = tocHoverClassName;

        }

        //Maintains chainability
        return this;

      },

      // setOption
      // ---------
      //      Sets a single Tocify option after the plugin is invoked
      setOption: function() {

        // Calls the jQueryUI Widget Factory setOption method
        $.Widget.prototype._setOption.apply(this, arguments);

      },

      // setOptions
      // ----------
      //      Sets a single or multiple Tocify options after the plugin is invoked
      setOptions: function() {

        // Calls the jQueryUI Widget Factory setOptions method
        $.Widget.prototype._setOptions.apply(this, arguments);

      },

      // _scrollTo
      // ---------
      //      Scrolls to a specific element
      _scrollTo: function(elem) {

        var self = this,
          duration = self.options.smoothScroll || 0,
          scrollTo = self.options.scrollTo,
          currentDiv = $('div[data-unique="' + elem.attr("data-unique") + '"]');

        if (!currentDiv.length) {

          return self;

        }

        // Once all animations on the page are complete, this callback function will be called
        $("html, body").promise().done(function() {

          // Animates the html and body element scrolltops
          $("html, body").animate({

            // Sets the jQuery `scrollTop` to the top offset of the HTML div tag that matches the current list item's `data-unique` tag
            "scrollTop": currentDiv.offset().top - ($.isFunction(scrollTo) ? scrollTo.call() : scrollTo) + "px"

          }, {

            // Sets the smoothScroll animation time duration to the smoothScrollSpeed option
            "duration": duration

          });

        });

        // Maintains chainability
        return self;

      }

    });

  })); //end of plugin
"></script>
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KKeOt3p5eVppzClYYBOn2Odp%2BPd5EFy7qkbLJJVbt7ttnNvPuMTrVwn737pniGjHphl0dAmwNneGRchEI8ilxldwAAAgBq%2F%2BwEJQXLABcAJQBBQCIbESIKCgAABBEDJicOHk1ZCxQODgIUFBhLWRQHAgdNWQIZAD8rABg%2FKxESADkYLxI5KxESARc5ETMRMxEzMTABECEiJzUWMzISEyMGBiMiJjU0EjMyFhIBIgYVFBYzMjY2NTQmJgQl%2FWh0RFBm8PULDDe2csLk%2F9CV33j%2BFI%2BckJNbmVhSkwNG%2FKYUjxoBKQEzU1fo0OQBCJn%2B2wEwuKSQpUqARmmyZgAAAgCY%2F%2BMBiQRkAAsAFQAoQBQQBgYMAAAWFw4TT1kOEAkDT1kJFgA%2FKwAYPysREgE5ETMzETMxMDc0NjMyFhUUBiMiJhE0MzIVFAYjIiaYPTk6QUI5M0N2e0I5M0NqQ0VFQ0FGPwO7h4dBRj8AAgA%2F%2FvgBhQRkAAgAEgAiQBABDQ0FCQkUEwsQT1kLEAUAAC%2FNPysREgE5ETMzETMxMCUXBgIHIzYSNwM0MzIVFAYjIiYBXg8aYjV9G0ENFXd7Qjk6Pe4XZP73cmgBMlwC74eHQUZGAAABAGgA8gQpBNkABgAVQAkEAAUBBAcIAwAALy8REgEXOTEwJQE1ARUBAQQp%2FD8DwfzyAw7yAaZiAd%2BV%2Fo3%2BuAAAAgB3AcEEGQPjAAMABwAqQBUHAgQAAgAJCAQFUFkEAQBQWQ8BAQEAL10rABgvKxESATk5ETMRMzEwEzUhFQE1IRV3A6L8XgOiA1qJif5niYkAAAEAaADyBCkE2QAGABVACQUBAgAEBwgGAwAvLxESARc5MTATAQE1ARUBaAMP%2FPEDwfw%2FAYkBRgF1lf4hYv5aAAACABv%2F4wM5BcsAGwAmADlAHSEcGwAHExMAHA4EJygAACQQJB5PWSQWEApJWRAEAD8rABg%2FKxESADkYLxESARc5ETMRMxEzMTABNTQ2NzY2NTQmIyIGByc2MzIWFRQGBgcGBhUVAzQzMhYVFAYjIiYBIUhiiEeDe0%2BWYTu9zr%2FUJ0x%2BZUGyeDo%2FQDk0RAGTNnWXVHN0UmZvJTGHY7yrSW9jblZyXyH%2B14hGQkBHPwACAHn%2FRga4BbQANQA%2FAEVAIiMuNg47BxQbAAApFA4uBUBBGDg4BD0IEQsRCxErHzIDJisALzM%2FMxI5OS8vEjkyMzMRMxESARc5ETMRMzMRMxEzMTABFAYGIyImJyMGBiMiJjU0NjMyFhcDFRQzMjY1NAIkIyIEAhUQACEyNxUGIyAAERASJCEyBBIBFDMyExMmIyIGBrhYoGhWdgsIKJVmlqnswESsRRmFW3KU%2Fu%2Bx3%2F62rgFCAS%2FS4sD0%2FpX%2Bb9YBjAEA1wFPt%2Fv2w88SDkhVgpMC2Y7sgmhRV2LNsMz%2FGRb%2BKhay16y1ARCTuf6p4f7P%2FrhWhVQBjwFmAQQBlt%2B1%2FrP%2BpP4BOQEFFLQAAgAAAAAFEAW8AAcADgA5QB4CDgsIAQUAAwAHAwQHBBAPDgJJWQsFDg4EBQMABBIAPzM%2FEjkvEjkrERIBOTkRMxEzERIXOTEwIQMhAyMBMwEBAyYnBgcDBGC2%2Fba0rAJCjwI%2F%2FmWqISMWKawB0f4vBbz6RAJqAcVWfWBz%2FjsAAwDJAAAEvgW2AA4AFwAgAElAJhMEHQoPGRkOCgQHDgQhIggPGA8YSlkPDw4ADhlKWQ4SABdKWQADAD8rABg%2FKxESADkYLysREgA5ERIBFzkRMxEzETMRMzEwEyEgBBUUBgcVBBEUBCMhEyEyNjU0JiMjEREhMjY1NCYjyQGdASMBBJGLAU3%2B9%2B7%2BAqoBGLSesMD6ATGxs7e7BbauvIKpGQo5%2FtvE3ANEcYZ7bf2R%2Fd2JkoiAAAABAH3%2F7ATPBcsAFgAmQBQDDhQJDgMXGBIASVkSBAsGSVkLEwA%2FKwAYPysREgEXOREzMTABIgAREAAzMjcVBiMgABE0EiQzMhcHJgM78f7pAQ35mcSY3%2F69%2FqGpAT%2FY5qxIpgUz%2Fr%2F%2B6f7h%2Fsc3lTkBiAFp4gFUuFSSTgAAAgDJAAAFWAW2AAgAEQAoQBQOBAkABAASEwUNSlkFAwQOSlkEEgA%2FKwAYPysREgE5OREzETMxMAEQACEhESEgAAMQACEjETMgAAVY%2Fnf%2Bj%2F5rAcABVQF6tP7h%2FuX3zwEwATIC6f6W%2FoEFtv6G%2FqcBHgEi%2B3ABKwAAAQDJAAAD%2BAW2AAsAOkAfBgoKAQQACAEEDA0GCUlZBgYBAgIFSVkCAwEKSVkBEgA%2FKwAYPysREgA5GC8rERIBFzkRMxEzMTAhIREhFSERIRUhESED%2BPzRAy%2F9ewJe%2FaIChQW2l%2F4plv3mAAEAyQAAA%2FgFtgAJADJAGgYAAAEDCAEDCgsGCUlZBgYBAgIFSVkCAwESAD8%2FKxESADkYLysREgEXOREzETMxMCEjESEVIREhFSEBc6oDL%2F17Al79ogW2l%2F3plwAAAQB9%2F%2BwFPQXLABsAOkAfFAgZAgIOGwgEHB0AG0lZAAAFDAwRSVkMBAUXSVkFEwA%2FKwAYPysREgA5GC8rERIBFzkRMxEzMTABIREGBiMgABE0EiQzMhcHJiMgABEQACEyNxEhA0wB8XTwnv60%2Fo63AVjn6spCxrf%2B9f7UASEBGJiR%2FrkC%2Fv05JSYBiwFk5AFXtVaWVP7C%2Fub%2B2P7OIwHCAAEAyQAABR8FtgALADNAGQkBAQAIBAQFAAUNDAgDSVkICAUKBgMBBRIAPzM%2FMxI5LysREgE5OREzETMRMxEzMTAhIxEhESMRMxEhETMFH6r8%2FqqqAwKqArD9UAW2%2FZICbgAAAf9g%2Fn8BaAW2AA0AHUANCwgIDg8JAwAFSVkAIgA%2FKwAYPxESATkRMzEwAyInNRYzMjY1ETMRFAYMXjZHTWNnqsD%2BfxuRFHhxBbb6WL7RAAABAMkAAATpBbYACwAqQBUIBAQFBQILCgAFDQwCCAUJBgMBBRIAPzM%2FMxI5ORESARc5ETMRMzEwISMBBxEjETMRATMBBOnI%2FeuZqqoCl8n9tALFiP3DBbb9KwLV%2FYUAAQDJAAAD%2BAW2AAUAH0AOAwAABAYHAQMAA0lZABIAPysAGD8REgE5OREzMTAzETMRIRXJqgKFBbb65JoAAQDJAAAGcQW2ABMAMkAYCAUFBgsODg0GDRQVAQoRAwYLBwMOAAYSAD8zMz8zEhc5ERIBOTkRMxEzETMRMzEwIQEjFhURIxEhATMBMxEjETQ3IwEDUP4QCA6dAQABzwgB0%2F6qDgj%2BDAUQmtT8XgW2%2B0oEtvpKA66ivvryAAEAyQAABT8FtgAQAC5AFQkGBgcBDw8ABwAREgsDBw8IAwEHEgA%2FMz8zEjk5ERIBOTkRMxEzETMRMzEwISMBIxYVESMRMwEzJgI3ETMFP8L84QgQncADHQgCDgKfBMvYtPzBBbb7OhsBJT8DRwAAAgB9%2F%2BwFvgXNAAsAFwAoQBQSAAwGAAYZGAkVSVkJBAMPSVkDEwA%2FKwAYPysREgE5OREzETMxMAEQACEgABEQACEgAAEQEjMyEhEQAiMiAgW%2B%2Fp3%2BxP69%2FqEBYAFEATsBYvtz%2FfHz%2BPfy8%2F0C3f6h%2Fm4BiwFoAWUBif5w%2FqD%2B1%2F7NATIBKgEnATH%2BzQACAMkAAARoBbYACQASADRAGgoFBQYOAAYAExQKBEpZCgoGBwcSSlkHAwYSAD8%2FKxESADkYLysREgE5OREzETMRMzEwARQEISMRIxEhIAEzMjY1NCYjIwRo%2FtH%2B5qyqAXsCJP0LmeLKvsm%2BBAze7%2F3BBbb9G5KhkY4AAAIAff6kBb4FzQAPABsANEAbEAoWAAAEAwoEHB0DDQcNGUlZDQQHE0lZBQcTAD%2FGKwAYPysREgA5ERIBFzkRMxEzMTABEAIHASMBByAAERAAISAAARASMzISERACIyICBb7izgFc9%2F7jN%2F69%2FqEBYAFEATsBYvtz%2FfHz%2BPfy8%2F0C3f7n%2FoxC%2FpYBSgIBiwFoAWUBif5w%2FqD%2B1%2F7NATIBKgEnATH%2BzQACAMkAAATPBbYADAAVAEhAJQ0BAQIMCREHCwoKBwkCBBYXCQ0ADQBKWQ0NAgMDFUlZAwMLAhIAPzM%2FKxESADkYLysREgA5ERIBFzkRMxEzETMRMxEzMTABESMRISAEFRAFASMBJTMyNjU0JiMjAXOqAZEBDQEB%2FtoBjcn%2Bnv7P6bSoq73dAmD9oAW2zs%2F%2B3mb9bwJgko%2BPkYAAAQBq%2F%2BwEAgXLACQANEAbHhMMAAAYEwUEJSYMHgMWFhtJWRYEAwlJWQMTAD8rABg%2FKxESADk5ERIBFzkRMxEzMTABFAQjICc1FhYzMjY1NCYmJyYmNTQ2MzIXByYjIgYVFBYWFxYWBAL%2B6PD%2B%2FIxa1GiqrD2Pksyv%2FtHatzW1q4eYOIWJ5q0BhcHYQ6QmLIFzTGFSNEnIoanIUJRMdGdMYVExUrwAAAEAEgAABFoFtgAHACRAEgABBQEDAwgJBwMEA0lZBAMBEgA%2FPysRADMREgEXOREzMTAhIxEhNSEVIQKLqv4xBEj%2BMQUfl5cAAAEAuv%2FsBRkFtgARACVAERABCgcBBxMSEQgDBA1JWQQTAD8rABg%2FMxESATk5ETMRMzEwAREUACEgADURMxEUFjMyNjURBRn%2B0v74%2Fvj%2B36rIwrnIBbb8Tvr%2B4gEg%2FAOu%2FEa3xMW4A7gAAQAAAAAEwwW2AAoAGkALAQQMCwgDAAQDAxIAPz8zEjkREgE5OTEwATMBIwEzARYXNjcEDLf98aj99LQBUDoiJDoFtvpKBbb8TqOaoqEAAQAbAAAHTAW2ABkAJEAQGQobGhUODgUJGBEKAwEJEgA%2FMz8zMxI5OREzERIBOTkxMCEjASYmJwYHASMBMxMWFzY3ATMBFhc2NxMzBcWo%2FtkVNAEWMP7iqP57tOcwFhs1AQa0ARMwIRM15rQD00HGFISd%2FDMFtvx5vpq3rwN5%2FH%2Bbw47MA4UAAAEACAAABJYFtgALACNAEgQGBQsKAAYNDAIIBAkGAwEEEgA%2FMz8zEjk5ERIBFzkxMCEjAQEjAQEzAQEzAQSWwf53%2FnC0Aeb%2BO7wBawFutf47AoP9fQL8Arr9vQJD%2FUwAAAEAAAAABHsFtgAIACBADwQFAgUHAwkKAAUBBwMFEgA%2FPzMSORESARc5ETMxMAEBMwERIxEBMwI9AYa4%2Fhis%2Fhm6AtsC2%2FyB%2FckCLwOHAAEAUgAABD8FtgAJACtAFwgBAwcABwQBBAoLBQRJWQUDAQhJWQESAD8rABg%2FKxESARc5ETMRMzEwISE1ASE1IRUBIQQ%2F%2FBMDCP0QA7%2F8%2BAMehQSYmYX7aQABAKb%2BvAJvBbYABwAgQA4GAQQAAQAICQUCAwYBJwA%2FMz8zERIBOTkRMxEzMTABIREhFSERIQJv%2FjcByf7fASH%2BvAb6jfohAAABABcAAALdBbYAAwATtwMBBAUDAwISAD8%2FERIBOTkxMBMBIwG6AiOm%2FeAFtvpKBbYAAAEAM%2F68AfwFtgAHACBADgMAAQYABggJAAcnAwQDAD8zPzMREgE5OREzETMxMBchESE1IREhMwEh%2Ft8Byf43tgXfjfkGAAABADECJwQjBcEABgAYQAkAAwcIBQIABAIALy8zEjkREgE5OTEwEwEzASMBATEBsmMB3Zj%2BjP6yAicDmvxmAun9FwAB%2F%2Fz%2BxQOa%2F0gAAwARtQAFAQQBAgAvMxEBMxEzMTABITUhA5r8YgOe%2FsWDAAEBiQTZAxIGIQAJABO2AAQLCgaAAQAvGs0REgE5OTEwASMmJic1MxYWFwMSbkGyKMsgciwE2TTAPxVFtTUAAgBe%2F%2BwDzQRaABkAJABHQCUiCAseHhkZEggDJSYBAgseR1kCCwsAFRUPRlkVEAUaRlkFFgAVAD8%2FKwAYPysREgA5GC85KxEAMxESARc5ETMRMxEzMTAhJyMGBiMiJjUQJTc1NCYjIgcnNjYzMhYVESUyNjU1BwYGFRQWA1IhCFKjeqO5AhO6b3qJrTNRwWHEvf4Om7Gmxq9tnGdJqJsBTBAGRIF7VH8sMq7A%2FRR1qpljBwdtc1peAAIAsP%2FsBHUGFAATAB8AREAiChcXDw8MHQMMAyAhDQAMFRIRChEGAAYaRlkGFgAURlkAEAA%2FKwAYPysREgA5OREzGD8%2FERIBOTkRMxEzETMRMzEwATISERACIyImJyMHIxEzERQHMzYXIgYVFBYzMjY1NCYCrtjv8dZrsTwMI3emCAh0zKqWmqqZlpYEWv7Z%2FvL%2B8v7VT1KNBhT%2Bhn9lpIvD5%2BfH39HW0gAAAQBz%2F%2BwDiwRcABYAJkAUDwMDFQkDGBcGDUZZBhAAEkZZABYAPysAGD8rERIBFzkRMzEwBSIAERAAMzIWFwcmJiMgERQWMzI3FQYCZu7%2B%2BwEJ9U%2BeLTM3gjL%2BsqOgiZBuFAElAQwBEwEsIheNFh3%2BVsrYO5M5AAIAc%2F%2FsBDcGFAASAB8AQkAhHQYXAA4OEQYRICESFQ8AAAEBDAMJCRpGWQkQAxNGWQMWAD8rABg%2FKxESADk5ETMYPz8REgE5OREzETMzETMxMCUjBiMiAhEQEjMyFzMnJxEzESMlMjY1NTQmIyIGFRQWA5oJc%2BXX7%2FDW33cNBwSmh%2F6eqpmbqpKbmpOnASYBDwEPASyiT00Bvvnsd7nOI%2BnH48%2FS1gACAHP%2F7AQSBFwAEwAaADtAHxgKFwsDAxEKAxwbFwtGWRcXAAYGFEZZBhAADkZZABYAPysAGD8rERIAORgvKxESARc5ETMzETMxMAUiABEQADMyEhUVIRYWMzI3FQYGAyIGByE0JgJ%2F8%2F7nAQXczvD9DQW5qLGtWJ2chJ0OAj2MFAEoAQcBCQE4%2FvHeacHISpQmIQPlrJidpwAAAQAdAAADDgYfABQAOUAdFAwMEwICBwMFAxUWCg9GWQoAAQUHBUZZEwcPAxUAPz8zKxEAMxg%2FKxESATk5ETMzETMzEjkxMAEhESMRIzU3NRAhMhcHJiMiBhUVIQKe%2FummxMQBYVd1K2BEXloBFwPH%2FDkDx0s8PQGUI4UffYpHAAADACf%2BFAQxBFwAKgA3AEEAbkA%2BKxk4JQwfPQUxEwETBQIqIhwfJRkKQkMcDzUPNUZZCDtHWQoiCCoPCA8IFioqAkdZKg8oP0dZKBAWLkdZFhsAPysAGD8rABg%2FKxESADk5GC8vERI5OSsrERIAORESARc5ETMRMxEzETMRMzEwARUHFhYVFAYjIicGFRQWMzMyFhUUBCEiJjU0NjcmJjU0NjcmJjU0NjMyFwEUFjMyNjU0JiMjIgYTFBYzMjU0IyIGBDHLHCzcwDErakpawrK%2F%2Ftz%2B6NfpgHQqOUBFVWvYxlZF%2FhGWjNHJbpjHcX5agnTz9nV%2BBEhpGCNxR6HACDhVLSuWj7a%2FoJJkkhoTUDU8WiojqGy0wxT7AFlcfWtZRWwDPHN27Pd%2BAAEAsAAABEQGFAAWADNAGQ4MCAgJABYJFhcYDgkSEgRGWRIQCgAACRUAPzM%2FPysREgA5ERIBOTkRMxEzETMzMTAhETQmIyIGFREjETMRFAczNjYzMhYVEQOeeoKtn6amCAoxtXTJyQLFhoS81v3DBhT%2BKVU4T1u%2F0P01AAACAKIAAAFmBd8AAwAPACNAEQoAAAQBARARDQdIWQ0CDwEVAD8%2FzisREgE5ETMzETMxMCEjETMDNDYzMhYVFAYjIiYBVqamtDgqKDo6KCo4BEgBKTk1Njg4NzcAAAL%2Fkf4UAWYF3wAMABgALEAWEwsLDQgIGRoWEEhZFkAJDwAFRlkAGwA%2FKwAYPxrOKxESATkRMzMRMzEwEyInNRYzMjY1ETMREAM0NjMyFhUUBiMiJitfO0VDTkmmtDgqKDo6KCo4%2FhQZhxRVVwT8%2BxD%2BvAddOTU2ODg3NwABALAAAAQdBhQAEAA2QBsQDgoKCwsIBgQFCAQREgwAABAQCAgDBwsVAw8APz8zEjkvOREzPxESARc5ETkRMxEzMzEwATY3ATMBASMBBxEjETMRFAcBVCtYAWLF%2FkQB28n%2BfX2kpAgCMT1jAXf%2BLf2LAgZs%2FmYGFPzHN3MAAQCwAAABVgYUAAMAFkAJAAEBBAUCAAEVAD8%2FERIBOREzMTAhIxEzAVampgYUAAEAsAAABssEXAAjAEZAIxURERIICQAjCRIjAyQlHBYVFRIZBA0ZDUZZHxkQEw8JABIVAD8zMz8%2FMysRADMREjkYLzMzERIBFzkRMxEzETMRMzEwIRE0JiMiBhURIxE0JiMiBhURIxEzFzM2NjMgFzM2NjMyFhURBiVwdpuUpnB3nJGmhxsIL6tqAQFPCDG6d7q5AsmDg7K5%2FZwCyYODu9X9wQRIllBaulZkv9L9NQAAAQCwAAAERARcABQAMUAYABQMCAgJFAkWFQwJEBAERlkQEAoPAAkVAD8zPz8rERIAORESATk5ETMRMxEzMTAhETQmIyIGFREjETMXMzY2MzIWFREDnnqCrKCmhxsIM7hxxsgCxYaEutb9wQRIllFZv9L9NQACAHP%2F7ARiBFwADAAYAChAFBMADQcABxoZChZGWQoQAxBGWQMWAD8rABg%2FKxESATk5ETMRMzEwARAAIyImAjUQADMyAAEUFjMyNjU0JiMiBgRi%2FvLuk%2BR8AQzu5gEP%2FL2oo6OpqaWjpgIl%2FvT%2B04oBAq0BDAEr%2Fs7%2B%2B9Lc29PR2dYAAgCw%2FhQEdQRcABQAIQA%2FQCAZCwQHBwgfEggSIiMECwAPDxVGWQ8QCQ8IGwAcRlkAFgA%2FKwAYPz8%2FKxESADk5ERIBOTkRMxEzETMzMzEwBSImJyMWFREjETMXMzY2MzISERACAyIGBxUUFjMyNjU0JgKua7E8DAymhxcIQKpu2u3x7qiWApqqjqGhFE9SYFb%2BPQY0llpQ%2Ftb%2B8%2F7y%2FtUD47rLJefH5srN2wACAHP%2BFAQ3BFwADAAfAERAIgoQHRYDGhoZEBkgIRobFw8dHh4WDRMTB0ZZExANAEZZDRYAPysAGD8rERIAOTkRMxg%2FPxESATk5ETMRMzMzETMxMCUyNjc1NCYjIgYVFBYXIgIREBIzMhczNzMRIxE0NyMGAk6mmAWcqZKbmX3U7vDW4XkJGIOmCw1zd7LTJebK48%2FP2YsBKgELAQ0BLqqW%2BcwB1WRGpwABALAAAAMnBFwAEAAqQBQNCQkKCgIREgsPDQAKFQAFRlkAEAA%2FKwAYPxI5PxESATk5ETMRMzEwATIXByYjIgYVESMRMxczNjYCpEk6F0Q0hb2miRMIPawEXAyaD9ih%2FbQESMtrdAABAGr%2F7ANzBFwAJAA2QBweEwwAABgFEwQlJgweAxYWG0ZZFhAGAwlGWQMWAD8rABgvPysREgA5ORESARc5ETMRMzEwARQGIyInNRYWMzI2NTQmJy4CNTQ2MzIXByYjIgYVFBYWFxYWA3Pkztp6T7VUgoxvoZmBP9q%2Bsak7pYZ2eC1kjsOJASuZpkWaKC5TVUBbPjlVbEuGm0iHREpBLD44NUeQAAEAH%2F%2FsAqgFRgAWADRAGxAUFAkLCRIDBBgXChMQE0dZDkAQDwcARlkHFgA%2FKwAYPxrNKxEAMxESARc5ETMRMzEwJTI2NxUGBiMgEREjNTc3MxUhFSERFBYCEixSGBtpKv7CnZ1GYAE%2B%2FsJedQ0Hfw0RAU8CjFBF6v6B%2FXtjagAAAQCk%2F%2BwEOQRIABQANEAZARMHDAwKEwoVFgwNDRAIFA8QBEZZEBYLFQA%2FPysAGD8zEjkRMxESATk5ETMRMxEzMTABERQWMzI2NREzESMnIwYGIyImNREBTHqCrJ%2BmiRgJM7V0yMcESP05hoS81QJA%2B7iTUVa%2B0QLNAAABAAAAAAQCBEgACwAYQAoBCgwNBQkBDwAVAD8%2FMzkREgE5OTEwIQEzExYXMzYSEzMBAaD%2BYLLsUA4IC3XMsv5gBEj9duRENQFNAjD7uAABABcAAAYjBEgAHAAsQBQJGx0eFxYODQMEDQQIGhIJDwAIFQA%2FMz8zMxI5OREzETMzMxESATk5MTAhAyYnIwYHAyMBMxISFzM2NjcTMxMWFzM2NhMzAQQvyRM0CCgez8D%2B1a5qbwgICzESybTEOBQIBCO%2FrP7RAoM70a9f%2FX8ESP5j%2FlBLObU1AnX9i6x1JJYC3Pu4AAABACcAAAQIBEgACwAiQBEHBQYAAQUMDQkDAQgLFQQBDwA%2FMz8zEjk5ERIBFzkxMAEBMwEBMwEBIwEBIwG4%2FoO9ASEBILv%2BgwGRvP7N%2Fsq8AjECF%2F5cAaT96f3PAbz%2BRAABAAL%2BFAQGBEgAFQAkQBIJDwADFhcEDQANEkZZDRsIAA8APzI%2FKxESADkREgEXOTEwEzMTFhczNjYTMwEGBiMiJzUWMzI3NwKy8E8TCA1T5rL%2BKUa7iExKN0SrST0ESP2P1l8z9wJ8%2ByC5mxGFDMCcAAABAFIAAANtBEgACQArQBcIAQMHAAcEAQQKCwUER1kFDwEIR1kBFQA%2FKwAYPysREgEXOREzETMxMCEhNQEhNSEVASEDbfzlAlb9zwLn%2FbICXXEDVoGB%2FLoAAQA9%2FrwCwQW2ABwALEAVGRoaCxcAAA8HFAMDBwsDHR4TAwQnAD8%2FERIBFzkRMxEzMxEzETMRMzEwJRQWFxUmJjURNCYjNTY2NRE0NjMVBhURFAcVFhUB23VxvtB%2BeIJ02Lbm398MZlwCjAKqmgEvaFmNAlxgATKbrIsGwf7Z1ycMJ9cAAQHu%2FhACewYUAAMAFkAJAgMDBAUDGwAAAD8%2FERIBOREzMTABMxEjAe6NjQYU9%2FwAAQBI%2FrwCywW2AB0ALEAVFQUKEhICGQAdHQ4OGQUDHh8VJwYDAD8%2FERIBFzkRMxEzETMzETMRMzEwASY1ETQnNTIWFREUFhcVIgYVERQGBzU2NjURNDY3Agrf47jTdoJ6fs2%2Bb3RucQI%2FJ9cBJ8EGi66Z%2Fs5hWwKNWWj%2B0ZmrAowCXGYBKXJ4FAAAAQBoAlAEKQNUABcAJEARAw8YGRIMUFkDEg8GBgBQWQYALysAEBjEL8QrERIBOTkxMAEiBgc1NjMyFhcWFjMyNjcVBiMiJicmJgFSNX82ZJBEcVlCYi82gDZmjkh%2BSEtaAslDNpdtHCYcG0A5lm4hICAYAAACAJj%2BiwGJBF4AAwAOACtAFAIEBAMJCQ8QAAADDAwGT1kMEAMiAD8%2FKxESADkYLxESATkRMzMRMzEwEzMTIxMUIyImNTQ2MzIW22kzz%2BF5PDw%2FOTNGAqz73wVMh0dAP0hAAAEAvv%2FsA9sFywAbAD5AHhYIDQMDCgQAEBAECAMcHRkFAhMKDQINAg0ECwcEGQA%2FPxI5OS8vETMzETMzERIBFzkRMxEzMxEzETMxMCUGBxUjNSYCNRAlNTMVFhYXByYjIgYVFBYzMjcDy2mThcvBAYyHS44xMYVtrKKfp42O8DYGyM4gARH6Afw%2BrKQDIReMM9PZ1Ms7AAEAPwAABEQFyQAdAEhAJhgTCQ0NGhYRAgsWEwUeHwwYGRhOWQkZGRMAExBMWRMYAAVLWQAHAD8rABg%2FKxESADkYLzMrEQAzERIBFzkRMzMRMxEzMTABMhcHJiMiBhURIRUhFRQGByEVITU2NTUjNTMRNDYCqr6qPZqPe30Bpv5aQUoDG%2Fv7zcbG4AXJVIVNfIz%2B2X%2FdZIgsmo0v9N9%2FATyyzQAAAgB7AQYEFwSgABsAJwAgQA0cACIOAA4oKR8VFSUHAC8zMy8zERIBOTkRMxEzMTATNDcnNxc2MzIXNxcHFhUUBxcHJwYjIicHJzcmNxQWMzI2NTQmIyIGuEqHXodogn9miV%2BGSkqDXIlmf4Zkh1yFSoGddHSeoHJ0nQLTemuMXIVJSYVcinF2g2eHXIVHSYVciGt8cKCfcXKipAAAAQAfAAAEcQW2ABYAVkAuEg4HCwsQDAUJAgkDDBQOFQcXGAoODgcPBhISAwATFQ8THxMCDxMPEwwBFQYMGAA%2FPzMSOTkvL10REjkyMhEzETMzETMREgEXOREzETMzETMRMzEwAQEzASEVIRUhFSERIxEhNSE1ITUhATMCSAF7rv5gAQb%2BwwE9%2FsOk%2FsQBPP7EAQD%2BZbIC3wLX%2FP5%2Fqn%2F%2B9AEMf6p%2FAwIAAgHu%2FhACewYUAAMABwAkQBACBgYDBwcICQQDBAMHGwAAAD8%2FOTkvLxESATkRMzMRMzEwATMRIxEzESMB7o2NjY0GFPz4%2Fg389wACAHv%2F%2BAOWBh0AMQA9AENAJjIAEwYqHjgZGR4MBgAjBj4%2FFQM7NhwtBiEJISdHWSEVCRBHWQkAAD8rABg%2FKxESABc5ERIBFzkRMxEzETMRMzEwEzQ2NyYmNTQ2MzIWFwcmJiMiBhUUFhcWFhUUBgcWFRQGIyInNRYWMzI2NTQmJicuAjcUFhcXNjU0JicGBotWTkpUz8Ven2E1YodMdHR7mrqWUkqZ6tTagE7CUoaNMGxzjoZCkoSnMYmTuURVAylWiSUob1V5ix0ngycbO0A8VDdEl2tajSlRkoyZQZQlLUxHLjo6KzRacmJNaT0TUG9TcDkTZAACATUFDgNoBdMACwAXAB5ADAYADBIAEhgZDwMVCQAvM80yERIBOTkRMxEzMTABNDYzMhYVFAYjIiYlNDYzMhYVFAYjIiYBNTUlJjc3JiU1AX01JSU3NyUlNQVxNC4uNDIxMTI0Li40MjExAAADAGT%2F7AZEBcsAFgAmADYARkAnJxcDDy8fHxQJDxcFNzgGDAASDwwfDAIAEhASAgwSDBIbKyMTMxsEAD8zPzMSOTkvL11dETMRMxESARc5ETMRMxEzMTABIgYVFBYzMjcVBgYjIiY1NDYzMhcHJgE0EiQzMgQSFRQCBCMiJAI3FBIEMzIkEjU0AiQjIgQCA319h3%2BDVn0wZUbC0N2%2FgHY6bPyXyAFeysgBXsrC%2FqLQz%2F6iw2muAS2srgEqr67%2B17Cu%2FtavBCOumqiiLXwUHPHY0fY8djP%2BuMgBXsrI%2FqLKxf6m0M8BWsat%2FtOtrgEpsK4BKq%2Bu%2FtcAAAIARgMUAnEFxwAWAB8AN0AcFwYbCgEBFhYQBgMgIRwKChIZFgADEAMCAw0SHwA%2FM9RdxDMSOS8zERIBFzkRMxEzMxEzMTABJwYjIiY1NDY3NzU0IyIHJzYzMhYVESUUMzI1NQcGBgIUGFyMX2%2BapXWUZGgrcoWCif5QcMlicGcDIVRhY2ZmaQYEJ4UzYDhpef48vGS0MQQEOQACAFIAdQOqA74ABgANAClAEwMGCg0CBAsJCQQNBgQODwwFCAEALzMvMxESARc5ETMRMxEzETMxMBMBFwEBBwElARcBAQcBUgFWd%2F7fASF3%2FqoBiwFYdf7hAR91%2FqgCJwGXRf6i%2FqFHAZcbAZdF%2FqL%2BoUcBlwAAAQBoAQgEKQMXAAUAG0AMAgEEAQYHBQRQWQUCAC8vKxESATk5ETMxMAERIxEhNQQpifzIAxf98QGFigD%2F%2FwBUAdkCPwJxAgYAEAAAAAQAZP%2FsBkQFywAIABYAJgA2AF1AMycXABEREgQJLx8fDQkMEhcGNzgMEBAAAA4TDhIIEw8SHxICABMQEwISExITGysjEzMbBAA%2FMz8zEjk5Ly9dXREzETMREjkvMxEzERIBFzkRMxEzETMRMxEzMTABMzI2NTQmIyMFFAYHEyMDIxEjESEyFgE0EiQzMgQSFRQCBCMiJAI3FBIEMzIkEjU0AiQjIgQCAtNsUGFWXWoBslVN7qjPh5QBBaab%2B9%2FIAV7KyAFeysL%2BotDP%2FqLDaa4BLayuASqvrv7XsK7%2B1q8C%2BlNAS0GIUHse%2FnUBYv6eA3uC%2FsXIAV7KyP6iysX%2BptDPAVrGrf7Tra4BKbCuASqvrv7XAAH%2F%2BgYUBAYGkwADABG1AAUBBAECAC8zEQEzETMxMAEhNSEEBvv0BAwGFH8AAgB%2FA1wC7gXLAAwAGAAhQA4NABMGAAYZGhAKwBYDBAA%2FMxrMMhESATk5ETMRMzEwEzQ2MzIWFRQGBiMiJjcUFjMyNjU0JiMiBn%2B1goK2UpJUgrVzdVFQc3FSU3MEk4K2tYNUj1S0g1JycVNUcXIA%2F%2F8AaAABBCkEwwImAA4AAAAHANAAAP10AAEAMQJKAo0FyQAYACNAEQcTFwEBDhMABBoZChAfFwEgAD8zPzMREgEXOREzETMxMAEhNTc%2BAjU0JiMiBgcnNjMyFhUUBgcHIQKN%2FaTsWVIhUD80YkVCg5iEk1mTrgG4Akpo5lZhTDZERSYyWG%2BCcFCXiqUAAQAhAjkCjQXJACMAOUAiDwUFAAMSHgoGJCUSXRNtEwJMEwELExsTAhMTCBohHw0IIQA%2FMz8zEjkvXV1dMxESARc5ETMxMAEUBgcWFRQGIyInNRYzMjU0IyM1MzI2NTQmIyIGByc2NjMyFgJzUkSwuKiYdJN70%2Bd1d2djUENCcDhFP4xeiJ0E51BnFy%2BigI84e0SikWtPRD1EKyNaLTZ3AAEBiQTZAxIGIQAJABO2CQQKCwSACQAvGs0REgE5OTEwATY2NzMVBgYHIwGJMG8gyiyuQG8E8j6wQRVBvjQAAQCw%2FhQERARIABYANUAaBQoKCBAAExMUCBQYFwYVDxQbDQJGWQ0WCRUAPz8rABg%2FPzMREgE5OREzETMzETMRMzEwARAzMjY1ETMRIycjBiMiJyMWFREjETMBVv6rn6aIGgpv5ZZYCgqmpgF9%2Fvq91AJA%2B7iTp1xUoP7ABjQAAQBx%2FvwEYAYUAA8AJ0ASBAUBAAAFCwMQEQgIBQMPBQEFAC8zPzMSOS8REgEXOREzETMxMAEjESMRIxEGIyImNRA2MyEEYHLVcz5U2Mva6AIt%2FvwGsPlQAzMS%2BvsBBP4AAQCYAkwBiQNaAAsAF0AKBgAADQwDCU9ZAwAvKxESATkRMzEwEzQ2MzIWFRQGIyImmD44OkFCOTNDAtNCRUVCQUY%2FAAABACX%2BFAG0AAAAEgAkQBARDgsAAA4FAxMUDhERCAMQAC%2FMMjkvMxESARc5ETMRMzEwARQGIyInNRYzMjY1NCYnNzMHFgG0mZYzLS07T1FPbVhuN7T%2B32FqCWoIKDYrNRGycycAAQBMAkoB4QW2AAoAIEAOAgADAwoMCwkJAyAGAB4APzI%2FOS8REgE5OREzMzEwATMRIxE0NwYGBycBUo%2BFBhY2h0MFtvyUAkNbWhYtX2AAAgBCAxQCvgXHAAsAFwAlQBIMBhIABgAYGQ8AAxADAgMVCR8APzPEXTIREgE5OREzETMxMAEUBiMiJjU0NjMyFgUUFjMyNjU0JiMiBgK%2Bq5aSqaiXmKX9%2FltoaVxcaWdcBG%2Bkt7qho7W2onp6enp7dnYAAgBQAHUDqAO%2BAAYADQAjQBELCQQCAAMHAgoJBg4PDAUIAQAvMy8zERIBFzkRMxEzMTABAScBATcBBQEnAQE3AQOo%2Fqh1AR%2F%2B4XUBWP51%2Fqh1AR%2F%2B4XUBWAIM%2FmlHAV8BXkX%2BaRv%2BaUcBXwFeRf5p%2F%2F8ASwAABdEFtgAnAM4CgwAAACYAev8AAQcA0wMd%2FbcACbMDAhIYAD81NQD%2F%2FwAuAAAF2wW2ACcAzgI%2FAAAAJgB64gABBwBzA079twAHsgIQGAA%2FNQD%2F%2FwAaAAAGIQXJACYAdPkAACcAzgLfAAABBwDTA239twAJswMCKxgAPzU1AAACADP%2BdwNUBF4AHQAoAEFAIggUHiMBHA8cIxQEKSoAHQEMAx0dESYmIE9ZJhARC0lZESMAPysAGD8rERIAORgvX15dERIBFzkRMxEzETMxMAEVFAYHDgIVFBYzMjY3FwYjIiY1ND4CNzY2NTUTFCMiJjU0NjMyFgJOS2F5PRmEelCWYjvFxr7YI0BZNmVBtHk7PkI3M0YCrDN6lFRqS004ZHEmMIdguqpGaVlSL1h0XR8BK4dFQkBHQP%2F%2FAAAAAAUQB3MCJgAkAAABBwBC%2F8IBUgAIswIQBSYAKzX%2F%2FwAAAAAFEAdzAiYAJAAAAQcAdQCFAVIACLMCGAUmACs1%2F%2F8AAAAABRAHcwImACQAAAEHAMAAIwFSAAizAh0FJgArNf%2F%2FAAAAAAUQBy8CJgAkAAABBwDCAAQBUgAIswIYBSYAKzX%2F%2FwAAAAAFEAclAiYAJAAAAQcAaQA3AVIACrQDAiQFJgArNTX%2F%2FwAAAAAFEAcGAiYAJAAAAAcAwQA5AIEAAv%2F%2BAAAGgQW2AA8AEwBOQCwKDg4RAQAIDAEQBQUVBRQJEwYTSVkQA0lZCg1JWRAKEAoBBgMFEgEOSVkBEgA%2FKwAYPz8SOTkvLysrKxEAMxEBMxESFzkRMzMRMzEwISERIQMjASEVIREhFSERIQEhESMGgf0S%2Ff7jsAK6A8n9vAId%2FeMCRPtUAb52AdH%2BLwW2l%2F4plv3mAdICtQD%2F%2FwB9%2FhQEzwXLAiYAJgAAAAcAeQICAAD%2F%2FwDJAAAD%2BAdzAiYAKAAAAQcAQv%2B3AVIACLMBDQUmACs1%2F%2F8AyQAAA%2FgHcwImACgAAAEHAHUAPwFSAAizARUFJgArNf%2F%2FAMkAAAP4B3MCJgAoAAABBwDA%2F%2FsBUgAIswEaBSYAKzX%2F%2FwDJAAAD%2BAclAiYAKAAAAQcAaQASAVIACrQCASEFJgArNTUAAgAvAAAFSAW2AAwAFwBXQDIRFRUIBA0AABMEBgQYGRQGBwZJWREPBz8HrwfPB98HBQsDBwcECQkQSlkJAwQVSlkEEgA%2FKwAYPysREgA5GC9fXl0zKxEAMxESARc5ETMRMzMRMzEwARAAISERIzUzESEgAAMQISMRIRUhETMgBUj%2Bd%2F6P%2FnuamgGyAVEBfLX9x%2BcBe%2F6FvgJiAun%2Blv6BAomWApf%2Bif6kAkD9%2FJb%2BCv%2F%2FAMkAAAU%2FBy8CJgAwAAABBwDCAJMBUgAIswEaBSYAKzX%2F%2FwB9%2F%2BwFvgdzAiYAMQAAAQcAQgB5AVIACLMCGQUmACs1%2F%2F8Aff%2FsBb4HcwImADEAAAEHAHUBCgFSAAizAiEFJgArNf%2F%2FAH3%2F7AW%2BB3MCJgAxAAABBwDAALQBUgAIswImBSYAKzX%2F%2FwB9%2F%2BwFvgcvAiYAMQAAAQcAwgCaAVIACLMCIQUmACs1%2F%2F8Aff%2FsBb4HJQImADEAAAEHAGkA1QFSAAq0AwItBSYAKzU1AAEAhQEQBAwEmAALABlACQcJAwEJAQwNCAAZLxESATk5ETMRMzEwARcBAQcBAScBATcBA6xg%2FqABXmD%2Bnv6kZQFe%2FqBkAWEEmGP%2Bnv6gYwFf%2FqFjAWABYGX%2BnQAAAwB9%2F8MFvgX2ABMAGwAjAE5ALBYfFx4EHBQcChQAABIPBQgKBiQlFh4hGQ0hSVkPEggFBAMQDQQDGUlZBgMTAD%2FGKwAYP8YSFzkrERIAOTkREgEXOREzETMREhc5MTABEAAhIicHJzcmERAAITIXNxcHFgMQJwEWMzISARAXASYjIgIFvv6d%2FsTrlGV4bLIBYAFE0Z1heGrAtG79YHOw8%2Fj8J2UCnWqo8%2F0C3f6h%2Fm5kjU%2BaxgFtAWUBiV6HUJTK%2FpUBEJr8TFIBMgEq%2FvqaA69J%2Fs0A%2F%2F8Auv%2FsBRkHcwImADcAAAEHAEIARgFSAAizARMFJgArNf%2F%2FALr%2F7AUZB3MCJgA3AAABBwB1AM8BUgAIswEbBSYAKzX%2F%2FwC6%2F%2BwFGQdzAiYANwAAAQcAwAB9AVIACLMBIAUmACs1%2F%2F8Auv%2FsBRkHJQImADcAAAEHAGkAmAFSAAq0AgEnBSYAKzU1%2F%2F8AAAAABHsHcwImADsAAAEHAHUAMQFSAAizARIFJgArNQACAMkAAAR5BbYADAAVADZAHA0JBQUGEQAGABYXDQRKWQkVSlkNCQ0JBgcDBhIAPz8SOTkvLysrERIBOTkRMxEzETMzMTABFAQhIxEjETMRMyAEATMyNjU0JiMjBHn%2B0f7huKqq1wEZARb8%2Bqjiyr7KzAMQ4%2B7%2BwQW2%2FwDP%2FeqPpJWKAAABALD%2F7AScBh8AMABBQCIpKgUdIwAXDAwAHREqBTEyEhIqLi4mRlkuACoVDxVGWQ8WAD8rABg%2FPysREgA5GC8REgEXOREzETMRMxEzMTABFAcGBhUUFhYXFhYVFAYjIic1FhYzMjU0JicmJjU0Njc2NjU0JiMgFREjETQ2MzIWBBmPWDgbR06MZsKzvGs%2FnEjXU25%2FYEVHS0CIf%2F7sptzezuEE8odzRkMhICo5M1%2BdZaCrRZonL7ZLa0ZSe1Q%2FajU5WjVQVd%2F7TASysrud%2F%2F8AXv%2FsA80GIQImAEMAAAEGAEKOAAAIswImESYAKzX%2F%2FwBe%2F%2BwDzQYhAiYAQwAAAQYAdSsAAAizAi4RJgArNf%2F%2FAF7%2F7APNBiECJgBDAAABBgDA2AAACLMCMxEmACs1%2F%2F8AXv%2FsA80F3QImAEMAAAEGAMK9AAAIswIuESYAKzX%2F%2FwBe%2F%2BwDzQXTAiYAQwAAAQYAaeIAAAq0AwI6ESYAKzU1%2F%2F8AXv%2FsA80GhQImAEMAAAEGAMH3AAAKtAMCKBEmACs1NQADAF7%2F7AZzBFwAKQA0ADsAYUAzKgAkETA4GRkEMDkYGB8wCwAFPD0bLSctRlkZMQQxR1k4JCcRBAQOIicWNQgOCEZZFA4QAD8zKxEAMxg%2FMxI5LzkSOTMrEQAzKxEAMxESARc5ETMRMzMRMxI5OREzMTATNDY3NzU0JiMiByc2NjMyFhc2NjMyEhUVIRIhMjY3FQYGIyAnBgYjIiY3FBYzMjY1NQcGBgEiBgchNCZe%2BP64dHeQozRKx2KCpSk1q27A6P1DCAE6W51UVpVl%2Ft99UcWGo7mua1iRqJ66pAO9eYsLAgeAAS%2BhswgGRIF7VH8pNVdfWGD%2B9d5r%2FnUjJ5QmIel%2FaqqXX1mpmmMHCG0CMqaenKgA%2F%2F8Ac%2F4UA4sEXAImAEUAAAAHAHkBRgAA%2F%2F8Ac%2F%2FsBBIGIQImAEcAAAEGAEK1AAAIswIcESYAKzX%2F%2FwBz%2F%2BwEEgYhAiYARwAAAQYAdU4AAAizAiQRJgArNf%2F%2FAHP%2F7AQSBiECJgBHAAABBgDA9wAACLMCKREmACs1%2F%2F8Ac%2F%2FsBBIF0wImAEcAAAEGAGkKAAAKtAMCMBEmACs1Nf%2F%2F%2F9oAAAFjBiECJgC9AAABBwBC%2FlEAAAAIswEFESYAKzX%2F%2FwCpAAACMgYhAiYAvQAAAQcAdf8gAAAACLMBDREmACs1%2F%2F%2F%2FswAAAlUGIQImAL0AAAEHAMD%2BpwAAAAizARIRJgArNf%2F%2F%2F%2BwAAAIfBdMCJgC9AAABBwBp%2FrcAAAAKtAIBGREmACs1NQACAHH%2F7ARiBiEAGwAmAEpAKyEGDBwcAAAYGRYOERMQBgknKAkfRlkLAxYRGQ4PBRQJCQMXFAEDJEZZAxYAPysAGD8zEjkvEhc5EjkrERIBFzkRMxEzETMxMAEQACMiADU0ADMyFzcmJwUnNyYnNxYXNxcHFhIDNCYjIBEUFjMyNgRi%2Fvv33v7pAQfc4mQIOc3%2B8UnpXF5FnGbuTM%2BYpai0nP6vr6KvoQIz%2Fuf%2B0gEN4uYBBnkE1r%2BbbIU%2BMXVJS4prd4%2F%2Bcv7ok6r%2BmKe3yQD%2F%2FwCwAAAERAXdAiYAUAAAAQYAwg4AAAizAR4RJgArNf%2F%2FAHP%2F7ARiBiECJgBRAAABBgBC1AAACLMCGhEmACs1%2F%2F8Ac%2F%2FsBGIGIQImAFEAAAEGAHVWAAAIswIiESYAKzX%2F%2FwBz%2F%2BwEYgYhAiYAUQAAAQYAwA4AAAizAicRJgArNf%2F%2FAHP%2F7ARiBd0CJgBRAAABBgDC8QAACLMCIhEmACs1%2F%2F8Ac%2F%2FsBGIF0wImAFEAAAEGAGkbAAAKtAMCLhEmACs1NQADAGgA%2FAQpBKgAAwAPABsAM0AYFgoKEAQCBAEDHB0ZExMBBw0NAQEAUFkBAC8rEQAzGC8zETMvMxESARc5ETMzETMxMBM1IRUBNDYzMhYVFAYjIiYRNDYzMhYVFAYjIiZoA8H9rjs2NDo7MzQ9OzY0OjszND0CjYqK%2Fug8PT86OUA%2FAvQ8PT86OUA%2FAAMAc%2F%2B8BGIEhwATABsAIwBLQCkXHxwUFAocAAASDwUICgYkJRYeIRkNGUZZDxIIBQQDEA0QAyFGWQYDFgA%2FxisAGD%2FGEhc5KxESADk5ERIBFzkRMxEzERI5OTEwARAAIyInByc3JhEQADMyFzcXBxYFFBcBJiMiBgU0JwEWMzI2BGL%2B8u6acFRyXoEBDO6adFR1YX%2F8vTUB0Utyo6YClzP%2BL0dxo6kCJf70%2FtNFdU6DmAEAAQwBK0x3TIWY%2BatmAoY11tSkZP19M9sA%2F%2F8ApP%2FsBDkGIQImAFcAAAEGAELEAAAIswEWESYAKzX%2F%2FwCk%2F%2BwEOQYhAiYAVwAAAQYAdXEAAAizAR4RJgArNf%2F%2FAKT%2F7AQ5BiECJgBXAAABBgDAEgAACLMBIxEmACs1%2F%2F8ApP%2FsBDkF0wImAFcAAAEGAGkhAAAKtAIBKhEmACs1Nf%2F%2FAAL%2BFAQGBiECJgBbAAABBgB1EgAACLMBHxEmACs1AAIAsP4UBHUGFAAWACIAPkAfIAYbFBAQEQYRJCMSABEbDBYJAwkeRlkJFgMXRlkDEAA%2FKwAYPysREgA5ORg%2FPxESATk5ETMRMzMRMzEwATY2MzISERACIyInIxcWFREjETMRFAclIgYHFRQWMyARNCYBWEKqatfw8dbeegwECKamBgFIqJgCmqoBL5QDtFlP%2FtT%2B9f70%2FtOhIk0%2F%2FjUIAP4uNFobuMkp58cBsNfR%2F%2F8AAv4UBAYF0wImAFsAAAEGAGm1AAAKtAIBKxEmACs1NQABALAAAAFWBEgAAwAWQAkAAQEFBAIPARUAPz8REgE5ETMxMCEjETMBVqamBEgAAgB9%2F%2BwG5wXNABQAHwBTQC4YBg8TEx0ADREdBgUgIQ8SSVkPDwALCw5JWQsDCRVJWQkEAxtJWQMSABNJWQASAD8rABg%2FKwAYPysAGD8rERIAORgvKxESARc5ETMRMxEzMTAhIQYjIAAREAAhMhchFSERIRUhESEBIgAREAAzMjcRJgbn%2FQBmXP65%2Fp8BXAFAZloDDv2zAif92QJN%2FET5%2Fv8BAfdwV1cUAYkBagFoAYYXl%2F4plv3mBJ3%2Bz%2F7Z%2Ftf%2BzSEEdR4AAwBx%2F%2BwHHwRaAB4AKgAxAFVALR8IDgIWFiUvFRUcJQgEMjMrKAsoRlkuFkZZAgUOCy4uBRELEBgiBSJGWQAFFgA%2FMysRADMYPzMSOS8SORI5KysRADMREgEXOREzETMSOTkRMzEwBSAnBgYjIgAREAAzMhYXNjYzMhIVFSESITI2NxUGBgEUFjMyNjU0JiMiBiUiBgchNCYFlv7bfT7Rid%2F%2B9AEG64PNPjrAfsnu%2FScIAUpeoVdYmPshmKejmZulppUER3%2BRDAIghBTrdHcBMQEIAQkBLHdycHn%2B9%2BJp%2FncjJ5QnIAI509vV0d3V2Niknp6kAAEBDATZA64GIQAOABhACQcAEA8LBIAOCQAvMxrNMhESATk5MTABNjY3MxYWFxUjJicGByMBDH9mF6YWbX13WIWIU3ME8IiAKSqFghc3g4Y0AAACAW8E2QMtBoUACwAXAB5ADBIGDAAGABgZDwkVAwAvM8wyERIBOTkRMxEzMTABFAYjIiY1NDYzMhYHNCYjIgYVFBYzMjYDLXtmZXh5ZGV8bEIzM0I8OTRBBbJid3ViYnN3Xjg9PTg4PT0AAQEIBNkD8AXdABcAJEAPCRUYGREABQwADAAMFYAJAC8azDk5Ly8RMxEzERIBOTkxMAEiLgIjIgYHIzY2MzIeAjMyNjczBgYDFCtST0kiMjMOYg1zWy5WTkggMTAPYw1xBNslLSU8PXmJJS0lOz55iQAAAQBSAdkDrgJxAAMAEbUAAgQFAAEALzMREgE5OTEwEzUhFVIDXAHZmJgAAQBSAdkHrgJxAAMAEbUAAgQFAAEALzMREgE5OTEwEzUhFVIHXAHZmJgAAQAZA8EBRAW2AAcAErYBBQgJAAQDAD%2FNERIBOTkxMBMnNhI3MwYHJQwWYjh7QiUDwRZaAQx5%2FvcAAAEAGQPBAUQFtgAHABK2BQEICQUHAwA%2FxhESATk5MTABFwYCByMSNwE1DxpiNXpGIAW2FmT%2B93IBHdgA%2F%2F8AP%2F74AW0A7gIGAA8AAAACABkDwQK0BbYABwAPABpADAQBDQkEEBEACAMMAwA%2FM80yERIBFzkxMAEnNhMzBgIHISc2EjczBgcBlg84enseOw391wwWYjh7QiUDwRbXAQhz%2Ft9hFloBDHn%2B9wAAAgAZA8ECtAW2AAcAEAAaQAwJDQEFBBESDQUQBwMAPzPGMhESARc5MTABFwYCByMSNyEXBgIHIzYSNwE1DxpiNXpGIAInDhhgOH0aQg0FthZk%2FvdyAR3YFlv%2B9npkATRdAP%2F%2FABn%2B%2BQK0AO4BBwDJAAD7OAAgtwEAB0ANDUgHuP%2FAswwMSAe4%2F8CzCQlIBwARKysrNTUAAQCkAfQCXgPjAAsAE7YGAAAMDQkDAC%2FNERIBOREzMTATNDYzMhYVFAYjIiakcWxpdHNqa3IC7Hl%2BfHt3gYMAAAEAUgB1Ah8DvgAGABpACgQCAwYCBggHBQEALy8REgE5OREzETMxMBMBFwEBBwFSAVZ3%2Ft8BIXf%2BqgInAZdF%2FqL%2BoUcBlwABAFAAdQIdA74ABgAaQAoDAAQCAAIIBwUBAC8vERIBOTkRMxEzMTABAScBATcBAh3%2BqHUBH%2F7hdQFYAgz%2BaUcBXwFeRf5pAAAB%2FnkAAAKPBbYAAwATtwAFAgQDAwISAD8%2FEQEzETMxMAEBIwECj%2Fx5jwOHBbb6SgW2AAEAP%2F%2FsBIkFywAmAHFAPx0XHxYWGgsCBwcaJBEEChoXBicoCxcYF05ZCBgFHR4dTlkCHg8eHx4vHgMJAxgeGB4TIiIATFkiBxMOTFkTGQA%2FKwAYPysREgA5ORgvL19eXREzKxEAMxEzKxEAMxESARc5ETMRMzMRMxEzETMxMAEgAyEVIQcVFyEVIRYWMzI3FQYjIgADIzUzJzU3IzUzEgAzMhcHJgMb%2FsFPAf799AICAc%2F%2BQSXLqpyZkqvt%2Ft8uppgCApikJwEk7cmlR6YFNf5tgTlALYG0xUKWQQENAQGBKixQgQEFASRhi1YAAQBoAo0EKQMXAAMAFUAJAgAFBAEAUFkBAC8rERIBOTkxMBM1IRVoA8ECjYqK%2F%2F8AHQAABBwGHwAmAEgAAAAHAEsCtgAA%2F%2F8AHQAABAwGHwAmAEgAAAAHAE4CtgAAAAIAFAJKArQFvAAKABQAPEAfFAULBwMDCQIAAgUDFRYBBQUJDxQfFAIUFAMOBx8DIAA%2FPzMSOS9dMzMRMxESARc5ETMzETMzETMxMAEjFSM1ITUBMxEzITU0Nw4DBwcCtH2R%2Fm4BmIt9%2FvIGBRgeHguoAxTKymUCQ%2F3Nw4ZLDCctLRH2%2F%2F8AHQAABtMGHwAnAEgCsAAAACYASAAAAAcASwVtAAD%2F%2FwAdAAAGwwYfACcASAKwAAAAJgBIAAAABwBOBW0AAP%2F%2FAB0AAAXEBh8AJwBIArYAAAAGAEgAAAABAMkAAAFzBbYAAwARtgAEBQEDABIAPz8REgE5MTAzETMRyaoFtvpKAP%2F%2FAAUAAAGOB3MCJgDXAAABBwBC%2FnwBUgAIswEFBSYAKzX%2F%2FwCzAAACPAdzAiYA1wAAAQcAdf8qAVIACLMBDQUmACs1%2F%2F%2F%2FxwAAAmkHcwImANcAAAEHAMD%2BuwFSAAizARIFJgArNf%2F%2FAAUAAAI4ByUCJgDXAAABBwBp%2FtABUgAKtAIBGQUmACs1NQABAAAA3ACKABYAVgAFAAIAEAAvAFwAAAEOAPgAAwABAAAAHwAfAB8AHwBRAHcA%2FwF7AewCagKDAq4C2QMVA0EDXwN0A5YDrwPxBBoEWwS5BPsFRgWjBcUGNAaRBscG%2BwcbB0QHZAe7CEEIgAjbCRkJVQmKCbgKCAo5CmEKkAquCuwLIwtpC6YL%2BQxGDJkMvQzxDRgNXA2MDbMN3w4DDhwOPw5gDnYOlQ7xD0YPgQ%2FUECEQYRD1ETMRYRGfEd0R9BJMEoYSxxMcE3AToxP1FDUUchSZFOQVFBVNFXkVuxXTFhgWUhZSFoMWzhcgF24XwhfnGGIYmBkUGWEZnBm6GcIaTBpiGpoaphrgGzAbTxuOG74b4BwSHDkcchyqHMAc1RzrHUgdWR1qHXsdjB2eHaod%2BB4EHhUeJh43HkkeoR6yHsMe1B7lHvYfCB82H6Efsh%2FDH9Qf5h%2F3IDkgoCCwIMAg0CDgIPEhAiGNIZkhqSG5Ickh2iHrIfwiDSIfIocilyKnIrcixyLXIugjLiOUI6QjtCPEI9Uj5SQ8JE0kZCTHJUElaiWfJdgl7SYCJh8mPSZFJnQmpSa%2FJt8nAicmJz8ntSfMJ9gn5CgmKDYoRihSKGcoeCiJKJoorAAAAAEAAAABGZq3gNbUXw889QAJCAAAAAAAyTUxiwAAAADJ6ExM%2B5r91QmiCGIAAAAJAAIAAAAAAAAEzQDBAAAAAAQUAAACFAAAAiMAmAM1AIUFKwAzBJMAgwaWAGgF1wBxAcUAhQJeAFICXgA9BGoAVgSTAGgB9gA%2FApMAVAIhAJgC8AAUBJMAZgSTALwEkwBkBJMAXgSTACsEkwCFBJMAdQSTAF4EkwBoBJMAagIhAJgCIQA%2FBJMAaASTAHcEkwBoA28AGwcxAHkFEAAABS8AyQUMAH0F1QDJBHMAyQQhAMkF0wB9BecAyQIj%2F2AE6QDJBCcAyQc5AMkGCADJBjsAfQTRAMkGOwB9BPIAyQRkAGoEbQASBdMAugTDAAAHaAAbBJ4ACAR7AAAEkQBSAqIApgLwABcCogAzBFYAMQOW%2F%2FwEngGJBHMAXgTnALADzwBzBOcAcwR9AHMCtgAdBGIAJwTpALACBgCiAgb%2FkQQzALACBgCwB3EAsATpALAE1QBzBOcAsATnAHMDRACwA9EAagLTAB8E6QCkBAIAAAY5ABcEMQAnBAgAAgO%2BAFIDCAA9BGgB7gMIAEgEkwBoAhQAAAIjAJgEkwC%2BBJMAPwSTAHsEkwAfBGgB7gQhAHsEngE1BqgAZALVAEYD%2BgBSBJMAaAKTAFQGqABkBAD%2F%2BgNtAH8EkwBoAscAMQLHACEEngGJBPQAsAU9AHECIQCYAdEAJQLHAEwDAABCA%2FoAUAY9AEsGPQAuBj0AGgNvADMFEAAABRAAAAUQAAAFEAAABRAAAAUQAAAG%2FP%2F%2BBQwAfQRzAMkEcwDJBHMAyQRzAMkFxwAvBggAyQY7AH0GOwB9BjsAfQY7AH0GOwB9BJMAhQY7AH0F0wC6BdMAugXTALoF0wC6BHsAAATjAMkE%2BgCwBHMAXgRzAF4EcwBeBHMAXgRzAF4EcwBeBt0AXgPPAHMEfQBzBH0AcwR9AHMEfQBzAgb%2F2gIGAKkCBv%2BzAgb%2F7ATFAHEE6QCwBNUAcwTVAHME1QBzBNUAcwTVAHMEkwBoBNUAcwTpAKQE6QCkBOkApATpAKQECAACBOcAsAQIAAICBgCwB2IAfQeJAHEEvAEMBJ4BbwS8AQgEAABSCAAAUgFcABkBXAAZAfYAPwLNABkCzQAZAz0AGQMCAKQCbwBSAm8AUAEK%2FnkEuAA%2FBJMAaAS8AB0EvAAdAscAFAd1AB0HdQAdBW0AHQI7AMkABQCz%2F8cABQABAAAIjf2oAAAJrPua%2FnsJogABAAAAAAAAAAAAAAAAAAAA2AADBLYBkAAFAAgFmgUzAAABHwWaBTMAAAPRAGYB8QgCAgsGBgMFBAICBOAAAu9AACBbAAAAKAAAAAAxQVNDAEAAIP%2F9Bh%2F%2BFACECI0CWCAAAZ8AAAAABEgFtgAAACAAAwAAAAEAAwABAAAADAAEALgAAAAqACAABAAKAEgASQB%2BAMsAzwD%2FATEBUwLGAtoC3CAUIBogHiAiIDogRCB0IKwiEv%2F%2FAAAAIABJAEoAoADMANABMQFSAsYC2gLcIBMgGCAcICIgOSBEIHQgrCIS%2F%2F%2F%2F4wCO%2F%2BL%2FwQAM%2F73%2FjP9s%2Ffr95%2F3m4LDgreCs4Kngk%2BCK4F%2FgI96%2BAAEAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAABAR1taWVhVVFNSUVBPTk1MS0pJSEdGRURDQkFAPz49PDs6OTg3NjUxMC8uLSwoJyYlJCMiIR8YFBEQDw4NCwoJCAcGBQQDAgEALCCwAWBFsAMlIBFGYSNFI2FILSwgRRhoRC0sRSNGYLAgYSCwRmCwBCYjSEgtLEUjRiNhsCBgILAmYbAgYbAEJiNISC0sRSNGYLBAYSCwZmCwBCYjSEgtLEUjRiNhsEBgILAmYbBAYbAEJiNISC0sARAgPAA8LSwgRSMgsM1EIyC4AVpRWCMgsI1EI1kgsO1RWCMgsE1EI1kgsAQmUVgjILANRCNZISEtLCAgRRhoRCCwAWAgRbBGdmiKRWBELSwBsQsKQyNDZQotLACxCgtDI0MLLSwAsCgjcLEBKD4BsCgjcLECKEU6sQIACA0tLCBFsAMlRWFksFBRWEVEGyEhWS0sSbAOI0QtLCBFsABDYEQtLAGwBkOwB0NlCi0sIGmwQGGwAIsgsSzAioy4EABiYCsMZCNkYVxYsANhWS0sigNFioqHsBErsCkjRLApeuQYLSxFZbAsI0RFsCsjRC0sS1JYRUQbISFZLSxLUVhFRBshIVktLAGwBSUQIyCK9QCwAWAj7ewtLAGwBSUQIyCK9QCwAWEj7ewtLAGwBiUQ9QDt7C0ssAJDsAFSWCEhISEhG0YjRmCKikYjIEaKYIphuP%2BAYiMgECOKsQwMinBFYCCwAFBYsAFhuP%2B6ixuwRoxZsBBgaAE6WS0sIEWwAyVGUkuwE1FbWLACJUYgaGGwAyWwAyU%2FIyE4GyERWS0sIEWwAyVGUFiwAiVGIGhhsAMlsAMlPyMhOBshEVktLACwB0OwBkMLLSwhIQxkI2SLuEAAYi0sIbCAUVgMZCNki7ggAGIbsgBALytZsAJgLSwhsMBRWAxkI2SLuBVVYhuyAIAvK1mwAmAtLAxkI2SLuEAAYmAjIS0sS1NYirAEJUlkI0VpsECLYbCAYrAgYWqwDiNEIxCwDvYbISOKEhEgOS9ZLSxLU1ggsAMlSWRpILAFJrAGJUlkI2GwgGKwIGFqsA4jRLAEJhCwDvaKELAOI0SwDvawDiNEsA7tG4qwBCYREiA5IyA5Ly9ZLSxFI0VgI0VgI0VgI3ZoGLCAYiAtLLBIKy0sIEWwAFRYsEBEIEWwQGFEGyEhWS0sRbEwL0UjRWFgsAFgaUQtLEtRWLAvI3CwFCNCGyEhWS0sS1FYILADJUVpU1hEGyEhWRshIVktLEWwFEOwAGBjsAFgaUQtLLAvRUQtLEUjIEWKYEQtLEUjRWBELSxLI1FYuQAz%2F%2BCxNCAbszMANABZREQtLLAWQ1iwAyZFilhkZrAfYBtksCBgZiBYGyGwQFmwAWFZI1hlWbApI0QjELAp4BshISEhIVktLLACQ1RYS1MjS1FaWDgbISFZGyEhISFZLSywFkNYsAQlRWSwIGBmIFgbIbBAWbABYSNYG2VZsCkjRLAFJbAIJQggWAIbA1mwBCUQsAUlIEawBCUjQjywBCWwByUIsAclELAGJSBGsAQlsAFgI0I8IFgBGwBZsAQlELAFJbAp4LApIEVlRLAHJRCwBiWwKeCwBSWwCCUIIFgCGwNZsAUlsAMlQ0iwBCWwByUIsAYlsAMlsAFgQ0gbIVkhISEhISEhLSwCsAQlICBGsAQlI0KwBSUIsAMlRUghISEhLSwCsAMlILAEJQiwAiVDSCEhIS0sRSMgRRggsABQIFgjZSNZI2ggsEBQWCGwQFkjWGVZimBELSxLUyNLUVpYIEWKYEQbISFZLSxLVFggRYpgRBshIVktLEtTI0tRWlg4GyEhWS0ssAAhS1RYOBshIVktLLACQ1RYsEYrGyEhISFZLSywAkNUWLBHKxshISFZLSywAkNUWLBIKxshISEhWS0ssAJDVFiwSSsbISEhWS0sIIoII0tTiktRWlgjOBshIVktLACwAiVJsABTWCCwQDgRGyFZLSwBRiNGYCNGYSMgECBGimG4%2F4BiirFAQIpwRWBoOi0sIIojSWSKI1NYPBshWS0sS1JYfRt6WS0ssBIASwFLVEItLLECAEKxIwGIUbFAAYhTWli5EAAAIIhUWLICAQJDYEJZsSQBiFFYuSAAAECIVFiyAgICQ2BCsSQBiFRYsgIgAkNgQgBLAUtSWLICCAJDYEJZG7lAAACAiFRYsgIEAkNgQlm5QAAAgGO4AQCIVFiyAggCQ2BCWblAAAEAY7gCAIhUWLICEAJDYEJZsSYBiFFYuUAAAgBjuAQAiFRYsgJAAkNgQlm5QAAEAGO4CACIVFiyAoACQ2BCWVlZWVlZsQACQ1RYQAoFQAhACUAMAg0CG7EBAkNUWLIFQAi6AQAACQEAswwBDQEbsYACQ1JYsgVACLgBgLEJQBuyBUAIugGAAAkBQFm5QAAAgIhVuUAAAgBjuAQAiFVaWLMMAA0BG7MMAA0BWVlZQkJCQkItLEUYaCNLUVgjIEUgZLBAUFh8WWiKYFlELSywABawAiWwAiUBsAEjPgCwAiM%2BsQECBgywCiNlQrALI0IBsAEjPwCwAiM%2FsQECBgywBiNlQrAHI0KwARYBLSywgLACQ1CwAbACQ1RbWCEjELAgGskbihDtWS0ssFkrLSyKEOUtQJkJIUggVSABHlUfSANVHx4BDx4%2FHq8eA01LJh9MSzMfS0YlHyY0EFUlMyRVGRP%2FHwcE%2Fx8GA%2F8fSkkzH0lGJR8TMxJVBQEDVQQzA1UfAwEPAz8DrwMDR0YZH%2BtGASMzIlUcMxtVFjMVVREBD1UQMw9VDw9PDwIfD88PAg8P%2Fw8CBgIBAFUBMwBVbwB%2FAK8A7wAEEAABgBYBBQG4AZCxVFMrK0u4B%2F9SS7AJUFuwAYiwJVOwAYiwQFFasAaIsABVWltYsQEBjlmFjY0AQh1LsDJTWLAgHVlLsGRTWLAQHbEWAEJZc3MrK15zdHUrKysrK3Qrc3QrKysrKysrKysrKysrc3QrKysYXgAAAAYUABcATgW2ABcAdQW2Bc0AAAAAAAAAAAAAAAAAAARIABQAkQAA%2F%2BwAAAAA%2F%2BwAAAAA%2F%2BwAAP4U%2F%2BwAAAW2ABP8lP%2Ft%2FoX%2F6v6p%2F%2BwAGP68AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACAAAAAAAAIsAgQDdAJgAjwCOAJkAiACBAQ8AigAAAAAAAQAAHowAAQUVGAAACgZ%2BAAUAJP9xAAUANgApAAUAOAApAAUAOQApAAUAOwAUAAUAQ%2F%2BuAAUARf%2BFAAUARv%2BFAAUAR%2F%2BFAAUASf%2FDAAUAT%2F%2FDAAUAUP%2FDAAUAUf%2BFAAUAUv%2FDAAUAU%2F%2BFAAUAVP%2FDAAUAVf%2FDAAUAV%2F%2FDAAUAgf9xAAUAgv9xAAUAg%2F9xAAUAhP9xAAUAhf9xAAUAhv9xAAUAmgAUAAUAnf%2BFAAUAnv%2BuAAUAn%2F%2BuAAUAoP%2BuAAUAof%2BuAAUAov%2BuAAUAo%2F%2BuAAUApP%2BFAAUApf%2BFAAUApv%2BFAAUAp%2F%2BFAAUAqP%2BFAAUAr%2F%2BFAAUAsP%2BFAAUAsf%2BFAAUAsv%2BFAAUAs%2F%2BFAAUAtf%2BFAAUAtv%2FDAAUAt%2F%2FDAAUAuP%2FDAAUAuf%2FDAAUAv%2F%2BFAAoAJP9xAAoANgApAAoAOAApAAoAOQApAAoAOwAUAAoAQ%2F%2BuAAoARf%2BFAAoARv%2BFAAoAR%2F%2BFAAoASf%2FDAAoAT%2F%2FDAAoAUP%2FDAAoAUf%2BFAAoAUv%2FDAAoAU%2F%2BFAAoAVP%2FDAAoAVf%2FDAAoAV%2F%2FDAAoAgf9xAAoAgv9xAAoAg%2F9xAAoAhP9xAAoAhf9xAAoAhv9xAAoAmgAUAAoAnf%2BFAAoAnv%2BuAAoAn%2F%2BuAAoAoP%2BuAAoAof%2BuAAoAov%2BuAAoAo%2F%2BuAAoApP%2BFAAoApf%2BFAAoApv%2BFAAoAp%2F%2BFAAoAqP%2BFAAoAr%2F%2BFAAoAsP%2BFAAoAsf%2BFAAoAsv%2BFAAoAs%2F%2BFAAoAtf%2BFAAoAtv%2FDAAoAt%2F%2FDAAoAuP%2FDAAoAuf%2FDAAoAv%2F%2BFAAsALAC4AA8AJv%2BaAA8AKv%2BaAA8AMf%2BaAA8AM%2F%2BaAA8ANv9xAA8AN%2F%2FXAA8AOP%2BFAA8AOf%2BFAA8AO%2F%2BFAA8AiP%2BaAA8Aj%2F%2BaAA8AkP%2BaAA8Akf%2BaAA8Akv%2BaAA8Ak%2F%2BaAA8Alf%2BaAA8Alv%2FXAA8Al%2F%2FXAA8AmP%2FXAA8Amf%2FXAA8Amv%2BFAA8Avv%2BaABAANv%2BuABEAJv%2BaABEAKv%2BaABEAMf%2BaABEAM%2F%2BaABEANv9xABEAN%2F%2FXABEAOP%2BFABEAOf%2BFABEAO%2F%2BFABEAiP%2BaABEAj%2F%2BaABEAkP%2BaABEAkf%2BaABEAkv%2BaABEAk%2F%2BaABEAlf%2BaABEAlv%2FXABEAl%2F%2FXABEAmP%2FXABEAmf%2FXABEAmv%2BFABEAvv%2BaACQABf9xACQACv9xACQAJv%2FXACQAKv%2FXACQALAEKACQAMf%2FXACQAM%2F%2FXACQANv9xACQAOP%2BuACQAOf%2BuACQAO%2F%2BFACQAiP%2FXACQAj%2F%2FXACQAkP%2FXACQAkf%2FXACQAkv%2FXACQAk%2F%2FXACQAlf%2FXACQAmv%2BFACQAvv%2FXACQAxv9xACQAyf9xACUAD%2F%2BuACUAEf%2BuACUAJP%2FXACUANv%2FDACUAOP%2FsACUAOf%2FsACUAOv%2FXACUAO%2F%2FsACUAPP%2FsACUAgf%2FXACUAgv%2FXACUAg%2F%2FXACUAhP%2FXACUAhf%2FXACUAhv%2FXACUAmv%2FsACUAx%2F%2BuACUAyv%2BuACYAJv%2FXACYAKv%2FXACYAMf%2FXACYAM%2F%2FXACYAiP%2FXACYAj%2F%2FXACYAkP%2FXACYAkf%2FXACYAkv%2FXACYAk%2F%2FXACYAlf%2FXACYAvv%2FXACcAD%2F%2BuACcAEf%2BuACcAJP%2FXACcANv%2FDACcAOP%2FsACcAOf%2FsACcAOv%2FXACcAO%2F%2FsACcAPP%2FsACcAgf%2FXACcAgv%2FXACcAg%2F%2FXACcAhP%2FXACcAhf%2FXACcAhv%2FXACcAmv%2FsACcAx%2F%2BuACcAyv%2BuACgALAB7ACkAD%2F%2BFACkAEf%2BFACkAIgApACkAJP%2FXACkAgf%2FXACkAgv%2FXACkAg%2F%2FXACkAhP%2FXACkAhf%2FXACkAhv%2FXACkAx%2F%2BFACkAyv%2BFAC0AJv%2FXAC0AKv%2FXAC0AMf%2FXAC0AM%2F%2FXAC0AiP%2FXAC0Aj%2F%2FXAC0AkP%2FXAC0Akf%2FXAC0Akv%2FXAC0Ak%2F%2FXAC0Alf%2FXAC0Avv%2FXAC4ABf9cAC4ACv9cAC4AJv%2FXAC4AKv%2FXAC4AMf%2FXAC4AM%2F%2FXAC4ANv%2FXAC4AN%2F%2FsAC4AOP%2FXAC4AOf%2FXAC4AO%2F%2FDAC4AiP%2FXAC4Aj%2F%2FXAC4AkP%2FXAC4Akf%2FXAC4Akv%2FXAC4Ak%2F%2FXAC4Alf%2FXAC4Alv%2FsAC4Al%2F%2FsAC4AmP%2FsAC4Amf%2FsAC4Amv%2FDAC4Avv%2FXAC4Axv9cAC4Ayf9cADEAD%2F%2BuADEAEf%2BuADEAJP%2FXADEANv%2FDADEAOP%2FsADEAOf%2FsADEAOv%2FXADEAO%2F%2FsADEAPP%2FsADEAgf%2FXADEAgv%2FXADEAg%2F%2FXADEAhP%2FXADEAhf%2FXADEAhv%2FXADEAmv%2FsADEAx%2F%2BuADEAyv%2BuADIAD%2F72ADIAEf72ADIAJP%2BaADIAOv%2FXADIAPP%2FsADIAgf%2BaADIAgv%2BaADIAg%2F%2BaADIAhP%2BaADIAhf%2BaADIAhv%2BaADIAx%2F72ADIAyv72ADMAD%2F%2BuADMAEf%2BuADMAJP%2FXADMANv%2FDADMAOP%2FsADMAOf%2FsADMAOv%2FXADMAO%2F%2FsADMAPP%2FsADMAgf%2FXADMAgv%2FXADMAg%2F%2FXADMAhP%2FXADMAhf%2FXADMAhv%2FXADMAmv%2FsADMAx%2F%2BuADMAyv%2BuADYAD%2F%2BFADYAEP%2BuADYAEf%2BFADYAIgApADYAJP9xADYAJv%2FXADYAKv%2FXADYAMf%2FXADYAM%2F%2FXADYANgApADYAQ%2F9cADYARf9xADYARv9xADYAR%2F9xADYASf9xADYAT%2F%2BaADYAUP%2BaADYAUf9xADYAUv%2BaADYAU%2F9xADYAVP%2BaADYAVf%2BFADYAV%2F%2BaADYAWP%2FXADYAWf%2FXADYAWv%2FXADYAW%2F%2FXADYAXP%2BuADYAgf9xADYAgv9xADYAg%2F9xADYAhP9xADYAhf9xADYAhv9xADYAiP%2FXADYAj%2F%2FXADYAkP%2FXADYAkf%2FXADYAkv%2FXADYAk%2F%2FXADYAlf%2FXADYAnf9xADYAnv9cADYAn%2F9cADYAoP9cADYAof9cADYAov9cADYAo%2F9cADYApP9xADYApf9xADYApv9xADYAp%2F9xADYAqP9xADYAr%2F9xADYAsP9xADYAsf9xADYAsv9xADYAs%2F9xADYAtf9xADYAtv%2BaADYAt%2F%2BaADYAuP%2BaADYAuf%2BaADYAuv%2FXADYAvv%2FXADYAv%2F9xADYAw%2F%2BuADYAxP%2BuADYAx%2F%2BFADYAyv%2BFADcAD%2F%2FXADcAEf%2FXADcAJP%2FsADcAgf%2FsADcAgv%2FsADcAg%2F%2FsADcAhP%2FsADcAhf%2FsADcAhv%2FsADcAx%2F%2FXADcAyv%2FXADgAD%2F%2BaADgAEf%2BaADgAIgApADgAJP%2BuADgAJv%2FsADgAKv%2FsADgAMf%2FsADgAM%2F%2FsADgAQ%2F%2FXADgARf%2FXADgARv%2FXADgAR%2F%2FXADgASf%2FsADgAT%2F%2FsADgAUP%2FsADgAUf%2FXADgAUv%2FsADgAU%2F%2FXADgAVP%2FsADgAVf%2FsADgAV%2F%2FsADgAgf%2BuADgAgv%2BuADgAg%2F%2BuADgAhP%2BuADgAhf%2BuADgAhv%2BuADgAiP%2FsADgAj%2F%2FsADgAkP%2FsADgAkf%2FsADgAkv%2FsADgAk%2F%2FsADgAlf%2FsADgAnf%2FXADgAnv%2FXADgAn%2F%2FXADgAoP%2FXADgAof%2FXADgAov%2FXADgAo%2F%2FXADgApP%2FXADgApf%2FXADgApv%2FXADgAp%2F%2FXADgAqP%2FXADgAr%2F%2FXADgAsP%2FXADgAsf%2FXADgAsv%2FXADgAs%2F%2FXADgAtf%2FXADgAtv%2FsADgAt%2F%2FsADgAuP%2FsADgAuf%2FsADgAvv%2FsADgAv%2F%2FXADgAx%2F%2BaADgAyv%2BaADkAD%2F%2BaADkAEf%2BaADkAIgApADkAJP%2BuADkAJv%2FsADkAKv%2FsADkAMf%2FsADkAM%2F%2FsADkAQ%2F%2FXADkARf%2FXADkARv%2FXADkAR%2F%2FXADkASf%2FsADkAT%2F%2FsADkAUP%2FsADkAUf%2FXADkAUv%2FsADkAU%2F%2FXADkAVP%2FsADkAVf%2FsADkAV%2F%2FsADkAgf%2BuADkAgv%2BuADkAg%2F%2BuADkAhP%2BuADkAhf%2BuADkAhv%2BuADkAiP%2FsADkAj%2F%2FsADkAkP%2FsADkAkf%2FsADkAkv%2FsADkAk%2F%2FsADkAlf%2FsADkAnf%2FXADkAnv%2FXADkAn%2F%2FXADkAoP%2FXADkAof%2FXADkAov%2FXADkAo%2F%2FXADkApP%2FXADkApf%2FXADkApv%2FXADkAp%2F%2FXADkAqP%2FXADkAr%2F%2FXADkAsP%2FXADkAsf%2FXADkAsv%2FXADkAs%2F%2FXADkAtf%2FXADkAtv%2FsADkAt%2F%2FsADkAuP%2FsADkAuf%2FsADkAvv%2FsADkAv%2F%2FXADkAx%2F%2BaADkAyv%2BaADoAJv%2FXADoAKv%2FXADoAMf%2FXADoAM%2F%2FXADoAiP%2FXADoAj%2F%2FXADoAkP%2FXADoAkf%2FXADoAkv%2FXADoAk%2F%2FXADoAlf%2FXADoAvv%2FXADsAD%2F%2BFADsAEf%2BFADsAIgApADsAJP%2BFADsAJv%2FXADsAKv%2FXADsAMf%2FXADsAM%2F%2FXADsAQ%2F%2BaADsARf%2BaADsARv%2BaADsAR%2F%2BaADsASf%2FXADsAT%2F%2FDADsAUP%2FDADsAUf%2BaADsAUv%2FDADsAU%2F%2BaADsAVP%2FDADsAVf%2BuADsAV%2F%2FDADsAXP%2FXADsAgf%2BFADsAgv%2BFADsAg%2F%2BFADsAhP%2BFADsAhf%2BFADsAhv%2BFADsAiP%2FXADsAj%2F%2FXADsAkP%2FXADsAkf%2FXADsAkv%2FXADsAk%2F%2FXADsAlf%2FXADsAnf%2BaADsAnv%2BaADsAn%2F%2BaADsAoP%2BaADsAof%2BaADsAov%2BaADsAo%2F%2BaADsApP%2BaADsApf%2BaADsApv%2BaADsAp%2F%2BaADsAqP%2BaADsAr%2F%2BaADsAsP%2BaADsAsf%2BaADsAsv%2BaADsAs%2F%2BaADsAtf%2BaADsAtv%2FDADsAt%2F%2FDADsAuP%2FDADsAuf%2FDADsAvv%2FXADsAv%2F%2BaADsAx%2F%2BFADsAyv%2BFADwAJv%2FsADwAKv%2FsADwAMf%2FsADwAM%2F%2FsADwAiP%2FsADwAj%2F%2FsADwAkP%2FsADwAkf%2FsADwAkv%2FsADwAk%2F%2FsADwAlf%2FsADwAvv%2FsAD0ALAC4AEMABf%2FsAEMACv%2FsAEMAxv%2FsAEMAyf%2FsAEQABf%2FsAEQACv%2FsAEQAWP%2FXAEQAWf%2FXAEQAWv%2FXAEQAW%2F%2FXAEQAXP%2FsAEQAuv%2FXAEQAxv%2FsAEQAyf%2FsAEUABQApAEUACgApAEUAxgApAEUAyQApAEcABf%2FsAEcACv%2FsAEcAWP%2FXAEcAWf%2FXAEcAWv%2FXAEcAW%2F%2FXAEcAXP%2FsAEcAuv%2FXAEcAxv%2FsAEcAyf%2FsAEgABQB7AEgACgB7AEgAxgB7AEgAyQB7AEoABf%2FsAEoACv%2FsAEoAxv%2FsAEoAyf%2FsAE0ARf%2FXAE0ARv%2FXAE0AR%2F%2FXAE0AUf%2FXAE0AU%2F%2FXAE0Anf%2FXAE0ApP%2FXAE0Apf%2FXAE0Apv%2FXAE0Ap%2F%2FXAE0AqP%2FXAE0Ar%2F%2FXAE0AsP%2FXAE0Asf%2FXAE0Asv%2FXAE0As%2F%2FXAE0Atf%2FXAE0Av%2F%2FXAE8ABf%2FsAE8ACv%2FsAE8Axv%2FsAE8Ayf%2FsAFAABf%2FsAFAACv%2FsAFAAxv%2FsAFAAyf%2FsAFEABf%2FsAFEACv%2FsAFEAWP%2FXAFEAWf%2FXAFEAWv%2FXAFEAW%2F%2FXAFEAXP%2FsAFEAuv%2FXAFEAxv%2FsAFEAyf%2FsAFIABf%2FsAFIACv%2FsAFIAWP%2FXAFIAWf%2FXAFIAWv%2FXAFIAW%2F%2FXAFIAXP%2FsAFIAuv%2FXAFIAxv%2FsAFIAyf%2FsAFQABQBSAFQACgBSAFQAQ%2F%2FXAFQARf%2FXAFQARv%2FXAFQAR%2F%2FXAFQASf%2FsAFQAUf%2FXAFQAU%2F%2FXAFQAnf%2FXAFQAnv%2FXAFQAn%2F%2FXAFQAoP%2FXAFQAof%2FXAFQAov%2FXAFQAo%2F%2FXAFQApP%2FXAFQApf%2FXAFQApv%2FXAFQAp%2F%2FXAFQAqP%2FXAFQAr%2F%2FXAFQAsP%2FXAFQAsf%2FXAFQAsv%2FXAFQAs%2F%2FXAFQAtf%2FXAFQAv%2F%2FXAFQAxgBSAFQAyQBSAFYABQApAFYACgApAFYAxgApAFYAyQApAFgABQBSAFgACgBSAFgAD%2F%2BuAFgAEf%2BuAFgAIgApAFgAxgBSAFgAx%2F%2BuAFgAyQBSAFgAyv%2BuAFkABQBSAFkACgBSAFkAD%2F%2BuAFkAEf%2BuAFkAIgApAFkAxgBSAFkAx%2F%2BuAFkAyQBSAFkAyv%2BuAFoARf%2FXAFoARv%2FXAFoAR%2F%2FXAFoAUf%2FXAFoAU%2F%2FXAFoAnf%2FXAFoApP%2FXAFoApf%2FXAFoApv%2FXAFoAp%2F%2FXAFoAqP%2FXAFoAr%2F%2FXAFoAsP%2FXAFoAsf%2FXAFoAsv%2FXAFoAs%2F%2FXAFoAtf%2FXAFoAv%2F%2FXAFsABQBSAFsACgBSAFsAD%2F%2BuAFsAEf%2BuAFsAIgApAFsAxgBSAFsAx%2F%2BuAFsAyQBSAFsAyv%2BuAF0ALAC4AIEABf9xAIEACv9xAIEAJv%2FXAIEAKv%2FXAIEALAEKAIEAMf%2FXAIEAM%2F%2FXAIEANv9xAIEAOP%2BuAIEAOf%2BuAIEAO%2F%2BFAIEAiP%2FXAIEAj%2F%2FXAIEAkP%2FXAIEAkf%2FXAIEAkv%2FXAIEAk%2F%2FXAIEAlf%2FXAIEAmv%2BFAIEAvv%2FXAIEAxv9xAIEAyf9xAIIABf9xAIIACv9xAIIAJv%2FXAIIAKv%2FXAIIALAEKAIIAMf%2FXAIIAM%2F%2FXAIIANv9xAIIAOP%2BuAIIAOf%2BuAIIAO%2F%2BFAIIAiP%2FXAIIAj%2F%2FXAIIAkP%2FXAIIAkf%2FXAIIAkv%2FXAIIAk%2F%2FXAIIAlf%2FXAIIAmv%2BFAIIAvv%2FXAIIAxv9xAIIAyf9xAIMABf9xAIMACv9xAIMAJv%2FXAIMAKv%2FXAIMALAEKAIMAMf%2FXAIMAM%2F%2FXAIMANv9xAIMAOP%2BuAIMAOf%2BuAIMAO%2F%2BFAIMAiP%2FXAIMAj%2F%2FXAIMAkP%2FXAIMAkf%2FXAIMAkv%2FXAIMAk%2F%2FXAIMAlf%2FXAIMAmv%2BFAIMAvv%2FXAIMAxv9xAIMAyf9xAIQABf9xAIQACv9xAIQAJv%2FXAIQAKv%2FXAIQALAEKAIQAMf%2FXAIQAM%2F%2FXAIQANv9xAIQAOP%2BuAIQAOf%2BuAIQAO%2F%2BFAIQAiP%2FXAIQAj%2F%2FXAIQAkP%2FXAIQAkf%2FXAIQAkv%2FXAIQAk%2F%2FXAIQAlf%2FXAIQAmv%2BFAIQAvv%2FXAIQAxv9xAIQAyf9xAIUABf9xAIUACv9xAIUAJv%2FXAIUAKv%2FXAIUALAEKAIUAMf%2FXAIUAM%2F%2FXAIUANv9xAIUAOP%2BuAIUAOf%2BuAIUAO%2F%2BFAIUAiP%2FXAIUAj%2F%2FXAIUAkP%2FXAIUAkf%2FXAIUAkv%2FXAIUAk%2F%2FXAIUAlf%2FXAIUAmv%2BFAIUAvv%2FXAIUAxv9xAIUAyf9xAIYABf9xAIYACv9xAIYAJv%2FXAIYAKv%2FXAIYALAEKAIYAMf%2FXAIYAM%2F%2FXAIYANv9xAIYAOP%2BuAIYAOf%2BuAIYAO%2F%2BFAIYAiP%2FXAIYAj%2F%2FXAIYAkP%2FXAIYAkf%2FXAIYAkv%2FXAIYAk%2F%2FXAIYAlf%2FXAIYAmv%2BFAIYAvv%2FXAIYAxv9xAIYAyf9xAIcALAB7AIgAJv%2FXAIgAKv%2FXAIgAMf%2FXAIgAM%2F%2FXAIgAiP%2FXAIgAj%2F%2FXAIgAkP%2FXAIgAkf%2FXAIgAkv%2FXAIgAk%2F%2FXAIgAlf%2FXAIgAvv%2FXAIkALAB7AIoALAB7AIsALAB7AIwALAB7AI0AD%2F%2BuAI0AEf%2BuAI0AJP%2FXAI0ANv%2FDAI0AOP%2FsAI0AOf%2FsAI0AOv%2FXAI0AO%2F%2FsAI0APP%2FsAI0Agf%2FXAI0Agv%2FXAI0Ag%2F%2FXAI0AhP%2FXAI0Ahf%2FXAI0Ahv%2FXAI0Amv%2FsAI0Ax%2F%2BuAI0Ayv%2BuAI8AD%2F%2BuAI8AEf%2BuAI8AJP%2FXAI8ANv%2FDAI8AOP%2FsAI8AOf%2FsAI8AOv%2FXAI8AO%2F%2FsAI8APP%2FsAI8Agf%2FXAI8Agv%2FXAI8Ag%2F%2FXAI8AhP%2FXAI8Ahf%2FXAI8Ahv%2FXAI8Amv%2FsAI8Ax%2F%2BuAI8Ayv%2BuAJAAD%2F%2BuAJAAEf%2BuAJAAJP%2FXAJAANv%2FDAJAAOP%2FsAJAAOf%2FsAJAAOv%2FXAJAAO%2F%2FsAJAAPP%2FsAJAAgf%2FXAJAAgv%2FXAJAAg%2F%2FXAJAAhP%2FXAJAAhf%2FXAJAAhv%2FXAJAAmv%2FsAJAAx%2F%2BuAJAAyv%2BuAJEAD%2F%2BuAJEAEf%2BuAJEAJP%2FXAJEANv%2FDAJEAOP%2FsAJEAOf%2FsAJEAOv%2FXAJEAO%2F%2FsAJEAPP%2FsAJEAgf%2FXAJEAgv%2FXAJEAg%2F%2FXAJEAhP%2FXAJEAhf%2FXAJEAhv%2FXAJEAmv%2FsAJEAx%2F%2BuAJEAyv%2BuAJIAD%2F%2BuAJIAEf%2BuAJIAJP%2FXAJIANv%2FDAJIAOP%2FsAJIAOf%2FsAJIAOv%2FXAJIAO%2F%2FsAJIAPP%2FsAJIAgf%2FXAJIAgv%2FXAJIAg%2F%2FXAJIAhP%2FXAJIAhf%2FXAJIAhv%2FXAJIAmv%2FsAJIAx%2F%2BuAJIAyv%2BuAJMAD%2F%2BuAJMAEf%2BuAJMAJP%2FXAJMANv%2FDAJMAOP%2FsAJMAOf%2FsAJMAOv%2FXAJMAO%2F%2FsAJMAPP%2FsAJMAgf%2FXAJMAgv%2FXAJMAg%2F%2FXAJMAhP%2FXAJMAhf%2FXAJMAhv%2FXAJMAmv%2FsAJMAx%2F%2BuAJMAyv%2BuAJUAD%2F%2BuAJUAEf%2BuAJUAJP%2FXAJUANv%2FDAJUAOP%2FsAJUAOf%2FsAJUAOv%2FXAJUAO%2F%2FsAJUAPP%2FsAJUAgf%2FXAJUAgv%2FXAJUAg%2F%2FXAJUAhP%2FXAJUAhf%2FXAJUAhv%2FXAJUAmv%2FsAJUAx%2F%2BuAJUAyv%2BuAJYAD%2F%2FXAJYAEf%2FXAJYAJP%2FsAJYAgf%2FsAJYAgv%2FsAJYAg%2F%2FsAJYAhP%2FsAJYAhf%2FsAJYAhv%2FsAJYAx%2F%2FXAJYAyv%2FXAJcAD%2F%2FXAJcAEf%2FXAJcAJP%2FsAJcAgf%2FsAJcAgv%2FsAJcAg%2F%2FsAJcAhP%2FsAJcAhf%2FsAJcAhv%2FsAJcAx%2F%2FXAJcAyv%2FXAJgAD%2F%2FXAJgAEf%2FXAJgAJP%2FsAJgAgf%2FsAJgAgv%2FsAJgAg%2F%2FsAJgAhP%2FsAJgAhf%2FsAJgAhv%2FsAJgAx%2F%2FXAJgAyv%2FXAJkAD%2F%2FXAJkAEf%2FXAJkAJP%2FsAJkAgf%2FsAJkAgv%2FsAJkAg%2F%2FsAJkAhP%2FsAJkAhf%2FsAJkAhv%2FsAJkAx%2F%2FXAJkAyv%2FXAJoAD%2F%2BFAJoAEf%2BFAJoAIgApAJoAJP%2BFAJoAJv%2FXAJoAKv%2FXAJoAMf%2FXAJoAM%2F%2FXAJoAQ%2F%2BaAJoARf%2BaAJoARv%2BaAJoAR%2F%2BaAJoASf%2FXAJoAT%2F%2FDAJoAUP%2FDAJoAUf%2BaAJoAUv%2FDAJoAU%2F%2BaAJoAVP%2FDAJoAVf%2BuAJoAV%2F%2FDAJoAXP%2FXAJoAgf%2BFAJoAgv%2BFAJoAg%2F%2BFAJoAhP%2BFAJoAhf%2BFAJoAhv%2BFAJoAiP%2FXAJoAj%2F%2FXAJoAkP%2FXAJoAkf%2FXAJoAkv%2FXAJoAk%2F%2FXAJoAlf%2FXAJoAnf%2BaAJoAnv%2BaAJoAn%2F%2BaAJoAoP%2BaAJoAof%2BaAJoAov%2BaAJoAo%2F%2BaAJoApP%2BaAJoApf%2BaAJoApv%2BaAJoAp%2F%2BaAJoAqP%2BaAJoAr%2F%2BaAJoAsP%2BaAJoAsf%2BaAJoAsv%2BaAJoAs%2F%2BaAJoAtf%2BaAJoAtv%2FDAJoAt%2F%2FDAJoAuP%2FDAJoAuf%2FDAJoAvv%2FXAJoAv%2F%2BaAJoAx%2F%2BFAJoAyv%2BFAJsAD%2F72AJsAEf72AJsAJP%2BaAJsAOv%2FXAJsAPP%2FsAJsAgf%2BaAJsAgv%2BaAJsAg%2F%2BaAJsAhP%2BaAJsAhf%2BaAJsAhv%2BaAJsAx%2F72AJsAyv72AJ0ABf%2FsAJ0ACv%2FsAJ0Axv%2FsAJ0Ayf%2FsAJ4ABf%2FsAJ4ACv%2FsAJ4Axv%2FsAJ4Ayf%2FsAJ8ABf%2FsAJ8ACv%2FsAJ8Axv%2FsAJ8Ayf%2FsAKAABf%2FsAKAACv%2FsAKAAxv%2FsAKAAyf%2FsAKEABf%2FsAKEACv%2FsAKEAxv%2FsAKEAyf%2FsAKIABf%2FsAKIACv%2FsAKIAxv%2FsAKIAyf%2FsAKUABf%2FsAKUACv%2FsAKUAWP%2FXAKUAWf%2FXAKUAWv%2FXAKUAW%2F%2FXAKUAXP%2FsAKUAuv%2FXAKUAxv%2FsAKUAyf%2FsAKYABf%2FsAKYACv%2FsAKYAWP%2FXAKYAWf%2FXAKYAWv%2FXAKYAW%2F%2FXAKYAXP%2FsAKYAuv%2FXAKYAxv%2FsAKYAyf%2FsAKcABf%2FsAKcACv%2FsAKcAWP%2FXAKcAWf%2FXAKcAWv%2FXAKcAW%2F%2FXAKcAXP%2FsAKcAuv%2FXAKcAxv%2FsAKcAyf%2FsAKgABf%2FsAKgACv%2FsAKgAWP%2FXAKgAWf%2FXAKgAWv%2FXAKgAW%2F%2FXAKgAXP%2FsAKgAuv%2FXAKgAxv%2FsAKgAyf%2FsAK0ABf%2FsAK0ACv%2FsAK0AWP%2FXAK0AWf%2FXAK0AWv%2FXAK0AW%2F%2FXAK0AXP%2FsAK0Auv%2FXAK0Axv%2FsAK0Ayf%2FsAK8ABf%2FsAK8ACv%2FsAK8AWP%2FXAK8AWf%2FXAK8AWv%2FXAK8AW%2F%2FXAK8AXP%2FsAK8Auv%2FXAK8Axv%2FsAK8Ayf%2FsALAABf%2FsALAACv%2FsALAAWP%2FXALAAWf%2FXALAAWv%2FXALAAW%2F%2FXALAAXP%2FsALAAuv%2FXALAAxv%2FsALAAyf%2FsALEABf%2FsALEACv%2FsALEAWP%2FXALEAWf%2FXALEAWv%2FXALEAW%2F%2FXALEAXP%2FsALEAuv%2FXALEAxv%2FsALEAyf%2FsALMABf%2FXALMACv%2FXALMAxv%2FXALMAyf%2FXALUABf%2FsALUACv%2FsALUAWP%2FXALUAWf%2FXALUAWv%2FXALUAW%2F%2FXALUAXP%2FsALUAuv%2FXALUAxv%2FsALUAyf%2FsALoABQBSALoACgBSALoAD%2F%2BuALoAEf%2BuALoAIgApALoAxgBSALoAx%2F%2BuALoAyQBSALoAyv%2BuALsABf%2FsALsACv%2FsALsAWP%2FXALsAWf%2FXALsAWv%2FXALsAW%2F%2FXALsAXP%2FsALsAuv%2FXALsAxv%2FsALsAyf%2FsALwABQBSALwACgBSALwAD%2F%2BuALwAEf%2BuALwAIgApALwAxgBSALwAx%2F%2BuALwAyQBSALwAyv%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%2FAEAAQQBCAEMARABFAEYARwBIAEkASgBLAEwATQBOAE8AUABRAFIAUwBUAFUAVgBXAFgAWQBaAFsAXABdAF4AXwBgAGEArACjAIQAhQC9AJYA6ACGAI4AiwCdAKkApAEDAIoBBACDAJMA8gDzAI0AlwCIAMMA3gDxAJ4AqgD1APQA9gCiAK0AyQDHAK4AYgBjAJAAZADLAGUAyADKAOkAZgDTANAA0QCvAGcA8ACRANYA1ADVAGgA6wDtAIkAagBpAGsAbQBsAG4AoABvAHEAcAByAHMAdQB0AHYAdwDqAHgAegB5AHsAfQB8ALgAoQB%2FAH4AgACBAOwA7gC6ANcAsACxANgA3QDZALIAswC2ALcAxAC0ALUAxQCHAL4AvwC8AQUA7wEGAQcBCAEJAQoBCwAsAM8AzADNAM4EbnVsbAd1bmkwMEFECW92ZXJzY29yZQRFdXJvB3VuaUZCMDEHdW5pRkIwMgxmb3Vyc3VwZXJpb3IHdW5pRkIwMwd1bmlGQjA0AmZmAAAAAQADAAgACgANAAf%2F%2FwAPAAEAAAAMAAAAAAAAAAIAAQAAANsAAQAAAAEAAAAKAAoACgAAAAEAAAAKAB4ALAABbGF0bgAIAAQAAAAA%2F%2F8AAQAAAAFsaWdhAAgAAAABAAAAAQAEAAQAAAABAAgAAQA2AAEACAAFAAwAFAAcACIAKADVAAMASABOANQAAwBIAEsA1gACAEgA0gACAE4A0QACAEsAAQABAEg%3D%20format%28%27truetype%27%29%3B%0A%7D%0A%40font%2Dface%20%7B%0Afont%2Dfamily%3A%20%27Open%20Sans%27%3B%0Afont%2Dstyle%3A%20normal%3B%0Afont%2Dweight%3A%20700%3B%0Asrc%3A%20data%3Aapplication%2Fx%2Dfont%2Dtruetype%3Bbase64%2CAAEAAAASAQAABAAgR0RFRgAQANwAAIsYAAAAFkdQT1MAFQAKAACLMAAAAAxHU1VC3cremgAAizwAAAB0T1MvMqJ1oRgAAF5QAAAAYGNtYXDPgnIkAABesAAAAMRjdnQgEy0alAAAaEwAAACqZnBnbbtzpHUAAF90AAAH4Gdhc3AACAAbAACLDAAAAAxnbHlmpn0rtQAAASwAAFeEaGVhZPfhxw4AAFqMAAAANmhoZWEOKQeHAABeLAAAACRobXR45L1NMAAAWsQAAANoa2VybqPrpOMAAGj4AAAekGxvY2GxCZk7AABY0AAAAbptYXhwAmcCHwAAWLAAAAAgbmFtZRiQM1gAAIeIAAABXHBvc3Rqw5auAACI5AAAAiZwcmVwyAn8awAAZ1QAAAD4AAIAwQAABAoFtgADAAcAHkAMBAMFAgMCCAkEAwcAAC8yLzMREgE5OREzETMxMBMhESE3IREhwQNJ%2FLdoAnn9hwW2%2BkpoBOYAAAIAdf%2FlAdMFtgADAA8AJkASAwoKAgQEEBEBBw0HVFkNEwIDAD8%2FKxEAMxESATkRMzMRMzEwASMDIQE0NjMyFhUUBiMiJgGg9DMBWv6iWlZTW1xSVFwB5QPR%2BtlUVlhST1tZAAACAIUDpgNCBbYAAwAHABtACwQHAAMDCAYCBwMDAD8zzTIRATMRM8wyMTABAyMDIQMjAwGcKcUpAr0pxSkFtv3wAhD98AIQAAACAC0AAAT%2BBbQAGwAfAH1ARAgcHxUEFAkJCgQBABkEGAUFBhIPDgsEChMTFBYeHQcEBhcXGBgUBgoEICEIBAsLHAEOHwAPDxkVEg4SDhIKFxMDBgoSAD8zPzMSOTkvLxEzMzMRMzMRMzMzETMzERIBFzkRMxESFzkRMxESFzkRMxESFzkRMxESFzkxMAEHIRUhAyMTIwMjEyM1ITcjNSETMwMzEzMDMxUFMzcjA%2BcvAQL%2B103cTsJM10ruARUv%2FAEhTdtNxk7XTvD9HcQvxANM6M7%2BagGW%2FmoBls7o0QGX%2FmkBl%2F5p0ejoAAADAFj%2FiQREBhIAIAAmACwAhkBFJBcDHR0UDQYqKiEpHicAJwgPIxEhIRkAEQAtLiodJwAADSQRIREnKxonIQklBgwcFxxPWRQXBgxQWQUGAwYXBhcGLRUAAD8SOTkvLxEzEM0rEQAzKxESABc5ETMREjk5MxESOTkREgE5OREzMxESOTkyMhESOTkROREzMzMzETMzMzEwARQGBxUjNSYnERYWFxEnJiY1NDY3NTMVFhcHJicRHgIFNCYnFTYBFBYXNQYERObPifS4V%2FVgQ8al48uJ5blenKTDpU3%2B00REiP5uPUSBAcmfwRPNyQVRAQgrQgYBNhpOt4eRuxSZlQpS6kAO%2FtlLboRnKjof%2BRcCviw5HusTAAUAP%2F%2FuBvYFywAJABQAGAAiAC0ASkAkFhcXBQUKEAAQGBUVGRkpIx4jECMuLyArHCYZGAYXGAMNBxIHAD8zxDI%2FPz8zxDIREgE5OREzEMAyEjkRMxEzEMAyEjkRMzEwARQWMzI1NCMiBgUUBiMiJjUQITIWJQEjARMUFjMyNTQjIgYFFAYjIiY1ECEyFgE7LTJgYDItAbuyrKW0AVmptQKw%2FNXwAyuFLTJgYDItAbuyrKW0AVmptQQAf338%2Bnt95uft4AHJ7dj6SgW2%2FAJ%2Fffz6e33l5%2B3fAcntAAADAFL%2F7AYABcsAHQAmADEAcUA5LQ0jCgEdFgAKFg0TEycZGhonDQMHAQAAMx4HBzIXIRoWCiQkLy8QGhoEEBAqTVkQBAQhTFkEEwESAD8%2FKwAYPysREgA5GC8SOREzEjk5ERI5EQEzETMRMxEzEhc5ETMRMxESOTkREjkREjkRMzEwISEnBiMiJDU0NjcmJjU0NjMyFhUUBgcBNjchBgIHJRQWMzI3AQYGATQmIyIGFRQXNjYGAP6Hc7%2Fx9P7ieZNLROnDut%2BKmgEcRzQBPiR%2BUPzAgWV%2BZf60OkMBZ0g5Q01fVlxxheC%2FicFUVp1dmLqtkXfFWf7rdbiH%2Fv9jg1ZmPQFKLGAChjU9QDtYajBdAAEAhQOmAZwFtgADABK2AAMDBAIDAwA%2FzREBMxEzMTABAyMDAZwpxSkFtv3wAhAAAAEAUv68AnkFtgANACBADgsKCgMEBAAHBw8LJAMDAD8%2FEQEzETMzETMzETMxMBMQEjczBgIVFBIXIyYCUpuS%2Bo2Qk4j4k5oCMQEJAc6uwf4y9PX%2BN7mqAcYAAAEAPf68AmQFtgANACBADgMEBAsKCgAHBw4KAwQkAD8%2FEQEzETMzETMzETMxMAEQAgcjNhI1NAInMxYSAmSbkviHlJCN%2BpOaAjH%2B%2Bf46qLgByfb0Ac7Br%2F4xAAEAPwJWBB0GFAAOADVAGAkLCwUDAw0BBwcQDwQKCgcHAQ0NBggOAAA%2FxDI5ETMzEjkRMxESATkRMzMzEjkzEjkxMAEDJRcFEwcDAycTJTcFAwKwKQF1If6s3%2BOciezd%2Fq4nAW0pBhT%2BkGj8GP7XeQE5%2Fsl3ASka%2BmgBcAABAFgA4wQ5BMUACwAmQBAIBgkJAwEAAAwNCwkABgQDAC8zMzMyMhESATkRMzMzETMzMTABITUhETMRIRUhESMB2%2F59AYPbAYP%2BfdsCZNsBhv562%2F5%2FAAEAP%2F74AcsA7gAGABW3AgMABQUHAwUAL8YRATMRM8IyMTAlBgMjEjchAcs0fNxBJAEY18r%2B6wEK7AABAD0BqAJWAqIAAwARtQMFAAQAAQAvMxEBMxEzMTATNSEVPQIZAaj6%2BgABAHX%2F5QHTATkACwAWQAoGAAAMCQNUWQkTAD8rEQEzETMxMDc0NjMyFhUUBiMiJnVaVlNbXFJUXI9UVlhST1tZAAABAA4AAANEBbYAAwAcQAwBAgMAAgAEBQMDAhIAPz8REgE5OREzETMxMAEBIQEDRP3f%2FusCIQW2%2BkoFtgACAEr%2F7ARIBc0ACwAXAChAFAwGEgAGABgZCRVPWQkHAw9PWQMZAD8rABg%2FKxESATk5ETMRMzEwARACISIAERASITIAARAWMzI2ERAmIyIGBEj7%2Fvv9%2Fv%2F6AQT9AQP9NV1ubGBha21eAtv%2Bgf6QAXwBcwGDAW%2F%2BgP6O%2FvPp7AEKAQ3r6wABAHkAAANOBbYACgAqQBMJBAAACAEBCwwIBwcBBAQJBgEYAD8%2FMxESOREzERIBOREzMxI5OTEwISERNzcGBwcnATMDTv7LAwVNHqiVAdf%2BA06LmE0Yh7oBdwABAE4AAARQBcsAHQA9QB4cDgEHABYBFh4fFgcHAgoSCk5ZEgcCARwBHE5ZARgAPysREgA5GD8rERIAOREzERIBOTkRMzMRMzMxMCEhNQE%2BAjU0JiMiBgcnPgIzMhYWFRQGBgcHFSEEUPwCAW%2BjZCxhUVWgV6hsjqhoidJ0R5W8vAJ91wFzp4FuO1hWTkjHXEwpZLR0ZbG6rLEOAAABAE7%2F7ARCBcsAJgBbQC8iFw0TEwcDHBwAAAcNBycoIR4kHk9ZAxgXGBdQWQwYAQ0DGBgKJAcNEAoQT1kKGQA%2FKxEAMxg%2FEjkvX15dKxESADkrEQAzERIBOTkRMxEzETMRMxESOTkxMAEUBgcVFhYVFAQhIicRFhYzMjY1NCYjIzUzMjY1NCMiBgcnNiEyBAQXppaxtv7O%2FuTuuFXMZJmSqLhvcaqd0EiVW4%2FIARXjAQcEb4nAJAYWq5HT608BBys2aHNnVu1ZbKYwO9WQuAAAAgAjAAAEcQW2AAoAEwBGQCIPBwMJAgILAwMFAAAVEwUFFAYTAQUTBVBZCRMTAw8HBgMYAD8%2FMxI5LzMrEQAzEjkRATMRMxEzERI5ETMzETMSOTkxMAEjESERITUBIREzITU0NjcjBgcBBHGw%2FtL9kAKBAR2w%2FiIKAwglNP70AS%2F%2B0QEv1wOw%2FGn4PuwTUk7%2BawABAGT%2F7AQ1BbYAGwBWQCsYFRUXAxkUFA4IDgMIAxwdFBMJEwwQABBPWRkAAAYVFRhOWRUGBgxPWQYZAD8rABg%2FKxESADkYLzMrERIAOTkRMxESATk5ETMREjkRMxI5OREzMTABMhYVFAAhIicRFhYzIDU0ISIGBycTIREhAzc2AmbU%2B%2F7S%2Fuf0lk%2FSXgEb%2Fts1gCh7NwMZ%2FfYbIz0Dpu7P9f74TwELKjXo3RUMQgLp%2Fvr%2B4QcOAAIASP%2FsBFAFxwAYACQAQUAhBhIMDCIiABwSABIlJg8fUFkPDxUDFRlPWRUZAwhPWQMHAD8rABg%2FKxESADkYLysREgE5OREzETMSORESOTEwExAAITIXFSYjIgYGBzM2MzIWFRQAIyImAgUyNjU0JiMiBhUUFkgBbwFufUdZV5%2FJZAkNY9rE3v746qLxgwIQY2pjZF6FfQJtAbIBqA%2F3FGC8rar22er%2B75YBIL%2BFe2t7elF3pAAAAQA3AAAEUAW0AAYALkAWBgAAAgEBBQIFBwgFAwIDAk5ZAwYAGAA%2FPysREgA5ERIBOTkRMxESOREzMTAzASERIRUB4wIl%2FS8EGf3XBLABBML7DgAAAwBI%2F%2BwESgXJABcAIgAuAFNAKRIGFSwDAxgJGCYVFQ8eHgkPCS8wBhISISEpKQwADBtRWQwZACNRWQAHAD8rABg%2FKxESADkRMxI5ETMREgE5OREzERI5ETMyERI5ETMSOTkxMAEyBBUUBgcWFhUUBCMiJDU0NjcmJjU0JAMUFjMyNjU0JicGEyIGFRQWFzY2NTQmAkrSAQF8iqSP%2Fubm8P7uhZN9bgEEE3hoc3Jxf9XiT2FNZWJOZAXJv6Jwr0VYv3K028y7fcJKT7RrncL7vFZgY1FDdUJiAsxRRDxfMi5gP0VQAAACAEL%2F7ARKBccAGQAlAD9AIB0FEwwMIyMAEwAmJxAgUFkQEAMWFhpPWRYHAwhQWQMZAD8rABg%2FKxESADkYLysREgE5OREzEjkREjkyMTABEAAhIic1FjMyNjY3IwYGIyImNTQAMzIWEiUiBhUUFjMyNjU0JgRK%2FpT%2Bj4JDVFybyGoIDDqYcr%2FcAQvmovOC%2Fe9gbGJkXoZ9A0b%2BUP5WDvgVW8OrXkz12usBEZj%2B38GEfGp8e1B3pAAAAgB1%2F%2BUB0wRzAAsAFwAmQBMSBgYMAAAYDxVUWQ8QCQNUWQkTAD8rABg%2FKxEBMxEzMxEzMTA3NDYzMhYVFAYjIiYRNDYzMhYVFAYjIiZ1WlZTW1xSVFxaVlNbXVFUXI9UVlhST1tZA4tUVlhSUVlYAAIAP%2F74AdMEcwAGABIAKEATDQcHEwMEBgEGBhMKEFRZChAEBgAvxj8rEQEzETMQwjIRMxEzMTAlFwYDIxI3AzQ2MzIWFRQGIyImAbwPNHzcQSQvWlZTW11RVFzuF8r%2B6wEK7ALbVFZYUlFZWAAAAQBYAMsEOQUAAAYAJ0AQBQEEAAEABwgEAwMGAAIBBQA9LzMzMzIzETMREgE5OREzETMxMCUBNQEVAQEEOfwfA%2BH9VAKsywG2jwHw8P7D%2FucAAAIAWAGiBDkEAAADAAcAJEARBwMDCQQACAVQBGAEAgQEAAEALzMzL10zEQEzMhEzETMxMBM1IRUBNSEVWAPh%2FB8D4QMl29v%2BfdvbAAABAFgAywQ5BQAABgArQBICAAEFAAUHCAAGBgECAwMFBAEAPS8zMzMRMxEzETMREgE5OREzETMxMBMBATUBFQFYAqz9VAPh%2FB8BugEZAT3w%2FhCP%2FkoAAAIABv%2FlA6AFywAZACUAREAiIBoaGQAADQcHEg0SJicPAAEJAwAAIyMdVFkjEw8KT1kPBAA%2FKwAYPysRADMYL19eXRESATk5ETMREjkRMzMRMzEwATU0Njc2NjU0JiMiByc2MzIWFRQGBwYGFRUBNDYzMhYVFAYjIiYBFFJtaUNgVpbAbd%2F6zvNkjGAz%2FtdaVlNbXFJUXAHlSmCOUEteOkFEYtt9xqVuoGRHSjw8%2FqpUVlhST1tZAAACAGb%2FZgbHBckANAA%2FAFlAKwc5ORQUEzU1DTsTKBMNAyEZIS0ZAC0AQEEWCDc3BAo9EAoQChAqHTEEJCoALzM%2FMxI5OS8vETMRMzMRMzMREgE5OREzETMREhc5ETMRMxESOREzEjkxMAEUBgYjIiYnIwYjIiY1NAAzMhYXAxQzMjY1NCYmIyIEAhUQACEyNjcVBiEgABE0EiQhMgQSARQzMjY3NyYjIgYGx1yob0pyGRBsp7HMAQzYVs9DF0xATIbznMr%2B1p8BJwEYav571v77%2FoT%2BV9kBkQEF3AFavPwArFpeCg0zQH2LAvCQ74hHOoHVudMBAiEX%2FheLu5eh94Km%2FsfN%2Fuz%2B2S8twFsBkAFk9wGT5bT%2BtP6q03%2BP3QucAAACAAAAAAWFBbwABwANAENAIQINAwgBAAYFCwsDAAAHBw8DBAQODQJMWQ0NAwsFAwADEgA%2FMz8zEjkvKxEBMxEzETMRMxESOREzMxI5ORI5OTEwIQMhAyEBIQEBAiYnBgMEN2r962r%2BsgIEAXsCBv3%2BkyUIIZwBXP6kBbz6RAJgAdl8JID%2BBwAAAwC4AAAE9AW2AA8AGAAgAFZALAcUFAQEGh4LCyIQGhoPDyEIEBkQGU1ZDBABDQMQEA8ADxpMWQ8SABhMWQADAD8rABg%2FKxESADkYL19eXSsREgA5EQEzETMRMxEzETMSOREzEjkxMBMhIAQVFAYHFRYWFRQEIyEBMzI2NTQmIyMRETMyNjU0IbgBxwE3ARl7Zot7%2Ft%2F4%2Fd0BNrR%2BcXuFo8qAev78BbaxwYOoEQofqo3I4ANzTlpUSf3F%2FoNiZbYAAQB3%2F%2BwE0QXLABYAMUAYBxMTGAMNDRcUABEATFkRBAcFCgVMWQoTAD8rEQAzGD8rEQAzEQEzETMRMxEzMTABIgIVECEyNxEGIyAAETQSJDMyFwcmJgMlr8ABb5rbtN7%2Bwf6upgE30dXXZFKmBMn%2B%2Bev%2BF03%2B%2FEsBgwFq5AFXt2f8JzoAAgC4AAAFdQW2AAgADwAoQBQJAAARDQQEEAUMTFkFAwQNTFkEEgA%2FKwAYPysRATMRMxEzETMxMAEQACEhESEgAAEQISMRMyAFdf5l%2Fnz%2BYgHLAWYBjP6%2B%2FmClhQHAAun%2Bl%2F6ABbb%2Bhv6lAdf8SAABALgAAAQCBbYACwBFQCQIBAAADQYKCgEBDAYJTFkMBgENAwYGAQICBUxZAgMBCkxZARIAPysAGD8rERIAORgvX15dKxEBMxEzETMRMxEzMzEwISERIRUhESEVIREhBAL8tgNK%2FewB7%2F4RAhQFtv7%2Bv%2F7%2BhwAAAQC4AAAD%2FgW2AAkANEAaCAMDCwYAAAEBCgYJTFkGBgECAgVMWQIDARIAPz8rERIAORgvKxEBMxEzETMRMxEzMTAhIREhFSERIRUhAen%2BzwNG%2FesB8P4QBbb%2B%2Fof9AAEAd%2F%2FsBScFywAaAExAJxoYGAIODQ0CAhMcEwgIGw4QCxBMWQAaTFkAAAULBBgWBRZMWQIFEwA%2FMysRADMYPxI5LysrEQAzEQEzETMREjkRMxEzETMROTEwASERBgYjIAAREAAhMhcHJiMiAhUUFjMyNxEhAuMCRI35gv61%2FqMBlQFn4dFnoK3J8sO6YWT%2B6wM1%2FQouJQGFAWwBYgGMWvhQ%2FvLk7vsUATEAAQC4AAAFZgW2AAsAN0AcCQEBAAANCAQEBQUMCANMWUwIAQgIBQoGAwEFEgA%2FMz8zEjkvXSsRATMRMxEzETMRMxEzMTAhIREhESERIREhESEFZv7L%2Fb3%2BygE2AkMBNQJ3%2FYkFtv3DAj0AAAH%2FaP5SAe4FtgANAB9ADgsCCAgOAwUABUxZAAkDAD%2FEKxEAMxEBMxEzMzEwEyInERYzMjY1ESEREAIfaU5QQmZYATbq%2FlIWAQIUf4cFWvqo%2FwD%2B9AAAAQC4AAAFUAW2AAwAQkAfDAICCgsLAQAADggDBQUNDAICAwsLBgMICAUGAwEFEgA%2FMz8SOREzETMREjkRMxEBMxEzMhEzETMzETM5ETMxMCEhAQcRIREhETcBIQEFUP6g%2FoGD%2FsoBNnoBjAFY%2FgICaF799gW2%2FWOsAfH9eQAAAQC4AAAEPwW2AAUAH0AOBAcDAAAGAQMAA0xZABIAPysAGD8RATMRMxEzMTAzESERIRG4ATYCUQW2%2B0r%2FAAABALgAAAbTBbYAFAA6QBwUAAkLCQgDBQ4ODQ0WBQYVEgIJAgYLBwMOAAYSAD8zMz8zEjk5ETMRATMyETMRMxESFzkRMzMxMCEBIxIVESERIQEzASERIRE0NhMjAQMj%2FqAJE%2F7rAaYBWgYBbwGm%2Ft8DDAn%2BhwR7%2FqJ1%2FVgFtvuiBF76SgK0MYABFPuHAAEAuAAABckFtgAPADZAGQoACQEGDQ0AABEDBQYGBxALAwcOCAMBBxIAPzM%2FMxI5OREBMzIRMzkRMxEzERI5ORI5MTAhIQEjEhURIREhATMCNREhBcn%2Bdv2ECRP%2B6wGHAnsHDwEXBFL%2B2339UAW2%2B7kBHXYCtAACAHf%2F7AXnBc0ACwAVAChAFBEAABcMBgYWCRNMWQkEAw9MWQMTAD8rABg%2FKxEBMxEzETMRMzEwARAAISAAERAAISAAARQWMyARECEiBgXn%2Fpj%2BsP6w%2FpgBaQFRAVEBZfvVurkBc%2F6PubwC3f6V%2FnoBhgFtAW0Bgf58%2FpT1%2BAHtAe75AAACALgAAASqBbYACAATADRAGgQJCRUADg4PDxQNAExZDQ0PEBAITFkQAw8SAD8%2FKxESADkYLysRATMRMxEzETMRMzEwATMyNjU0JiMjBRQEISMRIREhIAQB7maPjnd%2FjQK8%2Ftn%2B8IX%2BygHTAQoBFQMGcWxtaMrs%2Bv34BbblAAACAHf%2BpAXnBc0ADwAZAEJAIgYDBQQEAgMIBAoVAAAbEAoKGgMHDQ0XTFkNBAcTTFkFBxMAP8YrABg%2FKxESADkRATMRMxEzETMSFzkRMxEzMTABEAIHASEBIyAAERAAISAAARQWMyARECEiBgXnt7EBYP5z%2FvQX%2FrD%2BmAFpAVEBUQFl%2B9W6uQFz%2Fo%2B5vALd%2Fv7%2Bo1H%2BdwFIAYYBbQFtAYH%2BfP6U9fgB7QHu%2BQAAAgC4AAAFSAW2AAgAFwBOQCYTFxcECgQQEAoWFRkACgoLCxgTCQwACU1ZAAALDAwITFkMAxYLEgA%2FMz8rERIAORgvKxESADkRATMRMxEzEBjEMhE5ETMREjkRMzEwATMyNjU0JiMjEREhESEgBBUUBgcAFyEBAe5kk4yPll7%2BygGqASoBHo6CAUpk%2Fqj%2BowMtYmloWP15%2Fc8Fttndgck5%2FhOQAjEAAAEAXv%2FsBBcFywAnAEVAIhsaGiEAIQUUDAAUACgpFCEADCEMHgkXHkxZFwQDCUxZAxMAPysAGD8rERIAOTkRMxEzERIBOTkRMxEzMxESOREzMTABFAQjIicRFhYzMjY1NCYmJy4CNTQkMzIWFwcmJiMiBhUUFhYXFhYEF%2F7j%2Fuq0lM1VZm0wXY%2BGhlABB%2Bhyz3FkdZlKWF4mU5vNmAGWxuRYASBCNk5NK0M%2BRD90mmfC3jYx8TAmUkIpPTlKYsUAAAEAKQAABHkFtgAHACZAEgYAAAMBAQgJBwMEA0xZBAMBEgA%2FPysRADMREgE5ETMzETMxMCEhESERIREhAuz%2Byv5zBFD%2BcwS0AQL%2B%2FgABAK7%2F7AVeBbYAEgAlQBERAQEUCwgIExIJAwUOTFkFEwA%2FKwAYPzMRATMRMxEzETMxMAERFAYEIyAANREhERQWMzI2NREFXpH%2B7rv%2B5v7IATWInZiJBbb8TqL0ggEh%2BwOu%2FIGpnp%2BqA30AAQAAAAAFMwW2AAsAKkATAwIJCQUAAQENBQQEDAAEAwkDEgA%2FMz8zEQEzETMRMxEzETkRMzMxMAEhASEBIQEWFhc2NwP6ATn%2BD%2F6u%2FhABOQETFzEGC0AFtvpKBbb8mk3NKFzmAAEAAAAAB7wFtgAdAEZAIgoJDxQTBQEAGBgFDwMMHBwdHR8MCwseHBMFCwMYDw8BChIAPzMzETM%2FMzMzEQEzETMRMxEzERIXOREzMxEzMxEzMzEwISEDJgInBgYHAyEBIRMWFzY2NxMhExYWFzY2NxMhBkj%2Bn8YLNQQGMA3F%2FqD%2BiwExuzEWBisT1QEl1Q4qCwosEroBMQMAKQEBLDbvM%2F0CBbb84t2iOe9CAzP8zTfiUU7pSAMeAAABAAAAAAVWBbYACwBEQCALBQIICAcJBwYJCgYKAQAADQMEDAsIAgUFBAkGAwEEEgA%2FMz8zEjkRMzMzEQEzMhEzETM5OREzETMREjkRMzMzMTAhIQEBIQEBIQEBIQEFVv6e%2Fqz%2BrP60AeX%2BOgFWATsBNQFO%2FjUCKf3XAvICxP3yAg79KwABAAAAAAT%2BBbYACAA2QBkIBwcFAQICAAQEBQUJCgMGBgAABQEHAwUSAD8%2FMxI5ETMRMxESATkRMxI5MhEzETMRMzEwAQEhAREhEQEhAn8BMQFO%2Fhv%2BzP4bAVADXAJa%2FIP9xwIvA4cAAAEAMQAABHEFtgAJADtAHQgEAQMHBwABAAoLBwQFBQRMWQUDAgEIAQhMWQESAD8rERIAORg%2FKxESADkREgE5OREzETMRMzMxMCEhNQEhESEVASEEcfvAAr39VgQa%2FUQCz8kD7QEAyPwSAAABAI%2F%2BvAJzBbYABwAeQA0GAQEIBAAJBQIDBgEkAD8zPzMRATMyETkRMzEwASERIRUjETMCc%2F4cAeTg4P68BvrT%2BqwAAAEADAAAA0IFtgADABxADAADAwQCAQEFAwMCEgA%2FPxEBMxEzETMRMzEwAQEhAQEhAiH%2B6%2F3fBbb6SgW2AAEAM%2F68AhcFtgAHACBADgEGBgkDBwcIAAckAwQDAD8zPzMRATMRMxI5ETMxMBczESM1IREhM9%2FfAeT%2BHHEFVNP5BgAAAQAIAggEPQW%2BAAYALUAUAgEFBQYEBAMDCAYAAAAEBAcFAgYAPzMSOS8zATIRMxEzETMREjkRMzMxMBMBMwEjAQEIAbaQAe%2Fv%2Fr7%2B6AIIA7b8SgKD%2FX0AAAH%2F%2FP68A07%2FSAADABK2AAUBBAIBJAA%2FMxEBMxEzMTABITUhA078rgNS%2FryMAAABAUwE2QONBiEACAAcQAsAB0ADBQUJCgWAAAAvGt0REgE5ETMayjIxMAEmJic1IRYXFQLDP%2FREAVY%2FrATZLMVCFWXIGwAAAgBW%2F%2BwEOwR1ABgAIgBKQCYSDAgMAiIiGBgkHQgIIwwZS1kMDAUUFA9GWRQQAh8FH0ZZBRYAFQA%2FPysRADMYPysREgA5GC8rEQEzETMRMxEzEjkyERI5MTAhJyMGBiMiJjU0Njc3NTQjIgcnNjMyFhURAQcGBhUUMzI2NQNmOwhNo4Ohufn7wq6GtWXB6%2BHw%2FtF2hYKUan%2BYYUu4qrKpCQYxqlHOZcTI%2FRcCBgQEWFqBemUAAgCg%2F%2BwEtAYUABIAHwBCQCEdAwMhCRALDhcXCwsgDAALFQkQBgAGGkdZBhYAE0dZABAAPysAGD8rERIAOTkYPz8RATMRMxEzEjk5ETMRMzEwATISERACIyInIwcjESERFAczNhciBgcVFBYzMjY1NCYDDsbg58fFcBUz6QExDAxrcHFoAmt0Xm9wBHP%2By%2F7z%2Fuv%2B0I97BhT%2BlkWYpvSLoCG0nK2lpaUAAQBc%2F%2BwD3QRzABUAKkAVEw0HBxcNAgIWBQtHWQUQAA9HWQAWAD8rABg%2FKxEBMxEzETMREjkxMAUgERAAITIXByYmIyIREDMyNjcRBgYCZv32ARwBCcKaWkh8Pu7uWJZLSpcUAj0BHQEtTOwdJf6u%2FrgvMv77LyQAAgBc%2F%2BwEcQYUABIAHwBAQCEJFhADCwsODiEdAwMgDxUMABEJAAYGGkdZBhAAE0dZABYAPysAGD8rERIAOTkYPz8RATMRMxEzETMSFzkxMAUiAhEQEjMyFzMmNREhESMnIwYnMjY3NTQmIyIGFRQWAgLF4eXJ028KFwEy6jsNaGp1bQVvfWZxchQBMgEPARMBM6R9YgFm%2BeyRpfOIoyG0nK2lpaUAAAIAXP%2FsBGIEcwAGABsARkAjAxIEBBkRER0SCgocGBUSAxJKWQMDBw0NAEpZDRAHFUZZBxYAPysAGD8rERIAORgvKxESADkRATMRMxEzETMzERI5MTABIgYHISYmAyAAERAAMzIAFRUhFhYzMjY3FQYGAm9hbggBrAJyNv7y%2FtABGfjtAQj9LwWQgmW0YlC2A5p7cXF7%2FFIBKgERARkBM%2F7y7pSCkiou7CgnAAABACkAAAN1Bh8AFQA8QB4UAgIHBQMDFhcNAAAXBQEUAUZZBxQPCxBHWQsAAxUAPz8rABg%2FMysRADMRATMRMxESOREzMzMRMzEwASERIREjNTc1NDYzMhcHJiMiBhUVIQMK%2Fvj%2Bz6iovM%2Bee05cTkE6AQgDefyHA3mTUlK%2FsC%2FgHU08RgADAAb%2BFARtBHMAKQA2AEAAgEBECx0dPT0EMBERAikHIAQjAQQEQhoqKhcXNyMjQRoNAA0BDQYNNAc6S1kJIAQDBwcmNCkCSlkpKSYmP0tZJhAULUpZFBsAPysAGD8rEQAzGC8rABgvEjkvFzkrEQAzX15dEjkRATMRMzMRMxEzETMRMxIXOTMRMxEzETkRMzEwARUHFhUUBiMnJwYVFDMzMhYVFAQhIiY1NDY3JiY1NDY3JiY1NDYzMhYXARQWMzI2NTQmIyMiBhMUFjMyNjU0IyIEba8w%2B983LS%2BovrjB%2Frn%2Bzur3fnovRkpGWGfu3S%2BBEv4neW2kum5znlRxb1NVVlCmqARemy1LXbTJAwUkLEKemcTYo5NliB0UWzNAVSkmqHK3yBEE%2BwQ%2FSFpOPzBPA01bampbygABAKAAAASoBhQAFQA1QBoBAAAXDwkMCAgJCRYPBBISBEdZEhAKAAEJFQA%2FMz8%2FKxESADkRATMRMxEzEjkRMxEzMTAhIRE0IyIGFREhESERFAcHMzYzMhYVBKj%2Bz7SAcv7PATEHBxBm3sXMAo3yrsP98gYU%2FsMliVqk1MYAAgCTAAAB3wYUAAgADAAkQBEECQkACgoNCw8KFQIHSVkCAAA%2FKwAYPz8RATMRMzMRMzEwEzQzMhUUBiMiASERIZOmplNTpgE%2B%2Fs8BMQV%2FlZVHT%2FsXBF4AAAL%2Fff4UAd8GFAANABYAL0AYEgsLDgIICBcQFUlZEAAJDwMFAAVHWQAbAD8rEQAzGD8%2FKxEBMxEzMzMRMzEwEyInNRYzMjY1ESERFAYDNDMyFRQGIyJGdVRGSU1HATHOcKamU1Om%2FhQZ8BNWVASq%2BymywQdrlZVHTwAAAQCgAAAE9gYUAA4ASUAjBAcHCAIDAwYFBRAOCg0NCAgKCg8LAAQHBwgIDg4DBgoVAw8APz8zEjkRMxE5ETM%2FEQEzETMRMxESOREzETMzETMSOREzMTABNwEhAQEhAQcRIREhEQcBxYUBOQFY%2FkQB1%2F6g%2Fr6D%2Fs8BMRACYKoBVP4b%2FYcBxWn%2BpAYU%2FUr%2BAAEAoAAAAdEGFAADABO3AAEBBAIAARUAPz8RATMRMzEwISERIQHR%2Fs8BMQYUAAABAKAAAAdCBHMAIwBNQCYUExMAAAEBChwcGxslDQkJCgokEw0NESAFEQVHWRcREAsPHAEKFQA%2FMzM%2FPzMrEQAzEjkRMxEBMxEzEjkRMxEzERI5ETMSOREzMTAhIRE0JiMiBhURIREzFzM2NjMyFzM2NjMyFhURIRE0JiMiBhUEif7PUVd1av7P6SkRLapu%2B1kbLa9uvsP%2BzlFXcG8CjXl5rMX98gRej01XpE5Ww9f9JwKNeXmgrgAAAQCgAAAEqARzABQAMUAYAQAAFg0JCQoKFQ0FEREFR1kREAsPAQoVAD8zPz8rERIAOREBMxEzEjkRMxEzMTAhIRE0JiMiBhURIREzFzM2NjMyFhUEqP7PVl6Acv7P6SkRM7Nyw8oCjXl5q8b98gRej1FT08cAAAIAXP%2FsBJgEcwALABkAKEAUBgwMGwATExoWCUdZFhAPA0dZDxYAPysAGD8rEQEzETMRMxEzMTABFBYzMjY1NCYjIgYFEAAhIiYCNRAAITIWEgGTbXt6a2x7emwDBf7g%2Fv%2Bh9oQBHgEDofaEAjGmqqmnpqalp%2F7v%2FsyNAQiwARIBMIz%2B%2BgAAAgCg%2FhQEtARzABMAHwBDQCIYBgYHCgMDBx0QBxAgIQMKAA0NFEdZDRAIDwcbABtHWQAWAD8rABg%2FPz8rERIAOTkREgE5OREzETMRMxEzETMxMAUiJyMWFREhETMXMzYzMhIRFAIGAyIGBxUUFjMyETQmAwbFcBAQ%2Fs%2F4Kw5r0sbgacLdcWgCa3TNZRSPjBb%2BOwZKkab%2Bzv7ws%2F74igOTi6AhtJwBUqWlAAACAFz%2BFARxBHMACwAgAEJAIRYDHQMaGhkZIgkPDyEaGxcPHhYMEhIHR1kSEAwAR1kMFgA%2FKwAYPysREgA5ORg%2FPxEBMxEzETMRMxI5OREzMTAlMjY3NTQmIyIRFBYXIgIREBIzMhYXMzchESERNDcjBgYCb3RsBW9712sExuDlx2qePAgbAQL%2Bzg0NMaLbhaYltJz%2Brqim7wExARABEgE0UFSP%2BbYB1T1rUVQAAQCgAAADdwRzABAAJUARAhINCQkKChELDwoVDQUFABAAPzIROT8%2FEQEzETMSOREzMTABMhcDJiMiBhURIREzFzM2NgMQPikXJTWSo%2F7P5y0PNLEEcwn%2B4gqWh%2F3HBF68XnMAAAEAXP%2FsA6wEcwAlAD9AHwYZFAwAACcfFBQmAAwUHwwfCh0XHUZZFxADCkZZAxYAPysAGD8rERIAOTkRMxEzEQEzETMRMxEzEjk5MTABFAYjIiYnNRYWMzI1NCYmJy4CNTQ2MzIXByYmIyIVFBYXHgIDrO%2FueqxLVdVRpixsWoF5N%2BfUyr9cVJJMh1eTg3o6AUystCEg%2FCg2YCQtOSY2XHdXlaNY3CQuSSk8OzVceAAAAQAv%2F%2BwDNwVMABUAPUAeDAgPDxMTCggCEQgRFhcKEg8SRlkNDA8PBQBHWQUWAD8rABg%2FM8ErEQAzERIBOTkRMxEzMxEzERI5MTAlMjcVBiMiJjURIzU3NzMVIRUhERQWAndQcHKmt6eSqFjDATn%2Bx0nfI%2BMzubkCG4Fm7O7l%2FeVBPgAAAQCa%2F%2BwEogReABQAMkAYAhERFBQWCwgIFRIJDwIFDgUOR1kFFgAVAD8%2FKxESADkYPzMRATMRMxEzETMSOTEwIScjBgYjIiY1ESERFBYzMjY1ESERA7gpEDG0c8XIATFWXoByATGPTlXTxgLZ%2FXN5eavGAg77ogAAAQAAAAAEjQReAAsALEAUCwAFBQIJCQoKDQIBAQwJAQ8FABUAPzI%2FMxEBMxEzETMRMxESOREzMzEwIQEhExYXMzY3EyEBAar%2BVgE%2F2CQJBgUo1wE%2F%2FlYEXv2DeWxghQJ9%2B6IAAAEAFAAABsUEXgAdAEpAJAUEChAPAx0AFxcDCgMHGxscHB8HBgYeFwoKAwUPDxsGDwAFFQA%2FMz8zMxESOTkRMxEBMxEzETMRMxESFzkRMzMRMzMRMzMxMCEDAyMDIQEhExYXMzY3NxMhEx4DFzM2NjcTIQEEN1Z0B8z%2BuP7CATCBHyAGBB8QigFQgwQREA0BBgkuCoYBK%2F6%2BAYcB7vyLBF7%2BEYXqTKVVAhj96BZWYV0cSPssAe%2F7ogABAAoAAASWBF4ACwBMQCQGBQABCQMDAgQCAQQFAQULCAcHDQoLCwwJBgMAAAEICxUEAQ8APzM%2FMxI5ETMzMxEBMxEzETMRMxI5OREzETMREjkRMxI5EjkxMAEBIRMTIQEBIQMDIQGF%2FpgBWtnbAVr%2BlAF9%2FqXr7P6mAjsCI%2F6cAWT93f3FAX%2F%2BgQABAAD%2BFASNBF4AFgBMQCULFBQQFhYEBAEICAkJGBABAAAXCxQUEgQWFRASDRJHWQ0bCAAPAD8yPysRADMYPzMSOREzEQEzETMzETMRMxESOREzERI5ETMxMBEhExYXMzY3EyEBBgYjIic1FjMyNjc3AU7TGwoGCyDPAUf%2BJ0HxoU9MN0FReSISBF79i1JwZ1sCdfsTr64R8g1jZDcAAAEANwAAA6oEXgAJAD1AHgMHBAcBAAALCAEBCgcEBQUERlkFDwIIAQEIRlkBFQA%2FKxESADkYPysREgA5EQEzETMRMxESOTkRMzEwISE1ASE1IRUBIQOq%2FI0CBv4ZA0L%2BCAIKtALB6cb9UQABAB%2F%2BvALVBbYAHwA2QBkDFAgfHxEYGCANHBwhBAMTEw0bGxwkDQwDAD8zPzMREjkRMzMRATMRMxI5ETMzETMzOTEwATQmIzUyNjU1ETQ2MxUGBhURBgcVFhUVERQWFxUiJjUBH4N9foLC9GNLBuTqSmT0wgEOV1zvWFIIAT6ZfeEDRkT%2B1bwiDCOxCf7VREYD4n2aAAABAcf%2BLwKiBg4AAwAUtwIDAwQFAwAAAD8vERIBOREzMTABMxEjAcfb2wYO%2BCEAAQBS%2FrwDCAW2ACIANkAZHxoNAAAQCAgkFAQEIx8eDg4UBRQVAwUEJAA%2FMz8zERI5ETMzEQEzETMSOREzMxEzMzkxMAUUBgYjNTY2NRE1NDY3NSYnETQmJzUyFhYVERUUFjMVIgYVAghSvadjS3Zz4wZKZKe%2BUXuFfYMtcHI14gJERwErC1ZrEQwivAErRkQD4TVzbv7CClRU71JhAAABAFgCJwQ5A30AFQA3QBgGABELAAsDDw8XAxYPDg4GBAMDCxERAAYALzMyfS8zMxEzETMRMxEBMxEzERI5OREzETMxMAEiBgc1NjMyFhcWMzI2NxUGIyImJyYBQjd9NmeZSYFLgWI1fjZlm0J4WoMCoEM2520gIDdAOedtGiU4AAIAdf6PAdMEXgADAA8AJkASAwoKAgQEERAABw0HVFkNDwMiAD8%2FKxEAMxESATkRMzMRMzEwEzMTIQEUBiMiJjU0NjMyFqj0M%2F6mAV5aVlNbXVFUXAJe%2FDEFJVRWWFJRWVgAAQCP%2F%2BwEEAXLABsAREAjEQgaGgUbGwIXFwoCChwdGRNPWQgOT1kABQgZCBkIBhsZBgcAPz8SOTkvLxI5OSsrERIBOTkRMxESOREzMxEzMjEwJSQREBI3NTMVFhcHJiYjIgYVEDMyNjcVBgcVIwIz%2FlzR07KmhVpIfD55dO1ShGR%2FirKwOwH6AQUBHB%2BmnglB6x0kp6v%2BuR8t%2Fj0JvAABAFIAAARqBcsAHQBYQCwPEgsCCQ0NGhYWAhgQGBISEB4fDBgZGFFZCRkZABMSDxIPTlkSGAAFT1kABwA%2FKwAYPysREgA5ETkYLzMrEQAzERIBOTkRMxESOTkRMzMRMxI5EjkxMAEyFwcmIyIGFRUhFSEVFAchESE1NjY1NSM1MzU0NgK8w8NdnXNOVAF3%2FomXAs776GdNsrLlBctS5kBZU8Hbj6pO%2Fvz4LHJkkdvDydkAAgBxAP4EIQSqABsAJwA8QCIQDBMJBRcaAggADg4iHAAcHCgpFxMQGgIMCQUIBxUVHwclAC8zxjIREhc5ERIBOREzEMIyERIXOTEwEzQ3JzcXNjMyFzcXBxYVFAcXBycGIyInByc3JjcUFjMyNjU0JiMiBrw2gZN%2FW2ppW3%2BWgTU1fZJ%2FX2VzVH2RfzbPbVBRb3FPTm8C02Zff5N%2FNTeBj4FZbmtcfZF9MzN7kX1daE1vbk5QbnAAAAEABgAABIkFtgAWAHFAOA4SFBIVDRERAAkFAwUCCgYGAAAWAQECAhgWFRUXBhITElJZAAMBAxMPCg4PDlJZBw8PDAEVBgwYAD8%2FMxI5LzMrEQAzGBDGMhESOSsRADMRATMRMxEzETMREjkRMxEzEjk5ETMRMxEzEjk5ETMxMAEBIQEzFSMVMxUjFSE1IzUzNSM1MwEhAkgBCAE5%2FoHD9vb2%2FuH39%2Fe%2B%2FocBPANcAlr9FbKKst3dsoqyAusAAgHH%2Fi8CogYOAAMABwAjQA8CBgYDBwcICQQDBAMHAAAAPy85OS8vERIBOREzMxEzMTABMxEjETMRIwHH29vb2wYO%2FNH%2Bf%2FzRAAACAGr%2F7AN%2FBikALQA4AFVAKgoRFxEFBS4iACccHDMXABc5OgM2NhMZMTEqEyoOJR8lS1kfFggOS1kIAQA%2FKwAYPysREgA5OREzETMRMxEzERIBOTkRMzMRMxEzMzMRMxESOTEwEzQ2NyY1NDYzMhcHJiYjIgYVFBYXFhYVFAcWFhUUBiMiJzUWFjMyNTQmJicmJjcUFhc2NTQmJwYGeUg9hd%2B2qsFSRI1OUUpjcqOafT4%2F78nLklHGRsIlWlC3it%2BCdE5lhSU1AyVPgyhUlYOeVL4gMy4wMUotQKltsVMoaUqUr0%2FPKTl1JzAzIkqdi0NoLjlZRF4xDk8AAgEXBPgDxQYEAAsAFwAgQA0SDAAGAAAYGQ8DAxUJAC8zMxEzERIBOREzEMwyMTABNDYzMhYVFAYjIiYlNDYzMhYVFAYjIiYBF0tAQktMQUBLAZNRPEFNTkA8UQV9QUZKPTxJRj9GQUg%2FPUhBAAADAGT%2F7AZEBcsAFQAlADUAQkAfAw4JEw4TJi4mFi4eFh42NwULABELEQsRGioiEzIaBAA%2FMz8zEjk5Ly8RMxEzERIBOTkRMxEzERI5OREzETMxMAEiBhUQMzI2NxUGIyImNTQ2MzIXByYBNBIkMzIEEhUUAgQjIiQCNxQSBDMyJBI1NAIkIyIEAgN%2FYWrLOYQ5eITM4N3HlZxKcfx9yAFeysgBXsrC%2FqLQz%2F6iw46kARyipAEbo6T%2B5KKk%2FuWjA%2FKUg%2F7oHh2%2FOfrd3PVOqDr%2B6cgBXsrI%2FqLKxf6m0M8BWsak%2FuWjpAEcoqQBG6Ok%2FuQAAAIALwLwArgFxwAXACEAQUAeGAcBFxceEAcLCx4HHiIjDw0NHwsLEwEbGwAABBMfAD%2FEOS8yETMSOREzMhI5ERIBOTkRMxESOREzEjkRMzEwAScGBiMiJjU0Njc3NCMiByc2NjMyFhURJRQWMzI2NTUHBgIxHyt8SnV9pbljf1GIQkKfY4mV%2FkQuIE1ZY5EC%2FG46QHVqbW0JBHU9hyAyjoP%2BRtUmJFNBJAYKAAACAFIAXgSaBAQABgANAFxAKwoNDAkLCwwDBgIEBAEFDAgMDA8NBgYDBwAACgMDAgsEBAwFBQEOCQICCAEALzMzETMREjkvMzMRMxI5ETMzETMRMxEzEQEzETMQ1jIyETPBMhEzETMQwTIxMBMBFwEBBwElARcBAQcBUgFz2%2F7pARfb%2Fo0B%2BgFy3P7pARfc%2Fo4CPQHHd%2F6k%2FqR3AcUaAcd3%2FqT%2BpHcBxQABAFgA%2BAQ5Az8ABQAaQAoBAAAHAwEBBgMEAC8zEjkvATIRMxEzMTAlIxEhNSEEOdv8%2BgPh%2BAFs2wD%2F%2FwA9AagCVgKiAgYAEAAAAAQAZP%2FsBkQFywAMABUAJQA1AGZAMQQDAgUFBwAREQ0DDQcHCAMILiYmFi4eFh42NwIGBg0NBBUECBUJCAkICRoqIhMyGgQAPzM%2FMxI5OS8vETMRMxESOREzEjkREgE5OREzETMREjk5ETMRMxESOREzEjkRMxEzMTABFAcTIwMjESMRITIWATMyNjU0JiMjATQSJDMyBBIVFAIEIyIkAjcUEgQzMiQSNTQCJCMiBAIEhY%2Ft%2FrIv5QEItan%2Bfx9COThFHf1gyAFeysgBXsrC%2FqLQz%2F6iw46kARyipAEbo6T%2B5KKk%2FuWjA4mqP%2F5wAVL%2BrgOUjP7yOUJBNv7fyAFeysj%2BosrF%2FqbQzwFaxqT%2B5aOkARyipAEbo6T%2B5AAAAf%2F6BhQEBgbdAAMAErYABQEEAgEAAD8zEQEzETMxMAEhNSEEBvv0BAwGFMkAAAIAXAMZAxAFywAOABoAGEAJAA8PHBsSDBgEAC8zxDIREgE5ETMxMBM0NjYzMhYWFRQGBiMiJjcUFjMyNjU0JiMiBlxcoF5coV1doF2Ryb9ZQkJaW0FAWwRxXKBeXKJcXaFax5FAWlw%2BP15cAAIAWAAABDkFAgALAA8ANkAYDwcHBgoKCwwBAQMLCxARDQwLCQEBBgQCAC8zMzMRMzMvMxESATkRMzMRMxEzETMzETMxMAEhNSERMxEhFSERIwE1IRUB2%2F59AYPbAYP%2Bfdv%2BfQPhAqLbAYX%2Be9v%2Bf%2F7f29sAAQAvAkoCvgXLABYAKEASFQwBBgARAREXGAkOHwIVFQEgAD8zEjk%2FMxESATk5ETMzETMzMTABITU3NjY1NCYjIgcnNjMyFhUUBgcHIQK%2B%2FXngZjkwKFFje5O9iZ5egWkBYAJKqNtkWTImKFiYgYV1VZZ1XwABADsCOQK2BckAJQA%2BQB0UCwIZGQAAIAYgCxAGCwYmJwMUFBUVCRwjHw4JIQA%2FMz8zEjkvMxI5ERIBOTkRMxEzERI5ETMRMxI5MTABFAcVFhYVFAYjIic1FjMyNTQmIyM1MzI2NTQmIyIGByc2NjMyFgKaql5osLqPgpR7j1hOcFxTUTIzL1Q5ZT6XZ3%2BiBOGPNw0Ubk95i0a%2BWms1NaA0OSYyJiiNLz6AAAEBTATZA40GIQAIABxACwMEQAgAAAkKBIAAAC8azRESATkRMxrJMjEwATU2NyEVBgYHAUysPwFWNPtHBNkbyGUVNM0yAAABAKD%2BFASoBF4AGAA%2FQB8LBgYJCRoSFgAVFRYWGQcXDxYbEgwPAw8DR1kPFgoVAD8%2FKxESADk5GD8%2FMxEBMxEzETMSOREzETMSOTEwARQWMzI2NREhESMnIwYGIyImJxcXESERIQHRWF5%2BcgEx5ysPKnhYPmggBQX%2BzwExAdF5ea3EAg77opZVVS4sVZ3%2BwAZKAAEAcf78BI8GFAAPAC9AFQsQBAUBAAEBEBEICAEODgNNWQ4FAQAvMy8rERIAORgvERIBOREzEMQyETkxMAEjESMRIxEGIyImNRA2MyEEj6Gmoj5U2Mva6AJc%2FvwGUPmwAzMS%2BvsBBP4AAQB1AikB0wN9AAsAFUAJBgAADAMJVFkDAC8rEQEzETMxMBM0NjMyFhUUBiMiJnVaVlNbXVFUXALTVFZYUlFZWAAAAf%2Fb%2FhQBogAAABIANEAXEA0NBQUACwsTFBAQDRQNEwkOBgkJAxsAPzMRMy8REjkREjl8LxESATkRMzMSOREzMTAFFAYjIic1FhYzMjU0JzczBxYWAaKXnk5EG1sZSKZOwRtKWPqAchWoBw4%2BUxmaPRhlAAABAFwCSgJIBbYACgAqQBMECQAACAEBCwwIBwcBBAQJHgEgAD8%2FMxESOREzERIBOREzMxI5OTEwASMRNzcGBwcnJTMCSO4DBRswTm0BLb8CSgG%2BcF8kKj1%2F6wACADkC8ALhBccACwAXAB9ADQwGEgAGABgZDwMVCR8APzPEMhESATk5ETMRMzEwARQGIyImNTQ2MzIWBRQWMzI2NTQmIyIGAuG3n5m5s6OYuv4jQUhIPz9ISEEEXKvBxaepwsWmZGVlZGRjYwACAFIAXgSaBAQABgANAFpAKgsJCQoHCAQCAgMABQEIDAgIDg0GBgMHAAAKAwMECQICCAEBBQ4LBAQMBQAvMzMRMxESOS8zMxEzEjkRMzMRMxEzETMRATMRMxDWMsEyMxEzEMEyMxEzMTABAScBATcBBQEnAQE3AQSa%2Fo3bARb%2B6tsBc%2F4G%2Fo3bARb%2B6tsBcwIj%2Fjt3AVwBXHf%2BORr%2BO3cBXAFcd%2F45AP%2F%2FAC4AAAaSBbYAJgB60gAAJwDOAskAAAEHANMDnP23AAmzAwISGAA%2FNTUA%2F%2F8ALgAABrQFtgAmAHrSAAAnAM4CyQAAAQcAcwP2%2FbcAB7ICEBgAPzUA%2F%2F8AWgAABrAFyQAmAHQfAAAnAM4DEAAAAQcA0wO6%2FbcACbMDAi0YAD81NQAAAgA9%2FnkD1wReABsAJwBGQCQiHBwbAAAHBxQUDigOKQAbEBsCCQMbGyUlH1RZJQ8RCk9ZESMAPysAGD8rEQAzGC9fXl0RATMREjkRMxE5ETMzETMxMAEVFAYHBgYVFBYzMjY3FwYGIyImNTQ2NzY2NTUBFAYjIiY1NDYzMhYCyVlsbTlXWU%2B0YGZi92rc%2B2GPXzUBKFpWU1tdUVRcAl5KYo5NTlg%2FOUo6Kt04RcGpbJ5pRko9OwFWVFZYUlFZWAD%2F%2FwAAAAAFhQdzAiYAJAAAAQcAQgAGAVIACLMCFgUmACs1%2F%2F8AAAAABYUHcwImACQAAAEHAHUA0QFSAAizAhYFJgArNf%2F%2FAAAAAAWFB3MCJgAkAAABBwDAAFYBUgAIswIbBSYAKzX%2F%2FwAAAAAFhQdgAiYAJAAAAQcAwgBWAVIACLMCEgUmACs1%2F%2F8AAAAABYUHVgImACQAAAEHAGkAVgFSAAq0AwIjBSYAKzU1%2F%2F8AAAAABYUHCgImACQAAAEGAMF1WAAJswMCIwMAPzU1AAACAAAAAAclBbYADwATAG9APAYTAxATAxEEEQEKDg4BAQUMCAAAFQQFBRQQA0xZCg1MWQwKAQ0DEAoQCgEGEwkGCUxZBgMEEgEOTFkBEgA%2FKwAYPz8rEQAzERI5ORgvL19eXSsrEQEzETMRMxEzMxI5ETMRMxEzERIXOREzMTAhIREhAyEBIRUhESEVIREhASERIwcl%2FJf%2BFZb%2BxQKPBJb9zQIO%2FfICM%2FsdAXp%2FAVz%2BpAW2%2Fv6%2F%2Fv6HAWACTgD%2F%2FwB3%2FhQE0QXLAiYAJgAAAAcAeQIdAAD%2F%2FwC4AAAEAgdzAiYAKAAAAQcAQv%2B3AVIACLMBFAUmACs1%2F%2F8AuAAABAIHcwImACgAAAEHAHUAXAFSAAizARQFJgArNf%2F%2FAK8AAAQUB3MCJgAoAAABBwDA%2F%2FUBUgAIswEZBSYAKzX%2F%2FwC4AAAEAgdWAiYAKAAAAQcAaf%2F5AVIACrQCASEFJgArNTUAAgAvAAAFdQW2AAwAGABIQCQNBgYaFBIWFgwBCgoZFQwADExZEgAACgIKFkxZChICEUxZAgMAPysAGD8rERIAORgvMysRADMRATMRMzMzETMzETMRMzEwEzMRISAAERAAISERIyU0JiMjETMVIxEzIC%2BJAcsBZgGM%2FmX%2BfP5iiQQE0NKj7e2DAcIDUgJk%2Fob%2Brf6X%2FoACVI3o7%2F6a%2Fv6s%2F%2F8AuAAABckHYAImADAAAAEHAMIA0wFSAAizARQFJgArNf%2F%2FAHf%2F7AXnB3MCJgAxAAABBwBCAHUBUgAIswIeBSYAKzX%2F%2FwB3%2F%2BwF5wdzAiYAMQAAAQcAdQFGAVIACLMCHgUmACs1%2F%2F8Ad%2F%2FsBecHcwImADEAAAEHAMAAwwFSAAizAiMFJgArNf%2F%2FAHf%2F7AXnB2ACJgAxAAABBwDCAMMBUgAIswIaBSYAKzX%2F%2FwB3%2F%2BwF5wdWAiYAMQAAAQcAaQDDAVIACrQDAisFJgArNTUAAQCBAQwEEASaAAsAHUALBgMACQkMDQkGAwAAGS8yMjIREgE5ETMzMzEwAQE3AQEXAQEHAQEnAaz%2B1ZgBLQExmf7PAS2V%2Fs%2F%2B05YC0wEtmv7VASuW%2Fs%2F%2B0ZgBLf7VmAAAAwB3%2F6YF5wYEABMAGwAiADlAHBcfHBQUChwACgAjJBYeIRkNGUxZDQQDIUxZAxMAPysAGD8rERIAOTkREgE5OREzETMREjk5MTABEAAhIicHJzcmERAAITIXNxcHFgEUFwEmIyIGBTQnARYzIAXn%2Fpj%2BsMWLWqJaxgFpAVHGklSgWML71TgB%2BlRpubwC5jP%2BDExoAXMC3f6V%2FnpBh2yIwgGDAW0BgUZ9aIPC%2Foa%2FdAL0Lfn1tHX9ESf%2F%2FwCu%2F%2BwFXgdzAiYANwAAAQcAQgArAVIACLMBGwUmACs1%2F%2F8Arv%2FsBV4HcwImADcAAAEHAHUBDgFSAAizARsFJgArNf%2F%2FAK7%2F7AVeB3MCJgA3AAABBwDAAJoBUgAIswEgBSYAKzX%2F%2FwCu%2F%2BwFXgdWAiYANwAAAQcAaQCaAVIACrQCASgFJgArNTX%2F%2FwAAAAAE%2FgdzAiYAOwAAAQcAdQCBAVIACLMBEQUmACs1AAIAuAAABKoFtgAMABUANkAcEQAAFw0JBQUGBhYEDU1ZCRVNWQQJBAkGBwMGEgA%2FPxI5OS8vKysRATMRMxEzMxEzETMxMAEUBCEjESERIRUzMgQBMzI2NTQmIyMEqv7j%2FvqZ%2FsoBNrL%2BAQz9RGSRjn%2BIfAMC5fj%2B2wW25e7%2BPGl6a2gAAAEAoP%2FsBWgGHwA1AFRAKxQHISEnJwAALhoODjcuLy82DhohBwAnJwcaAxgqMypHWTMALxURGEpZERYAPysAGD8%2FKxESABc5ETMRMxEzEQEzETMRMxEzEjkRMxE5ETMzMTABFA4EFRQWFx4CFRQGIyImJzUWFjMyNTQmJicmJjU0Njc2NjU0JiMiBhURIRE0JCEyBAThKkBKQCo1QpJpM%2BnjY5A8NaVAqCBSSn5iRkZNPn9kdIL%2BzwElAQL0ASYE2UBhTDowKhYbNChbYnpOrK4dIvIkMnspMzwqSHdRQGoxN1AuPFFpYPuYBHPJ47EA%2F%2F8AVv%2FsBDsGIQImAEMAAAEGAEKjAAAIswIrESYAKzX%2F%2FwBW%2F%2BwEOwYhAiYAQwAAAQYAdW0AAAizAisRJgArNf%2F%2FAFb%2F7AQ7BiACJgBDAAABBgDA9%2F8ACLMCMBEmACs1%2F%2F8AVv%2FsBDsGDgImAEMAAAEGAMIKAAAIswInESYAKzX%2F%2FwBW%2F%2BwEOwYEAiYAQwAAAQYAaQYAAAq0AwI4ESYAKzU1%2F%2F8AVv%2FsBDsGsgImAEMAAAEGAMEpAAAKtAMCJhEmACs1NQADAFb%2F7Ab%2BBHUAKAAyADgAhUBFNTYDGCAgMhQNDTIyCTY2Jh8fOi0JCTklICM1IEpZNTUGAxgAGxszSlkbEA0pS1kNDRYGFhFGWRYQACNGWQAGBi9GWQYWAD8rEQAzKwAYPysREgA5GC8rABg%2FKxESADk5EjkYLysREgA5EQEzETMRMxEzMxESOREzETkRMxI5ORE5MTAFIiYnBgYjIiY1NDY3NzU0JiMiByc2MzIXNjYzMgAVFSEWFjMyNxUGBgEHBgYVFDMyNjUBIgchJiYFMYnhSGLFnqHD8vG%2FWU2MpWO96eNzQq143QEA%2FS0FkILEuE%2B4%2FUFxfHyMZXgCI9kRAa4CahRlaXVZvaWyqQkGVEVCTcplg0BB%2Fu3plIKSWOwnKAIaBARXW4F6ZQHw7HB8AP%2F%2FAFz%2BFAPdBHMCJgBFAAAABwB5AYMAAP%2F%2FAFz%2F7ARiBiECJgBHAAABBgBCqQAACLMCJBEmACs1%2F%2F8AXP%2FsBGIGIQImAEcAAAEGAHVzAAAIswIkESYAKzX%2F%2FwBc%2F%2BwEYgYhAiYARwAAAQYAwAgAAAizAikRJgArNf%2F%2FAFz%2F7ARiBgQCJgBHAAABBgBpEgAACrQDAjERJgArNTX%2F%2F%2F%2BbAAAB3AYhAiYAvQAAAQcAQv5PAAAACLMBDBEmACs1%2F%2F8AkQAAAtIGIQImAL0AAAEHAHX%2FRQAAAAizAQwRJgArNf%2F%2F%2F4YAAALrBiECJgC9AAABBwDA%2FswAAAAIswERESYAKzX%2F%2F%2F%2FjAAACkQYEAiYAvQAAAQcAaf7MAAAACrQCARkRJgArNTUAAgBc%2F%2BwEmAYjABsAJwB2QDsAGQIXFxwFCAMLAwICERwcCwspIhERKBkAGAIFCAMJCRgYAhYWHxQUH0ZZFBQOAg4lRlkOFgMCS1kDAQA%2FKwAYPysREgA5GC8rERIAORESOREzERI5ORESOTkRATMRMxEzETMREjkRMxESOTkRMxESOTkxMAEmJzcWFzcXBxYSFRAAIyIANTQAMzIXNyYnBycBNCYjIgYVFBYzMjYB%2FlBIZZBy4WSqnJT%2B3v%2F1%2FtoBBN3NRghDfeZkAhJ6a3lveHB7agUXNSewQUyLmmiP%2FpXo%2Fuj%2BxwES6%2BkBEWIEoneOnP1obIKJkoyOpAD%2F%2FwCgAAAEqAYOAiYAUAAAAQYAwjMAAAizARkRJgArNf%2F%2FAFz%2F7ASYBiECJgBRAAABBgBCoQAACLMCIhEmACs1%2F%2F8AXP%2FsBJgGIQImAFEAAAEHAHUAhwAAAAizAiIRJgArNf%2F%2FAFz%2F7ASYBiECJgBRAAABBgDADAAACLMCJxEmACs1%2F%2F8AXP%2FsBJgGDgImAFEAAAEGAMIMAAAIswIeESYAKzX%2F%2FwBc%2F%2BwEmAYEAiYAUQAAAQYAaQwAAAq0AwIvESYAKzU1AAMAWADdBDkExwADAA8AGwAqQBIWCgoQBAQAAwMdABwZEw0HAAEALzPEMsQyEQEzETMREjkRMzMRMzEwEzUhFQU0NjMyFhUUBiMiJhE0NjMyFhUUBiMiJlgD4f2DSkJCSUpBQUtKQkNISkFBSwJk29vvTEtOSUZSTgMES01RR0ZRTgADAFz%2FtASYBJEAEwAbACMAOUAcFx8cFBQKHAAKACUkFh4hGQ0ZR1kNEAMhR1kDFgA%2FKwAYPysREgA5ORESATk5ETMRMxESOTkxMAEQACEiJwcnNyYREAAhMhc3FwcWARQXASYjIgYFNCcBFjMyNgSY%2FuD%2B%2F35sQ5pEmAEeAQOEdDeYOo78%2BxMBPSs%2FemwBzQz%2ByyY2emsCMf7v%2FswtZWlknAEUARIBMDRSbFSb%2FvteSAHbF6WnUTz%2BMg%2Bp%2F%2F8Amv%2FsBKIGIQImAFcAAAEGAEKpAAAIswEdESYAKzX%2F%2FwCa%2F%2BwEogYhAiYAVwAAAQcAdQCmAAAACLMBHREmACs1%2F%2F8Amv%2FsBKIGIQImAFcAAAEGAMAxAAAIswEiESYAKzX%2F%2FwCa%2F%2BwEogYEAiYAVwAAAQYAaS8AAAq0AgEqESYAKzU1%2F%2F8AAP4UBI0GIQImAFsAAAEGAHU9AAAIswEfESYAKzUAAgCg%2FhQEtAYUABUAIQBEQCIfBgYjFQwQGhMPDxAQIhEAEBsMFQkDCR1HWQkWAxZHWQMQAD8rABg%2FKxESADk5GD8%2FEQEzETMRMzMSOTkRMxEzMTABNjYzMhIREAIjIicjFxcRIREhEQcHFyIGBxUUFjMyETQmAdEyomnG4N%2FH1WgOBwf%2BzwExBwfpcWgCa3TNZQPNUVX%2By%2F7z%2Fu%2F%2BzIk%2BXv47CAD%2BeXhITougIbScAVKlpQD%2F%2FwAA%2FhQEjQYEAiYAWwAAAQYAadwAAAq0AgEsESYAKzU1AAEAoAAAAdEEXgADABO3AAEBBAIPARUAPz8RATMRMzEwISERIQHR%2Fs8BMQReAAACAHf%2F7AdQBc0AFgAjAGVANhEVFQ0BICAHEw8AACUaBwckERRMWQwRAQ0DEREBDQ0QTFkNAwoXTFkKBAQdTFkEEgEVTFkBEgA%2FKwAYPysAGD8rABg%2FKxESADkYL19eXSsRATMRMxEzETMzEjkRMzMzETMxMCEhBgYjIAAREAAhMhYXIRUhESEVIREhASIGFRQWMzI2NxEmJgdQ%2FJcmji3%2Bwf6wAVMBPj2EIwNk%2Fc0CDv3yAjP7uKasrKRBeiYjhQkLAYoBaQFrAYMOCf7%2Bv%2F7%2BhwPL%2B%2FP0%2BRUSA4sTFgADAFz%2F7Ad7BHMAHwArADIAcEA6LzAOAhUVJiYIMDAdFBQ0IAgIMxwVGS8VSlkvLwAQECxKWRAQAg4ECwspR1kLEAAZRlkABAQjR1kEFgA%2FKxEAMysAGD8rERIAOTkYPysREgA5GC8rERIAOREBMxEzETMRMzMREjkRMxI5ORE5MTAFICcGIyImAjUQACEyFhc2MzIAFRUhFRYWMzI2NxUGBgEUFjMyNjU0JiMiBiUiBgchJiYFpv7xlY36oviFARsBAnDIR5Dv9AEQ%2FRYHlYVrumRRvftmbXt6a2x7emwD6l58CQHCAnUUm5uMAQixARUBLU9NnP7y7pQIf40qLuwnKAJFpqqpp6ampcJzeW99AAEAugTZBB8GIQANACpAEgUEBAIMAAAJCAICDg8CCYAFAAAvMhrNMhESATkRMzMzETMRMxEzMTABJicGByM1NjchFhYXFQNUnU1Ol8u9QwFlH5lIBNldU1FfG71wNLNGGwAAAgFUBNcDSgayAAsAFwAgQA8GEhIZGA8PCR8JAgkJFQMALzMzL10zERIBOREzMTABFAYjIiY1NDYzMhYHNCYjIgYVFBYzMjYDSo5wcIiHcW6QnjYqKjYwMCo2BcdshIBubIGEaS0zMy0tNDQAAQDPBNcEDAYOABcANEAZEA8DQAQDAxgZDBMABxMHEwdvEH8QAhCABAAvGsxdOTkvLxEzETMREgE5ETMaEMgyMTABIgYHIzY2MzIeAjMyNjczBgYjIi4CAckfOQ2VC492KU9NSiQfOQ2VC5F0KU9NSgVCNTaRpCEnIDQ2kaQhJyEAAAEAUgG0A64CmgADABG1AgUABAABAC8zEQEzETMxMBM1IRVSA1wBtObmAAEAUgG0B64CmgADABG1AgUABAABAC8zEQEzETMxMBM1IRVSB1wBtObmAAEAGQPBAaQFtgAHABlACgQFBwEHBwkABAMAP80RATMRMxDCMjEwEyc2EjczAgcnDhZlNdtCIwPBFlsBE3H%2B9eoAAAEAGQPBAaQFtgAGABdACQMEAQYGBwQGAwA%2FxhEBMxEzwjIxMAEXBgMjEjcBlg4yfttFHwW2FsX%2B5gEozQAAAQA%2F%2FvgBywDuAAYAGEAJAgMFAAUFBwMGAC%2FNEQEzETMQwjIxMCUGAyMSNyEByzR83EEkARjXyv7rAQrsAAACABkDwQN3BbYABwAPACVAEAsMCA4DBAYABgYRBw8DCwMAPzPNMhEBMxEzEMIy1DLCMjEwATYSNzMCByElNhI3MwIHIQHsFmU120Ij%2Fuj%2BHxZlNdtCI%2F7oA9dbARNx%2FvXqFlsBE3H%2B9eoAAgAZA8EDdwW2AAYADQAjQA8JCgcMAgMABQUOCgMMBQMAPzPGMhEBMxEzwjLUMsIyMTABBgMjEjchBQYDIxI3IQGkMn7bRR8BGQHhMn7bRR8BGAWgxf7mASjNFsX%2B5gEozQACAD%2F%2B%2BAOeAO4ABgANACJADgkKBwwCAwAFBQ4KAwwFAC8zxjIRATMRM8Iy1DLCMjEwJQYDIxI3IQUGAyMSNyEByzR83EEkARgB4jR83EEkARjXyv7rAQrsF8r%2B6wEK7AABAGIBrgKgBCkACwATtgYAAAwNCQMAL80REgE5ETMxMBM0NjMyFhUUBiMiJmKUi4mWl4iKlQLsmqOkmZimpgAAAQBSAF4CoAQEAAYAMEAVAwYCBAQBBQUIBgADAwIEBAUFBwIBAC8zEjkvMxESOREzMxEBMxEzMxEzwTIxMBMBFwEBBwFSAXPb%2FukBF9v%2BjQI9Acd3%2FqT%2BpHcBxQABAFIAXgKgBAQABgAwQBUEAgIDAAUBAQcGAAMDBAICAQEHBAUALzMSOS8zERI5ETMzEQEzETPBMjMRMzEwAQEnAQE3AQKg%2Fo3bARb%2B6tsBcwIj%2Fjt3AVwBXHf%2BOQAAAf53AAACkQW2AAMAGkALAwACAQICBAMDAhIAPz8RATMRMxDBMjEwAQEjAQKR%2FNXvAysFtvpKBbYAAAEAQv%2FsBIMFwQAnAIxASAYDCCUlHB8kGRYbCQwRESQLBQUIJCQpFx0dCBsbKAwXFwkYBh0eHVJZAx4PHn8eAgsDGB4YHhMiJQAiAE9ZIgcQDhMOTlkTGQA%2FKxEAMxg%2FKxEAMxESOTkYLy9fXl0RMysRADMRMzMRMxEBMxEzMxEzETMREjkRMxEzETk5Ejk5ETk5MxESOTkxMAEiBgchFSEHFRchFSEWITI3EQYjIgAnIzUzJjU3IzUzNgAzMhcHJiYDI3qeFwGT%2Fl4CAgFj%2Fq4zAQ6PhHSx9f7EKYl2BAJ0hSUBRPO8pGJFeATJjYawIy8hsvM5%2FwA7AQrrshcnNbDyARlS6B8jAAEAWAJkBDkDPwADABG1AgUABAABAC8zEQEzETMxMBM1IRVYA%2BECZNvb%2F%2F8AKQAABPgGHwAmAEgAAAAHAEsDGQAA%2F%2F8AKQAABOoGHwAmAEgAAAAHAE4DGQAAAAIADAJKAvYFvAAKABIAQkAfEgUHDgILAwMJAAIFAhMUDgkHCQYSAQUFEhIDBx4DIAA%2FPxI5LzMRMxI5MhESORESATk5ETMzMxEzEjk5ETMxMAEjFSM1ITUBMxEzITU0NwYGBwcC9n3u%2FoEBgex9%2FpUGCTUPfwLhl5eaAkH9zaRWYhpsF7%2F%2F%2FwApAAAIDgYfACYASAAAACcASAMZAAAABwBLBi8AAP%2F%2FACkAAAgABh8AJgBIAAAAJwBIAxkAAAAHAE4GLwAA%2F%2F8AKQAABo4GHwAmAEgAAAAHAEgDGQAAAAEAuAAAAe4FtgADABG2AAQFAQMAEgA%2FPxESATkxMDMRIRG4ATYFtvpK%2F%2F%2F%2FxgAAAgcHcwImANcAAAEHAEL%2BegFSAAizAQwFJgArNf%2F%2FAKcAAALoB3MCJgDXAAABBwB1%2F1sBUgAIswEMBSYAKzX%2F%2F%2F%2BgAAADBQdzAiYA1wAAAQcAwP7mAVIACLMBEQUmACs1%2F%2F%2F%2F%2FQAAAqsHVgImANcAAAEHAGn%2B5gFSAAq0AgEZBSYAKzU1AAEAAADcAIoAFgBYAAUAAgAQAC8AXAAAAQABCwADAAEAAAAkACQAJAAkAFYAegDvAXoB6AJwAogCtQLiAyADSwNoA30DngO8A%2F4EKwR5BOEFKgWFBeAGCgZ9BtkHEQdIB3EHlwfCCB4IrgjyCVIJlAnLCgYKNQqKCr8K6gspC0gLjgvJDAsMSgygDPMNUw15Da4N4A48Dn4Osg7nDwkPJw9JD3UPjA%2BvEAkQXRCZEOwRQhGEEiASXhKKEscTDhMlE4ETvBP%2FFFQUqhTcFTQVdhWyFeQWQBaFFtQXCRdUF2sXuhf6F%2FoYKxh6GNMZLxmNGbIaLxpmGt8bNRuJG6Ybrhw8HFMciRzDHP0dUh11Hb4d8h4THk0eeh6wHwQfGh8vH0UfpR%2B2H8cf2B%2FpH%2FsgDCBrIHcgiCCZIKogvCEMIR0hLiE%2FIVAhYSFzIaMiACIRIiIiMyJFIlYimCMQIyAjMCNAI1AjYSNyJAskFyQnJDckRyRYJGkkeiSLJJ0lGyUrJTslTCVcJWwlfSW%2BJhwmLCY9Jk0mXiZuJsgm2SbwJ18n5ygYKE4ojyikKLko2ij5KRgpTSl%2BKa4pzin8KisqSCrMKuEq7Sr5KzwrTCtcK2grfSuOK58rsCvCAAAAAQAAAAEZmh1fuTtfDzz1AAkIAAAAAADJQhegAAAAAMnoSqH7DP2oCo0IjQABAAkAAgAAAAAAAATNAMEAAAAABBQAAAIUAAACSgB1A8cAhQUrAC0EkQBYBzUAPwYAAFICIQCFArYAUgK2AD0EXAA%2FBJEAWAJSAD8CkwA9AkgAdQNOAA4EkQBKBJEAeQSRAE4EkQBOBJEAIwSRAGQEkQBIBJEANwSRAEgEkQBCAkgAdQJSAD8EkQBYBJEAWASRAFgD0QAGBy0AZgWFAAAFYAC4BRkAdwXsALgEewC4BGQAuAXLAHcGHwC4Aqb%2FaAVQALgEhQC4B4sAuAaBALgGXgB3BQYAuAZeAHcFSAC4BGgAXgSiACkGDACuBTMAAAe8AAAFVgAABP4AAASiADECpgCPA04ADAKmADMEQgAIA0r%2F%2FATbAUwE1QBWBRAAoAQdAFwFEABcBLoAXAMZACkEhQAGBUIAoAJxAJMCcf99BPYAoAJxAKAH2wCgBUIAoAT0AFwFEACgBRAAXAOiAKAD%2BgBcA3kALwVCAJoEjQAABtkAFASgAAoEjQAAA%2BcANwMnAB8EaAHHAycAUgSRAFgCFAAAAkoAdQSRAI8EkQBSBJEAcQSRAAYEaAHHA%2BMAagTbARcGqABkAxAALwTsAFIEkQBYApMAPQaoAGQEAP%2F6A20AXASRAFgDCAAvAwgAOwTbAUwFSACgBT0AcQJIAHUBpP%2FbAwgAXAMbADkE7ABSBwwALgcMAC4HDABaA9EAPQWFAAAFhQAABYUAAAWFAAAFhQAABYUAAAeeAAAFGQB3BHsAuAR7ALgEewCvBHsAuAXsAC8GgQC4Bl4AdwZeAHcGXgB3Bl4AdwZeAHcEkQCBBl4AdwYMAK4GDACuBgwArgYMAK4E%2FgAABQYAuAWwAKAE1QBWBNUAVgTVAFYE1QBWBNUAVgTVAFYHVgBWBB0AXAS6AFwEugBcBLoAXAS6AFwCcf%2BbAnEAkQJx%2F4YCcf%2FjBPQAXAVCAKAE9ABcBPQAXAT0AFwE9ABcBPQAXASRAFgE9ABcBUIAmgVCAJoFQgCaBUIAmgSNAAAFEACgBI0AAAJxAKAHyQB3B9MAXATbALoEngFUBNsAzwQAAFIIAABSAbwAGQG8ABkCVAA%2FA48AGQOPABkEJQA%2FAwIAYgLyAFIC8gBSAQr%2BdwSRAEIEkQBYBYkAKQWJACkDCAAMCKAAKQigACkGMQApAqYAuP%2FGAKf%2FoP%2F9AAEAAAiN%2FagAAAqN%2Bwz%2BeQqNAAEAAAAAAAAAAAAAAAAAAADYAAMFDwK8AAUACAWaBTMAAAEfBZoFMwAAA9EAZgH8CAICCwgGAwUEAgIE4AAC70AAIFsAAAAoAAAAADFBU0MAIAAg%2F%2F0GH%2F4UAIQIjQJYIAABnwAAAAAEXgW2AAAAIAADAAAAAQADAAEAAAAMAAQAuAAAACoAIAAEAAoASABJAH4AywDPAP8BMQFTAsYC2gLcIBQgGiAeICIgOiBEIHQgrCIS%2F%2F8AAAAgAEkASgCgAMwA0AExAVICxgLaAtwgEyAYIBwgIiA5IEQgdCCsIhL%2F%2F%2F%2FjAI7%2F4v%2FBAAz%2Fvf%2BM%2F2z9%2Bv3n%2FebgsOCt4KzgqeCT4IrgX%2BAj3r4AAQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAEBHW1pZWFVUU1JRUE9OTUxLSklIR0ZFRENCQUA%2FPj08Ozo5ODc2NTEwLy4tLCgnJiUkIyIhHxgUERAPDg0LCgkIBwYFBAMCAQAsILABYEWwAyUgEUZhI0UjYUgtLCBFGGhELSxFI0ZgsCBhILBGYLAEJiNISC0sRSNGI2GwIGAgsCZhsCBhsAQmI0hILSxFI0ZgsEBhILBmYLAEJiNISC0sRSNGI2GwQGAgsCZhsEBhsAQmI0hILSwBECA8ADwtLCBFIyCwzUQjILgBWlFYIyCwjUQjWSCw7VFYIyCwTUQjWSCwBCZRWCMgsA1EI1khIS0sICBFGGhEILABYCBFsEZ2aIpFYEQtLAGxCwpDI0NlCi0sALEKC0MjQwstLACwKCNwsQEoPgGwKCNwsQIoRTqxAgAIDS0sIEWwAyVFYWSwUFFYRUQbISFZLSxJsA4jRC0sIEWwAENgRC0sAbAGQ7AHQ2UKLSwgabBAYbAAiyCxLMCKjLgQAGJgKwxkI2RhXFiwA2FZLSyKA0WKioewESuwKSNEsCl65BgtLEVlsCwjREWwKyNELSxLUlhFRBshIVktLEtRWEVEGyEhWS0sAbAFJRAjIIr1ALABYCPt7C0sAbAFJRAjIIr1ALABYSPt7C0sAbAGJRD1AO3sLSywAkOwAVJYISEhISEbRiNGYIqKRiMgRopgimG4%2F4BiIyAQI4qxDAyKcEVgILAAUFiwAWG4%2F7qLG7BGjFmwEGBoATpZLSwgRbADJUZSS7ATUVtYsAIlRiBoYbADJbADJT8jITgbIRFZLSwgRbADJUZQWLACJUYgaGGwAyWwAyU%2FIyE4GyERWS0sALAHQ7AGQwstLCEhDGQjZIu4QABiLSwhsIBRWAxkI2SLuCAAYhuyAEAvK1mwAmAtLCGwwFFYDGQjZIu4FVViG7IAgC8rWbACYC0sDGQjZIu4QABiYCMhLSxLU1iKsAQlSWQjRWmwQIthsIBisCBharAOI0QjELAO9hshI4oSESA5L1ktLEtTWCCwAyVJZGkgsAUmsAYlSWQjYbCAYrAgYWqwDiNEsAQmELAO9ooQsA4jRLAO9rAOI0SwDu0birAEJhESIDkjIDkvL1ktLEUjRWAjRWAjRWAjdmgYsIBiIC0ssEgrLSwgRbAAVFiwQEQgRbBAYUQbISFZLSxFsTAvRSNFYWCwAWBpRC0sS1FYsC8jcLAUI0IbISFZLSxLUVggsAMlRWlTWEQbISFZGyEhWS0sRbAUQ7AAYGOwAWBpRC0ssC9FRC0sRSMgRYpgRC0sRiNGYIqKRiMgRopgimG4%2F4BiIyAQI4qxDAyKcEVgILAAUFiwAWG4%2F4CLG7CBjFloOi0sSyNRWLkAM%2F%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%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%2Fx9QTBYfT01kH05MZB8mNBBVJTMkVRkT%2Fx8HBP8fBgP%2FH01MHh9kTAFMRg0fEzMSVQUBA1UEMwNVHwMBDwM%2FA68DAwZLRstG20YDIzMiVRwzG1UWMxVVEQEPVRAzD1WvD88PAjAPAQEzAFVvAH8ArwDvAAQQAAGAFgEFAbgBkLFUUysrS7gH%2F1JLsAlQW7ABiLAlU7ABiLBAUVqwBoiwAFVaW1ixAQGOWYWNjQBCHUuwMlNYsCAdWUuwZFNYsBAdsRYAQllzcytzcysrKysrc15zdCsrKyt0KysrKysrKysrKysrKxheBhQAFwAABbYAFwB1BbYFzQAAAAAAAAAAAAAAAAAABF4AFwB7AAD%2F7AAAAAD%2F7AAAAAD%2F7AAA%2FhT%2F7AAABbYAFfyU%2F%2Bv%2Bj%2F%2Fg%2Frz%2F7AAS%2FlYAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAIAAAAAAAA5QD2AQABKwDTALIBAgD2AQIA9gDtAN8AsgAAAVQAAAAAAAEAAB6MAAEFFRgAAAoGfgAFACT%2FcQAFADYAKQAFADgAKQAFADkAKQAFADsAFAAFAEP%2FrgAFAEX%2FhQAFAEb%2FhQAFAEf%2FhQAFAEn%2FwwAFAE%2F%2FwwAFAFD%2FwwAFAFH%2FhQAFAFL%2FwwAFAFP%2FhQAFAFT%2FwwAFAFX%2FwwAFAFf%2FwwAFAIH%2FcQAFAIL%2FcQAFAIP%2FcQAFAIT%2FcQAFAIX%2FcQAFAIb%2FcQAFAJoAFAAFAJ3%2FhQAFAJ7%2FrgAFAJ%2F%2FrgAFAKD%2FrgAFAKH%2FrgAFAKL%2FrgAFAKP%2FrgAFAKT%2FhQAFAKX%2FhQAFAKb%2FhQAFAKf%2FhQAFAKj%2FhQAFAK%2F%2FhQAFALD%2FhQAFALH%2FhQAFALL%2FhQAFALP%2FhQAFALX%2FhQAFALb%2FwwAFALf%2FwwAFALj%2FwwAFALn%2FwwAFAL%2F%2FhQAKACT%2FcQAKADYAKQAKADgAKQAKADkAKQAKADsAFAAKAEP%2FrgAKAEX%2FhQAKAEb%2FhQAKAEf%2FhQAKAEn%2FwwAKAE%2F%2FwwAKAFD%2FwwAKAFH%2FhQAKAFL%2FwwAKAFP%2FhQAKAFT%2FwwAKAFX%2FwwAKAFf%2FwwAKAIH%2FcQAKAIL%2FcQAKAIP%2FcQAKAIT%2FcQAKAIX%2FcQAKAIb%2FcQAKAJoAFAAKAJ3%2FhQAKAJ7%2FrgAKAJ%2F%2FrgAKAKD%2FrgAKAKH%2FrgAKAKL%2FrgAKAKP%2FrgAKAKT%2FhQAKAKX%2FhQAKAKb%2FhQAKAKf%2FhQAKAKj%2FhQAKAK%2F%2FhQAKALD%2FhQAKALH%2FhQAKALL%2FhQAKALP%2FhQAKALX%2FhQAKALb%2FwwAKALf%2FwwAKALj%2FwwAKALn%2FwwAKAL%2F%2FhQALACwAuAAPACb%2FmgAPACr%2FmgAPADH%2FmgAPADP%2FmgAPADb%2FcQAPADf%2F1wAPADj%2FhQAPADn%2FhQAPADv%2FhQAPAIj%2FmgAPAI%2F%2FmgAPAJD%2FmgAPAJH%2FmgAPAJL%2FmgAPAJP%2FmgAPAJX%2FmgAPAJb%2F1wAPAJf%2F1wAPAJj%2F1wAPAJn%2F1wAPAJr%2FhQAPAL7%2FmgAQADb%2FrgARACb%2FmgARACr%2FmgARADH%2FmgARADP%2FmgARADb%2FcQARADf%2F1wARADj%2FhQARADn%2FhQARADv%2FhQARAIj%2FmgARAI%2F%2FmgARAJD%2FmgARAJH%2FmgARAJL%2FmgARAJP%2FmgARAJX%2FmgARAJb%2F1wARAJf%2F1wARAJj%2F1wARAJn%2F1wARAJr%2FhQARAL7%2FmgAkAAX%2FcQAkAAr%2FcQAkACb%2F1wAkACr%2F1wAkACwBCgAkADH%2F1wAkADP%2F1wAkADb%2FcQAkADj%2FrgAkADn%2FrgAkADv%2FhQAkAIj%2F1wAkAI%2F%2F1wAkAJD%2F1wAkAJH%2F1wAkAJL%2F1wAkAJP%2F1wAkAJX%2F1wAkAJr%2FhQAkAL7%2F1wAkAMb%2FcQAkAMn%2FcQAlAA%2F%2FrgAlABH%2FrgAlACT%2F1wAlADb%2FwwAlADj%2F7AAlADn%2F7AAlADr%2F1wAlADv%2F7AAlADz%2F7AAlAIH%2F1wAlAIL%2F1wAlAIP%2F1wAlAIT%2F1wAlAIX%2F1wAlAIb%2F1wAlAJr%2F7AAlAMf%2FrgAlAMr%2FrgAmACb%2F1wAmACr%2F1wAmADH%2F1wAmADP%2F1wAmAIj%2F1wAmAI%2F%2F1wAmAJD%2F1wAmAJH%2F1wAmAJL%2F1wAmAJP%2F1wAmAJX%2F1wAmAL7%2F1wAnAA%2F%2FrgAnABH%2FrgAnACT%2F1wAnADb%2FwwAnADj%2F7AAnADn%2F7AAnADr%2F1wAnADv%2F7AAnADz%2F7AAnAIH%2F1wAnAIL%2F1wAnAIP%2F1wAnAIT%2F1wAnAIX%2F1wAnAIb%2F1wAnAJr%2F7AAnAMf%2FrgAnAMr%2FrgAoACwAewApAA%2F%2FhQApABH%2FhQApACIAKQApACT%2F1wApAIH%2F1wApAIL%2F1wApAIP%2F1wApAIT%2F1wApAIX%2F1wApAIb%2F1wApAMf%2FhQApAMr%2FhQAtACb%2F1wAtACr%2F1wAtADH%2F1wAtADP%2F1wAtAIj%2F1wAtAI%2F%2F1wAtAJD%2F1wAtAJH%2F1wAtAJL%2F1wAtAJP%2F1wAtAJX%2F1wAtAL7%2F1wAuAAX%2FXAAuAAr%2FXAAuACb%2F1wAuACr%2F1wAuADH%2F1wAuADP%2F1wAuADb%2F1wAuADf%2F7AAuADj%2F1wAuADn%2F1wAuADv%2FwwAuAIj%2F1wAuAI%2F%2F1wAuAJD%2F1wAuAJH%2F1wAuAJL%2F1wAuAJP%2F1wAuAJX%2F1wAuAJb%2F7AAuAJf%2F7AAuAJj%2F7AAuAJn%2F7AAuAJr%2FwwAuAL7%2F1wAuAMb%2FXAAuAMn%2FXAAxAA%2F%2FrgAxABH%2FrgAxACT%2F1wAxADb%2FwwAxADj%2F7AAxADn%2F7AAxADr%2F1wAxADv%2F7AAxADz%2F7AAxAIH%2F1wAxAIL%2F1wAxAIP%2F1wAxAIT%2F1wAxAIX%2F1wAxAIb%2F1wAxAJr%2F7AAxAMf%2FrgAxAMr%2FrgAyAA%2F%2B9gAyABH%2B9gAyACT%2FmgAyADr%2F1wAyADz%2F7AAyAIH%2FmgAyAIL%2FmgAyAIP%2FmgAyAIT%2FmgAyAIX%2FmgAyAIb%2FmgAyAMf%2B9gAyAMr%2B9gAzAA%2F%2FrgAzABH%2FrgAzACT%2F1wAzADb%2FwwAzADj%2F7AAzADn%2F7AAzADr%2F1wAzADv%2F7AAzADz%2F7AAzAIH%2F1wAzAIL%2F1wAzAIP%2F1wAzAIT%2F1wAzAIX%2F1wAzAIb%2F1wAzAJr%2F7AAzAMf%2FrgAzAMr%2FrgA2AA%2F%2FhQA2ABD%2FrgA2ABH%2FhQA2ACIAKQA2ACT%2FcQA2ACb%2F1wA2ACr%2F1wA2ADH%2F1wA2ADP%2F1wA2ADYAKQA2AEP%2FXAA2AEX%2FcQA2AEb%2FcQA2AEf%2FcQA2AEn%2FcQA2AE%2F%2FmgA2AFD%2FmgA2AFH%2FcQA2AFL%2FmgA2AFP%2FcQA2AFT%2FmgA2AFX%2FhQA2AFf%2FmgA2AFj%2F1wA2AFn%2F1wA2AFr%2F1wA2AFv%2F1wA2AFz%2FrgA2AIH%2FcQA2AIL%2FcQA2AIP%2FcQA2AIT%2FcQA2AIX%2FcQA2AIb%2FcQA2AIj%2F1wA2AI%2F%2F1wA2AJD%2F1wA2AJH%2F1wA2AJL%2F1wA2AJP%2F1wA2AJX%2F1wA2AJ3%2FcQA2AJ7%2FXAA2AJ%2F%2FXAA2AKD%2FXAA2AKH%2FXAA2AKL%2FXAA2AKP%2FXAA2AKT%2FcQA2AKX%2FcQA2AKb%2FcQA2AKf%2FcQA2AKj%2FcQA2AK%2F%2FcQA2ALD%2FcQA2ALH%2FcQA2ALL%2FcQA2ALP%2FcQA2ALX%2FcQA2ALb%2FmgA2ALf%2FmgA2ALj%2FmgA2ALn%2FmgA2ALr%2F1wA2AL7%2F1wA2AL%2F%2FcQA2AMP%2FrgA2AMT%2FrgA2AMf%2FhQA2AMr%2FhQA3AA%2F%2F1wA3ABH%2F1wA3ACT%2F7AA3AIH%2F7AA3AIL%2F7AA3AIP%2F7AA3AIT%2F7AA3AIX%2F7AA3AIb%2F7AA3AMf%2F1wA3AMr%2F1wA4AA%2F%2FmgA4ABH%2FmgA4ACIAKQA4ACT%2FrgA4ACb%2F7AA4ACr%2F7AA4ADH%2F7AA4ADP%2F7AA4AEP%2F1wA4AEX%2F1wA4AEb%2F1wA4AEf%2F1wA4AEn%2F7AA4AE%2F%2F7AA4AFD%2F7AA4AFH%2F1wA4AFL%2F7AA4AFP%2F1wA4AFT%2F7AA4AFX%2F7AA4AFf%2F7AA4AIH%2FrgA4AIL%2FrgA4AIP%2FrgA4AIT%2FrgA4AIX%2FrgA4AIb%2FrgA4AIj%2F7AA4AI%2F%2F7AA4AJD%2F7AA4AJH%2F7AA4AJL%2F7AA4AJP%2F7AA4AJX%2F7AA4AJ3%2F1wA4AJ7%2F1wA4AJ%2F%2F1wA4AKD%2F1wA4AKH%2F1wA4AKL%2F1wA4AKP%2F1wA4AKT%2F1wA4AKX%2F1wA4AKb%2F1wA4AKf%2F1wA4AKj%2F1wA4AK%2F%2F1wA4ALD%2F1wA4ALH%2F1wA4ALL%2F1wA4ALP%2F1wA4ALX%2F1wA4ALb%2F7AA4ALf%2F7AA4ALj%2F7AA4ALn%2F7AA4AL7%2F7AA4AL%2F%2F1wA4AMf%2FmgA4AMr%2FmgA5AA%2F%2FmgA5ABH%2FmgA5ACIAKQA5ACT%2FrgA5ACb%2F7AA5ACr%2F7AA5ADH%2F7AA5ADP%2F7AA5AEP%2F1wA5AEX%2F1wA5AEb%2F1wA5AEf%2F1wA5AEn%2F7AA5AE%2F%2F7AA5AFD%2F7AA5AFH%2F1wA5AFL%2F7AA5AFP%2F1wA5AFT%2F7AA5AFX%2F7AA5AFf%2F7AA5AIH%2FrgA5AIL%2FrgA5AIP%2FrgA5AIT%2FrgA5AIX%2FrgA5AIb%2FrgA5AIj%2F7AA5AI%2F%2F7AA5AJD%2F7AA5AJH%2F7AA5AJL%2F7AA5AJP%2F7AA5AJX%2F7AA5AJ3%2F1wA5AJ7%2F1wA5AJ%2F%2F1wA5AKD%2F1wA5AKH%2F1wA5AKL%2F1wA5AKP%2F1wA5AKT%2F1wA5AKX%2F1wA5AKb%2F1wA5AKf%2F1wA5AKj%2F1wA5AK%2F%2F1wA5ALD%2F1wA5ALH%2F1wA5ALL%2F1wA5ALP%2F1wA5ALX%2F1wA5ALb%2F7AA5ALf%2F7AA5ALj%2F7AA5ALn%2F7AA5AL7%2F7AA5AL%2F%2F1wA5AMf%2FmgA5AMr%2FmgA6ACb%2F1wA6ACr%2F1wA6ADH%2F1wA6ADP%2F1wA6AIj%2F1wA6AI%2F%2F1wA6AJD%2F1wA6AJH%2F1wA6AJL%2F1wA6AJP%2F1wA6AJX%2F1wA6AL7%2F1wA7AA%2F%2FhQA7ABH%2FhQA7ACIAKQA7ACT%2FhQA7ACb%2F1wA7ACr%2F1wA7ADH%2F1wA7ADP%2F1wA7AEP%2FmgA7AEX%2FmgA7AEb%2FmgA7AEf%2FmgA7AEn%2F1wA7AE%2F%2FwwA7AFD%2FwwA7AFH%2FmgA7AFL%2FwwA7AFP%2FmgA7AFT%2FwwA7AFX%2FrgA7AFf%2FwwA7AFz%2F1wA7AIH%2FhQA7AIL%2FhQA7AIP%2FhQA7AIT%2FhQA7AIX%2FhQA7AIb%2FhQA7AIj%2F1wA7AI%2F%2F1wA7AJD%2F1wA7AJH%2F1wA7AJL%2F1wA7AJP%2F1wA7AJX%2F1wA7AJ3%2FmgA7AJ7%2FmgA7AJ%2F%2FmgA7AKD%2FmgA7AKH%2FmgA7AKL%2FmgA7AKP%2FmgA7AKT%2FmgA7AKX%2FmgA7AKb%2FmgA7AKf%2FmgA7AKj%2FmgA7AK%2F%2FmgA7ALD%2FmgA7ALH%2FmgA7ALL%2FmgA7ALP%2FmgA7ALX%2FmgA7ALb%2FwwA7ALf%2FwwA7ALj%2FwwA7ALn%2FwwA7AL7%2F1wA7AL%2F%2FmgA7AMf%2FhQA7AMr%2FhQA8ACb%2F7AA8ACr%2F7AA8ADH%2F7AA8ADP%2F7AA8AIj%2F7AA8AI%2F%2F7AA8AJD%2F7AA8AJH%2F7AA8AJL%2F7AA8AJP%2F7AA8AJX%2F7AA8AL7%2F7AA9ACwAuABDAAX%2F7ABDAAr%2F7ABDAMb%2F7ABDAMn%2F7ABEAAX%2F7ABEAAr%2F7ABEAFj%2F1wBEAFn%2F1wBEAFr%2F1wBEAFv%2F1wBEAFz%2F7ABEALr%2F1wBEAMb%2F7ABEAMn%2F7ABFAAUAKQBFAAoAKQBFAMYAKQBFAMkAKQBHAAX%2F7ABHAAr%2F7ABHAFj%2F1wBHAFn%2F1wBHAFr%2F1wBHAFv%2F1wBHAFz%2F7ABHALr%2F1wBHAMb%2F7ABHAMn%2F7ABIAAUAewBIAAoAewBIAMYAewBIAMkAewBKAAX%2F7ABKAAr%2F7ABKAMb%2F7ABKAMn%2F7ABNAEX%2F1wBNAEb%2F1wBNAEf%2F1wBNAFH%2F1wBNAFP%2F1wBNAJ3%2F1wBNAKT%2F1wBNAKX%2F1wBNAKb%2F1wBNAKf%2F1wBNAKj%2F1wBNAK%2F%2F1wBNALD%2F1wBNALH%2F1wBNALL%2F1wBNALP%2F1wBNALX%2F1wBNAL%2F%2F1wBPAAX%2F7ABPAAr%2F7ABPAMb%2F7ABPAMn%2F7ABQAAX%2F7ABQAAr%2F7ABQAMb%2F7ABQAMn%2F7ABRAAX%2F7ABRAAr%2F7ABRAFj%2F1wBRAFn%2F1wBRAFr%2F1wBRAFv%2F1wBRAFz%2F7ABRALr%2F1wBRAMb%2F7ABRAMn%2F7ABSAAX%2F7ABSAAr%2F7ABSAFj%2F1wBSAFn%2F1wBSAFr%2F1wBSAFv%2F1wBSAFz%2F7ABSALr%2F1wBSAMb%2F7ABSAMn%2F7ABUAAUAUgBUAAoAUgBUAEP%2F1wBUAEX%2F1wBUAEb%2F1wBUAEf%2F1wBUAEn%2F7ABUAFH%2F1wBUAFP%2F1wBUAJ3%2F1wBUAJ7%2F1wBUAJ%2F%2F1wBUAKD%2F1wBUAKH%2F1wBUAKL%2F1wBUAKP%2F1wBUAKT%2F1wBUAKX%2F1wBUAKb%2F1wBUAKf%2F1wBUAKj%2F1wBUAK%2F%2F1wBUALD%2F1wBUALH%2F1wBUALL%2F1wBUALP%2F1wBUALX%2F1wBUAL%2F%2F1wBUAMYAUgBUAMkAUgBWAAUAKQBWAAoAKQBWAMYAKQBWAMkAKQBYAAUAUgBYAAoAUgBYAA%2F%2FrgBYABH%2FrgBYACIAKQBYAMYAUgBYAMf%2FrgBYAMkAUgBYAMr%2FrgBZAAUAUgBZAAoAUgBZAA%2F%2FrgBZABH%2FrgBZACIAKQBZAMYAUgBZAMf%2FrgBZAMkAUgBZAMr%2FrgBaAEX%2F1wBaAEb%2F1wBaAEf%2F1wBaAFH%2F1wBaAFP%2F1wBaAJ3%2F1wBaAKT%2F1wBaAKX%2F1wBaAKb%2F1wBaAKf%2F1wBaAKj%2F1wBaAK%2F%2F1wBaALD%2F1wBaALH%2F1wBaALL%2F1wBaALP%2F1wBaALX%2F1wBaAL%2F%2F1wBbAAUAUgBbAAoAUgBbAA%2F%2FrgBbABH%2FrgBbACIAKQBbAMYAUgBbAMf%2FrgBbAMkAUgBbAMr%2FrgBdACwAuACBAAX%2FcQCBAAr%2FcQCBACb%2F1wCBACr%2F1wCBACwBCgCBADH%2F1wCBADP%2F1wCBADb%2FcQCBADj%2FrgCBADn%2FrgCBADv%2FhQCBAIj%2F1wCBAI%2F%2F1wCBAJD%2F1wCBAJH%2F1wCBAJL%2F1wCBAJP%2F1wCBAJX%2F1wCBAJr%2FhQCBAL7%2F1wCBAMb%2FcQCBAMn%2FcQCCAAX%2FcQCCAAr%2FcQCCACb%2F1wCCACr%2F1wCCACwBCgCCADH%2F1wCCADP%2F1wCCADb%2FcQCCADj%2FrgCCADn%2FrgCCADv%2FhQCCAIj%2F1wCCAI%2F%2F1wCCAJD%2F1wCCAJH%2F1wCCAJL%2F1wCCAJP%2F1wCCAJX%2F1wCCAJr%2FhQCCAL7%2F1wCCAMb%2FcQCCAMn%2FcQCDAAX%2FcQCDAAr%2FcQCDACb%2F1wCDACr%2F1wCDACwBCgCDADH%2F1wCDADP%2F1wCDADb%2FcQCDADj%2FrgCDADn%2FrgCDADv%2FhQCDAIj%2F1wCDAI%2F%2F1wCDAJD%2F1wCDAJH%2F1wCDAJL%2F1wCDAJP%2F1wCDAJX%2F1wCDAJr%2FhQCDAL7%2F1wCDAMb%2FcQCDAMn%2FcQCEAAX%2FcQCEAAr%2FcQCEACb%2F1wCEACr%2F1wCEACwBCgCEADH%2F1wCEADP%2F1wCEADb%2FcQCEADj%2FrgCEADn%2FrgCEADv%2FhQCEAIj%2F1wCEAI%2F%2F1wCEAJD%2F1wCEAJH%2F1wCEAJL%2F1wCEAJP%2F1wCEAJX%2F1wCEAJr%2FhQCEAL7%2F1wCEAMb%2FcQCEAMn%2FcQCFAAX%2FcQCFAAr%2FcQCFACb%2F1wCFACr%2F1wCFACwBCgCFADH%2F1wCFADP%2F1wCFADb%2FcQCFADj%2FrgCFADn%2FrgCFADv%2FhQCFAIj%2F1wCFAI%2F%2F1wCFAJD%2F1wCFAJH%2F1wCFAJL%2F1wCFAJP%2F1wCFAJX%2F1wCFAJr%2FhQCFAL7%2F1wCFAMb%2FcQCFAMn%2FcQCGAAX%2FcQCGAAr%2FcQCGACb%2F1wCGACr%2F1wCGACwBCgCGADH%2F1wCGADP%2F1wCGADb%2FcQCGADj%2FrgCGADn%2FrgCGADv%2FhQCGAIj%2F1wCGAI%2F%2F1wCGAJD%2F1wCGAJH%2F1wCGAJL%2F1wCGAJP%2F1wCGAJX%2F1wCGAJr%2FhQCGAL7%2F1wCGAMb%2FcQCGAMn%2FcQCHACwAewCIACb%2F1wCIACr%2F1wCIADH%2F1wCIADP%2F1wCIAIj%2F1wCIAI%2F%2F1wCIAJD%2F1wCIAJH%2F1wCIAJL%2F1wCIAJP%2F1wCIAJX%2F1wCIAL7%2F1wCJACwAewCKACwAewCLACwAewCMACwAewCNAA%2F%2FrgCNABH%2FrgCNACT%2F1wCNADb%2FwwCNADj%2F7ACNADn%2F7ACNADr%2F1wCNADv%2F7ACNADz%2F7ACNAIH%2F1wCNAIL%2F1wCNAIP%2F1wCNAIT%2F1wCNAIX%2F1wCNAIb%2F1wCNAJr%2F7ACNAMf%2FrgCNAMr%2FrgCPAA%2F%2FrgCPABH%2FrgCPACT%2F1wCPADb%2FwwCPADj%2F7ACPADn%2F7ACPADr%2F1wCPADv%2F7ACPADz%2F7ACPAIH%2F1wCPAIL%2F1wCPAIP%2F1wCPAIT%2F1wCPAIX%2F1wCPAIb%2F1wCPAJr%2F7ACPAMf%2FrgCPAMr%2FrgCQAA%2F%2FrgCQABH%2FrgCQACT%2F1wCQADb%2FwwCQADj%2F7ACQADn%2F7ACQADr%2F1wCQADv%2F7ACQADz%2F7ACQAIH%2F1wCQAIL%2F1wCQAIP%2F1wCQAIT%2F1wCQAIX%2F1wCQAIb%2F1wCQAJr%2F7ACQAMf%2FrgCQAMr%2FrgCRAA%2F%2FrgCRABH%2FrgCRACT%2F1wCRADb%2FwwCRADj%2F7ACRADn%2F7ACRADr%2F1wCRADv%2F7ACRADz%2F7ACRAIH%2F1wCRAIL%2F1wCRAIP%2F1wCRAIT%2F1wCRAIX%2F1wCRAIb%2F1wCRAJr%2F7ACRAMf%2FrgCRAMr%2FrgCSAA%2F%2FrgCSABH%2FrgCSACT%2F1wCSADb%2FwwCSADj%2F7ACSADn%2F7ACSADr%2F1wCSADv%2F7ACSADz%2F7ACSAIH%2F1wCSAIL%2F1wCSAIP%2F1wCSAIT%2F1wCSAIX%2F1wCSAIb%2F1wCSAJr%2F7ACSAMf%2FrgCSAMr%2FrgCTAA%2F%2FrgCTABH%2FrgCTACT%2F1wCTADb%2FwwCTADj%2F7ACTADn%2F7ACTADr%2F1wCTADv%2F7ACTADz%2F7ACTAIH%2F1wCTAIL%2F1wCTAIP%2F1wCTAIT%2F1wCTAIX%2F1wCTAIb%2F1wCTAJr%2F7ACTAMf%2FrgCTAMr%2FrgCVAA%2F%2FrgCVABH%2FrgCVACT%2F1wCVADb%2FwwCVADj%2F7ACVADn%2F7ACVADr%2F1wCVADv%2F7ACVADz%2F7ACVAIH%2F1wCVAIL%2F1wCVAIP%2F1wCVAIT%2F1wCVAIX%2F1wCVAIb%2F1wCVAJr%2F7ACVAMf%2FrgCVAMr%2FrgCWAA%2F%2F1wCWABH%2F1wCWACT%2F7ACWAIH%2F7ACWAIL%2F7ACWAIP%2F7ACWAIT%2F7ACWAIX%2F7ACWAIb%2F7ACWAMf%2F1wCWAMr%2F1wCXAA%2F%2F1wCXABH%2F1wCXACT%2F7ACXAIH%2F7ACXAIL%2F7ACXAIP%2F7ACXAIT%2F7ACXAIX%2F7ACXAIb%2F7ACXAMf%2F1wCXAMr%2F1wCYAA%2F%2F1wCYABH%2F1wCYACT%2F7ACYAIH%2F7ACYAIL%2F7ACYAIP%2F7ACYAIT%2F7ACYAIX%2F7ACYAIb%2F7ACYAMf%2F1wCYAMr%2F1wCZAA%2F%2F1wCZABH%2F1wCZACT%2F7ACZAIH%2F7ACZAIL%2F7ACZAIP%2F7ACZAIT%2F7ACZAIX%2F7ACZAIb%2F7ACZAMf%2F1wCZAMr%2F1wCaAA%2F%2FhQCaABH%2FhQCaACIAKQCaACT%2FhQCaACb%2F1wCaACr%2F1wCaADH%2F1wCaADP%2F1wCaAEP%2FmgCaAEX%2FmgCaAEb%2FmgCaAEf%2FmgCaAEn%2F1wCaAE%2F%2FwwCaAFD%2FwwCaAFH%2FmgCaAFL%2FwwCaAFP%2FmgCaAFT%2FwwCaAFX%2FrgCaAFf%2FwwCaAFz%2F1wCaAIH%2FhQCaAIL%2FhQCaAIP%2FhQCaAIT%2FhQCaAIX%2FhQCaAIb%2FhQCaAIj%2F1wCaAI%2F%2F1wCaAJD%2F1wCaAJH%2F1wCaAJL%2F1wCaAJP%2F1wCaAJX%2F1wCaAJ3%2FmgCaAJ7%2FmgCaAJ%2F%2FmgCaAKD%2FmgCaAKH%2FmgCaAKL%2FmgCaAKP%2FmgCaAKT%2FmgCaAKX%2FmgCaAKb%2FmgCaAKf%2FmgCaAKj%2FmgCaAK%2F%2FmgCaALD%2FmgCaALH%2FmgCaALL%2FmgCaALP%2FmgCaALX%2FmgCaALb%2FwwCaALf%2FwwCaALj%2FwwCaALn%2FwwCaAL7%2F1wCaAL%2F%2FmgCaAMf%2FhQCaAMr%2FhQCbAA%2F%2B9gCbABH%2B9gCbACT%2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kCXp4S4Ro2Xh4OeaGRgR66PVOsU8bc6TR5%2FxTcn4IVMLOkXSWiXxkZQCbvKfmoAvQaKjO3EDKwkwqHChCDEM5loQRPd5ACBki1TjF772oaQhQbQ5C0lcWXPFOzrfsDGUXGrpxasbG4iab6eByaQkQfm0VFlP0ZsDkvvqCL6QXMUwCjdMx1ZOyKhTJ7a1GWAdOUcJ8RSejxNVyGs31OKMyRyBVoZFjqIkmKlLQ5eHMeEL4MkUf23cQ%2F1SgRCJ1dk4UdBT7OoyuNgLs0oCd8RnrEIb6QdMxT2QjD4zMrJkfgx5aDMcA4orsTtKCqWb%2FVeyceqa5OGSmB28YwH4rFbkQaLoUN8OQQYnD3w2eXpI4ScQfbCUZiJ4yMOIKLyyTc7BQ4uXUw6Ee6%2FxM%2B4Y67ngNBknxIPwuppgIhFcwJyr6EIj%2BLzNj%2FmfR2vhhRlx0BILZoAYruF0caWQ7YxO66UmeguDREAFHYuC7HJviRgVO6ruJH59h%2FC%2FPkgSle8xNzZJULLWq9JMDTE2fjGE146a1Us6PZDGYle6ldWRqn%2FpdpgHKNGrGIdkRK%2BKPETT9nKT6kLyDI8xd9A1FgWmXWRAIHwZ37WyZHOVyCadJEmMVz0MadMjDrPho%2BEIochkVC2xgGiwwsQ6DMv2P7UXqT4x7CdcYGId2BJQQa85EQKmCmwcRejQ9Bm4oATENFPkxPXILHpMPUyWTI5rjNOsIlmEeMbcOCEqInpXACYQ9DDxmFo9vcmsDblcMtg4tqBerNngkIKaFJmrQAPnq1dEzsMXcwjcHdfdCibcAxxA%2Bq%2Fj9m3LM%2FO7WJka4tSidVCjsvo2lQ%2F2ewyoYyXwAYyr2PlRoR5MpgVmSUIrM3PQxXPbgjBOaDQFIyFMJvx3Pc5RSYj12ySVF9fwFPQu2e2KWVoL9q3Ayv3IzpGHUdvdPdrNUdicjsTQ2ISy7QU3DrEytIjvbzJnAkmANXjAFERA0MUoPF3%2F5KFmW14bBNOhwircYgMqoDpUMcDtCmBE82QM2YtdjVLB4kBuKho%2FbcwQdeboqfQartuU3CsCf%2BcXkgYAqp%2F0Ee3RorAZt0AvvOCSI4JICIlGlsV0bsSid%2FNIEALAAzb6HAgyWHBps6xAOwkJIGcB82CxRQq4sJf3FzA70A%2BTRqcqjEMETCoez3mkPcpnoALs0ugJY8kQwrC%2BJE5ik3w9rzrvDRjAQnqgEVvdGrNwlanR0SOKWzxOJOvLJhcd8Cl4AshACUkv9czdMkJCVQSQhp6kp7StAlpVRpK0t0SW6LHeBJnE2QchB5Ccu8kxRghZXGIgZIiSj7gEKMJDClcnX6hgoqJMwiQDigIXg3ioFLCgDgjPtYHYpsF5EiA4kcnN18MZtOrY866dEQAb0FB34OGKHGZQjwW%2FWDHA60cYFaI%2FPjpzquUqdaYGcIq%2BmLez3WLFFCtNBN2QJcrlcoELgiPku5R5dSlJFaCEqEZle1AQzAKC%2B1SotMcBNyQUFuRHRF6OlimSBgjZeTBCwLyc6A%2BP%2FoFRchXTz5ADknYJHxzrJ5pGuIKRQISU6WyKTBBjD8WozmVYWIsto1AS5rxzKlvJu4E%2FvwOiKxRtCWsDM%2BeTHUrmwrCK5BIfMzGkD%2B0Fk5LzBs0jMYXktNDblB06LMNJ09U8pzSLmo14MS0OMjcdrZ31pyQqxJJpRImlSvfYAK8inkYU52QY2FPEVsjoWewpwhRp5yAuNpkqhdb7ku9Seefl2D0B8SMTFD90xi4CSOwwZy9IKkpMtI3FmFUg3%2FkFutpQGNc3pCR7gvC4sgwbupDu3DyEN%2BW6YGLNM21jpB49irxy9BSlHrVDlnihGKHwPrbVFtc%2Bh1rVQKZduxIyojccZIIcOCmhEnC7UkY68WXKQgLi2JCDQkQWJRQuk60hZp0D3rtCTINSeY9Ej2kIKYfGxwOs4j9qMM7fYZiipzgcf7TamnehqdhsiMiCawXnz4xAbyCkLAx5EGbo3Ax1u3dUIKnTxIaxwQTHehPl3V491H0%2BbC5zgpGz7Io%2BmjdhKlPJ01EeMpM7UsRJMi1nGjmJg35i6bQBAAxjO%2FENJubU2mg3ONySEoWklCwdABETcs7ck3jgiuU9pcKKpbgn%2B3YlzV1FzIkB6pmEDOSSyDfPPlQskznctFji0kpgZjW5RZe6x9kYT4KJcXg0bNiCyif%2BpZACCyRMmYsfiKmN9tSO65F0R2OO6ytlEhY5Sj6uRKfFxw0ijJaAx%2Fk3QgnAFSq27%2F2i4GEBA%2BUvTJKK%2F9eISNvG46Em5RZfjTYLdeD8kdXHyrwId%2FDQZUaMCY4gGbke2C8vfjgV%2FY9kkRQOJIn%2FxM9INZSpiBnqX0Q9GlQPpPKAyO5y%2BW5NMPSRdBCUlmuxl40ZfMCnf2Cp044uI9WLFtCi4YVxKjuRCOBWIb4XbIsGdbo4qtMQnNOQz4XDSui7W%2FN6l54qOynCqD3DpWQ%2BmpD7C40D8BZEWGJX3tlAaZBMj1yjvDYKwCJBa201u6nBKE5UE%2B7QSEhCwrXfbRZylAaAkplhBWX50dumrElePyNMRYUrC99UmcSSNgImhFhDI4BXjMtiqkgizUGCrZ8iwFxU6fQ8GEHCFdLewwxYWxgScAYMdMLmcZR6b7rZl95eQVDGVoUKcRMM1ixXQtXNkBETZkVVPg8LoSrdetHzkuM7DjZRHP02tCxA1fmkXKF3VzfN1pc1cv%2F8lbTIkkYpqKM9VOhp65ktYk%2BQ46myFWBapDfyWUCnsnI00QTBQmuFjMZTcd0V2NQ768Fhpby04k2IzNR1wKabuGJqYWwSly6ocMFGTeeI%2BejsWDYgEvr66QgqdcIbFYDNgsm0x9UHY6SCd5%2B7tpsLpKdvhahIDyYmEJQCqMqtCF6UlrE5GXRmbu%2Bvtm3BFSxI6ND6UxIE7GsGMgWqghXxSnaRJuGFveTcK5ZVSPJyjUxe1dKgI6kNF7EZhIZs8y8FVqwEfbM0Xk2ltORVDKZZM40SD3qQoQe0orJEKwPfZwm3YPqwixhUMOndis6MhbmfvLBKjC8sKKIZKbJk8L11oNkCQzCgvjhyyEiQSuJcgCQSG4Mocfgc0Hkwcjal1UNgP0CBPikYqBIk9tONv4kLtBswH07vUCjEaHiFGlLf8MgXKzSgjp2HolRRccAOh0ILHz9qlGgIFkwAnzHJRjWFhlA7ROwINyB5HFj59PRZHFor6voq7l23EPNRwdWhgawqbivLSjRA4htEYUFkjESu67icTg5S0aW1sOkCiIysfJ9UnIWevOOLGpepcBxy1wEhd2WI3AZg7sr9WBmHWyasxMcvY%2FiOmsLtHSWNUWEGk9hScMPShasUA1AcHOtRZlqMeQ0OzYS9vQvYUjOLrzP07BUAFikcJNMi7gIxEw4pL1G54TcmmmoAQ5s7TGWErJZ2Io4yQ0ljRYhL8H5e62oDtLF8aDpnIvZ5R3GWJyAugdiiJW9hQAVTsnCBHhwu7rkBlBX6r3b7ejEY0k5GGeyKv66v%2B6dg7mcJTrWHbtMywbedYqCQ0FPwoytmSWsL8WTtChZCKKzEF7vP6De4x2BJkkniMgSdWhbeBSLtJZR9CTHetK1xb34AYIJ37OegYIoPVbXgJ%2FqDQK%2BbfCtxQRVKQu77WzOoM6SGL7MaZwCGJVk46aImai9fmam%2BWpHG%2B0BtQPWUgZ7RIAlPq6lkECUhZQ2gqWkMYKcYMYaIc4gYCDFHYa2d1nzp3%2BJ1eCBay8IYZ0wQRKGAqvCuZ%2FUgbQPyllosq%2BXtfKIZOzmeJqRazpmmoP%2F76YfkjzV2NlXTDSBYB04SVlNQsFTbGPk1t%2FI4Jktu0XSgifO2ozFOiwd%2F0SssJDn0dn4xqk4GDTTKX73%2FwQyBLdqgJ%2BWx6AQaba3BA9CKEzjtQYIfAsiYamapq80LAamYjinlKXUkxdpIDk0puXUEYzSalfRibAeDAKpNiqQ0FTwoxuGYzRnisyTotdVTclis1LHRQCy%2FqqL8oUaQzWRxilq5Mi0IJGtMY02cGLD69vGjkj3p6pGePKI8bkBv5evq8SjjyU04vJR2cQXQwSJyoinDsUJHCQ50jrFTT7yRdbdYQMB3MYCb6uBzJ9ewhXYPAIZSXfeEQBZZ3GPN3Nbhh%2FwkvAJLXnQMdi5NYYZ5GHE400GS5rXkOZSQsdZgIbzRnF9ueLnsfQ47wHAsirITnTlkCcuWWIUhJSbpM3wWhXNHvt2xUsKKMpdBSbJnBMcihkoDqAd1Zml%2FR4yrzow1Q2A5G%2Bkzo%2FRhRxQS2lCSDRV8LlYLBOOoo1bF4jwJAwKMK1tWLHlu9i0j4Ig8qVm6wE1DxXwAwQwsaBWUg2pOOol2dHxyt6npwJEdLDDVYyRc2D0HbcbLUJQj8gPevQBUBOUHXPrsAPBERICpnYESeu2OHotpXQxRGlCCtLdIsu23MhZVEoJg8Qumj%2FUMMc34IBqTKLDTp76WzL%2FdMjCxK7MjhiGjeYAC%2Fkj%2FjY%2FRde7hpSM1xChrog6yZ7OWTuD56xBJnGFE%2BpT2ElSyCnJcwVzCjkqeNLfMEJqKW0G7OFIp0G%2B9mh50I9o8k1tpCY0xYqFNIALgIfc2me4n1bmJnRZ89oepgLPT0NTMLNZsvSCZAc3TXaNB07vail36%2FdBySis4m9%2FDR8izaLJW6bWCkVgm5T%2Bius3ZXq4xI%2BGnbveLbdRwF2mNtsrE0JjYc1AXknCOrLSu7Te%2Fr4dPYMCl5qtiHNTn%2BTPbh1jCBHH%2BdMJNhwNgs3nT%2BOhQoQ0vYif56BMG6WowAcHR3DjQolxLzyVekHj00PBAaW7IIAF1EF%2BuRIWyXjQMAs2chdpaKPNaB%2BkSezYt0%2BCA04sOg5vx8Fr7Ofa9sUv87h7SLAUFSzbetCCZ9pmyLt6l6%2FTzoA1%2FZBG9bIUVHLAbi%2FkdBFgYGyGwRQGBpkqCEg2ah9UD6EedEcEL3j4y0BQQCiExEnocA3SZboh%2Bepgd3YsOkHskZwPuQ5OoyA0fTA5AXrHcUOQF%2BzkJHIA7PwCDk1gGVmGUZSSoPhNf%2BTklauz98QofOlCIQ%2FtCD4dosHYPqtPCXB3agggQQIqQJsSkB%2Bqn0rkQ1toJjON%2FOtCIB9RYv3PqRA4C4U68ZMlZn6BdgEvi2ziU%2BTQ6NIw3ej%2BAtDwMGEZk7e2IjxUWKdAxyaw9OCwSmeADTPPleyk6UhGDNXQb%2B%2BW6Uk4q6F7%2Frg6WVTo82IoCxSIsFDrav4EPHphD3u4hR53WKVvYZUwNCCeM4PMBWzK%2BEfIthZOkuAwPo5C5jgoZgn6dUdvx5rIDmd58cXXdKNfw3l%2BwM2UjgrDJeQHhbD7HW2QDoZMCujgIUkk5Fg8VCsdyjOtnGRx8wgKRPZN5dR0zPUyfGZFVihbFRniXZFOZGKPnEQzU3AnD1KfR6weHW2XS6KbPJxUkOTZsAB9vTVp3Le1F8q5l%2BDMcLiIq78jxAImD2pGFw0VHfRatScGlK6SMu8leTmhUSMy8Uhdd6xBiH3Gdman4tjQGLboJfqz6fL2WKHTmrfsKZRYX6BTDjDldKMosaSTLdQS7oDisJNqAUhw1PfTlnacCO8vl8706Km1FROgLDmudzxg%2BEWTiArtHgLsRrAXYWdB0NmToNCJdKm0KWycZQqb%2BMw76Qy29iQ5up%2FX7oyw8QZ75kP5F6iJAJz6KCmqxz8fEa%2FxnsMYcIO%2FvEkGRuMckhr4rIeLrKaXnmIzlNLxbFspOphkcnJdnz%2FChp%2FVlpj2P7jJQmQRwGnltkTV5dbF9fE3%2FfxoSqTROgq9wFUlbuYzYcasE0ouzBo%2BdDCDzxKAfhbAZYxQiHrLzV2iVexnDX%2FQnT1fsT%2Fxuhu1ui5qIytgbGmRoQkeQooO8eJNNZsf0iALur8QxZFH0nCMnjerYQqG1pIfjyVZWxhVRznmmfLG00BcBWJE6hzQWRyFknuJnXuk8A5FRDCulwrWASSNoBtR%2BCtGdkPwYN2o7DOw%2FVGlCZPusRBFXODQdUM5zeHDIVuAJBLqbO%2Ff9Qua%2BpDqEPk230Sob9lEZ8BHiCorjVghuI0lI4JDgHGRDD%2FprQ84B1pVGkIpVUAHCG%2Biz3Bn3qm2AVrYcYWhock4jso5%2BJ7HfHVj4WMIQdGctq3psBCVVzupQOEioBGA2Bk%2BUILT7%2BVoX5mdxxA5fS42gISQVi%2FHTzrgMxu0fY6hE1ocUwwbsbWcezrY2n6S8%2F6cxXkOH4prpmPuFoikTzY7T85C4T2XYlbxLglSv2uLCgFv8Quk%2FwdesUdWPeHYIH0R729JIisN9Apdd4eB10aqwXrPt%2BSu9mA8k8n1sjMwnfsfF2j3jMUzXepSHmZ%2FBfqXvzgUNQQWOXO8YEuFBh4QTYCkOAPxywpYu1VxiDyJmKVcmJPGWk%2Fgc3Pov02StyYDahwmzw3E1gYC9wkupyWfDqDSUMpCTH5e5N8B%2F%2FlHiMuIkTNw4USHrJU67bjXGqNav6PBuQSoqTxc8avHoGmvqNtXzIaoyMIQIiiUHIM64cXieouplhNYln7qgc4wBVAYR104kO%2BCvKqsg4yIUlFNThVUAKZxZt1XA34h3TCUUiXVkZ0w8Hh2R0Z5L0b4LZvPd%2Fp1gi%2F07h8qfwHrByuSxglc9cI4QIg2oqvC%2Fqm0i7tjPLTgDhoWTAKDO2ONW5oe%2B%2FeKB9vZB8K6C25yCZ9RFVMnb6NRdRjyVK57CHHSkJBfnM2%2Fj4ODUwRkqrtBBCrDsDpt8jhZdXoy%2F1BCqw3sSGhgGGy0a5Jw6BP%2FTExoCmNFYjZl248A0osgPyGEmRA%2BfAsqPVaNAfytu0vuQJ7rk3J4kTDTR2AlCHJ5cls26opZM4w3jMULh2YXKpcqGBtuleAlOZnaZGbD6DHzMd6i2oFeJ8z9XYmalg1Szd%2FocZDc1C7Y6vcALJz2lYnTXiWEr2wawtoR4g3jvWUU2Ngjd1cewtFzEvM1NiHZPeLlIXFbBPawxNgMwwAlyNSuGF3zizVeOoC9bag1qRAQKQE%2FEZBWC2J8mnXAN2aTBboZ7HewnObE8CwROudZHmUM5oZ%2FUgd%2FJZQK8lvAm43uDRAbyW8gZ%2BZGq0EVerVGUKUSm%2FIdn8AQHdR4m7bue88WBwft9mSCeMOt1ncBwziOmJYI2ZR7ewNMPiCugmSsE4EyQ%2BQATJG6qORMGd4snEzc6B4shPIo4G1T7PgSm8PY5eUkPdF8JZ0VBtadbHXoJgnEhZQaODPj2gpODKJY5Yp4DOsLBFxWbvXN755KWylJm%2BoOd4zEL9Hpubuy2gyyfxh8oEfFutnYWdfB8PdESLWYvSqbElP9qo3u6KTmkhoacDauMNNjj0oy40DFV7Ql0aZj77xfGl7TJNHnIwgqOkenruYYNo6h724%2BzUQ7%2BvkCpZB%2BpGA562hYQiDxHVWOq0oDQl%2FQsoiY%2BcuI7iWq%2FZIBtHcXJ7kks%2Bh2fCNUPA82BzjnqktNts%2BRLdk1VSu%2BtqEn7QZCCsvEqk6FkfiOYkrsw092J8jsfIuEKypNjLxrKA9kiA19mxBD2suxQKCzwXGws7kEJvlhUiV9tArLIdZW0IORcxEzdzKmjtFhsjKy%2F44XYXdI5noQoRcvjZ1RMPACRqYg2V1%2BOwOepcOknRLLFdYgTkT5UApt%2FJhLM3jeFYprZV%2BZow2g8fP%2BU68hkKFWJj2yBbKqsrp25xkZX1DAjUw52IMYWaOhab8Kp05VrdNftqwRrymWF4OQSjbdfzmRZirK8FMJELEgER2PHjEAN9pGfLhCUiTJFbd5LBkOBMaxLr%2FA1SY9dXFz4RjzoU9ExfJCmx%2FI9FKEGT3n2cmzl2X42L3Jh%2BAbQq6sA%2BSs1kitoa4TAYgKHaoybHUDJ51oETdeI%2F9ThSmjWGkyLi5QAGWhL0BG1UsTyRGRJOldKBrYJeB8ljLJHfATWTEQBXBDnQexOHTB%2BUn44zExFE4vLytcu5NwpWrUxO%2F0ZICUGM7hGABXym0V6ZvDST0E370St9MIWQOTWngeoQHUTdCJUP04spMBMS8LSker9cReVQkULFDIZDFPrhTzBl6sed9wcZQTbL%2BBDqMyaN3RJPh%2Fanbx%2BIv%2BqgQdAa3M9Z5JmvYlh4qop%2BHo1F1W5gbOE9YKLgAnWytXElU4G8GtW47lhgFE6gaSs%2Bgs37sFvi0PPVvA5dnCBgILTwoKd%2F%2BDoL9F6inlM7H4rOTzD79KJgKlZO%2FZgt22UsKhrAaXU5ZcLrAglTVKJEmNJvORGN1vqrcfSMizfpsgbIe9zno%2BgBoKVXgIL%2FVI8dB1O5o%2FR3Suez%2FgD7M781ShjKpIIORM%2FnxG%2BjjhhgPwsn2IoXsPGPqYHXA63zJ07M2GPEykQwJBYLK808qYxuIew4frk52nhCsnCYmXiR6CuapvE1IwRB4%2FQftDbEn%2BAucIr1oxrLabRj9q4ae0%2BfXkHnteAJwXRbVkR0mctVSwEbqhJiMSZUp9DNbEDMmjX22m3ABpkrPQQTP3S1sib5pD2VRKRd%2BeNAjLYyT0hGrdjWJZy24OYXRoWQAIhGBZRxuBFMjjZQhpgrWo8SiFYbojcHO8V5DyscJpLTHyx9Fimassyo5U6WNtquUMYgccaHY5amgR3PQzq3ToNM5ABnoB9kuxsebqmYZm0R9qxJbFXCQ1UPyFIbxoUraTJFDpCk0Wk9GaYJKz%2F6oHwEP0Q14lMtlddQsOAU9zlYdMVHiT7RQP3XCmWYDcHCGbVRHGnHuwzScA0BaSBOGkz3lM8CArjrBsyEoV6Ys4qgDK3ykQQPZ3hCRGNXQTNNXbEb6tDiTDLKOyMzRhCFT%2BmAUmiYbV3YQVqFVp9dorv%2BTsLeCykS2b5yyu8AV7IS9cxcL8z4Kfwp%2BxJyYLv1OsxQCZwTB4a8BZ%2F5EdxTBJthApqyfd9u3ifr%2FWILTqq5VqgwMT9SOxbSGWLQJUUWCVi4k9tho9nEsbUh7U6NUsLmkYFXOhZ0kmamaJLRNJzSj%2Fqn4Mso6zb6iLLBXoaZ6AqeWCjHQm2lztnejYYM2eubnpBdKVLORZhudH3JF1waBJKA9%2BW8EhMj3Kzf0L4vi4k6RoHh3Z5YgmSZmk6ns4fjScjAoL8GoOECgqgYEBYUGFVO4FUv4%2FYtowhEmTs0vrvlD%2FCrisnoBNDAcUi%2FteY7OctFlmARQzjOItrrlKuPO6E2Ox93L4O%2F4DcgV%2FdZ7qR3VBwVQxP1GCieA4RIpweYJ5FoYrHxqRBdJjnqbsikA2Ictbb8vE1GYIo9dacK0REgDX4smy6GAkxlH1yCGGsk%2BtgiDhNKuKu3yNrMdxafmKTF632F8Vx4BNK57GvlFisrkjN9WDAtjsWA0ENT2e2nETUb%2Fn7qwhvGnrHuf5bX6Vh%2Fn3xffU3PeHdR%2BFA92i6ufT3AlyAREoNDh6chiMWTvjKjHDeRhOa9YkOQRq1vQXEMppAQVwHCuIcV2g5rBn6GmZZpTR7vnSD6ZmhdSl176gqKTXu5E%2BYbfL0adwNtHP7dT7t7b46DVZIkzaRJOM%2BS6KcrzYVg%2BT3wSRFRQashjfU18NutrKa%2F7PXbtuJvpIjbgPeqd%2BpjmRw6YKpnANFSQcpzTZgpSNJ6J7uiagAbir%2F8tNXJ%2FOsOnRh6iuIexxrmkIneAgz8QoLmiaJ8sLQrELVK2yn3wOHp57BAZJhDZjTBzyoRAuuZ4eoxHruY1pSb7qq79cIeAdOwin4GdgMeIMHeG%2BFZWYaiUQQyC5b50zKjYw97dFjAeY2I4Bnl105Iku1y0lMA1ZHolLx19uZnRdILcXKlZGQx%2FGdEqSsMRU1BIrFqRcV1qQOOHyxOLXEGcbRtAEsuAC2V4K3p5mFJ22IDWaEkk9ttf5Izb2LkD1MnrSwztXmmD%2FQi%2FEmVEFBfiKGmftsPwVaIoZanlKndMZsIBOskFYpDOq3QUs9aSbAAtL5Dbokus2G4%2FasthNMK5UQKCOhU97oaOYNGsTah%2BjfCKsZnTRn5TbhFX8ghg8CBYt%2FBjeYYYUrtUZ5jVij%2Fop7V5SsbA4mYTOwZ46hqdpbB6Qvq3AS2HHNkC15pTDIcDNGsMPXaBidXYPHc6PJAkRh29Vx8KcgX46LoUQBhRM%2B3SW6Opll%2FwgxxsPgKJKzr5QCmwkUxNbeg6Wj34SUnEzOemSuvS2OetRCO8Tyy%2BQbSKVJcqkia%2BGvDefFwMOmgnD7h81TUtMn%2BmRpyJJ349HhAnoWFTejhpYTL9G8N2nVg1qkXBeoS9Nw2fB27t7trm7d%2FQK7Cr4uoCeOQ7%2F8JfKT77KiDzLImESHw%2F0wf73QeHu74hxv7uihi4fTX%2BXEwAyQG3264dwv17aJ5N335Vt9sdrAXhPOAv8JFvzqyYXwfx8WYJaef1gMl98JRFyl5Mv5Uo%2FoVH5ww5OzLFsiTPDns7fS6EURSSWd%2F92BxMYQ8sBaH%2Bj%2BwthQPdVgDGpTfi%2BJQIWMD8xKqULliRH01rTeyF8x8q%2FGBEEEBrAJMPf25UQwi0b8tmqRXY7kIvNkzrkvRWLnxoGYEJsz8u4oOyMp8cHyaybb1HdMCaLApUE%2B%2F7xLIZGP6H9xuSEXp1zLIdjk5nBaMuV%2FyTDRRP8Y2ww5RO6d2D94o%2B6ucWIqUAvgHIHXhZsmDhjVLczmZ3ca0Cb3PpKwt2UtHVQ0BgFJsqqTsnzZPlKahRUkEu4qmkJt%2Bkqdae76ViWe3STan69yaF9%2BfESD2lcQshLHWVu4ovItXxO69bqC5p1nZLvI8NdQB9s9UNaJGlQ5mG947ipdDA0eTIw%2FA1zEdjWquIsQXXGIVEH0thC5M%2BW9pZe7IhAVnPJkYCCXN5a32HjN6nsvokEqRS44tGIs7s2LVTvcrHAF%2BRVmI8L4HUYk4x%2B67AxSMJKqCg8zrGOgvK9kNMdDrNiUtSWuHFpC8%2Fp5qIQrEo%2FH%2B1l%2F0cAwQ2nKmpWxKcMIuHY44Y6DlkpO48tRuUGBWT0FyHwSKO72Ud%2BtJUfdaZ4CWNijzZtlRa8%2BCkmO%2FEwHYfPZFU%2FhzjFWH7vnzHRMo%2BaF9u8qHSAiEkA2HjoNQPEwHsDKOt6hOoK3Ce%2F%2B%2F9boMWDa44I6FrQhdgS7OnNaSzwxWKZMcyHi6LN4WC6sSj0qm2PSOGBTvDs%2FGWJS6SwEN%2FULwpb4LQo9fYjUfSXRwZkynUazlSpvX9e%2BG2zor8l%2BYaMxSEomDdLHGcD6YVQPegTaA74H8%2BV4WvJkFUrjMLGLlvSZQWvi8%2FQA7yzQ8GPno%2F%2F5SJHRP%2FOqKObPCo81s%2F%2B6WgLqykYpGAgQZhVDEBPXWgU%2FWzFZjKUhSFInufPRiMAUULC6T11yL45ZrRoB4DzOyJShKXaAJIBS9wzLYIoCEcJKQW8GVCx4fihqJ6mshBUXSw3wWVj3grrHQlGNGhIDNNzsxQ3M%2BGWn6ASobIWC%2BLbYOC6UpahVO13Zs2zOzZC8z7FmA05JhUGyBsF4tsG0drcggIFzgg%2Fkpf3%2BCnAXKiMgIE8Jk%2FMhpkc8DUJEUzDSnWlQFme3d0sHZDrg7LavtsEX3cHwjCYA17pMTfx8Ajw9hHscN67hyo%2BRJQ4458RmPywXykkVcW688oVUrQhahpPRvTWPnuI0B%2BSkQu7dCyvLRyFYlC1LG1gRCIvn3rwQeINzZQC2KXq31FaR9UmVV2QeGVqBHjmE%2BVMd3b1fhCynD0pQNhCG6%2FWCDbKPyE7NRQzL3BzQAJ0g09aUzcQA6mUp9iZFK6Sbp%2FYbHjo%2B%2B7%2FWj8S4YNa%2BZdqAw1hDrKWFXv9%2BzaXpf8ZTDSbiqsxnwN%2FCzK5tPkOr4tRh2kY3Bn9JtalbIOI4b3F7F1vPQMfoDcdxMS8CW9m%2FNCW%2FHILTUVWQIPiD0j1A6bo8vsv6P1hCESl2abrSJWDrq5sSzUpwoxaCU9FtJyYH4QFMxDBpkkBR6kn0LMPO%2B5EJ7Z6bCiRoPedRZ%2FP0SSdii7ZnPAtVwwHUidcdyspwncz5uq6vvm4IEDbJVLUFCn%2FLvIHfooUBTkFO130FC7CmmcrKdgDJcid9mvVzsDSibOoXtIf9k6ABle3PmIxejodc4aob0QKS432srrCMndbfD454q52V01G4q913mC5HOsTzWF4h2No1av1VbcUgWAqyoZl%2B11PoFYnNv2HwAODeNRkHj%2B8SF1fcvVBu6MrehHAZK1Gm69ICcTKizykHgGFx7QdowTVAsYEF2tVc0Z6wLryz2FI1sc5By2znJAAmINndoJiB4sfPdPrTC8RnkW7KRCwxC6YvXg5ahMlQuMpoCSXjOlBy0Kij%2BbsCYPbGp8BdCBiLmLSAkEQRaieWo1SYvZIKJGj9Ur%2FeWHjiB7SOVdqMAVmpBvfRiebsFjger7DC%2B8kRFGtNrTrnnGD2GAJb8rQCWkUPYHhwXsjNBSkE6lGWUj5QNhK0DMNM2l%2BkXRZ0KLZaGsFSIdQz%2FHXDxf3%2FTE30%2BDgBKWGWdxElyLccJfEpjsnszECNoDGZpdwdRgCixeg9L4EPhH%2BRptvRMVRaahu4cySjS3P5wxAUCPkmn%2BrhyASpmiTaiDeggaIxYBmtLZDDhiWIJaBgzfCsAGUF1Q1SFZYyXDt9skCaxJsxK2Ms65dmdp5WAZyxik%2FzbrTQk5KmgxCg%2Ff45L0jywebOWUYFJQAJia7XzCV0x89rpp%2Ff3AVWhSPyTanqmik2SkD8A3Ml4NhIGLAjBXtPShwKYfi2eXtrDuKLk4QlSyTw1ftXgwqA2jUuopDl%2B5tfUWZNwBpEPXghzbBggYCw%2Fdhy0ntds2yeHCDKkF%2FYxQjNIL%2FF%2F37jLPHCKBO9ibwYCmuxImIo0ijV2Wbg3kSN2psoe8IsABv3RNFaF9uMyCtCYtqcD%2BqNOhwMlfARQUdJ2tUX%2BMNJqOwIciWalZsmEjt07tfa8ma4cji9sqz%2BQ9hWfmMoKEbIHPOQORbhQRHIsrTYlnVTNvcq1imqmmPDdVDkJgRcTgB8Sb6epCQVmFZe%2BjGDiNJQLWnfx%2BdrTKYjm0G8yH0ZAGMWzEJhUEQ4Maimgf%2Fbkvo8PLVBsZl152y5S8%2BHRDfZIMCbYZ1WDp4yrdchOJw8k6R%2B%2F2pHmydK4NIK2PHdFPHtoLmHxRDwLFb7eB%2BM4zNZcB9NrAgjVyzLM7xyYSY13ykWfIEEd2n5%2FiYp3ZdrCf7fL%2Ben%2BsIJu2W7E30MrAgZBD1rAAbZHPgeAMtKCg3NpSpYQUDWJu9bT3V7tOKv%2BNRiJc8JAKqqgCA%2FPNRBR7ChpiEulyQApMK1AyqcWnpSOmYh6yLiWkGJ2mklCSPIqN7UypWj3dGi5MvsHQ87MrB4VFgypJaFriaHivwcHIpmyi5LhNqtem4q0n8awM19Qk8BOS0EsqGscuuydYsIGsbT5GHnERUiMpKJl4ON7qjB4fEqlGN%2FhCky89232UQCiaeWpDYCJINXjT6xl4Gc7DxRCtgV0i1ma4RgWLsNtnEBRQFqZggCLiuyEydmFd7WlogpkCw5G1x4ft2psm3KAREwVwr1Gzl6RT7FDAqpVal34ewVm3VH4qn5mjGj%2BbYL1NgfLNeXDwtmYSpwzbruDKpTjOdgiIHDVQSb5%2FzBgSMbHLkxWWgghIh9QTFSDILixVwg0Eg1puooBiHAt7DzwJ7m8i8%2Fi%2BjHvKf0QDnnHVkVTIqMvIQImOrzCJwhSR7qYB5gSwL6aWL9hERHCZc4G2%2BJrpgHNB8eCCmcIWIQ6rSdyPCyftXkDlErUkHafHRlkOIjxGbAktz75bnh50dU7YHk%2BMz7wwstg6RFZb%2BTZuSOx1qqP5C66c0mptQmzIC2dlpte7vZrauAMm%2F7RfBYkGtXWGiaWTtwvAQiq2oD4YixPLXE2khB2FRaNRDTk%2B9sZ6K74Ia9VntCpN4BhJGJMT4Z5c5FhSepRCRWmBXqx%2BwhVZC4me4saDs2iNqXMuCl6iAZflH8fscC1sTsy4PHeC%2BXYuqMBMUun5YezKbRKmEPwuK%2BCLzijPEQgfhahQswBBLfg%2FGBgBiI4QwAqzJkkyYAWtjzSg2ILgMAgqxYfwERRo3zruBL9WOryUArSD8sQOcD7fvIODJxKFS615KFPsb68USBEPPj1orNzFY2xoTtNBVTyzBhPbhFH0PI5AtlJBl2aSgNPYzxYLw7XTDBDinmVoENwiGzmngrMo8OmnRP0Z0i0Zrln9DDFcnmOoBZjABaQIbPOJYZGqX%2BRCMlDDbElcjaROLDoualmUIQ88Kekk3iM4OQrADcxi3rJguS4MOIBIgKgXrjd1WkbCdqxJk%2F4efRIFsavZA7KvvJQqp3Iid5Z0NFc5aiMRzGN3vrpBzaMy4JYde3wr96PjN90AYOIbyp6T4zj8LoE66OGcX1Ef4Z3KoWLAUF4BTg7ug%2FAbkG5UNQXAMkQezujSHeir2uTThgd3gpyzDrbnEdDRH2W7U6PeRvBX1ZFMP5RM%2BZu6UUZZD8hDPHldVWntTCNk7To8IeOW9yn2wx0gmurwqC60AOde4r3ETi5pVMSDK8wxhoGAoEX9NLWHIR33VbrbMveii2jAJlrxwytTHbWNu8Y4N8vCCyZjAX%2FpcsfwXbLze2%2BD%2Bu33OGBoJyAAL3jn3RuEcdp5If8O%2Ba4NKWvxOTyDltG0IWoHhwVGe7dKkCWFT%2B%2Btm%2BhaBCikRUUMrMhYKZJKYoVuv%2FbsJzO8DwfVIInQq3g3BYypiz8baogH3r3GwqCwFtZnz4xMjAVOYnyOi5HWbFA8n0qz1OjSpHWFzpQOpvkNETZBGpxN8ybhtqV%2FDMUxd9uFZmBfKXMCn%2FSqkWJyKPnT6lq%2B4zBZni6fYRByJn6OK%2BOgPBGRAJluwGSk4wxjOOzyce%2FPKODwRlsgrVkdcsEiYrqYdXo0Er2GXi2GQZd0tNJT6c9pK1EEJG1zgDJBoTVuCXGAU8BKTvCO%2FcEQ1Wjk3Zzuy90JX4m3O5IlxVFhYkSUwuQB2up7jhvkm%2BbddRQu5F9s0XftGEJ9JSuSk%2BZachCbdU45fEqbugzTIUokwoAKvpUQF%2FCvLbWW5BNQFqFkJg2f30E%2F48StNe5QwBg8zz3YAJ82FZoXBxXSv4QDooDo79NixyglO9AembuBcx5Re3CwOKTHebOPhkmFC7wNaWtoBhFuV4AkEuJ0J%2B1pT0tLkvFVZaNzfhs%2FKd3%2BA9YsImlO4XK4vpCo%2FelHQi%2F9gkFg07xxnuXLt21unCIpDV%2BbbRxb7FC6nWYTsMFF8%2B1LUg4JFjVt3vqbuhHmDKbgQ4e%2BRGizRiO8ky05LQGMdL2IKLSNar0kNG7lHJMaXr5mLdG3nykgj6vB%2FKVijd1ARWkFEf3yiUw1v%2FWaQivVUpIDdSNrrKbjO5NPnxz6qTTGgYg03HgPhDrCFyYZTi3XQw3HXCva39mpLNFtz8AiEhxAJHpWX13gCTAwgm9YTvMeiqetdNQv6IU0hH0G%2BZManTqDLPjyrOse7WiiwOJCG%2BJ0pZYULhN8NILulmYYvmVcV2MjAfA39sGKqGdjpiPo86fecg65UPyXDIAOyOkCx5NQsLeD4gGVjTVDwOHWkbbBW0GeNjDkcSOn2Nq4cEssP54t9D749A7M1AIOBl0Fi0sSO5v3P7LCBrM6ZwFY6kp2FX6AcbGUdybnfChHPyu6WlRZ2Fwv9YM0RMI7kISRgR8HpQSJJOyTfXj%2F6gQKuihPtiUtlCQVPohUgzfezTg8o1b3n9pNZeco1QucaoXe40Fa5JYhqdTspFmxGtW9h5ezLFZs3j%2FN46f%2BS2rjYNC2JySXrnSAFhvAkz9a5L3pza8eYKHNoPrvBRESpxYPJdKVUxBE39nJ1chrAFpy4MMkf0qKgYALctGg1DQI1kIymyeS2AJNT4X240d3IFQb%2F0jQbaHJ2YRK8A%2Bls6WMhWmpCXYG5jqapGs5%2FeOJErxi2%2F2KWVHiPellTgh%2FfNl%2F2KYPKb7DUcAg%2BmCOPQFCiU9Mq%2FWLcU1xxC8aLePFZZlE%2BPCLzf7ey46INWRw2kcXySR9FDgByXzfxiNKwDFbUSMMhALPFSedyjEVM5442GZ4hTrsAEvZxIieSHGSgkwFh%2FnFNdrrFD4tBH4Il7fW6ur4J8Xaz7RW9jgtuPEXQsYk7gcMs2neu3zJwTyUerHKSh1iTBkj2YJh1SSOZL5pLuQbFFAvyO4k1Hxg2h99MTC6cTUkbONQIAnEfGsGkNFWRbuRyyaEZInM5pij73EA9rPIUfU4XoqQpHT9THZkW%2BoKFLvpyvTBMM69tN1Ydwv1LIEhHsC%2BueVG%2Bw%2BkyCPsvV3erRikcscHjZCkccx6VrBkBRusTDDd8847GA7p2Ucy0y0HdSRN6YIBciYa4vuXcAZbQAuSEmzw%2BH%2FAuOx%2BaH%2BtBL88H57D0MsqyiZxhOEQkF%2F8DR1d2hSPMj%2FsNOa5rxcUnBgH8ictv2J%2Bcb4BA4v3MCShdZ2vtK30vAwkobnEWh7rsSyhmos3WC93Gn9C4nnAd%2FPjMMtQfyDNZsOPd6XcAsnBE%2FmRHtHEyJMzJfZFLE9OvQa0i9kUmToJ0ZxknTgdl%2FXPV8xoh0K7wNHHsnBdvFH3sv52lU7UFteseLG%2FVanIvcwycVA7%2BBE1Ulyb20BvwUWZcMTKhaCcmY3ROpvonVMV4N7yBXTL7IDtHzQ4CCcqF66LjF3xUqgErKzolLyCG6Kb7irP%2FMVTCCwGRxfrPGpMMGvPLgJ881PHMNMIO09T5ig7AzZTX%2F5PLlwnJLDAPfuHynSGhV4tPqR3gJ4kg4c06c%2FF1AcjGytKm2Yb5jwMotF7vro4YDLWlnMIpmPg36NgAZsGA0W1spfLSue4xxat0Gdwd0lqDBOgIaMANykwwDKejt5YaNtJYIkrSgu0KjIg0pznY0SCd1qlC6R19g97UrWDoYJGlrvCE05J%2F5wkjpkre727p5PTRX5FGrSBIfJqhJE%2FIS876PaHFkx9pGTH3oaY3jJRvLX9Iy3Edoar7cFvJqyUlOhAEiOSAyYgVEGkzHdug%2BoRHIEOXAExMiTSKU9A6nmRC8mp8iYhwWdP2U%2F5EkFAdPrZw03YA3gSyNUtMZeh7dDCu8pF5x0VORCTgKp07ehy7NZqKTpIC4UJJ89lnboyAfy5OyXzXtuDRbtAFjZRSyGFTpFrXwkpjSLIQIG3N0Vj4BtzK3wdlkBJrO18MNsgseR4BysJilI0wI6ZahLhBFA0XBmV8d4LUzEcNVb0xbLjLTETYN8OEVqNxkt10W614dd1FlFFVTIgB7%2FBQQp1sWlNolpIu4ekxUTBV7NmxOFKEBmmN%2BnA7pvF78%2FRII5ZHA09OAiE%2F66MF6HQ%2BqVEJCHxwymukkNvzqHEh52dULPbVasfQMgTDyBZzx4007YiKdBuUauQOt27Gmy8ISclPmEUCIcuLbkb1mzQSqIa3iE0PJh7UMYQbkpe%2BhXjTJKdldyt2mVPwywoODGJtBV1lJTgMsuSQBlDMwhEKIfrvsxGQjHPCEfNfMAY2oxvyKcKPUbQySkKG6tj9AQyEW3Q5rpaDJ5Sns9ScLKeizPRbvWYAw4bXkrZdmB7CQopCH8NAmqbuciZChHN8lVGaDbCnmddnqO1PQ4ieMYfcSiBE5zzMz%2BJV%2F4eyzrzTEShvqSGzgWimkNxLvUj86iAwcZuIkqdB0VaIB7wncLRmzHkiUQpPBIXbDDLHBlq7vp9xwuC9AiNkIptAYlG7Biyuk8ILdynuUM1cHWJgeB%2BK3wBP%2FineogxkvBNNQ4AkW0hvpBOQGFfeptF2YTR75MexYDUy7Q%2F9uocGsx41O4IZhViw%2F2FvAEuGO5g2kyXBUijAggWM08bRhXg5ijgMwDJy40QeY%2FcQpUDZiIzmvskQpO5G1zyGZA8WByjIQU4jRoFJt56behxtHUUE%2Fom7Rj2psYXGmq3llVOCgGYKNMo4pzwntITtapDqjvQtqpjaJwjHmDzSVGLxMt12gEXAdLi%2FcaHSM3FPRGRf7dB7YC%2BcD2ho6oL2zGDCkjlf%2FDFoQVl8GS%2F56wur3rdV6ggtzZW60MRB3g%2BU1W8o8cvqIpMkctiGVMzXUFI7FacFLrgtdz4mTEr4aRAaQ2AFQaNeG7GX0yOJgMRYFziXdJf24kg%2FgBQIZMG%2FYcPEllRTVNoDYR6oSJ8wQNLuihfw81UpiKPm714bZX1KYjcXJdfclCUOOpvTxr9AAJevTY4HK%2FG7F3mUc3GOAKqh60zM0v34v%2BELyhJZqhkaMA8UMMOU90f8RKEJFj7EqepBVwsRiLbwMo1J2zrE2UYJnsgIAscDmjPjnzI8a719Wxp757wqmSJBjXowhc46QN4RwKIxqEE6E5218OeK7RfcpGjWG1jD7qND%2B%2FGTk6M56Ig4yMsU6LUW1EWE%2BfIYycVV1thldSlbP6ltdC01y3KUfkobkt2q01YYMmxpKRvh1Z48uNKzP%2FIoRIZ%2FF6buOymSnW8gICitpJjKWBscSb9JJKaWkvEkqinAJ2kowKoqkqZftRqfRQlLtKoqvTRDi2vg%2FRrPD%2Fd3a09J8JhGZlEkOM6znTsoMCsuvTmywxTCDhw5dd0GJOHCMPbsj3QLkTE3MInsZsimDQ3HkvthT7U9VA4s6G07sID0FW4SHJmRGwCl%2BMu4xf0ezqeXD2PtPDnwMPo86sbwDV%2B9PWcgFcARUVYm3hrFQrHcgMElFGbSM2A1zUYA3baWfheJp2AINmTJLuoyYD%2FOwA4a6V0ChBN97E8YtDBerUECv0u0TlxR5yhJCXvJxgyM73Bb6pyq0jTFJDZ4p1Am1SA6sh8nADd1hAcGBMfq4d%2FUfwnmBqe0Jun1n1LzrgKuZMAnxA3NtCN7Klf4BH%2B14B7ibBmgt0TGUafVzI4uKlpF7v8NmgNjg90D6QE3tbx8AjSAC%2BOA1YJvclyPKgT27QpIEgVYpbPYGBsnyCNrGz9XUsCHkW1QAHgL2STZk12QGqmvAB0NFteERkvBIH7INDsNW9KKaAYyDMdBEMzJiWaJHZALqDxQDWRntumSDPcplyFiI1oDpT8wbwe01AHhW6%2BvAUUBoGhY3CT2tgwehdPqU%2F4Q7ZLYvhRl%2FogOvR9O2%2BwkkPKW5vCTjD2fHRYXONCoIl4Jh1bZY0ZE1O94mMGn%2FdFSWBWzQ%2FVYk%2BGezi46RgiDv3EshoTmMSlioUK6MQEN8qeyK6FRninyX8ZPeUWjjbMJChn0n%2FyJvrq5bh5UcCAcBYSafTFg7p0jDgrXo2QWLb3WpSOET%2FHh4oSadBTvyDo10IufLzxiMLAnbZ1vcUmj3w7BQuIXjEZXifwukVxrGa9j%2BDXfpi12m1RbzYLg9J2wFergEwOxFyD0%2FJstNK06ZN2XdZSGWxcJODpQHOq4iKqjqkJUmPu1VczL5xTGUfCgLEYyNBCCbMBFT%2FcUP6pE%2FmujnHsSDeWxMbhrNilS5MyYR0nJyzanWXBeVcEQrRIhQeJA6Xt4f2eQESNeLwmC10WJVHqwx8SSyrtAAjpGjidcj1E2FYN0LObUcFQhafUKTiGmHWRHGsFCB%2BHEXgrzJEB5bp0QiF8ZHh11nFX8AboTD0PS4O1LqF8XBks2MpjsQnwKHF6HgaKCVLJtcr0XjqFMRGfKv8tmmykhLRzu%2BvqQ02%2BKpJBjaLt9ye1Ab%2BBbEBhy4EVdIJDrL2naV0o4wU8YZ2Lq04FG1mWCKC%2BUwkXOoAjneU%2FxHplMQo2cXUlrVNqJYczgYlaOEczVCs%2FOCgkyvLmTmdaBJc1iBLuKwmr6qtRnhowngsDxhzKFAi02tf8bmET8BO27ovJKF1plJwm3b0JpMh38%2BxsrXXg7U74QUM8ZCIMOpXujHntKdaRtsgyEZl5MClMVMMMZkZLNxH9%2Bb8fH6%2Bb8Lev30A9TuEVj9CqAdmwAAHBPbfOBFEATAPZ2CS0OH1Pj%2F0Q7PFUcC8hDrxESWdfgFRm%2B7vvWbkEppHB4T%2F1ApWnlTIqQwjcPl0VgS1yHSmD0OdsCVST8CQVwuiew1Y%2Bg3QGFjNMzwRB2DSsAk26cmA8lp2wIU4p93AUBiUHFGOxOajAqD7Gm6NezNDjYzwLOaSXRBYcWipTSONHjUDXCY4mMI8XoVCR%2FRrs%2FJLKXgEx%2BqkmeDlFOD1%2FyTQNDClRuiUyKYCllfMiQiyFkmuTz2vLsBNyRW%2Bxz%2B5FElFxWB28VjYIGZ0Yd%2B5wIjkcoMaggxswbT0pCmckRAErbRlIlcOGdBo4djTNO8FAgQ%2BlT6vPS60BwTRSUAM3ddkEAZiwtEyArrkiDRnS7LJ%2B2hwbzd2YDQagSgACpsovmjil5wfPuXq3GuH0CyE7FK3M4FgRaFoIkaodORrPx1%2BJpI9psyNYIFuJogZa0%2F1AhOWdlHQxdAgbwacsHqPZo8u%2FngAH2GmaTdhYnBfSDbBfh8CHq6Bx5bttP2%2BRdM%2BMAaYaZ0Y%2FADkbNCZuAyAVQa2OcXOeICmDn9Q%2FeFkDeFQg5MgHEDXq%2FtVjj%2Bjtd26nhaaolWxs1ixSUgOBwrDhRIGOLyOVk2%2FBc0UxvseQCO2pQ2i%2BKrfhu%2FWeBovNb5dJxQtJRUDv2mCwYVpNl2efQM9xQHnK0JwLYt%2FU0Wf%2BphiA4uw8G91slC832pmOTCAoZXohg1fewCZqLBhkOUBofBWpMPsqg7XEXgPfAlDo2U5WXjtFdS87PIqClCK5nW6adCeXPkUiTGx0emOIDQqw1yFYGHEVx20xKjJVYe0O8iLmnQr3FA9nSIQilUKtJ4ZAdcTm7%2BExseJauyqo30hs%2B1qSW211A1SFAOUgDlCGq7eTIcMAeyZkV1SQJ4j%2Fe1Smbq4HcjqgFbLAGLyKxlMDMgZavK5NAYH19Olz3la%2FQCTiVelFnU6O%2FGCvykqS%2FwZJDhKN9gBtSOp%2F1SP5VRgJcoVj%2Bkmf2wBgv4gjrgARBWiURYx8xENV3bEVUAAWWD3dYDKAIWk5opaCFCMR5ZjJExiCAw7gYiSZ2rkyTce4eNMY3lfGn%2B8p6%2BvBckGlKEXnA6Eota69OxDO9oOsJoy28BXOR0UoXNRaJD5ceKdlWMJlOFzDdZNpc05tkMGQtqeNF2lttZqNco1VtwXgRstLSQ6tSPChgqtGV5h2DcDReIQadaNRR6AsAYKL5gSFsCJMgfsaZ7DpKh8mg8Wz8V7H%2BgDnLuMxaWEIUPevIbClgap4dqmVWSrPgVYCzAoZHIa5z2Ocx1D%2FGvDOEqMOKLrMefWIbSWHZ6jbgA8qVBhYNHpx0P%2BjAgN5TB3haSifDcApp6yymEi6Ij%2FGsEpDYUgcHATJUYDUAmC1SCkJ4cuZXSAP2DEpQsGUjQmKJfJOvlC2x%2FpChkOyLW7KEoMYc5FDC4v2FGqSoRWiLsbPCiyg1U5yiHZVm1XLkHMMZL11%2Fyxyw0UnGig3MFdZklN5FI%2FqiT65T%2BjOXOdO7XbgWurOAZR6Cv9uu1cm5LjkXX4xi6mWn5r5NjBS0gTliHhMZI2WNqSiSphEtiCAwnafS11JhseDGHYQ5%2BbqWiAYiAv6Jsf79%2FVUs4cIl%2Bn6%2BWOjcgB%2F2l5TreoAV2717JzZbQIR0W1cl%2FdEqCy5kJ3ZSIHuU0vBoHooEpiHeQWVkkkOqRX27eD1FWw4BfO9CJDdKoSogQi3hAAwsPRFrN5RbX7bqLdBJ9JYMohWrgJKHSjVl1sy2xAG0E3sNyO0oCbSGOxCNBRRXTXenYKuwAoDLfnDcQaCwehUOIDiHAu5m5hMpKeKM4sIo3vxACakIxKoH2YWF2QM84e6F5C5hJU4g8uxuFOlAYnqtwxmHyNEawLW%2FPhoawJDrGAP0JYWHgAVUByo%2FbGdiv2T2EMg8gsS14%2FrAdzlOYazFE7w4OzxeKiWdm3nSOnQRRKXSlVo8HEAbBfyJMKqoq%2BSCcTSx5NDtbFwNlh8VhjGGDu7JG5%2FTAGAvniQSSUog0pNzTim8Owc6QTuSKSTXlQqwV3eiEnklS3LeSXYPXGK2VgeZBqNcHG6tZHvA3vTINhV0ELuQdp3t1y9%2BogD8Kk%2FW7QoRN1UWPqM4%2BxdygkFDPLoTaumKReKiLWoPHOfY54m3qPx4c%2B4pgY3MRKKbljG8w4wvz8pxk3AqKsy4GMAkAtmRjRMsCxbb4Q2Ds0Ia9ci8cMT6DmsJG00XaHCIS%2Bo3F8YVVeikw13w%2BOEDaCYYhC0ZE54kA4jpjruBr5STWeqQG6M74HHL6TZ3lXrd99ZX%2B%2B7LhNatQaZosuxEf5yRA15S9gPeHskBIq3Gcw81AGb9%2FO53DYi%2F5CsQ51EmEh8Rkg4vOciClpy4d04eYsfr6fyQkBmtD%2BP8sNh6e%2BXYHJXT%2FlkXxT4KXU5F2sGxYyzfniMMQkb9OjDN2C8tRRgTyL7GwozH14PrEUZc6oz05Emne3Ts5EG7WolDmU8OB1LDG3VrpQxp%2BpT0KYV5dGtknU64JhabdqcVQbGZiAxQAnvN1u70y1AnmvOSPgLI6uB4AuDGhmAu3ATkJSw7OtS%2F2ToPjqkaq62%2F7WFG8advGlRRqxB9diP07JrXowKR9tpRa%2BjGJ91zxNTT1h8I2PcSfoUPtd7NejVoH03EUcqSBuFZPkMZhegHyo2ZAITovmm3zAIdGFWxoNNORiMRShgwdYwFzkPw5PA4a5MIIQpmq%2Bnsp3YMuXt%2FGkXxLx%2FP6%2BZJS0lFyz4MunC3eWSGE8xlCQrKvhKUPXr0hjpAN9ZK4PfEDrPMfMbGNWcHDzjA7ngMxTPnT7GMHar%2BgMQQ3NwHCv4zH4BIMYvzsdiERi6gebRmerTsVwZJTRsL8dkZgxgRxmpbgRcud%2BYlCIRpPwHShlUSwuipZnx9QCsEWziVazdDeKSYU5CF7UVPAhLer3CgJOQXl%2Fzh575R5rsrmRnKAzq4POFdgbYBuEviM4%2BLVC15ssLNFghbTtHWerS1hDt5s4qkLUha%2FqpZXhWh1C6lTQAqCNQnaDjS7UGFBC6wTu8yFnKJnExCnAs3Ok9yj5KpfZESQ4lTy5pTGTnkAUpxI%2ByjEldJfSo4y0QhG4i4IwkRFGcjWY8%2BEzgYYJUK7BXQksLxAww%2FYYWBMhJILB9e8ePEJ4OP7z%2B4%2FwOQDl64iOYDp26DaONPxpKtBxq%2FaTzRGarm3VkPYTLJKx6Z%2FMw2YbBGseJhPMwhhNswrIkyvV2BYzrvZbxLpKwcWJhYmFtVZ%2BlPEq91FzVp1HlQY1bZVLqeNR9SAUn6n0E28k%2FUuGkNpP1DBI5ch%2FEehZfjUQ9aE41NhETExoPT2gGQz0IhWJbEOvTQ4wgcXCHHFBhewYUiFHuhRSAUVmEHeCRQHQkXGFwkAgyzREJCVN7TRnTon36Zw3tPhx4EALwNdwDv%2BJ41YSP4B2CQqz0EFgARZ4ESgBHQgROwAVn9GTI%2BHYexTUevLUeta4%2FDqKrbMVS%2BYqb8hUwYCrlgKtmAq1YCrFgKrd4qpXiqZcKn1oqdWipjYKpWwVPVYqW6xUpVipKqFR3QKjagVEtAqHpxUMTitsnFaJOKx2cVhswq35RVpyiq9lFVNIKnOQVMkgqtYxVNxiqQjFS7GKlSIVIsQqPIhUWwioigFQ%2B%2BKkN8VHr49HDw9Ebo9EDo9DTo9Crg9BDg9%2FWx7gWx7YWwlobYrOGxWPNisAaAHEyALpkAVDIAeWAArsABVXACYuAD5cAF6wAKFQAQqgAbVAAsoAAlQAUaYAfkwAvogBWQACOgAD9AAHSAAKT4GUdMiOvFngBTwCn2AZ7Dv6B6k%2F90B8%2ByRnkV144AIBoAMTQATGgAjNAA4YABgwABZgB%2FmQCwyAVlwCguASlwCEuAQFwB4uAMlwBYuAJlQAUVAAhUD2KgdpUDaJgaRMDFJgX5MC1JgWJEAokQCWRAHxEAWkQBMRADpEAMkQAYROAEecC484DRpwBDTnwNOdw05tjTmiNOYwtswhYFwLA7BYG4LA2BYGOLAwRYFuLAsxYFQJAohIEyJAMwkAwiQC0JAJgkAeiQBkJAFokAPCQA0JABwcD4Dgc4cDdDgaYcDIDgYgUC6CgWgUClCgUYUAVBQBOFAEYMALgwAgDA9QYAdIn8AZzeBB2L5EcWrenUT1KXienEsuJJ7x5U8XlTjc1NVzUyXFTGb1LlpUtWlTDIjqwE4LsagowoCi2gJLKAkpoBgJQNpAIhNqaEoneI6kiiqQ6Go%2Fn6j0cS%2Ba2gEU8gIHJ%2BBwfgZX4GL%2BBd%2FgW34FZ%2BBS%2FgUH4FN6BTegTvoEv6BJegRnYEF2A79gOvYDl2BdEjCkqkGtwXp0LNToIskOTXzh%2FF062yJ7AAAAEDAWAAABWhJ%2BKPEIJgBFxMVP7w2QJBGHASQnOBKXKFIdUK4igKA9IEaYJg%3Bsrc%3Adata%3Aapplication%2Fvnd%2Ems%2Dfontobject%3Bbase64%2Cn04AAEFNAAACAAIABAAAAAAABQAAAAAAAAABAJABAAAEAExQAAAAAAAAAAIAAAAAAAAAAAEAAAAAAAAAJxJ%2FLAAAAAAAAAAAAAAAAAAAAAAAACgARwBMAFkAUABIAEkAQwBPAE4AUwAgAEgAYQBsAGYAbABpAG4AZwBzAAAADgBSAGUAZwB1AGwAYQByAAAAeABWAGUAcgBzAGkAbwBuACAAMQAuADAAMAA5ADsAUABTACAAMAAwADEALgAwADAAOQA7AGgAbwB0AGMAbwBuAHYAIAAxAC4AMAAuADcAMAA7AG0AYQBrAGUAbwB0AGYALgBsAGkAYgAyAC4ANQAuADUAOAAzADIAOQAAADgARwBMAFkAUABIAEkAQwBPAE4AUwAgAEgAYQBsAGYAbABpAG4AZwBzACAAUgBlAGcAdQBsAGEAcgAAAAAAQlNHUAAAAAAAAAAAAAAAAAAAAAADAKncAE0TAE0ZAEbuFM3pjM%2FSEdmjKHUbyow8ATBE40IvWA3vTu8LiABDQ%2BpexwUMcm1SMnNryctQSiI1K5ZnbOlXKmnVV5YvRe6RnNMFNCOs1KNVpn6yZhCJkRtVRNzEufeIq7HgSrcx4S8h%2Fv4vnrrKc6oCNxmSk2uKlZQHBii6iKFoH0746ThvkO1kJHlxjrkxs%2BLWORaDQBEtiYJIR5IB9Bi1UyL4Rmr0BNigNkMzlKQmnofBHviqVzUxwdMb3NdCn69hy%2BpRYVKGVS%2F1tnsqv4LL7wCCPZZAZPT4aCShHjHJVNuXbmMrY5LeQaGnvAkXlVrJgKRAUdFjrWEah9XebPeQMj7KS7DIBAFt8ycgC5PLGUOHSE3ErGZCiViNLL5ZARfywnCoZaKQCu6NuFX42AEeKtKUGnr%2FCm2Cy8tpFhBPMW5Fxi4Qm4TkDWh4IWFDClhU2hRWosUWqcKLlgyXB%2BlSHaWaHiWlBAR8SeSgSPCQxdVQgzUixWKSTrIQEbU94viDctkvX%2BVSjJuUmV8L4CXShI11esnp0pjWNZIyxKHS4wVQ2ime1P4RnhvGw0aDN1OLAXGERsB7buFpFGGBAre4QEQR0HOIO5oYH305G%2BKspT%2FFupEGGafCCwxSe6ZUa%2B073rXHnNdVXE6eWvibUS27XtRzkH838mYLMBmYysZTM0EM3A1fbpCBYFccN1B%2FEnCYu%2FTgCGmr7bMh8GfYL%2BBfcLvB0gRagC09w9elfldaIy%2FhNCBLRgBgtCC7jAF63wLSMAfbfAlEggYU0bUA7ACCJmTDpEmJtI78w4%2FBO7dN7JR7J7ZvbYaUbaILSQsRBiF3HGk5fEg6p9unwLvn98r%2BvnsV%2B372uf1xBLq4qU%2F45fTuqaAP%2BpssmCCCTF0mhEow8ZXZOS8D7Q85JsxZ%2BAzok7B7O%2Ff6J8AzYBySZQB%2FQHYUSA%2BEeQhEWiS6AIQzgcsDiER4MjgMBAWDV4AgQ3g1eBgIdweCQmCjJEMkJ%2BPKRWyFHHmg1Wi%2F6xzUgA0LREoKJChwnQa9B%2B5RQZRB3IlBlkAnxyQNaANwHMowzlYSMCBgnbpzvqpl0iTJNCQidDI9ZrSYNIRBhHtUa5YHMHxyGEik9hDE0AKj72AbTCaxtHPUaKZdAZSnQTyjGqGLsmBStCejApUhg4uBMU6mATujEl%2BKdDPbI6Ag4vLr%2BhjY6lbjBeoLKnZl0UZgRX8gTySOeynZVz1wOq7e1hFGYIq%2BMhrGxDLak0PrwYzSXtcuyhXEhwOYofiW%2BEcI%2Fjw8P6IY6ed%2BetAbuqKp5QIapT77LnAe505lMuqL79a0ut4rWexzFttsOsLDy7zvtQzcq3U1qabe7tB0wHWVXji%2BzDbo8x8HyIRUbXnwUcklFv51fvTymiV%2BMXLSmGH9d9%2BaXpD5X6lao41anWGig7IwIdnoBY2ht%2FpO9mClLo4NdXHAsefqWUKlXJkbqPOFhMoR4aiA1BXqhRNbB2Xwi%2B7u%2FjpAoOpKJ0UX24EsrzMfHXViakCNcKjBxuQX8BO0ZqjJ3xXzf%2B61t2VXOSgJ8xu65QKgtN6FibPmPYsXbJRHHqbgATcSZxBqGiDiU4NNNsYBsKD0MIP%2FOfKnlk%2FLkaid%2FO2NbKeuQrwOB2Gq3YHyr6ALgzym5wIBnsdC1ZkoBFZSQXChZvlesPqvK2c5oHHT3Q65jYpNxnQcGF0EHbvYqoFw60WNlXIHQF2HQB7zD6lWjZ9rVqUKBXUT6hrkZOle0RFYII0V5ZYGl1JAP0Ud1fZZMvSomBzJ710j4Me8mjQDwEre5Uv2wQfk1ifDwb5ksuJQQ3xt423lbuQjvoIQByQrNDh1JxGFkOdlJvu%2FgFtuW0wR4cgd%2BZKesSV7QkNE2kw6AV4hoIuC02LGmTomyf8PiO6CZzOTLTPQ%2BHW06H%2Btx%2BbQ8LmDYg1pTFrp2oJXgkZTyeRJZM0C8aE2LpFrNVDuhARsN543%2FFV6klQ6Tv1OoZGXLv0igKrl%2FCmJxRmX7JJbJ998VSIPQRyDBICzl4JJlYHbdql30NvYcOuZ7a10uWRrgoieOdgIm4rlq6vNOQBuqESLbXG5lzdJGHw2m0sDYmODXbYGTfSTGRKpssTO95fothJCjUGQgEL4yKoGAF%2F0SrpUDNn8CBgBcSDQByAeNkCXp4S4Ro2Xh4OeaGRgR66PVOsU8bc6TR5%2FxTcn4IVMLOkXSWiXxkZQCbvKfmoAvQaKjO3EDKwkwqHChCDEM5loQRPd5ACBki1TjF772oaQhQbQ5C0lcWXPFOzrfsDGUXGrpxasbG4iab6eByaQkQfm0VFlP0ZsDkvvqCL6QXMUwCjdMx1ZOyKhTJ7a1GWAdOUcJ8RSejxNVyGs31OKMyRyBVoZFjqIkmKlLQ5eHMeEL4MkUf23cQ%2F1SgRCJ1dk4UdBT7OoyuNgLs0oCd8RnrEIb6QdMxT2QjD4zMrJkfgx5aDMcA4orsTtKCqWb%2FVeyceqa5OGSmB28YwH4rFbkQaLoUN8OQQYnD3w2eXpI4ScQfbCUZiJ4yMOIKLyyTc7BQ4uXUw6Ee6%2FxM%2B4Y67ngNBknxIPwuppgIhFcwJyr6EIj%2BLzNj%2FmfR2vhhRlx0BILZoAYruF0caWQ7YxO66UmeguDREAFHYuC7HJviRgVO6ruJH59h%2FC%2FPkgSle8xNzZJULLWq9JMDTE2fjGE146a1Us6PZDGYle6ldWRqn%2FpdpgHKNGrGIdkRK%2BKPETT9nKT6kLyDI8xd9A1FgWmXWRAIHwZ37WyZHOVyCadJEmMVz0MadMjDrPho%2BEIochkVC2xgGiwwsQ6DMv2P7UXqT4x7CdcYGId2BJQQa85EQKmCmwcRejQ9Bm4oATENFPkxPXILHpMPUyWTI5rjNOsIlmEeMbcOCEqInpXACYQ9DDxmFo9vcmsDblcMtg4tqBerNngkIKaFJmrQAPnq1dEzsMXcwjcHdfdCibcAxxA%2Bq%2Fj9m3LM%2FO7WJka4tSidVCjsvo2lQ%2F2ewyoYyXwAYyr2PlRoR5MpgVmSUIrM3PQxXPbgjBOaDQFIyFMJvx3Pc5RSYj12ySVF9fwFPQu2e2KWVoL9q3Ayv3IzpGHUdvdPdrNUdicjsTQ2ISy7QU3DrEytIjvbzJnAkmANXjAFERA0MUoPF3%2F5KFmW14bBNOhwircYgMqoDpUMcDtCmBE82QM2YtdjVLB4kBuKho%2FbcwQdeboqfQartuU3CsCf%2BcXkgYAqp%2F0Ee3RorAZt0AvvOCSI4JICIlGlsV0bsSid%2FNIEALAAzb6HAgyWHBps6xAOwkJIGcB82CxRQq4sJf3FzA70A%2BTRqcqjEMETCoez3mkPcpnoALs0ugJY8kQwrC%2BJE5ik3w9rzrvDRjAQnqgEVvdGrNwlanR0SOKWzxOJOvLJhcd8Cl4AshACUkv9czdMkJCVQSQhp6kp7StAlpVRpK0t0SW6LHeBJnE2QchB5Ccu8kxRghZXGIgZIiSj7gEKMJDClcnX6hgoqJMwiQDigIXg3ioFLCgDgjPtYHYpsF5EiA4kcnN18MZtOrY866dEQAb0FB34OGKHGZQjwW%2FWDHA60cYFaI%2FPjpzquUqdaYGcIq%2BmLez3WLFFCtNBN2QJcrlcoELgiPku5R5dSlJFaCEqEZle1AQzAKC%2B1SotMcBNyQUFuRHRF6OlimSBgjZeTBCwLyc6A%2BP%2FoFRchXTz5ADknYJHxzrJ5pGuIKRQISU6WyKTBBjD8WozmVYWIsto1AS5rxzKlvJu4E%2FvwOiKxRtCWsDM%2BeTHUrmwrCK5BIfMzGkD%2B0Fk5LzBs0jMYXktNDblB06LMNJ09U8pzSLmo14MS0OMjcdrZ31pyQqxJJpRImlSvfYAK8inkYU52QY2FPEVsjoWewpwhRp5yAuNpkqhdb7ku9Seefl2D0B8SMTFD90xi4CSOwwZy9IKkpMtI3FmFUg3%2FkFutpQGNc3pCR7gvC4sgwbupDu3DyEN%2BW6YGLNM21jpB49irxy9BSlHrVDlnihGKHwPrbVFtc%2Bh1rVQKZduxIyojccZIIcOCmhEnC7UkY68WXKQgLi2JCDQkQWJRQuk60hZp0D3rtCTINSeY9Ej2kIKYfGxwOs4j9qMM7fYZiipzgcf7TamnehqdhsiMiCawXnz4xAbyCkLAx5EGbo3Ax1u3dUIKnTxIaxwQTHehPl3V491H0%2BbC5zgpGz7Io%2BmjdhKlPJ01EeMpM7UsRJMi1nGjmJg35i6bQBAAxjO%2FENJubU2mg3ONySEoWklCwdABETcs7ck3jgiuU9pcKKpbgn%2B3YlzV1FzIkB6pmEDOSSyDfPPlQskznctFji0kpgZjW5RZe6x9kYT4KJcXg0bNiCyif%2BpZACCyRMmYsfiKmN9tSO65F0R2OO6ytlEhY5Sj6uRKfFxw0ijJaAx%2Fk3QgnAFSq27%2F2i4GEBA%2BUvTJKK%2F9eISNvG46Em5RZfjTYLdeD8kdXHyrwId%2FDQZUaMCY4gGbke2C8vfjgV%2FY9kkRQOJIn%2FxM9INZSpiBnqX0Q9GlQPpPKAyO5y%2BW5NMPSRdBCUlmuxl40ZfMCnf2Cp044uI9WLFtCi4YVxKjuRCOBWIb4XbIsGdbo4qtMQnNOQz4XDSui7W%2FN6l54qOynCqD3DpWQ%2BmpD7C40D8BZEWGJX3tlAaZBMj1yjvDYKwCJBa201u6nBKE5UE%2B7QSEhCwrXfbRZylAaAkplhBWX50dumrElePyNMRYUrC99UmcSSNgImhFhDI4BXjMtiqkgizUGCrZ8iwFxU6fQ8GEHCFdLewwxYWxgScAYMdMLmcZR6b7rZl95eQVDGVoUKcRMM1ixXQtXNkBETZkVVPg8LoSrdetHzkuM7DjZRHP02tCxA1fmkXKF3VzfN1pc1cv%2F8lbTIkkYpqKM9VOhp65ktYk%2BQ46myFWBapDfyWUCnsnI00QTBQmuFjMZTcd0V2NQ768Fhpby04k2IzNR1wKabuGJqYWwSly6ocMFGTeeI%2BejsWDYgEvr66QgqdcIbFYDNgsm0x9UHY6SCd5%2B7tpsLpKdvhahIDyYmEJQCqMqtCF6UlrE5GXRmbu%2Bvtm3BFSxI6ND6UxIE7GsGMgWqghXxSnaRJuGFveTcK5ZVSPJyjUxe1dKgI6kNF7EZhIZs8y8FVqwEfbM0Xk2ltORVDKZZM40SD3qQoQe0orJEKwPfZwm3YPqwixhUMOndis6MhbmfvLBKjC8sKKIZKbJk8L11oNkCQzCgvjhyyEiQSuJcgCQSG4Mocfgc0Hkwcjal1UNgP0CBPikYqBIk9tONv4kLtBswH07vUCjEaHiFGlLf8MgXKzSgjp2HolRRccAOh0ILHz9qlGgIFkwAnzHJRjWFhlA7ROwINyB5HFj59PRZHFor6voq7l23EPNRwdWhgawqbivLSjRA4htEYUFkjESu67icTg5S0aW1sOkCiIysfJ9UnIWevOOLGpepcBxy1wEhd2WI3AZg7sr9WBmHWyasxMcvY%2FiOmsLtHSWNUWEGk9hScMPShasUA1AcHOtRZlqMeQ0OzYS9vQvYUjOLrzP07BUAFikcJNMi7gIxEw4pL1G54TcmmmoAQ5s7TGWErJZ2Io4yQ0ljRYhL8H5e62oDtLF8aDpnIvZ5R3GWJyAugdiiJW9hQAVTsnCBHhwu7rkBlBX6r3b7ejEY0k5GGeyKv66v%2B6dg7mcJTrWHbtMywbedYqCQ0FPwoytmSWsL8WTtChZCKKzEF7vP6De4x2BJkkniMgSdWhbeBSLtJZR9CTHetK1xb34AYIJ37OegYIoPVbXgJ%2FqDQK%2BbfCtxQRVKQu77WzOoM6SGL7MaZwCGJVk46aImai9fmam%2BWpHG%2B0BtQPWUgZ7RIAlPq6lkECUhZQ2gqWkMYKcYMYaIc4gYCDFHYa2d1nzp3%2BJ1eCBay8IYZ0wQRKGAqvCuZ%2FUgbQPyllosq%2BXtfKIZOzmeJqRazpmmoP%2F76YfkjzV2NlXTDSBYB04SVlNQsFTbGPk1t%2FI4Jktu0XSgifO2ozFOiwd%2F0SssJDn0dn4xqk4GDTTKX73%2FwQyBLdqgJ%2BWx6AQaba3BA9CKEzjtQYIfAsiYamapq80LAamYjinlKXUkxdpIDk0puXUEYzSalfRibAeDAKpNiqQ0FTwoxuGYzRnisyTotdVTclis1LHRQCy%2FqqL8oUaQzWRxilq5Mi0IJGtMY02cGLD69vGjkj3p6pGePKI8bkBv5evq8SjjyU04vJR2cQXQwSJyoinDsUJHCQ50jrFTT7yRdbdYQMB3MYCb6uBzJ9ewhXYPAIZSXfeEQBZZ3GPN3Nbhh%2FwkvAJLXnQMdi5NYYZ5GHE400GS5rXkOZSQsdZgIbzRnF9ueLnsfQ47wHAsirITnTlkCcuWWIUhJSbpM3wWhXNHvt2xUsKKMpdBSbJnBMcihkoDqAd1Zml%2FR4yrzow1Q2A5G%2Bkzo%2FRhRxQS2lCSDRV8LlYLBOOoo1bF4jwJAwKMK1tWLHlu9i0j4Ig8qVm6wE1DxXwAwQwsaBWUg2pOOol2dHxyt6npwJEdLDDVYyRc2D0HbcbLUJQj8gPevQBUBOUHXPrsAPBERICpnYESeu2OHotpXQxRGlCCtLdIsu23MhZVEoJg8Qumj%2FUMMc34IBqTKLDTp76WzL%2FdMjCxK7MjhiGjeYAC%2Fkj%2FjY%2FRde7hpSM1xChrog6yZ7OWTuD56xBJnGFE%2BpT2ElSyCnJcwVzCjkqeNLfMEJqKW0G7OFIp0G%2B9mh50I9o8k1tpCY0xYqFNIALgIfc2me4n1bmJnRZ89oepgLPT0NTMLNZsvSCZAc3TXaNB07vail36%2FdBySis4m9%2FDR8izaLJW6bWCkVgm5T%2Bius3ZXq4xI%2BGnbveLbdRwF2mNtsrE0JjYc1AXknCOrLSu7Te%2Fr4dPYMCl5qtiHNTn%2BTPbh1jCBHH%2BdMJNhwNgs3nT%2BOhQoQ0vYif56BMG6WowAcHR3DjQolxLzyVekHj00PBAaW7IIAF1EF%2BuRIWyXjQMAs2chdpaKPNaB%2BkSezYt0%2BCA04sOg5vx8Fr7Ofa9sUv87h7SLAUFSzbetCCZ9pmyLt6l6%2FTzoA1%2FZBG9bIUVHLAbi%2FkdBFgYGyGwRQGBpkqCEg2ah9UD6EedEcEL3j4y0BQQCiExEnocA3SZboh%2Bepgd3YsOkHskZwPuQ5OoyA0fTA5AXrHcUOQF%2BzkJHIA7PwCDk1gGVmGUZSSoPhNf%2BTklauz98QofOlCIQ%2FtCD4dosHYPqtPCXB3agggQQIqQJsSkB%2Bqn0rkQ1toJjON%2FOtCIB9RYv3PqRA4C4U68ZMlZn6BdgEvi2ziU%2BTQ6NIw3ej%2BAtDwMGEZk7e2IjxUWKdAxyaw9OCwSmeADTPPleyk6UhGDNXQb%2B%2BW6Uk4q6F7%2Frg6WVTo82IoCxSIsFDrav4EPHphD3u4hR53WKVvYZUwNCCeM4PMBWzK%2BEfIthZOkuAwPo5C5jgoZgn6dUdvx5rIDmd58cXXdKNfw3l%2BwM2UjgrDJeQHhbD7HW2QDoZMCujgIUkk5Fg8VCsdyjOtnGRx8wgKRPZN5dR0zPUyfGZFVihbFRniXZFOZGKPnEQzU3AnD1KfR6weHW2XS6KbPJxUkOTZsAB9vTVp3Le1F8q5l%2BDMcLiIq78jxAImD2pGFw0VHfRatScGlK6SMu8leTmhUSMy8Uhdd6xBiH3Gdman4tjQGLboJfqz6fL2WKHTmrfsKZRYX6BTDjDldKMosaSTLdQS7oDisJNqAUhw1PfTlnacCO8vl8706Km1FROgLDmudzxg%2BEWTiArtHgLsRrAXYWdB0NmToNCJdKm0KWycZQqb%2BMw76Qy29iQ5up%2FX7oyw8QZ75kP5F6iJAJz6KCmqxz8fEa%2FxnsMYcIO%2FvEkGRuMckhr4rIeLrKaXnmIzlNLxbFspOphkcnJdnz%2FChp%2FVlpj2P7jJQmQRwGnltkTV5dbF9fE3%2FfxoSqTROgq9wFUlbuYzYcasE0ouzBo%2BdDCDzxKAfhbAZYxQiHrLzV2iVexnDX%2FQnT1fsT%2Fxuhu1ui5qIytgbGmRoQkeQooO8eJNNZsf0iALur8QxZFH0nCMnjerYQqG1pIfjyVZWxhVRznmmfLG00BcBWJE6hzQWRyFknuJnXuk8A5FRDCulwrWASSNoBtR%2BCtGdkPwYN2o7DOw%2FVGlCZPusRBFXODQdUM5zeHDIVuAJBLqbO%2Ff9Qua%2BpDqEPk230Sob9lEZ8BHiCorjVghuI0lI4JDgHGRDD%2FprQ84B1pVGkIpVUAHCG%2Biz3Bn3qm2AVrYcYWhock4jso5%2BJ7HfHVj4WMIQdGctq3psBCVVzupQOEioBGA2Bk%2BUILT7%2BVoX5mdxxA5fS42gISQVi%2FHTzrgMxu0fY6hE1ocUwwbsbWcezrY2n6S8%2F6cxXkOH4prpmPuFoikTzY7T85C4T2XYlbxLglSv2uLCgFv8Quk%2FwdesUdWPeHYIH0R729JIisN9Apdd4eB10aqwXrPt%2BSu9mA8k8n1sjMwnfsfF2j3jMUzXepSHmZ%2FBfqXvzgUNQQWOXO8YEuFBh4QTYCkOAPxywpYu1VxiDyJmKVcmJPGWk%2Fgc3Pov02StyYDahwmzw3E1gYC9wkupyWfDqDSUMpCTH5e5N8B%2F%2FlHiMuIkTNw4USHrJU67bjXGqNav6PBuQSoqTxc8avHoGmvqNtXzIaoyMIQIiiUHIM64cXieouplhNYln7qgc4wBVAYR104kO%2BCvKqsg4yIUlFNThVUAKZxZt1XA34h3TCUUiXVkZ0w8Hh2R0Z5L0b4LZvPd%2Fp1gi%2F07h8qfwHrByuSxglc9cI4QIg2oqvC%2Fqm0i7tjPLTgDhoWTAKDO2ONW5oe%2B%2FeKB9vZB8K6C25yCZ9RFVMnb6NRdRjyVK57CHHSkJBfnM2%2Fj4ODUwRkqrtBBCrDsDpt8jhZdXoy%2F1BCqw3sSGhgGGy0a5Jw6BP%2FTExoCmNFYjZl248A0osgPyGEmRA%2BfAsqPVaNAfytu0vuQJ7rk3J4kTDTR2AlCHJ5cls26opZM4w3jMULh2YXKpcqGBtuleAlOZnaZGbD6DHzMd6i2oFeJ8z9XYmalg1Szd%2FocZDc1C7Y6vcALJz2lYnTXiWEr2wawtoR4g3jvWUU2Ngjd1cewtFzEvM1NiHZPeLlIXFbBPawxNgMwwAlyNSuGF3zizVeOoC9bag1qRAQKQE%2FEZBWC2J8mnXAN2aTBboZ7HewnObE8CwROudZHmUM5oZ%2FUgd%2FJZQK8lvAm43uDRAbyW8gZ%2BZGq0EVerVGUKUSm%2FIdn8AQHdR4m7bue88WBwft9mSCeMOt1ncBwziOmJYI2ZR7ewNMPiCugmSsE4EyQ%2BQATJG6qORMGd4snEzc6B4shPIo4G1T7PgSm8PY5eUkPdF8JZ0VBtadbHXoJgnEhZQaODPj2gpODKJY5Yp4DOsLBFxWbvXN755KWylJm%2BoOd4zEL9Hpubuy2gyyfxh8oEfFutnYWdfB8PdESLWYvSqbElP9qo3u6KTmkhoacDauMNNjj0oy40DFV7Ql0aZj77xfGl7TJNHnIwgqOkenruYYNo6h724%2BzUQ7%2BvkCpZB%2BpGA562hYQiDxHVWOq0oDQl%2FQsoiY%2BcuI7iWq%2FZIBtHcXJ7kks%2Bh2fCNUPA82BzjnqktNts%2BRLdk1VSu%2BtqEn7QZCCsvEqk6FkfiOYkrsw092J8jsfIuEKypNjLxrKA9kiA19mxBD2suxQKCzwXGws7kEJvlhUiV9tArLIdZW0IORcxEzdzKmjtFhsjKy%2F44XYXdI5noQoRcvjZ1RMPACRqYg2V1%2BOwOepcOknRLLFdYgTkT5UApt%2FJhLM3jeFYprZV%2BZow2g8fP%2BU68hkKFWJj2yBbKqsrp25xkZX1DAjUw52IMYWaOhab8Kp05VrdNftqwRrymWF4OQSjbdfzmRZirK8FMJELEgER2PHjEAN9pGfLhCUiTJFbd5LBkOBMaxLr%2FA1SY9dXFz4RjzoU9ExfJCmx%2FI9FKEGT3n2cmzl2X42L3Jh%2BAbQq6sA%2BSs1kitoa4TAYgKHaoybHUDJ51oETdeI%2F9ThSmjWGkyLi5QAGWhL0BG1UsTyRGRJOldKBrYJeB8ljLJHfATWTEQBXBDnQexOHTB%2BUn44zExFE4vLytcu5NwpWrUxO%2F0ZICUGM7hGABXym0V6ZvDST0E370St9MIWQOTWngeoQHUTdCJUP04spMBMS8LSker9cReVQkULFDIZDFPrhTzBl6sed9wcZQTbL%2BBDqMyaN3RJPh%2Fanbx%2BIv%2BqgQdAa3M9Z5JmvYlh4qop%2BHo1F1W5gbOE9YKLgAnWytXElU4G8GtW47lhgFE6gaSs%2Bgs37sFvi0PPVvA5dnCBgILTwoKd%2F%2BDoL9F6inlM7H4rOTzD79KJgKlZO%2FZgt22UsKhrAaXU5ZcLrAglTVKJEmNJvORGN1vqrcfSMizfpsgbIe9zno%2BgBoKVXgIL%2FVI8dB1O5o%2FR3Suez%2FgD7M781ShjKpIIORM%2FnxG%2BjjhhgPwsn2IoXsPGPqYHXA63zJ07M2GPEykQwJBYLK808qYxuIew4frk52nhCsnCYmXiR6CuapvE1IwRB4%2FQftDbEn%2BAucIr1oxrLabRj9q4ae0%2BfXkHnteAJwXRbVkR0mctVSwEbqhJiMSZUp9DNbEDMmjX22m3ABpkrPQQTP3S1sib5pD2VRKRd%2BeNAjLYyT0hGrdjWJZy24OYXRoWQAIhGBZRxuBFMjjZQhpgrWo8SiFYbojcHO8V5DyscJpLTHyx9Fimassyo5U6WNtquUMYgccaHY5amgR3PQzq3ToNM5ABnoB9kuxsebqmYZm0R9qxJbFXCQ1UPyFIbxoUraTJFDpCk0Wk9GaYJKz%2F6oHwEP0Q14lMtlddQsOAU9zlYdMVHiT7RQP3XCmWYDcHCGbVRHGnHuwzScA0BaSBOGkz3lM8CArjrBsyEoV6Ys4qgDK3ykQQPZ3hCRGNXQTNNXbEb6tDiTDLKOyMzRhCFT%2BmAUmiYbV3YQVqFVp9dorv%2BTsLeCykS2b5yyu8AV7IS9cxcL8z4Kfwp%2BxJyYLv1OsxQCZwTB4a8BZ%2F5EdxTBJthApqyfd9u3ifr%2FWILTqq5VqgwMT9SOxbSGWLQJUUWCVi4k9tho9nEsbUh7U6NUsLmkYFXOhZ0kmamaJLRNJzSj%2Fqn4Mso6zb6iLLBXoaZ6AqeWCjHQm2lztnejYYM2eubnpBdKVLORZhudH3JF1waBJKA9%2BW8EhMj3Kzf0L4vi4k6RoHh3Z5YgmSZmk6ns4fjScjAoL8GoOECgqgYEBYUGFVO4FUv4%2FYtowhEmTs0vrvlD%2FCrisnoBNDAcUi%2FteY7OctFlmARQzjOItrrlKuPO6E2Ox93L4O%2F4DcgV%2FdZ7qR3VBwVQxP1GCieA4RIpweYJ5FoYrHxqRBdJjnqbsikA2Ictbb8vE1GYIo9dacK0REgDX4smy6GAkxlH1yCGGsk%2BtgiDhNKuKu3yNrMdxafmKTF632F8Vx4BNK57GvlFisrkjN9WDAtjsWA0ENT2e2nETUb%2Fn7qwhvGnrHuf5bX6Vh%2Fn3xffU3PeHdR%2BFA92i6ufT3AlyAREoNDh6chiMWTvjKjHDeRhOa9YkOQRq1vQXEMppAQVwHCuIcV2g5rBn6GmZZpTR7vnSD6ZmhdSl176gqKTXu5E%2BYbfL0adwNtHP7dT7t7b46DVZIkzaRJOM%2BS6KcrzYVg%2BT3wSRFRQashjfU18NutrKa%2F7PXbtuJvpIjbgPeqd%2BpjmRw6YKpnANFSQcpzTZgpSNJ6J7uiagAbir%2F8tNXJ%2FOsOnRh6iuIexxrmkIneAgz8QoLmiaJ8sLQrELVK2yn3wOHp57BAZJhDZjTBzyoRAuuZ4eoxHruY1pSb7qq79cIeAdOwin4GdgMeIMHeG%2BFZWYaiUQQyC5b50zKjYw97dFjAeY2I4Bnl105Iku1y0lMA1ZHolLx19uZnRdILcXKlZGQx%2FGdEqSsMRU1BIrFqRcV1qQOOHyxOLXEGcbRtAEsuAC2V4K3p5mFJ22IDWaEkk9ttf5Izb2LkD1MnrSwztXmmD%2FQi%2FEmVEFBfiKGmftsPwVaIoZanlKndMZsIBOskFYpDOq3QUs9aSbAAtL5Dbokus2G4%2FasthNMK5UQKCOhU97oaOYNGsTah%2BjfCKsZnTRn5TbhFX8ghg8CBYt%2FBjeYYYUrtUZ5jVij%2Fop7V5SsbA4mYTOwZ46hqdpbB6Qvq3AS2HHNkC15pTDIcDNGsMPXaBidXYPHc6PJAkRh29Vx8KcgX46LoUQBhRM%2B3SW6Opll%2FwgxxsPgKJKzr5QCmwkUxNbeg6Wj34SUnEzOemSuvS2OetRCO8Tyy%2BQbSKVJcqkia%2BGvDefFwMOmgnD7h81TUtMn%2BmRpyJJ349HhAnoWFTejhpYTL9G8N2nVg1qkXBeoS9Nw2fB27t7trm7d%2FQK7Cr4uoCeOQ7%2F8JfKT77KiDzLImESHw%2F0wf73QeHu74hxv7uihi4fTX%2BXEwAyQG3264dwv17aJ5N335Vt9sdrAXhPOAv8JFvzqyYXwfx8WYJaef1gMl98JRFyl5Mv5Uo%2FoVH5ww5OzLFsiTPDns7fS6EURSSWd%2F92BxMYQ8sBaH%2Bj%2BwthQPdVgDGpTfi%2BJQIWMD8xKqULliRH01rTeyF8x8q%2FGBEEEBrAJMPf25UQwi0b8tmqRXY7kIvNkzrkvRWLnxoGYEJsz8u4oOyMp8cHyaybb1HdMCaLApUE%2B%2F7xLIZGP6H9xuSEXp1zLIdjk5nBaMuV%2FyTDRRP8Y2ww5RO6d2D94o%2B6ucWIqUAvgHIHXhZsmDhjVLczmZ3ca0Cb3PpKwt2UtHVQ0BgFJsqqTsnzZPlKahRUkEu4qmkJt%2Bkqdae76ViWe3STan69yaF9%2BfESD2lcQshLHWVu4ovItXxO69bqC5p1nZLvI8NdQB9s9UNaJGlQ5mG947ipdDA0eTIw%2FA1zEdjWquIsQXXGIVEH0thC5M%2BW9pZe7IhAVnPJkYCCXN5a32HjN6nsvokEqRS44tGIs7s2LVTvcrHAF%2BRVmI8L4HUYk4x%2B67AxSMJKqCg8zrGOgvK9kNMdDrNiUtSWuHFpC8%2Fp5qIQrEo%2FH%2B1l%2F0cAwQ2nKmpWxKcMIuHY44Y6DlkpO48tRuUGBWT0FyHwSKO72Ud%2BtJUfdaZ4CWNijzZtlRa8%2BCkmO%2FEwHYfPZFU%2FhzjFWH7vnzHRMo%2BaF9u8qHSAiEkA2HjoNQPEwHsDKOt6hOoK3Ce%2F%2B%2F9boMWDa44I6FrQhdgS7OnNaSzwxWKZMcyHi6LN4WC6sSj0qm2PSOGBTvDs%2FGWJS6SwEN%2FULwpb4LQo9fYjUfSXRwZkynUazlSpvX9e%2BG2zor8l%2BYaMxSEomDdLHGcD6YVQPegTaA74H8%2BV4WvJkFUrjMLGLlvSZQWvi8%2FQA7yzQ8GPno%2F%2F5SJHRP%2FOqKObPCo81s%2F%2B6WgLqykYpGAgQZhVDEBPXWgU%2FWzFZjKUhSFInufPRiMAUULC6T11yL45ZrRoB4DzOyJShKXaAJIBS9wzLYIoCEcJKQW8GVCx4fihqJ6mshBUXSw3wWVj3grrHQlGNGhIDNNzsxQ3M%2BGWn6ASobIWC%2BLbYOC6UpahVO13Zs2zOzZC8z7FmA05JhUGyBsF4tsG0drcggIFzgg%2Fkpf3%2BCnAXKiMgIE8Jk%2FMhpkc8DUJEUzDSnWlQFme3d0sHZDrg7LavtsEX3cHwjCYA17pMTfx8Ajw9hHscN67hyo%2BRJQ4458RmPywXykkVcW688oVUrQhahpPRvTWPnuI0B%2BSkQu7dCyvLRyFYlC1LG1gRCIvn3rwQeINzZQC2KXq31FaR9UmVV2QeGVqBHjmE%2BVMd3b1fhCynD0pQNhCG6%2FWCDbKPyE7NRQzL3BzQAJ0g09aUzcQA6mUp9iZFK6Sbp%2FYbHjo%2B%2B7%2FWj8S4YNa%2BZdqAw1hDrKWFXv9%2BzaXpf8ZTDSbiqsxnwN%2FCzK5tPkOr4tRh2kY3Bn9JtalbIOI4b3F7F1vPQMfoDcdxMS8CW9m%2FNCW%2FHILTUVWQIPiD0j1A6bo8vsv6P1hCESl2abrSJWDrq5sSzUpwoxaCU9FtJyYH4QFMxDBpkkBR6kn0LMPO%2B5EJ7Z6bCiRoPedRZ%2FP0SSdii7ZnPAtVwwHUidcdyspwncz5uq6vvm4IEDbJVLUFCn%2FLvIHfooUBTkFO130FC7CmmcrKdgDJcid9mvVzsDSibOoXtIf9k6ABle3PmIxejodc4aob0QKS432srrCMndbfD454q52V01G4q913mC5HOsTzWF4h2No1av1VbcUgWAqyoZl%2B11PoFYnNv2HwAODeNRkHj%2B8SF1fcvVBu6MrehHAZK1Gm69ICcTKizykHgGFx7QdowTVAsYEF2tVc0Z6wLryz2FI1sc5By2znJAAmINndoJiB4sfPdPrTC8RnkW7KRCwxC6YvXg5ahMlQuMpoCSXjOlBy0Kij%2BbsCYPbGp8BdCBiLmLSAkEQRaieWo1SYvZIKJGj9Ur%2FeWHjiB7SOVdqMAVmpBvfRiebsFjger7DC%2B8kRFGtNrTrnnGD2GAJb8rQCWkUPYHhwXsjNBSkE6lGWUj5QNhK0DMNM2l%2BkXRZ0KLZaGsFSIdQz%2FHXDxf3%2FTE30%2BDgBKWGWdxElyLccJfEpjsnszECNoDGZpdwdRgCixeg9L4EPhH%2BRptvRMVRaahu4cySjS3P5wxAUCPkmn%2BrhyASpmiTaiDeggaIxYBmtLZDDhiWIJaBgzfCsAGUF1Q1SFZYyXDt9skCaxJsxK2Ms65dmdp5WAZyxik%2FzbrTQk5KmgxCg%2Ff45L0jywebOWUYFJQAJia7XzCV0x89rpp%2Ff3AVWhSPyTanqmik2SkD8A3Ml4NhIGLAjBXtPShwKYfi2eXtrDuKLk4QlSyTw1ftXgwqA2jUuopDl%2B5tfUWZNwBpEPXghzbBggYCw%2Fdhy0ntds2yeHCDKkF%2FYxQjNIL%2FF%2F37jLPHCKBO9ibwYCmuxImIo0ijV2Wbg3kSN2psoe8IsABv3RNFaF9uMyCtCYtqcD%2BqNOhwMlfARQUdJ2tUX%2BMNJqOwIciWalZsmEjt07tfa8ma4cji9sqz%2BQ9hWfmMoKEbIHPOQORbhQRHIsrTYlnVTNvcq1imqmmPDdVDkJgRcTgB8Sb6epCQVmFZe%2BjGDiNJQLWnfx%2BdrTKYjm0G8yH0ZAGMWzEJhUEQ4Maimgf%2Fbkvo8PLVBsZl152y5S8%2BHRDfZIMCbYZ1WDp4yrdchOJw8k6R%2B%2F2pHmydK4NIK2PHdFPHtoLmHxRDwLFb7eB%2BM4zNZcB9NrAgjVyzLM7xyYSY13ykWfIEEd2n5%2FiYp3ZdrCf7fL%2Ben%2BsIJu2W7E30MrAgZBD1rAAbZHPgeAMtKCg3NpSpYQUDWJu9bT3V7tOKv%2BNRiJc8JAKqqgCA%2FPNRBR7ChpiEulyQApMK1AyqcWnpSOmYh6yLiWkGJ2mklCSPIqN7UypWj3dGi5MvsHQ87MrB4VFgypJaFriaHivwcHIpmyi5LhNqtem4q0n8awM19Qk8BOS0EsqGscuuydYsIGsbT5GHnERUiMpKJl4ON7qjB4fEqlGN%2FhCky89232UQCiaeWpDYCJINXjT6xl4Gc7DxRCtgV0i1ma4RgWLsNtnEBRQFqZggCLiuyEydmFd7WlogpkCw5G1x4ft2psm3KAREwVwr1Gzl6RT7FDAqpVal34ewVm3VH4qn5mjGj%2BbYL1NgfLNeXDwtmYSpwzbruDKpTjOdgiIHDVQSb5%2FzBgSMbHLkxWWgghIh9QTFSDILixVwg0Eg1puooBiHAt7DzwJ7m8i8%2Fi%2BjHvKf0QDnnHVkVTIqMvIQImOrzCJwhSR7qYB5gSwL6aWL9hERHCZc4G2%2BJrpgHNB8eCCmcIWIQ6rSdyPCyftXkDlErUkHafHRlkOIjxGbAktz75bnh50dU7YHk%2BMz7wwstg6RFZb%2BTZuSOx1qqP5C66c0mptQmzIC2dlpte7vZrauAMm%2F7RfBYkGtXWGiaWTtwvAQiq2oD4YixPLXE2khB2FRaNRDTk%2B9sZ6K74Ia9VntCpN4BhJGJMT4Z5c5FhSepRCRWmBXqx%2BwhVZC4me4saDs2iNqXMuCl6iAZflH8fscC1sTsy4PHeC%2BXYuqMBMUun5YezKbRKmEPwuK%2BCLzijPEQgfhahQswBBLfg%2FGBgBiI4QwAqzJkkyYAWtjzSg2ILgMAgqxYfwERRo3zruBL9WOryUArSD8sQOcD7fvIODJxKFS615KFPsb68USBEPPj1orNzFY2xoTtNBVTyzBhPbhFH0PI5AtlJBl2aSgNPYzxYLw7XTDBDinmVoENwiGzmngrMo8OmnRP0Z0i0Zrln9DDFcnmOoBZjABaQIbPOJYZGqX%2BRCMlDDbElcjaROLDoualmUIQ88Kekk3iM4OQrADcxi3rJguS4MOIBIgKgXrjd1WkbCdqxJk%2F4efRIFsavZA7KvvJQqp3Iid5Z0NFc5aiMRzGN3vrpBzaMy4JYde3wr96PjN90AYOIbyp6T4zj8LoE66OGcX1Ef4Z3KoWLAUF4BTg7ug%2FAbkG5UNQXAMkQezujSHeir2uTThgd3gpyzDrbnEdDRH2W7U6PeRvBX1ZFMP5RM%2BZu6UUZZD8hDPHldVWntTCNk7To8IeOW9yn2wx0gmurwqC60AOde4r3ETi5pVMSDK8wxhoGAoEX9NLWHIR33VbrbMveii2jAJlrxwytTHbWNu8Y4N8vCCyZjAX%2FpcsfwXbLze2%2BD%2Bu33OGBoJyAAL3jn3RuEcdp5If8O%2Ba4NKWvxOTyDltG0IWoHhwVGe7dKkCWFT%2B%2Btm%2BhaBCikRUUMrMhYKZJKYoVuv%2FbsJzO8DwfVIInQq3g3BYypiz8baogH3r3GwqCwFtZnz4xMjAVOYnyOi5HWbFA8n0qz1OjSpHWFzpQOpvkNETZBGpxN8ybhtqV%2FDMUxd9uFZmBfKXMCn%2FSqkWJyKPnT6lq%2B4zBZni6fYRByJn6OK%2BOgPBGRAJluwGSk4wxjOOzyce%2FPKODwRlsgrVkdcsEiYrqYdXo0Er2GXi2GQZd0tNJT6c9pK1EEJG1zgDJBoTVuCXGAU8BKTvCO%2FcEQ1Wjk3Zzuy90JX4m3O5IlxVFhYkSUwuQB2up7jhvkm%2BbddRQu5F9s0XftGEJ9JSuSk%2BZachCbdU45fEqbugzTIUokwoAKvpUQF%2FCvLbWW5BNQFqFkJg2f30E%2F48StNe5QwBg8zz3YAJ82FZoXBxXSv4QDooDo79NixyglO9AembuBcx5Re3CwOKTHebOPhkmFC7wNaWtoBhFuV4AkEuJ0J%2B1pT0tLkvFVZaNzfhs%2FKd3%2BA9YsImlO4XK4vpCo%2FelHQi%2F9gkFg07xxnuXLt21unCIpDV%2BbbRxb7FC6nWYTsMFF8%2B1LUg4JFjVt3vqbuhHmDKbgQ4e%2BRGizRiO8ky05LQGMdL2IKLSNar0kNG7lHJMaXr5mLdG3nykgj6vB%2FKVijd1ARWkFEf3yiUw1v%2FWaQivVUpIDdSNrrKbjO5NPnxz6qTTGgYg03HgPhDrCFyYZTi3XQw3HXCva39mpLNFtz8AiEhxAJHpWX13gCTAwgm9YTvMeiqetdNQv6IU0hH0G%2BZManTqDLPjyrOse7WiiwOJCG%2BJ0pZYULhN8NILulmYYvmVcV2MjAfA39sGKqGdjpiPo86fecg65UPyXDIAOyOkCx5NQsLeD4gGVjTVDwOHWkbbBW0GeNjDkcSOn2Nq4cEssP54t9D749A7M1AIOBl0Fi0sSO5v3P7LCBrM6ZwFY6kp2FX6AcbGUdybnfChHPyu6WlRZ2Fwv9YM0RMI7kISRgR8HpQSJJOyTfXj%2F6gQKuihPtiUtlCQVPohUgzfezTg8o1b3n9pNZeco1QucaoXe40Fa5JYhqdTspFmxGtW9h5ezLFZs3j%2FN46f%2BS2rjYNC2JySXrnSAFhvAkz9a5L3pza8eYKHNoPrvBRESpxYPJdKVUxBE39nJ1chrAFpy4MMkf0qKgYALctGg1DQI1kIymyeS2AJNT4X240d3IFQb%2F0jQbaHJ2YRK8A%2Bls6WMhWmpCXYG5jqapGs5%2FeOJErxi2%2F2KWVHiPellTgh%2FfNl%2F2KYPKb7DUcAg%2BmCOPQFCiU9Mq%2FWLcU1xxC8aLePFZZlE%2BPCLzf7ey46INWRw2kcXySR9FDgByXzfxiNKwDFbUSMMhALPFSedyjEVM5442GZ4hTrsAEvZxIieSHGSgkwFh%2FnFNdrrFD4tBH4Il7fW6ur4J8Xaz7RW9jgtuPEXQsYk7gcMs2neu3zJwTyUerHKSh1iTBkj2YJh1SSOZL5pLuQbFFAvyO4k1Hxg2h99MTC6cTUkbONQIAnEfGsGkNFWRbuRyyaEZInM5pij73EA9rPIUfU4XoqQpHT9THZkW%2BoKFLvpyvTBMM69tN1Ydwv1LIEhHsC%2BueVG%2Bw%2BkyCPsvV3erRikcscHjZCkccx6VrBkBRusTDDd8847GA7p2Ucy0y0HdSRN6YIBciYa4vuXcAZbQAuSEmzw%2BH%2FAuOx%2BaH%2BtBL88H57D0MsqyiZxhOEQkF%2F8DR1d2hSPMj%2FsNOa5rxcUnBgH8ictv2J%2Bcb4BA4v3MCShdZ2vtK30vAwkobnEWh7rsSyhmos3WC93Gn9C4nnAd%2FPjMMtQfyDNZsOPd6XcAsnBE%2FmRHtHEyJMzJfZFLE9OvQa0i9kUmToJ0ZxknTgdl%2FXPV8xoh0K7wNHHsnBdvFH3sv52lU7UFteseLG%2FVanIvcwycVA7%2BBE1Ulyb20BvwUWZcMTKhaCcmY3ROpvonVMV4N7yBXTL7IDtHzQ4CCcqF66LjF3xUqgErKzolLyCG6Kb7irP%2FMVTCCwGRxfrPGpMMGvPLgJ881PHMNMIO09T5ig7AzZTX%2F5PLlwnJLDAPfuHynSGhV4tPqR3gJ4kg4c06c%2FF1AcjGytKm2Yb5jwMotF7vro4YDLWlnMIpmPg36NgAZsGA0W1spfLSue4xxat0Gdwd0lqDBOgIaMANykwwDKejt5YaNtJYIkrSgu0KjIg0pznY0SCd1qlC6R19g97UrWDoYJGlrvCE05J%2F5wkjpkre727p5PTRX5FGrSBIfJqhJE%2FIS876PaHFkx9pGTH3oaY3jJRvLX9Iy3Edoar7cFvJqyUlOhAEiOSAyYgVEGkzHdug%2BoRHIEOXAExMiTSKU9A6nmRC8mp8iYhwWdP2U%2F5EkFAdPrZw03YA3gSyNUtMZeh7dDCu8pF5x0VORCTgKp07ehy7NZqKTpIC4UJJ89lnboyAfy5OyXzXtuDRbtAFjZRSyGFTpFrXwkpjSLIQIG3N0Vj4BtzK3wdlkBJrO18MNsgseR4BysJilI0wI6ZahLhBFA0XBmV8d4LUzEcNVb0xbLjLTETYN8OEVqNxkt10W614dd1FlFFVTIgB7%2FBQQp1sWlNolpIu4ekxUTBV7NmxOFKEBmmN%2BnA7pvF78%2FRII5ZHA09OAiE%2F66MF6HQ%2BqVEJCHxwymukkNvzqHEh52dULPbVasfQMgTDyBZzx4007YiKdBuUauQOt27Gmy8ISclPmEUCIcuLbkb1mzQSqIa3iE0PJh7UMYQbkpe%2BhXjTJKdldyt2mVPwywoODGJtBV1lJTgMsuSQBlDMwhEKIfrvsxGQjHPCEfNfMAY2oxvyKcKPUbQySkKG6tj9AQyEW3Q5rpaDJ5Sns9ScLKeizPRbvWYAw4bXkrZdmB7CQopCH8NAmqbuciZChHN8lVGaDbCnmddnqO1PQ4ieMYfcSiBE5zzMz%2BJV%2F4eyzrzTEShvqSGzgWimkNxLvUj86iAwcZuIkqdB0VaIB7wncLRmzHkiUQpPBIXbDDLHBlq7vp9xwuC9AiNkIptAYlG7Biyuk8ILdynuUM1cHWJgeB%2BK3wBP%2FineogxkvBNNQ4AkW0hvpBOQGFfeptF2YTR75MexYDUy7Q%2F9uocGsx41O4IZhViw%2F2FvAEuGO5g2kyXBUijAggWM08bRhXg5ijgMwDJy40QeY%2FcQpUDZiIzmvskQpO5G1zyGZA8WByjIQU4jRoFJt56behxtHUUE%2Fom7Rj2psYXGmq3llVOCgGYKNMo4pzwntITtapDqjvQtqpjaJwjHmDzSVGLxMt12gEXAdLi%2FcaHSM3FPRGRf7dB7YC%2BcD2ho6oL2zGDCkjlf%2FDFoQVl8GS%2F56wur3rdV6ggtzZW60MRB3g%2BU1W8o8cvqIpMkctiGVMzXUFI7FacFLrgtdz4mTEr4aRAaQ2AFQaNeG7GX0yOJgMRYFziXdJf24kg%2FgBQIZMG%2FYcPEllRTVNoDYR6oSJ8wQNLuihfw81UpiKPm714bZX1KYjcXJdfclCUOOpvTxr9AAJevTY4HK%2FG7F3mUc3GOAKqh60zM0v34v%2BELyhJZqhkaMA8UMMOU90f8RKEJFj7EqepBVwsRiLbwMo1J2zrE2UYJnsgIAscDmjPjnzI8a719Wxp757wqmSJBjXowhc46QN4RwKIxqEE6E5218OeK7RfcpGjWG1jD7qND%2B%2FGTk6M56Ig4yMsU6LUW1EWE%2BfIYycVV1thldSlbP6ltdC01y3KUfkobkt2q01YYMmxpKRvh1Z48uNKzP%2FIoRIZ%2FF6buOymSnW8gICitpJjKWBscSb9JJKaWkvEkqinAJ2kowKoqkqZftRqfRQlLtKoqvTRDi2vg%2FRrPD%2Fd3a09J8JhGZlEkOM6znTsoMCsuvTmywxTCDhw5dd0GJOHCMPbsj3QLkTE3MInsZsimDQ3HkvthT7U9VA4s6G07sID0FW4SHJmRGwCl%2BMu4xf0ezqeXD2PtPDnwMPo86sbwDV%2B9PWcgFcARUVYm3hrFQrHcgMElFGbSM2A1zUYA3baWfheJp2AINmTJLuoyYD%2FOwA4a6V0ChBN97E8YtDBerUECv0u0TlxR5yhJCXvJxgyM73Bb6pyq0jTFJDZ4p1Am1SA6sh8nADd1hAcGBMfq4d%2FUfwnmBqe0Jun1n1LzrgKuZMAnxA3NtCN7Klf4BH%2B14B7ibBmgt0TGUafVzI4uKlpF7v8NmgNjg90D6QE3tbx8AjSAC%2BOA1YJvclyPKgT27QpIEgVYpbPYGBsnyCNrGz9XUsCHkW1QAHgL2STZk12QGqmvAB0NFteERkvBIH7INDsNW9KKaAYyDMdBEMzJiWaJHZALqDxQDWRntumSDPcplyFiI1oDpT8wbwe01AHhW6%2BvAUUBoGhY3CT2tgwehdPqU%2F4Q7ZLYvhRl%2FogOvR9O2%2BwkkPKW5vCTjD2fHRYXONCoIl4Jh1bZY0ZE1O94mMGn%2FdFSWBWzQ%2FVYk%2BGezi46RgiDv3EshoTmMSlioUK6MQEN8qeyK6FRninyX8ZPeUWjjbMJChn0n%2FyJvrq5bh5UcCAcBYSafTFg7p0jDgrXo2QWLb3WpSOET%2FHh4oSadBTvyDo10IufLzxiMLAnbZ1vcUmj3w7BQuIXjEZXifwukVxrGa9j%2BDXfpi12m1RbzYLg9J2wFergEwOxFyD0%2FJstNK06ZN2XdZSGWxcJODpQHOq4iKqjqkJUmPu1VczL5xTGUfCgLEYyNBCCbMBFT%2FcUP6pE%2FmujnHsSDeWxMbhrNilS5MyYR0nJyzanWXBeVcEQrRIhQeJA6Xt4f2eQESNeLwmC10WJVHqwx8SSyrtAAjpGjidcj1E2FYN0LObUcFQhafUKTiGmHWRHGsFCB%2BHEXgrzJEB5bp0QiF8ZHh11nFX8AboTD0PS4O1LqF8XBks2MpjsQnwKHF6HgaKCVLJtcr0XjqFMRGfKv8tmmykhLRzu%2BvqQ02%2BKpJBjaLt9ye1Ab%2BBbEBhy4EVdIJDrL2naV0o4wU8YZ2Lq04FG1mWCKC%2BUwkXOoAjneU%2FxHplMQo2cXUlrVNqJYczgYlaOEczVCs%2FOCgkyvLmTmdaBJc1iBLuKwmr6qtRnhowngsDxhzKFAi02tf8bmET8BO27ovJKF1plJwm3b0JpMh38%2BxsrXXg7U74QUM8ZCIMOpXujHntKdaRtsgyEZl5MClMVMMMZkZLNxH9%2Bb8fH6%2Bb8Lev30A9TuEVj9CqAdmwAAHBPbfOBFEATAPZ2CS0OH1Pj%2F0Q7PFUcC8hDrxESWdfgFRm%2B7vvWbkEppHB4T%2F1ApWnlTIqQwjcPl0VgS1yHSmD0OdsCVST8CQVwuiew1Y%2Bg3QGFjNMzwRB2DSsAk26cmA8lp2wIU4p93AUBiUHFGOxOajAqD7Gm6NezNDjYzwLOaSXRBYcWipTSONHjUDXCY4mMI8XoVCR%2FRrs%2FJLKXgEx%2BqkmeDlFOD1%2FyTQNDClRuiUyKYCllfMiQiyFkmuTz2vLsBNyRW%2Bxz%2B5FElFxWB28VjYIGZ0Yd%2B5wIjkcoMaggxswbT0pCmckRAErbRlIlcOGdBo4djTNO8FAgQ%2BlT6vPS60BwTRSUAM3ddkEAZiwtEyArrkiDRnS7LJ%2B2hwbzd2YDQagSgACpsovmjil5wfPuXq3GuH0CyE7FK3M4FgRaFoIkaodORrPx1%2BJpI9psyNYIFuJogZa0%2F1AhOWdlHQxdAgbwacsHqPZo8u%2FngAH2GmaTdhYnBfSDbBfh8CHq6Bx5bttP2%2BRdM%2BMAaYaZ0Y%2FADkbNCZuAyAVQa2OcXOeICmDn9Q%2FeFkDeFQg5MgHEDXq%2FtVjj%2Bjtd26nhaaolWxs1ixSUgOBwrDhRIGOLyOVk2%2FBc0UxvseQCO2pQ2i%2BKrfhu%2FWeBovNb5dJxQtJRUDv2mCwYVpNl2efQM9xQHnK0JwLYt%2FU0Wf%2BphiA4uw8G91slC832pmOTCAoZXohg1fewCZqLBhkOUBofBWpMPsqg7XEXgPfAlDo2U5WXjtFdS87PIqClCK5nW6adCeXPkUiTGx0emOIDQqw1yFYGHEVx20xKjJVYe0O8iLmnQr3FA9nSIQilUKtJ4ZAdcTm7%2BExseJauyqo30hs%2B1qSW211A1SFAOUgDlCGq7eTIcMAeyZkV1SQJ4j%2Fe1Smbq4HcjqgFbLAGLyKxlMDMgZavK5NAYH19Olz3la%2FQCTiVelFnU6O%2FGCvykqS%2FwZJDhKN9gBtSOp%2F1SP5VRgJcoVj%2Bkmf2wBgv4gjrgARBWiURYx8xENV3bEVUAAWWD3dYDKAIWk5opaCFCMR5ZjJExiCAw7gYiSZ2rkyTce4eNMY3lfGn%2B8p6%2BvBckGlKEXnA6Eota69OxDO9oOsJoy28BXOR0UoXNRaJD5ceKdlWMJlOFzDdZNpc05tkMGQtqeNF2lttZqNco1VtwXgRstLSQ6tSPChgqtGV5h2DcDReIQadaNRR6AsAYKL5gSFsCJMgfsaZ7DpKh8mg8Wz8V7H%2BgDnLuMxaWEIUPevIbClgap4dqmVWSrPgVYCzAoZHIa5z2Ocx1D%2FGvDOEqMOKLrMefWIbSWHZ6jbgA8qVBhYNHpx0P%2BjAgN5TB3haSifDcApp6yymEi6Ij%2FGsEpDYUgcHATJUYDUAmC1SCkJ4cuZXSAP2DEpQsGUjQmKJfJOvlC2x%2FpChkOyLW7KEoMYc5FDC4v2FGqSoRWiLsbPCiyg1U5yiHZVm1XLkHMMZL11%2Fyxyw0UnGig3MFdZklN5FI%2FqiT65T%2BjOXOdO7XbgWurOAZR6Cv9uu1cm5LjkXX4xi6mWn5r5NjBS0gTliHhMZI2WNqSiSphEtiCAwnafS11JhseDGHYQ5%2BbqWiAYiAv6Jsf79%2FVUs4cIl%2Bn6%2BWOjcgB%2F2l5TreoAV2717JzZbQIR0W1cl%2FdEqCy5kJ3ZSIHuU0vBoHooEpiHeQWVkkkOqRX27eD1FWw4BfO9CJDdKoSogQi3hAAwsPRFrN5RbX7bqLdBJ9JYMohWrgJKHSjVl1sy2xAG0E3sNyO0oCbSGOxCNBRRXTXenYKuwAoDLfnDcQaCwehUOIDiHAu5m5hMpKeKM4sIo3vxACakIxKoH2YWF2QM84e6F5C5hJU4g8uxuFOlAYnqtwxmHyNEawLW%2FPhoawJDrGAP0JYWHgAVUByo%2FbGdiv2T2EMg8gsS14%2FrAdzlOYazFE7w4OzxeKiWdm3nSOnQRRKXSlVo8HEAbBfyJMKqoq%2BSCcTSx5NDtbFwNlh8VhjGGDu7JG5%2FTAGAvniQSSUog0pNzTim8Owc6QTuSKSTXlQqwV3eiEnklS3LeSXYPXGK2VgeZBqNcHG6tZHvA3vTINhV0ELuQdp3t1y9%2BogD8Kk%2FW7QoRN1UWPqM4%2BxdygkFDPLoTaumKReKiLWoPHOfY54m3qPx4c%2B4pgY3MRKKbljG8w4wvz8pxk3AqKsy4GMAkAtmRjRMsCxbb4Q2Ds0Ia9ci8cMT6DmsJG00XaHCIS%2Bo3F8YVVeikw13w%2BOEDaCYYhC0ZE54kA4jpjruBr5STWeqQG6M74HHL6TZ3lXrd99ZX%2B%2B7LhNatQaZosuxEf5yRA15S9gPeHskBIq3Gcw81AGb9%2FO53DYi%2F5CsQ51EmEh8Rkg4vOciClpy4d04eYsfr6fyQkBmtD%2BP8sNh6e%2BXYHJXT%2FlkXxT4KXU5F2sGxYyzfniMMQkb9OjDN2C8tRRgTyL7GwozH14PrEUZc6oz05Emne3Ts5EG7WolDmU8OB1LDG3VrpQxp%2BpT0KYV5dGtknU64JhabdqcVQbGZiAxQAnvN1u70y1AnmvOSPgLI6uB4AuDGhmAu3ATkJSw7OtS%2F2ToPjqkaq62%2F7WFG8advGlRRqxB9diP07JrXowKR9tpRa%2BjGJ91zxNTT1h8I2PcSfoUPtd7NejVoH03EUcqSBuFZPkMZhegHyo2ZAITovmm3zAIdGFWxoNNORiMRShgwdYwFzkPw5PA4a5MIIQpmq%2Bnsp3YMuXt%2FGkXxLx%2FP6%2BZJS0lFyz4MunC3eWSGE8xlCQrKvhKUPXr0hjpAN9ZK4PfEDrPMfMbGNWcHDzjA7ngMxTPnT7GMHar%2BgMQQ3NwHCv4zH4BIMYvzsdiERi6gebRmerTsVwZJTRsL8dkZgxgRxmpbgRcud%2BYlCIRpPwHShlUSwuipZnx9QCsEWziVazdDeKSYU5CF7UVPAhLer3CgJOQXl%2Fzh575R5rsrmRnKAzq4POFdgbYBuEviM4%2BLVC15ssLNFghbTtHWerS1hDt5s4qkLUha%2FqpZXhWh1C6lTQAqCNQnaDjS7UGFBC6wTu8yFnKJnExCnAs3Ok9yj5KpfZESQ4lTy5pTGTnkAUpxI%2ByjEldJfSo4y0QhG4i4IwkRFGcjWY8%2BEzgYYJUK7BXQksLxAww%2FYYWBMhJILB9e8ePEJ4OP7z%2B4%2FwOQDl64iOYDp26DaONPxpKtBxq%2FaTzRGarm3VkPYTLJKx6Z%2FMw2YbBGseJhPMwhhNswrIkyvV2BYzrvZbxLpKwcWJhYmFtVZ%2BlPEq91FzVp1HlQY1bZVLqeNR9SAUn6n0E28k%2FUuGkNpP1DBI5ch%2FEehZfjUQ9aE41NhETExoPT2gGQz0IhWJbEOvTQ4wgcXCHHFBhewYUiFHuhRSAUVmEHeCRQHQkXGFwkAgyzREJCVN7TRnTon36Zw3tPhx4EALwNdwDv%2BJ41YSP4B2CQqz0EFgARZ4ESgBHQgROwAVn9GTI%2BHYexTUevLUeta4%2FDqKrbMVS%2BYqb8hUwYCrlgKtmAq1YCrFgKrd4qpXiqZcKn1oqdWipjYKpWwVPVYqW6xUpVipKqFR3QKjagVEtAqHpxUMTitsnFaJOKx2cVhswq35RVpyiq9lFVNIKnOQVMkgqtYxVNxiqQjFS7GKlSIVIsQqPIhUWwioigFQ%2B%2BKkN8VHr49HDw9Ebo9EDo9DTo9Crg9BDg9%2FWx7gWx7YWwlobYrOGxWPNisAaAHEyALpkAVDIAeWAArsABVXACYuAD5cAF6wAKFQAQqgAbVAAsoAAlQAUaYAfkwAvogBWQACOgAD9AAHSAAKT4GUdMiOvFngBTwCn2AZ7Dv6B6k%2F90B8%2ByRnkV144AIBoAMTQATGgAjNAA4YABgwABZgB%2FmQCwyAVlwCguASlwCEuAQFwB4uAMlwBYuAJlQAUVAAhUD2KgdpUDaJgaRMDFJgX5MC1JgWJEAokQCWRAHxEAWkQBMRADpEAMkQAYROAEecC484DRpwBDTnwNOdw05tjTmiNOYwtswhYFwLA7BYG4LA2BYGOLAwRYFuLAsxYFQJAohIEyJAMwkAwiQC0JAJgkAeiQBkJAFokAPCQA0JABwcD4Dgc4cDdDgaYcDIDgYgUC6CgWgUClCgUYUAVBQBOFAEYMALgwAgDA9QYAdIn8AZzeBB2L5EcWrenUT1KXienEsuJJ7x5U8XlTjc1NVzUyXFTGb1LlpUtWlTDIjqwE4LsagowoCi2gJLKAkpoBgJQNpAIhNqaEoneI6kiiqQ6Go%2Fn6j0cS%2Ba2gEU8gIHJ%2BBwfgZX4GL%2BBd%2FgW34FZ%2BBS%2FgUH4FN6BTegTvoEv6BJegRnYEF2A79gOvYDl2BdEjCkqkGtwXp0LNToIskOTXzh%2FF062yJ7AAAAEDAWAAABWhJ%2BKPEIJgBFxMVP7w2QJBGHASQnOBKXKFIdUK4igKA9IEaYJg%20format%28%27embedded%2Dopentype%27%29%2Cdata%3Aapplication%2Fx%2Dfont%2Dwoff%3Bbase64%2Cd09GRgABAAAAAFuAAA8AAAAAsVwAAQAAAAAAAAAAAAAAAAAAAAAAAAAAAABGRlRNAAABWAAAABwAAAAcbSqX3EdERUYAAAF0AAAAHwAAACABRAAET1MvMgAAAZQAAABFAAAAYGe5a4ljbWFwAAAB3AAAAsAAAAZy2q3jgWN2dCAAAAScAAAABAAAAAQAKAL4Z2FzcAAABKAAAAAIAAAACP%2F%2FAANnbHlmAAAEqAAATRcAAJSkfV3Cb2hlYWQAAFHAAAAANAAAADYFTS%2FYaGhlYQAAUfQAAAAcAAAAJApEBBFobXR4AABSEAAAAU8AAAN00scgYGxvY2EAAFNgAAACJwAAAjBv%2B5XObWF4cAAAVYgAAAAgAAAAIAFqANhuYW1lAABVqAAAAZ4AAAOisyygm3Bvc3QAAFdIAAAELQAACtG6o%2BU1d2ViZgAAW3gAAAAGAAAABsMYVFAAAAABAAAAAMw9os8AAAAA0HaBdQAAAADQdnOXeNpjYGRgYOADYgkGEGBiYGRgZBQDkixgHgMABUgASgB42mNgZulmnMDAysDCzMN0gYGBIQpCMy5hMGLaAeQDpRCACYkd6h3ux%2BDAoPD%2FP%2FOB%2FwJAdSIM1UBhRiQlCgyMADGWCwwAAAB42u2UP2hTQRzHf5ekaVPExv6JjW3fvTQ0sa3QLA5xylBLgyBx0gzSWEUaXbIoBBQyCQGHLqXUqYNdtIIgIg5FHJxEtwqtpbnfaV1E1KFaSvX5vVwGEbW6OPngk8%2FvvXfv7pt3v4SImojIDw6BViKxRgIVBaZwVdSv%2BxvXA%2BIuzqcog2cOkkvDNE8Lbqs74k64i%2B5Sf3u8Z2AnIRLbyVCyTflVSEXVoEqrrMqrgiqqsqqqWQ5xlAc5zWOc5TwXucxVnuE5HdQhHdFRHdNJndZZndeFLc%2FzsKJLQ%2FWV6BcrCdWkwspVKZVROaw0qUqqoqZZcJhdTnGGxznHBS5xhad5VhNWCuturBTXKZ3RObuS98pb9c57k6ql9rp2v1as5deb1r6s9q1GV2IrHSt73T631424YXzjgPwqt%2BRn%2BVG%2BlRvyirwsS%2FKCPCfPytPypDwhj8mjctRZd9acF86y89x55jxxHjkPnXstXfbt%2FpNjj%2FnwXW%2BcHa6%2FSYvZ7yEwbDYazDcIgoUGzY3h2HtqgUcs1AFPWKgTXrRQF7xkoQhRf7uF9hPFeyzUTTSwY6EoUUJY6AC8bSGMS4Ys1Au3WaiPSGGsMtkdGH2rzJgYHAaYjxIwQqtB1CnYkEZ9BM6ALOpROAfyqI%2FDBQudgidBETXuqRIooz4DV0AV9UV4GsyivkTEyMMmw1UYGdhkuAYjA5sMGMvIwCbDDRgZeAz1TXgcmDy3YeRhk%2BcOjCxsMjyAkYFNhscwMrDJ8BQ2886gXoaRhedQvyTSkDZ7uA6HLLQBI5vGntAbGHugTc53cMxC7%2BE4SKL%2BACOzNpk3YWTWJid%2BiRo5NXIKM3fBItAPW55FdJLY3FeHBDr90606JCIU9Jk%2BMs3%2FY%2F8L8jUq3y79bJ%2F0%2F%2BROoP4v9v%2F4%2Fmj%2Bi7HBXUd0%2FelU6IHfHt8Aj9EPGAAoAvgAAAAB%2F%2F8AAnjaxb0JfBvVtTA%2BdxaN1hltI1m2ZVuSJVneLVlSHCdy9oTEWchqtrBEJRAgCYEsQNhC2EsbWmpI2dqkQBoSYgKlpaQthVL0yusrpW77aEubfq%2Fly%2BujvJampSTW5Dvnzmi1E%2Bjr%2F%2F3%2BXmbu3Llz77nnbuece865DMu0MAy5jGtiOEZkOp8lTNeUwyLP%2FDH%2BrEH41ZTDHAtB5lkOowWMPiwayNiUwwTjE46AI5xwhFrINPXYn%2F7ENY0dbWHfZAiTZbL8ID%2FInAd5xz2NpIH4STpDGonHIJNE3OP1KG4ISaSNeBuITAyRLgIxoiEUhFAnmUpEiXSRSGqAQEw0kuyFUIb0k2gnGSApyBFi0il2SI5YLGb5MdFjXCey4mNHzQ7WwLGEdZiPPgYR64we8THZHAt%2BwnT84D%2Fx8YTpGPgheKH4CMEDVF9xBOIeP3EbQgGH29BGgpGkIxCMTCW9qUTA0Zsir%2BQUP1mt%2BP2KusevwIO6Bx%2FIaj8%2FOD5O0VNrZW2EsqZBWbO1skRiEKE0DdlKKaSVO5VAuRpqk8VQJAqY7ydxaK44YJvrO2EWjOoDBoFYzQbDNkON%2BUbiKoRkywMWWf1j4bEY2iIY1AeMgvmEz%2FkVo9v4FSc%2FaMZMrFbjl4zWLL0%2BY5FlyzNlEVYDudJohg8gPUP7kcB%2Fmn%2BG6cd%2B5PV4Q72dXCgocWJADBgUuDTwiXiGSyZo14HOEQ2lE6k0XDIEusexDzZOMXwt1Dutz%2BtqmxTvlskNWXXUQIbhaurum9GrePqm9Yaeabjkiqf%2BbUvzDOvb2Y1E%2BEX2DnemcTP%2FzLcuu7xjQXdAtjR0Lo5n4%2FHs%2FGtntMlysHt%2B29NXbH6se%2F%2FWbFcyu%2Br28H0MwzI30DYeYTLMXIA2EG8QlHpAsyS0EfEToR0a3utIxFPJ3kiIHCCrZ66b0e2xEmL1dM9YN%2FMwS5p01N5jMX%2FBLKt%2F1R83l0LyC29M6%2BiYxo%2FUNg%2FEF7c2WyyW5tYl8WnhWg2%2FhyySbD5UhnDyS7OcU0dnrFw%2BDfGdI7v4QfYIIzOMq9hFtY55gmvC7jZ2FK7sEdrn6IXBuucYhjsGdQ8z0yEbWkkczjjsE5hNAIZrPx2zOLZDmKNXcXtg7EMqidAEEWg%2BSJCBBNwxvxJfc%2FbZa%2BKKf%2BxoKZybnq5vaqpPTye7CiF%2BZFjxZ8%2F7Qij0hfOG%2FcowPA1rT1l4ymWnrKmxxqfErTVrpgwPlz1kC%2BOy8NMDz6c%2BIO38K%2Fx0xkPnLW8Kx6qGAoQdL%2BTD9V9rb%2B%2Fctn%2F%2Ftrxz8dUrZrD%2Fzk%2FferF0cNt1BzctmX2FZPXt%2FjnFCQNz4Ah%2FiKllGiCMs1w5Lkg0kiEwj6VTXCDKsX9rMpnvIj9pcDecXAIXMnqn2dTUbN6w0XQ9ue6FV%2FnnXCH7S3lPWGltVcLsH75ub3ab7A8M28caNrIeOr3o5Q0yFsYL80xaa0EY%2FUEczV7icUMY5pnelAkmUAXmHYjvFWFGxuqlSaow3OM%2B%2FiYY7%2Fl%2FhVELF4EjRqNR%2FbvRbOY%2BDUGzGR%2FOh3EqmE%2FugIQQguGt%2FeMYz%2F%2BL0cimjeZfQDI3phXMbMQsqH%2BCjwVz%2Fhf4idHovgVmB8gLvjbicDcC%2FNypP536E%2F9N%2FpuMibExdohBmNwyiaZdJGoigos7GpF222xrfnZhML%2F7Z%2BylaqP63Hr%2Bm7bdUkQ6%2F2cXqdfmvwixY%2Bs2ksXFeXcE%2BiX0Z%2BIow76DBNgjJ7TOdUK18iPsPflfQD%2BDPsZG2Aj9VmKMMJ4fYRrhIaxhTDR0Elh2vA6h%2FAE6xUb29mj3sjmL72petXjejPy%2Boel60M99tFduCI59N3221xe7apOvxs6aHs7vab1IqY2tv7q2xsHeHGml%2FcV06u%2F8S%2FxTjJ%2BJYc0bWEX0ukW6YmIbGkJRMdjJ9mYIH5QIdJF4hvRGyK7cC7ctImQRcUET99fGXOoft35GYLMQu%2Bg2smnkgZUrH8AL%2F9Si217IssJ916nv14ZrJrvdxLkQvrvtBcjgPC0NXOicO8Qf4mcxPqh3hgUw3DDfdvLJXngg7N3dN2zbPJSaed3OfZnMU7dvmznp3C3bruO%2BNmue0LFsy7S%2B6265%2BfCKFYdvvuW6vmlblnUI8xCXp37CrOZv4B9gauDBlYp7adcUXB5DNCwYImlXOJJKkAdvExXxVvKEYnCo%2B3eIskP9qrrfIYs71CccBjfXRC52udTHHdaP1A1ui%2FVvH1otbrLrpNXBsGX5B89QghDyimlvNB2KfkxZ5C9%2Fem3%2Bd1%2Bd%2F%2FIfFp2%2B2Oxn%2Fs%2B9n%2F79p39S3s8idN6g0yZObwJOgKUpNB3GyU0Ls0PbRzIRq4lcarLKOJBkLRzJQD4j2090XrbA7DW8K3jNF5hlGS5e4V2D17zgss4T20egOJte5iD0bReM9yjTxnQxCRj3c5kFzGJmGbNKmwGw39IJDJcXJZGMkaAB4jyJAKw0jt5IAuIE%2BA%2BU3cVAZZrq9zhDyBrU8oosuxcGNTzCKJfla7JjNVmuSb%2F%2BtuzN2H%2BX4vlB%2BPpdfMXXmuVsNiub1T34SFbjYw5itEvVi0K0Nt9pNJUMI7SLGRhf2xipfCYf8z5OdlGKayOucFeVPeS%2Fdbo3lBrbSMmwUiQN5%2Fed7g0Ds1s17IuZC5kNzM3MZ6EWCa0DtekdJfAxz%2BR%2FOX28sND7yRMTBcf%2B%2Bs8mQCQWHya4qBv%2FufeMoWyslPA9DtMxUknxkH%2FyfTnm2CMYzs%2BCq3r7PxY%2FMXomrvTEsRpfEGHa%2BWN8E1AHjElb7d06ddA7oK%2F%2B5Mdsv9EtPms0jv0Z5kf1FqPxWdFtfFr0kHfgDX0Y%2B5PRSG7RUj0tQr7rmfX8DH4G5W28kKeJLtmQsQkuwMP1pk16EV4sl7vrMJATfyUWo%2FGwEco4rh4XFQgaiUX9qxZHrMQqKnz%2Fc2d8b9TysYrAuXpP%2FRf%2FGr8b1qwwc5a%2BeuLa6S6sneNXToG2XrEJi4R5SGs8Sq2S3d97bsfCRaTdaLwKClRHt37mkudvXbjwVrLhuYeGhh56bvfQkHpk2CwvwClqgWwuBfndC3c8dwmstj81KkagcUgbfPY8Zje0W%2F82VPWJHmSq6pP8hPWpotc%2FEexDOK3qU%2BwngPhOCiO9MJRm8TJefjelrzoKnG2Bn%2B1NCUmPE4gHFmBN9jrTigRIpsACrc9Gstg58ULkp9467%2BGf%2FeFnD5%2F31lNrt2967dhrm7bzI%2BVT5m%2BfzKhvf2MzpICEm79Bopkn07lt1762adNr127LwVqQLdJ5%2BlpQDcvHPQtVY5knhYrK6q8%2FJsiP6EuhGZdFdaNszjvpqvc%2BPI0CdjN0AXsFOC3ZfALDJwr4q2Xq%2BGF%2BGNbsxUg5NLLIEXi8otcDQcUts0D8eQ1iVDRAMBTsYiNdRIxE09EIBJO9A2xqgERTaW86BUFn0OD2xFO97FAgFhF6OoQ7prYt4XwSeUgQHiJyDbeke9IdQntciLQ1FlJMaYcUNvZBg%2BFB1ubjlnRNvl3o6IEU2w7fdNPhm%2Fhh%2BFLysUu6%2B%2BDLHkOkrSHYEjH0tEPe7WdD3uyDgvAgK%2Fm4szFFR7ch0toUgBTdWHr7EpaWru6%2B6dmbbnqWEbV2EtxAsXiZAPTtGPSbHsotI2leoM8TePEqgSQprs7AGFf8kuOkPdZPXGb55POAW1d%2FjLST9v5YflasP6v%2FCO7%2BGNAPC2BMZWmsOjp2NNbfHwMCJD%2BLPVL%2BD%2FOYlWEEI%2F9jpPddOFkB5d1GSuKZYggmCCd7JUxD7EXAzxyirYnNDLdDZoFdx14kivkvGc3579Jm36reTTvDgBnaO6vzyQ6chQmlsMoIkIQ2%2BbBDWBud1Va4pcCn8CPqxlh%2FfgtG8IPaPH8C5wk6%2FnZDv69jurV5QhtwE0x2iqOsj9Mx8B9%2F0EaUdiPfOYYDCi%2Fq9jhWRuupMDEU0%2BCtX0sDFxv07T%2FK5niBPqN9%2BtQjgEc31NGCXFeMcCEuQBIc%2FBK4CO78u7EPYvl3yaEfK3vcb6qP1R2tI7vUjVDDUdKubsSrNjYKY1qBEa2P50SJoaXiksIoLiCwnxS6EBuBde87botNfdEWwYvF%2FR0%2Fu5yCqhGeEOR2ynSeyXjt6ka7neyye8kryBSWE52y%2BRBgogrXPZ8E1yIHoHIFUM%2BAbJhE7lbMtt8ApL%2BxmZW7PwbjAO0fAVoXQOuiSP%2FksIVdFZ0aulsamKUzwPZ%2FNYDMJRBPCxsBqLzqHyneXF6Ej9HlIFo7%2Bpg%2BjUb3unRmGpstGkm6etOuDBGA5wCMefp1gTHcdZlvPBXlOslvYTp1cd8UjYLVd%2FJ5awNrIOKLnIt9MD9qdrKrWCvA6ALm3QV9VrsPm60Q7%2BRHJHP%2B2hqfugo%2FMvI2H%2Fmqr4b9tFnKSRY1Y5Ek80Nm%2FWIhr1ikKnxGz9TWXrokf9xwujfvcOTtNTWnxd0F37Y2W79tteBqZ4G5qLCuomw%2BnSr28QESCRVLTyYKILGJOPfcnaIFOsewhRdvv%2BrWa%2FWih0vlbX6Zb75T5C0qNKVFvH1QL%2FvazSWgC2s6oWXXIuUxQelKiJbowuJDQViatLmLijg9CQBMg8WiPgiw3LEeYRmm5f%2BXdnvkDnxLLjMLxtvX74C3OlwPQqx4xwIdpPx38LrlDphiyWUWHWKAzzxurS%2FxTo%2BP5wGFak62ap1PVFFN4v%2Fy%2BxuR39WnIO7lsWfwgVsK17wxrs9K8ltIKuhkw7f%2F6dhK6gQokFKhWX3urrjk%2FrnI0pgfpGMeuQIUaEM7%2BGF5q2iMkCaMQwxxOzcvU0eXbsnS9XknXvP7Gtw5dwPXlFu2ecvSHEZgNDsU6x%2FGdXBYXyOQjzZReSedeEPY6nEv9gJR4oBQJtFO6Kd0fwC6BO4LNHDeBujB6dSNcUQC9zIv2LnAzGk99bUDrdFY%2B9yGFQtEo0GQPNv6vS2drj4%2B1jHbv3aJSMUWP%2BQTZrmbNTjU8wyG%2FiXNNpskybLcJ3CiTF5Ir%2BJYzmJwE0mSVhlxbtbmvweB3ulB6Til5UuUZydpgiFVeobhU0WaBqpJ198d%2B%2FXeNRTZ9%2F1OPfG7%2B2hwzd5W3D%2BhmyjsRcUg%2F%2BCavb%2B%2BVh2ls3L7zT%2FetOnHNxeerv313vzLVqPai4nJv%2BK1FC6040%2F4udw7sAb3laSg0XCkAAs0npBO6VJabS4Elk%2FU%2BD4gTXW%2Bj0wnrMlqNamq4tMIYB87tE10i0FR3LZNhJsb7%2FR561btmes8YBCRkhYNByRtKd55mqTas9FYhJnbRGHuOh3M4QTdgQSqmgRxuzGdSvZGcbMxNQGk5C3ebLjoXIOFM4l%2BWKHmLTJwRv9E8GWJ6dYvf%2FFmEyEGr%2Bgyrr1p5zrgkz0Cw2j94Hv8Jdx7dIVegBSNtgsqGsRQEYiIBoXwD0LNvQ5d7s5Z00QzwNhqZA0b%2BtMG1tQq5nd84uq8R0zPvX35G8uRaze4jcOHzz0w1%2BQ2BIRvf6J6Kgatnrbiem%2BCFvAxfkrndzD9MFPP1GWTUHclpASUkCNAQkpCCcCgDSUDAhDZ%2BCuEkgn8J7i9nMA7pA4lISappxILKfAeSAbIcSDuN2bJcfZILqeO5rLs0MnngSHYRdrHjmaz7JEsEPw51ZqDJDmUIOZIe34WaQeegNsJn1qz8AIpT3yCjyEih%2FxELkuJ0lEMYTLVCiWpo5oYMleMH6USyYJcD%2BuOe%2BkWKpn1Qns34iyYDjkSLvgnZXcgVQNeqINXr48m3iS7cjm8tedyY0f1QvTnHHdsrKby%2F%2BSSbPY8%2FNH6vpl%2FEsq3Ae4ZU1HC44KFiI9o7CEgab%2FRqHbj7s5KAg06s39ZP%2FzxI%2FmVuF%2FTbTSy%2B3Fb8If9%2Fcv7%2Bwt91yy8RfP1QXtW5RzQn7qIiZyuFM5QfJ5E9uVnqT85TanFx0lkP3ukBAMprvsRyi%2FC8NAJL1xbIIirSvnSj4O5netb4JxmNANHPssHAcHMHsFRgEug816gDBeMbdfiuRcghqYcm0%2BXxx%2F5IAEtN3fqFF3LzAXqwoT0PN0OVTNqxo8sxMkd5Ig6k79Zk7VxxX6gMLOZFQgvpW2RrMW1D0BDihaXQ9wVRoBxPLfpknmkeMtoB%2FqM9cRc9IqmMD2XUmdZ7GSRKPUZvChf8BoykriM2MnKYbOHX8R7cLdNCxSFFVQqoYswnlWtlFS2mNkhswVpZiQW1J%2FUKFfipHGlUkM6UKBhMz1istELIHJLMSctu3ugzfaVSOjKvUgc%2FTHK4Sdg2Wscz69leKIkkrwuuWiOe9yGYKQXRumkC3qbRcMwrvhjNXgdZk3RxAUEhuSPvn3nnd%2B%2BU%2F3vlVOmrJzCD8JLxV1OHRjrZifbcFDOuRNTGqdgQm1tSNJ2OcQ04YiEXuxtII1ECSQRoQGYioEsgCfchB4ghAtw7FfJre4WZ9hkVi9MtjuWqtdNDlpMrfEG9fOT6q21okg%2Be4As38MfGquNt7oUws6Ysarj1%2FefE%2Byst86YUVNvDdts3Pv5c8m%2FaP0C%2Bf8%2FQb%2BIMnGq09BgwN01oIOAnAdagI8mBSrqk1gxTDUBOtk2ousEtBH2z4Ir2d3f6k8PXXVlt2qN9RODxRuoJT%2Fv27wm09jRYVc%2Fe%2B%2Biyx2tyzJb%2Fn3J0htXP87eSsQaf2Ly0s6Zmxela88REy1cf4273mI3iXNJ7KxrZibOm9xm6rl4fqy%2Ft27smU8tOfdW2ucBzg2UfmOIVyLIl3kpYlwphDISTXJXsctmiDtN7fNV6zelgxwnWxsVr83Aj%2FS5ki1jL%2Fa0GC6%2B2L6Um%2BaoddlNFuj%2BbJ8mH%2FiaLh8I0%2FU51NspIEfq0dohwyFXKgm4NggwQ4rRhCOUFtxxo8XnitT4cnGfT93IS8FaT85XE3H5LMY4zIEPL1hw443wz%2B1UmhTJyJGxZzw%2BwsKkKZgUiVtKOKMEb2AKHTv61FNc01PQFwKnvsZ%2F9pPA4RKTASWahmh%2B8MxwzHxKy74IRn5LGRjsPUUwTu64UYNY38caqd7HKucZ%2FtHnODtENw%2F2UfHRMaq1UUPDJQ0OKkWCeet5fYOhII1VRz8%2B%2FElg5j4Gxur3J8o2PJ4rg%2B2d08T%2FfwEzSVbyZ9XPro95T477lRKqUSRXQnauHNsISAl27oWi6Fv9z48JMv8r%2FaMMj8onCP%2FDuDZOuN%2BGPPr%2F%2Bp7bx%2B7JlbYdppcNhzKU%2F1Px5aiaGDn%2Fs1iGMaBcleKUo%2Fv9rcxkZj7DBEKOfrayytXNLYiUdBY%2BpleQXdnscKlQcpzuWluxsieeyuXIK6SdxozitWyGOV3vOHHjguyCQ6fpIYy2JwvrQEF%2FQa9Pdf%2FQqOSqCiE%2FEE1%2FXIVKTc2tzWbHnimrEd%2BVyz311Ml3P0GVTj7PD5aDnsvCvH36alEaPMePcMegXs7x8igTu4B9v7G9vTHvhCu%2FkzIdx%2BBxC0ay9zRSvoS0F2lIxI%2BX7klU63I40gLQ3w5ep5na%2BSFnba3z5D64zv%2BQtM4n4ffG3tq4aNHGRfxgrXPMim%2B5487abL7xhdseIRn1KDl%2B7aINixdv0OD%2BJSPwKf5%2BxoP6aiTeQIDVlIhMcL1H5R9PYXvprs3fv2bO7MOplCmweuiq2JRZ1zz%2B9a%2Fv2PH1Hfz9236w%2BZrPXvWfAxlj4NLLHpq3c%2FPQ3uvmvbrjG7fe%2Bo2y%2FcLdtE6VUlXi0ASb1VLUBVSUWSU4HdvAraTyS8xzM8NxvxFkXV6pUVRiJwcgC5zEeht4rwcp7ki0k41G0qlQhG1Vzlq8alEmnFi58caB5Q9vn988MLhqyVlHvLEWjtQFeupdiocF%2FtkkOGPW2ibWaBTkeZ%2FdvPWazXfOnnvL6jkRXpi85sFzZt%2B55ZptW3bl1cCCHZPD06MhySha7UFzjcjbp8fOecFCirzAG%2FyVjBX6OFIaadSjQq1nNhyIe8tVbaaSdHlXIWKacMeuZA1uxS95zILhyrxAdsXTL6m7kNQlx2P9uZf2qhufePFFbpI6%2FOU0WcP99RrCsrwseVot5mtytpf6Y0gm9sdeyKnPQ7onyK4nXlR%2Frg7H95M1upzu89DH6pgUcikoiihJ6NJKmRxV1x%2BMJiOA3YwhDRQrWU0u%2F0rvq0VYXnyCwsLeTJYBq3dAtJDavuzyoVpzZ99Z0%2Ba0uoiFH%2FxcqgDR7rUFeOrUn6Cywb8ZeNMbhLV5ugP9l0zv9UN5b5mFkjzxUcpPJCn3V402pRxtJd2GrnLdhtVk9ZSZh9W91fCSH5B7ofxPiWL%2Bj3D%2FuwhBRdyAyozeZwvQzs79soi%2BBKSnafLviZCcfrpBpLyimfLfTyJtbyruIQKD01tUwJyKEo%2FybaxkSNFUMdMkhQoJyRBQFhnUkDQSXhTM%2B3NmY0EDM7ffLIjqWEGt8lCO6mLia3PukFnghosJD5p5SIho%2FVDkzQfLE%2BIrYoJXkD19pdP7OwG%2FvoIUtagiWiZ4PAFTHHlTVhRZ7dYmPar%2BNJ%2B8JhmR6DFK5DV1foHoLNO%2FpHrvZfmWZ15RQlwvoVDKhCWNK3CCch9lfFBuAqUgpFSShmNaPj%2Bi5%2B%2BWZfKeViJfW5HnUakVL4UCNVkA4%2BETfIqx4B5xSaP2L1yn0zn2ltPn4%2BOqZGmwwEVCaCSqG53ldtL1oLGAhdMLd09MpCCF6tD6ZnAZBY9hDaYsP0jzZ0j5ZjKsF4i1UmLuhbJMCnYJPt5VwFNvmZawXjEvLJqIH8STonZjq7BZ8gKgR20C9MDFqJAX1H64QW2NEup6qgzLP8cvppL%2FNNTOBTCJABOHeWoXzLhw4Wuy7gaBtjKr9kgKq8ZlRYBS32Lpxc8vIhpNDTfyNXWybMJbn2RyQ5EmWc2QF9wmSZ0KYCE%2BcPuYO6b15Uotj2Kd4MItLS7gtFbkTdrFND6pvEZqv5Yv7jXAus7Pg7avo7KDot50NX3CPkP%2BKps8J9%2F3mGQIteY%2FLGPC%2BL7872SPR2br5fy8MtKBMHedGuM28%2FMZmPJMrGgi3Gb1S%2BSi1%2FL%2FzrZwO9XH1ce%2Fz7ZQ1WSoY%2F%2BpMb5FT4ua0Wm%2BJf%2F298nFmChEQ%2BTi71est4mq9VYI6RsymoRJKYidElT2FGnDTZvqtfhGAFTbeqEw68GqtfmbVa%2F1IFO1%2FjdWr%2F8BDRRtQh9XNjubEm4aWVpVonpTGR7PVGc%2BKJNoBIWF7kYi4gUV3r1U6723i6TxUl3n3%2FtM27aZfKb7THiHW9VzFSwHJ05VfK6Ar7kaB0XgPPE0BSkSFKsBUpaLihEWoA9wBt8qirh2VSOkZwXEwyrxZ5jyt2rJmSo9gX7cg6jsEUGJU9z9xJPOEM3uQQxKgkh35DNATnVyrmJ3mbCNyIB%2Fyox4wH1bg2DwN7q9kov4pFqny8oSm3RQbGgJ1QQTs6ZMLilOVYJ9v6Wha3HcJ9jddsXp9YhGUXLXt%2FqMDnvLpPNTXfNa60z5%2FyjXQOMq%2BlNmwh5egpYrdfZQZV9rI47xlRkuyTjpzsmCBSWNkAXVoK8sgYWqQJWbo1RLo6QH0YW6pxqfCnRgkd%2BRiFjUQUQ7poIaYoakgXxwFd9BuuI38H1xBxXSFb%2FpBDIKQFn7YB3dB36l7sG1FLaKiBdp1KxLvfswap%2F30lnVESgNnvjbUoT6w9N%2BXoio0qcYOIM%2Bheg940YimsucQVvli9NEcft2UZwGQwLuilj1fFr1i3NP94X%2BPE7Hpvtj6lBJfJ4R6NvWiaL6MgzWHxiN66DExa%2BdAdAbMYX6HVF8A%2B7rjEZIXAVbDe7PVI9rmN69JOLV1DOSvRPxWNPZBZf%2FNf%2BNy65BhYxxxV%2B77XJ2wfQ389%2FIQPgajXbwMsuAz%2F0IaQcXJavKbRqR2IqyZruXjVC2%2Bhdee%2F5vdnYOedpmVtR3NGXldxSzDSIiBVpkGb9by89UpEPKrSLZmyFDzMab%2FwXl2CNe7s%2FqCtTvWgG5kpBmCBlSzDS%2Fr8N4uwBwohRW63JTS1y32f0TQsPfXVGEHQrV8%2FNCfiOUVirYcBbIeA2%2BiF68rQIo3B%2FS628vYESr79ehzS7Q9LEL9UXmik9XVHb1yBO3Ngvt5935%2Bk1efkV51mzzrM0LL3%2F20avnwMeKuWyOUZg2TasSqZ%2BKcZQiOn1Iu2Vh497ALUVZiCKt%2Fgh6IvTIj1ZLRjWAkpHKOKovNwp00eqPROiAbiNEKieXwMLcXhVJ1%2FuzmLP4tfxaHR59cBdJVG1kTAgl9ze9QKUEQ946Hkb%2BokJ5JRDyf54Axur1D%2BWS49cLr0tTPEu7UmXrxcSr3XNvumv4yXzInXKH4F7Tc7p17Zt%2Bt%2FqW2%2B93k063X7VW6lALxTY7i1nBXMxcxmzQbabxz%2BtJo%2BwijYaIGMNS8AoSMgAPt84DdHOoMPfjXhF%2BkuH1tZvuFQrRCN07xGcXRX9MYxYchDe5BcHj%2BZ4i%2B42WyPc8Xofi7bbZJN5nJLJ5qr6IqRtzqNlM17SpFsnkEyTWoABEjz4JXOQvzWYuwdnV5LNGOwTM5v9r4RpQ8ZXsYodks3o31JBlzbYtNotisnm22MxiwGFXam5oN1n0TA%2FhRvshvTSDwHff4nNzRo9Dum6PaJbMXzDz%2Bx%2BFkj4L4bFNBb1asqsgH7Dyh4DvbkPtf5yMDKzEwyoaESMSNS9P9gJVA3%2FRTlwoMwZvxECFWxIPNw9gi01nOHjP32esZTtmXHnxvZd8ZtakqQ7ekajbXetpNa6ocTVxJtY%2BuSe69OLz77zh5bDR3xjZMzUz6fxrz1nqrZGcHQHfPVefN%2BfiK86LeXj%2BSc5lPKy%2Bk%2FvCUI%2FDaLFYCWHr6nbXuILTIsb5imNKY%2FrCm28fSMxPhkN1XbNMNZGuqwOBhtTSxWuTk6bw0ZaG86b1hKddePOKuBvmiguYBn4T%2FyOqOyGRBt7bKUI1GjioBC8aUKwF7Q319UgcmtFGIzCJGBqwQij0ynDsfdFGc3TS3BlNfJ25xmzniMkpXXTPvCaD3ZaZvyzjmZdudBostmhb0ORZNN2sJBeed1HXkrUsywueQH%2BL0eCPxmsa5ZpgRJSDZ11yDv%2Bjmbd86vxZfc1WcZJ3UkMq1BOOOVtvu%2F%2BpB%2Ben186d3GTwWAw2jheaJs09%2F%2BLNfZft37DALyrNj1wABMuUKbODyTVnT%2FKYbJ3Tpq8IrNh92dkxOj5P%2FYpZx4%2FycyiVcDYdn4JbEoKdQi9054iBKsygLW46FRGxAb0NPNCm8BSNCPjoKcj6EAus4SuP3rB%2BcV99%2FeTF6294dA8%2BTK6v74MHVpYNRt%2FI30e8QGTOOdfGWzzxcy%2B87a7bLjw37rHw1nPzp0KyyRSeZO%2BQQhInt3dYgvycjrPOv%2BT8s1rptaP84VeywdWX2T4ysr0%2F7TLIs6%2Bx9zib56ye1dM9e%2FXsZmePY3NDs9zlnNVt4%2BWgHJbbz3Livg4P9WWgviOMm4kCRT6I8vw0NbUUEnFvOuFKoxQW1gTsvFirsF5pb7qTUCx4i7VmtToveaDxvK9uOaedVvPRpVOnNz0Q6bry7uiSdQ8t7Vy4JQKVS%2BXPplV2ts4bvCwZu%2BKzgITtxepaPRzWdpv74muvv6RO0SorX6cu%2FdqKn%2FXWnrtp%2FZragz13DUCl5myiFW2Ycvb0PtsXnU%2Btx8pvLFbUspLX68mdegwmOif%2FNPDONajTGoUh6tU56HBJCTBASVvNUB5VIiKpc9kd7kludodSFz7xQbiOmMk5dOYk56gzL6uaf7N8a6MQOHm0ae6snZpFDfuT3%2FjdYzjzwkXXIVHoXNuCfQslQZqBZjTsoHMqrkE4jaYdgkGz2ATOgB3cPkSukD01DnV3ttb1wx%2B6arPqbkcNAHoFPzKUUQ%2BqL0k97pjbZv1I%2FegC9zTFbrrlFpNdmea%2BgIgfWW3wqkcis8ky5FAcRd1If5nNZrl2FFpungc8wpoCl1BpQV%2FScS%2BzjlASyUTVv%2FAJ46gkJI4bHX4lTnloctxPZE1ckS3%2BjG2fKIjkQFyzuo8jvYQG1OrGvJPSTu%2FnSp9PHNTl4z5hK%2F8gtXVKF6gEKiglgcKiRlCESsQCV5QIlKWKpr34lt%2FwkSx%2FJCmP5%2FcBKQfl%2F5gd%2BrOS%2F%2Bp91%2F%2BYCg5CXK2W4M9fu%2B%2F6xxX%2BvnelVuldIDCG0VQTpU9Dw4pRfei%2B6zWx0MLie0gPbyrkmRU7OwT16JGeyXLHqOLqAfVN1GPlBzWtFNzj0TRTCjogtP1NjIvu5habN5Aoa1k66wGpqriVetJgiGdwDZtKhnN0y4n9sXYnsqGmZfDSR15%2B5NLBlhoDaedEm7sxmpqRija6ZEEg2EAnTiAC8IrmFbGz1q08P9PSkjl%2F5bqzYqT9hMmptEXDgTqP3Wiye%2BsD4Wir4jCeoHbbp5hRfpB7BakUIppIlPCD30dR1GtslDz8OsqbXmejFC%2Fv8wu5X2myq7SJ8Avzv9DFUJySf5uNvq4%2BTi7W9D%2FOZrLChdwxmPNiBRqVjnpK%2FaGxRCDspVYKAW9AN1JANoo8wP4BJUlGqdgw6m1qPQ2QW3%2BOfU5%2FieLS%2FNuKpDU3uf8bcAXyBal5jMR2NEAbPAZt0K3hvxHBEDlUxfIGcD%2BN2gNSNx36nfqlAYow0puatNpRz0e4W2oahKzQHsjf2c16ad%2F3t2KTtPobnX6D8C8pd0MDP%2BKx7wnXqGGlLQcvikMErm6TmfsuxJXbSAxqNjOogJLQBLiKEHAE%2BJGTS3JoEhTrz8%2FCB%2B5YlupJ58aOat8Kv4JvregxwcU5Cp8GFAFm1FyOfto6GS2m1NGTS6CPNKkbsTdCBlnN9onMho55BX8IJZtEQ35lk%2BhtwN5A0V3RCPoD%2FyXAcv6pAtbZczRUA64JmcUf4q7Q89ZHLeJVZ5D1Ps%2Ft%2B0iCT3AHVtZC7JDCXfR7OSb%2FXja5H3zQbZL1B%2BULX1BMTEk3AseSpmnKEK4T9ekMIidUCRQFfcbj7z8gNLvzF7mbhQN8h6ZbRset%2BnQWdS%2FZX3k7WpS8P9sfo0iGS64wV516pOhjI6TZ2dApgI5%2BLhxywYoWxKUrykKJsIoDsR4mSrCTg0egMPnLW%2F3Q5Nn8BZEuzqEI7HK3n0%2BzFmuO3TtWQ5WJoG9YqCD6Gc32SxnbnVPfsxvrFXK2dILl7bLthDp6glhcsfp4bYvbSmj%2FmQ94uBTw0E73x2jbNRCvC6VL6GCFDwU7eWQDcC5FY5s0slieRDwtAbRsbLXbaXAuu14e2OJw1dc6jQ3ZdY8v7rv2%2FBWZLqvFWVvvcmwZkK9f5jS4muO9yR5res4kfkRxhV03L1RfPOiPtYi8pd7jNEsOpyTwxpaY%2FyCZu%2FAmd5Or9uS3DYaeqVOhH7gZN%2F8I%2Fwi1fEuLXvyNivibjuKvN%2B1Nc01HF%2F3h%2Bef%2FsOhox8MPd5SFucPjorQwXT%2BytA8EmA5mamHNFDVhBI5pjZbQpugBNkO8MvRub8KVDKST1Wag7D3xlin1ZF7LFP%2F79nbvCXFOY%2BPUjrT7%2FotsPXXZ4exdPzuhZuL5LUXVAn7k7PbhG89uz3b41X01gbjP1xwlu5rrvvf9%2Bpbs6E%2FVu7Nk642%2FPYRaAiUBdrmO6CDTBLPQFA1ur0uXoBR1INDMkypKpoTqnSMx5GiEdTEaSHLs0Alvu%2F19%2F5QW9Rv1U1ridT22i%2B53pzumbs%2BXFFXYC%2B%2BCGsTj5JUT%2FGCgRt3n78i2n71FHG4%2Fu6X%2B%2B9%2Braya7os3ZbDmgWfXun44e%2Bu2NZKuGZ0HiF8M4TlMPR%2BEU6rPKRJ8wOU2RFUFLex3egEsz3YqEAq0cqhAAW19dBZIlVzR61tuIdTnpXH7l%2BuXrbjPUyep%2B8cl6aXKWhPHpDcXl9KiTWDNr4mBQc8Tq%2BNzK%2FOKSbsfl79o9G20R%2BbrBXYvUg0rLHhtrc4TN81TTOWSZ0gL1ZVlOYH2ery%2F7XVUjFMbzYpg7UswcqJPQwBd0LKLabJ8IaCr2otcjSkIrGwootKECaUd4XH1%2BSdazRrfddkBU98t1htvWrbjqSqjaCguxrffM%2F5zDCpBALUycmajhd%2BR6ww4SWafuZ5eU%2BtPid4lgd3gt%2Bb%2FY9rQoZNmiXYPXyRHbRs8zX%2Ff4WIFjWZJtUdSD55AP3xtXH%2BZipC0EqdBGDA4CoYEU6gRLGPU11QhkLTBiEYPiqOeQgwTCl9aok1Qr5pFf71qEeNxjy%2F8F0GoqYPv75Yh9j3x4DuJ%2BuEzHRpAq2lMqb%2BqfTdiq6kGtzfOWsv0c7lSeMXDHBDe1MT%2BLUgx0Pg%2Fp87u2UicdIvqQi8DkxhcUwUXCedMpb4NQjwY3npTmgsURJavLwCRyEcN2HfWsDVGfv%2Fu9ZUWUx%2BPYFueUKwaNvbtu%2BXps3eVWbN1GcgVrdMnWJ7WmJz9SD66EBidag0NF1Ukep0t5A7sFCWdhzvYwHv6L%2FBehXuHqfaBwBEU7hfVLcXvS4VQv%2BT%2FvaSIl7cbeMc7ekv9i8S3e1L5xxpvMGcu1EYPbKyCiijjGXcDKckm43PqU2qNWlXusZMiqF82cuVzolUHN9NNR0HZPxFPV9V0wLtvq%2Bk4DqOwVWDlzuQLVdqFiP08cRX7aRlBVfR8cb55bWe5LExnlcsDp1vAP8Q9BucPMk1Ulh4GnN0SAdxcNHv3q9ohx1Ati4S%2FtkWjIDe3hQdkUGrGRaFBiUdiTSkI41UkMuuQHP%2BEaSQYlPQTFWJF03BNPpTu5KFAdkWgDukzsZKMG0Q1TAQQglScOaP%2FdsZ8%2BfP75D%2F9Uu5Gs3FY%2F2SxPld0DHOciXI9gqjcEidXjE%2B3BLosy0OcX3T7O5g65ROGyzQ2BZs7WbZVnO5ydLe32hMwTQ4wnnKXW6XW5LAa7oaXOIHoUl0FgLQLH2by8wSTWeAx2Y5PDazK3BqZbeJZwXGPaYhX87ZNszoDdaRxotXO1nNlpdvAPFWHDm8PqEE0sZxDEqGzxisFNnuCWetPcGrObN0p23tTZwMuRVodSV8%2BLTrOV3eRvzjQZiSjaLYS1WEJe0kNsJlZu9LFun7%2B%2BwW4gRDRbaxw2nrOGm%2BxOj9cmtbp9ZqeTM1m8UXfQQCSTVSQox6pvtjot%2FFpHvIUjJovFEoYvHYV9C5Y%2FxN9OfcalvII37UEhTbTg%2FAQIaPb4Vz6j5u8%2FaViycMod%2FfkDcpu8QZbZoeBi%2FvbzP3XPsZvOubMtaPHkD9jt6%2BU2O7vqU%2F9C9SMvgrXpQNG%2FE0oJxun%2BCiElUa0IKQSUwERxOntKSV7ekcuh9VBZBBo3VUcB58ofKBHCwLyf9qFosz9Ibf8dGqwaBMjRig4SGOZ2UkWI7UiO9OfUPdxOYFApUZyfpY7mgEc5rtNGGk2H1lPhAk1Hp%2FVAMqQEHEUfEYkkUQq1JMdzsX7kklRrTrUi1wMcDjmu1YYfATj7Y%2BpGpPEBXuoQIj8rR9mgCl4C9yqmF7xnVWxGVniNqtpVmXBvQ6iwni5YQ8a1jYrXtc2J13HvgkvqWxuva1sbr%2BP2S5ceKGyBwDv2DbrToe1u6BkAJV7xnVLUaq0sJB8pFqcUIPi3yuwxi4JuLr%2BP30f3OkPQ72aO0xYo3%2FEsmO3QO5qEF8S0qQH0UsKXv0brnl9%2B8M7jF174%2BDsfvPOl1au%2FRL5%2F9DsbNnwHL2pHR1NTRxMZhJtHktOOxLxErPF6YlLvpC9YP73x%2B4ofw%2B3xVdrHcDE0dQQCmCRgvt9b35xINDf1CDcRSfJ%2BpYl%2BSf8YcurfmXP5F%2Fkj6J82jNsrkWiEuhVlgFfyNkB3S5MUzLhoNiwSCYcxQ7Ui4J0Xh7fmqRbaPa1tzujxkBRlsEHy0%2FOM4pYLPb7g9O6BQJN6l9zQ0OGyCaZz0vMTbHOzXfQ7a2tsterTcqxeInODoemdktw%2B1SbVhKwtW9ffe8VKadK0OVuC3bWzyKm5LeddsWTeorWyY9IMtUFutdu5g%2BRn533qkocdvLs2HmhU75br%2FMmWtD8zA3OP2t1ea636jEzqYxJZGAwFiDEd61oTsrRuW3%2F3pYNi3bS%2BRd%2BGjOfVpAPNd6y64Gsz1GaZleWIPoYL%2Fv9mTeQBENVEguiF1aC4YeXxFETw6QyPfn0m9g8IrMFAvKM1EI11DARnbqibHk%2FIojy5rSdgCyZi06y8sS024PeuO4MfwQ5Y9yKRZCqyYaF30vzeHlmUprR21tR0t0yz8KZY66zWuGvxVQB%2F36kP%2BK38t2Hu6NQ9SFJfw0AdpqPEK2qTMpf2VCqJwqPoJezTL824b8akoL%2Bx03nhh%2BoNo5e77psxg9Q5LzebIKD%2BfsY34f2MtB9fk9v5b8PT6tYrgv4kRPwd0q9z3gdJSJ0653KjCYPwCaR5aUY63eW48O%2Fkdo33yxX9wCiMv2QTrk8eGSI6Ag6moG9t2P%2FF7GRNlDjl0gw7pJ5aOXXqyqn8SENnXBmbSwUYLyqJjv3UmY1nKr4t80no0faXsaIEiF%2FBRaIBnItSce4OUif7W6Vm9T9H1X9Vj71BEm%2BRdmIJQST%2FZfVdudUvh9S%2FqqNvqT98g9SQ3lHibZY0mRVHooyDN%2FFHmTgzjdozKw28NwQ0hwN6BCoPKaEk3YtKwNhwRLXuk076CGoZNXDQcRwZvreTZY9EZi%2Bd0s4%2Bztv8iei04JQl6ZbDD2eHV7X4uHuFVfPrOmcs6m6Kr7hssr%2B1VZFcEZ%2FPdJkn1hOs8SXS%2FNFFgqt94PIZzZ3tdaL6Q5vo6piSzdy737pwsX1VyxUrF15iJ4uNkq%2Brbyg1Z%2BO8VsNC1UmcvORPRfxtPrfRwL2p%2FoA1eZp6Z%2FaGffoewaXcA%2FxBlKlQLfhQL%2FoPgBGP3qsA7IQS8qDVNswHKRSheDUvA3Q7MZoRcJMxlEygujn1QdyzfPfq3dEp%2FbXh5e5YXW2Ngfvza0ZF6UgFL%2FE0fTq4LBlvTE2qb%2FKuuzYSXVnjTfM1osvqMHVbm9950quIZlbqaL6YP7jk3kUtA0GnX2nvq53f3WoSsvEdDRnULgo2fN7lNZJgI8%2FVWi33c3bBZnGY05%2Bdm%2B3qc7fNmj4YGKLj2nfqFP%2Bg7jdDlxEV5XsJQZP6hYrS1l0VQr4c69Xueixp90gnZPmE5OF22j%2BSYEWHlZ0K%2FHgsh%2FZtsbh6h2DNRlvv6jJh9XaJaHCZDiUDKNTMkvb8vsqCyf3ZNdSmO0fa0Y4baJTtpbKzuVzeeSI7fCKr2Z0WypapnXJ4gnoWy3PoUIlIQ1TXdqhQJIXp9Wx5fYdpeWh2TY5D%2BYVyKd0jw3iumwi%2FBC3cEy4o83QlZnW79MrCgCjbhWXBlRZVVZZv4rIKpXC01HFlHdHLoeWVl6UVc%2FJ5uGm6CViW5mulYMk%2BHqNYr0AyUPivLg2oMs2MPqtuhHyRyiwvNJej1Br%2BfcLyoAyu8D9B7bgmzUqfFobF5nKnK4%2Bt8MPJkI%2FxHUNWk117jugWF%2BxazTAALQn6%2BUE9lhoI5ApGA%2FiuJOsrlNP28SVVuBVajXmircLel46w2bJS1Q0Ft0KDuikDFL%2F3pYrid1Q4FvofwRIo4R9h2ftSwc6jHAMqLcCql8YPHtlzGoByNXYN6v8hXnRaOhUvx0sVLCexwupGDR4NOYC7PePa5keIPACnuAdD7dEadRuTIiS6Lb7uskb381My5yjzF8lGCjBRqdwrWJCagfB3yCy7XT1i92hbcZ5Ci1FJkgYMDf6n%2BjspIsHFjJrTOdzSMuOa9DbDcj%2FnH9N9bIoGVgzHPWIQuFuYtaMRaq8eCKI0gEF6lPOZjBz3EEvaaxwSUT9U%2F8JbJZPJJLBLolH1La%2FRbF9AbC8JJjv%2FmMnssKjLRBJyqj9QXxNko0Ux%2FX79epfiXkm6fmKwF%2Fen1HLc6LxloXWKvGa5rVCVL83VuiPcDEX%2FK5pTXOxHfx6HHB0t2FI0qI2rCZFTrvPWU67zVuS%2FkTsLnc7IKhFg30e4FOkqNSfH5PtkmUy6Cpiv%2F36k2sbqCeCFNa%2BURpoY0sZoYmCgCr3qgZz6s8I0gP1bYiR%2BD79H56NOz0EVWCTy2%2FfffvSCCx59W7uRV9995eqrX8GLesOXNm360iZ%2BT%2FEl3uZqL%2BFyzSZ8XxpTiI%2FG0nkT4zznFZ0t4ipMz5v4q9ssqbdKUZt6u82knPCrt6PZwsnn0XySVnyPR1ZXAn72yx48bWJsu7apnI3Hy8bygUK5Js32qcytapqgmn95uexccj205vGgJ%2BeuOeG2SORmKZr%2FqKzcx9SFctMJdwMUFZDJITs7dnOp1EKZCxg304Cevyfya%2BvlKqv6aXK1qIj3imL%2BL6hL%2ByvUlFfE0VKZ7E8gBY3M%2F8VoJCFgizH1W6VyC76nH6b7jiibYVxUmVIEspry%2FLgZIlCeP11Z4zs%2FAwvVwtGFEut5S1JY4lfyT0N%2FevOLo%2BrUEgjcqc9IkGpQbv3iW7Co5b%2BKgjvpzYdH85PLcc4X21ouwEGl%2FS4qnUAvoSlXUUhR1eKr2VWFTB%2BGMl6FsiQsVD1R3urlAAIoSn7JQkmiVVCHSpCwDH%2FqPepXQ0Db77CJOAImohB%2BRPWr31ev5g%2FkE%2BzTa4lbvZo8xdWPffQu9yJTPCNB66s%2BzXoJt%2F0L6hSoCuBIoK8fnBGG87OoRckJpLqyWe4YbpGi50g0%2B3I3UD85Oa0fzubfoXxPLbW3FDWzigmyJeM0tQkax7PqTy80%2BUxfUHPlBZIRVNQ%2Bv0xRm8REKPoLmNr0%2BUo48v9GFbXPKylqQ2IKm00QddgyWGMROCTxdLB9nCY8P7j2DjlsV%2F%2Bmfr0C0r%2FNkeXbbpPlOTBBwT0mVz1zx9S%2FwJecBF9Wgv3p032iP2v4VSgfgW2G%2BHUEdEXU6iq4CtpLJfIN9XQG8dwa1VoO8XC2SrPDDyCOQptXgbcPvlAgBfxBoGwftQKeKFrNTASPt3pGGqDt%2FQRasn2kri%2BH6L80MJRsmVYJrAKyDItpJUy3%2F15WYIJqcJ9Q5N%2FLFJ4c3dc1URpWl9hW6mu50MUIelg4ucTPf15zs5DFo1c0VSp1tKB9jkwIyuM45kb%2BIP8gHed%2B6jO3v0KbIknzLy636E8KPTdCuUpB0wLo9JKnAO6pv0vS31EtBha%2FfJemkgLVVnd8KCk4qBTpQ5m7FbifBKrPJcq0pZAFVG%2FXbOFz%2BTcq2MLrcmV28Nmi%2FOHskh82bau0k8eWCaPijQPWQ5lUvslwVCfHkXBMIehqUgtDNLeauH1huvZTbYmw%2BluPjyWoNGEuxRLR7LK5fSyXFUyK7PURQv2v8D3XOt2NJ6liBbmPGOsakw1kbeOs%2B31Wm5qpH%2BiJWSzqdPr2O7zc2TmtnrzCig6bBd%2FvgQmzOlz0STWIlmZEQfupogOZFHUZ7EkUnMn0RrpIMqAgHRJAOjIJ3yGw1I%2FMAp9q9S3Q%2FclADNm1wEeO%2Bxbwg5OIYHZLY3ehG5lJk2xhco%2B6JWybpEVz2wrR6hZyD0QXZbeDVB%2BonmlimpkWprdAs4WEZDSQppsDlcdCBJJESIYFuAtUnC4GIF2C3Uu2Kv7L1bdz6FxtqxpG4TqQOqOUNAJ2HLvPWA2GgDy4O4vaDrtyl6P%2B1fAll%2BSyFcQ28GHqh7fvvf37udylf0fNwhzgz87Y%2Bcf5x9GnF6ygHu18sAbipWeF0YPBgp2GaKeQduxxdEr3SgbH1kvH7tvqSLhedomOvZyts2dw8acu3dY%2Ff%2BucuMtCuP%2Fe4zC4XnH3OLZ8ZuxTWxy8dJfU5dhDeKPSlJy5pn%2F%2B7u3XrJhmr9C5CuleGflGQocKnlAUaRKp0BAHV0ZwUt9VCqk6zYOgRIuMfePJzdmBdpPJ7%2F6B23%2Bf%2Bsp9NMDZevovvfYHG5dGPISQq1DojqNckchVrCcCYz%2FQ0hI0m3NKDRfkgsrnamo%2Bp0CAq1FyvC3a3Nak%2Fs5VX282x9Ufy3E39VAx6o7LpCvO2wK%2Bch9jNqpJCutcIOooKnYWtDK8gTRVYygRQfwgzKM5%2BjP2jOZdx3r32Py7rQUPOzAnoRs95NvRAR0qLGU11Taqu1bUYSzMcWjMEir067JQQHfIrLBHsrgv00%2FWavd8HRLMEEYFSW3HCSNQehnrHztKqHcDyo4VfZ6gPKCR%2BgufwA8GegxUEo4A%2Bgd0BASHiH6jYMLIsUdQJTs%2FC641KN4oCHWolCMLlMfIdtWKScjx7SM5LD9HnfmhrGI0S139UWfUnxgOXdJFW%2BAMcGjKr6eHAttHF5sUoeArYKDcxMSYcKA%2FxUDhPiEOEAPafSIUFArN0r24ynI91EPARDXvIDYyvqZaWeroBOUABQA%2FE%2BDXC7PWafDLQY2oiwpUEyj4RQtVlUp1GrM7In2p2A7VuiOW6otMiGOo5Mrp05ejVuTy6dNX%2Fk%2F7mybZQ0nUmfrbx3U4KueDnlHm5wdh8FFeKnoaKKh%2FTK18StOPhwG9Xo5mqXAxvw%2F79YQwwDR%2BnAKQQ4izVXioB84qcppWB7IqjU45z4CE17OvF1Dw%2BoTFqxtz8dxwtogBnF9MjIl%2Fin%2BK8s3hM9laIn0TiCbTAXL0T798bPXqx36p3chrv0O%2BGC9Xaj48Ecv8U8UEeBvUEsDlTepiU5OvlpeNGvpnKF0RvUooWhIjnx6GeBapXCQYTw9DNg6%2FOC3gZjp76oNTj9Kz6Jqobxb9NDqc08vcKReOpcsQV2K8InXFaXW3aI6Ofr1k48rp7CX7rx%2Bv1UKPsfvzQU0Kc83i2VdILmd2%2FyX55zT9luN2%2BCu4nKfwPcK%2FCvDVU%2BpHh8%2BLaldIf1fA5h3ndT6Fln9%2FW%2F9Ce1vndfvJtnPVO2xhm3qbafHVCN1X363UXHq9xuVD8OSD29Z8pZ5cZrern9cAdGW%2Fuib%2Fud%2BVK0L9a42r6C90kL8KzxwLQw9NkIQJL0ASU8M%2BVG0KsUdgdvpgP%2F6NqqP0%2FgHZFUfGEijZLHpiIgvV5%2FBltrj8Qd7XQd5p4P%2B7tJo30NMO6VGBwahSPMYiaaBYoLY6uEnciyhhh1Z%2FvvacG%2Frjpsvnpzs0B1Id6fmX8119l88XnOxe%2FuGrzzHcdu7UtY3%2B2vmXN5zUyj3ZcPl8p1sZSs6%2FnGXtwrV7Ka0XZdz83fwjjINpZWYw85lL8BRK4nGyIir2RiOsEyipuEcIakpGjWgBjLiHWOgj0Yi34gW1kKPxHt2Na5q%2Blwg1RdRSpFDNzosb44YJXnAfoEOpZW%2F%2F6u1lhYA6leevezbI26zNHO811M2dc5HFxpk4i1jPC0s21%2FBWW5DnPQbn2X1WK43%2FaM2n18DfSoybbNHijFpamzXI31eRibGUOxSu%2FlT96YZlq1Yt20DaSBuG6knw2eusHs5EPBfNmVvHKdaQzcDfz9ZsXmLDWGXy2U5OsYSsIn8CS12jQIyD12KKqZrLPy7mSPdICmd6WGHG8NDZkkHuE4h9TU8FpmUO%2FVjC%2FEinToFyoNDz2p9XD6g78WgQdPG7Z3R0T%2FZ5dTM9lsL8Ktek7szl2L%2BgQwGgwkZHc2g5Su7NvVqwGy2Ua4KSXUwt1X4PaM5paaEu6jQ5zVFyNabxvUksVt2T%2F4VeamYPlLtffdQsk%2B2sUTY%2FzDXl%2F05W53%2FBz9UK3p7LjapZ2ZxOm%2BUlZXrL3HHGqO8%2BwVroDaCTTnTxitMxmiAAYQzVJQH%2Bnj3oIHnPaN6Zq6sNSLjBl8tKgVr2mj%2F9CWi9dnKca8rBQBsd5R1tzVlgrl5pbnPw6kZclCr2CHxMnHohLz%2B3KRQokzALyeIKFU1TNCiayJdoHvDYe7K6mZLm8S3uJ9dojuaJ62%2FqN%2FtjQxnSnhnKPw%2BLNrLi8ZKyJ3x1YhiI1aNAtP6NzCGzYv3DmaGh%2FLvQZnt0evgIhTFV0kE%2FPYxAnOHhCQUZdCWY5JWJwMzlAGl1mpNbDU7yyGnhRMILsYhH3VRAijrPcBU8%2FCj1Y9NY6cnGVW0CjTLaz7E3epvaT%2FLtTV72Rs%2B0WVVmd0dz%2FMGTI5F0OsIviaqDlbbO5X6xT3PeXbXHRtf%2Fz%2Bfdka%2BeKPr8KF7IF4vBsT9MFPuPJMBTBMq9hQxXelQ%2Bbewnf18ap4Ib%2BmSMrtDU5zqlD8QANa5MBGh%2FOwOvSDfcV2d66mfEWsbGWmIz6nsyZDWQSmqmxDneYyvjHPmRXHZxeueyRGLZzvRioKnGto9nIPkibAJA16adcOZRQr1iAP3bUyBR7T4RgAWTKxhkCYFwshq%2B7iV9r0whk50cmRcTg4fy5x4OmmNkHndIA2%2BYuMbmE9dwGYB4KFTsvnDE6Ah47r%2FfE3AYI%2BoXADpkdlENcZ8OZEEf8FFGZNxMs6ZLpG3SUFLL7Q2kcFU%2FA%2FJsw%2BvWDa%2F7emewLaoeibaF1B9qUNnuqWK3%2BUfXYVL1v%2FomD15xxeDkPnXTOKSVcCbDGtOu0YQNpGAP7U1HU58UrqGu8xIbHtkQ3LVhb7Dx46ET3Ffcm1q0YcOizNmf3bC3VjWfAcpSv3MyTlgJ23FHQgmgvk%2Bgk8pL0mcCDOn08MDAQlf%2B%2FSlTZ1z12fnqntOhbOTL9%2FZdevbAPN%2Byby1f%2FuUtC%2Fixm8ZBo59LTXEW060hGrTDplNprWd58fwB%2Fb%2FE27BdS%2Fs7U%2BrGVCeQ46nzaw9QccnmZerGZZs3Yw9aVHt%2BKh6HN4ti6lxIhT%2FwahnZtWwzlY9QHQ2c79C%2BdxzvVDKy8GqKWQERO9YAKbpsDUTLdWV5dE8PVPjvj9pqw7ah%2FPFVtkit7aj6G5xY9mfJrCz1j1e0BcnPol4UjtrCdbahIVtd2HaURujnFJR8CuOuUUfhrGhgKKgjCYNSvCc1WKlEp8wHUaAYynFNyzZn%2B2MnYv36dbMDBTonl%2FT%2Fma5IKAyEGz%2B4eRnVtaX6tss2o34u8mWorFtuFgm4A6qK%2Fyp%2FgLEBVat5WnPDdKA574ubuFJ%2FIUfZ%2FY2Nt6mN%2BZNNTSTaeI56gKwkXerTe9DDHUw8%2FH35FY3nNN7GGuBKWhrV9ep%2B0k1WjNWVaHkW1yA%2BQHWNu8rtBw2a5YXuE40rs7%2FGA%2Bj09V3hA98yRnFPOGr8ltGlsFdD%2F7tRce3LH6Trcneuiy7K7J3khKu%2B3qUaXPWaX7T6%2FKfj9BX2eZq2XAcZT79u1ClJzUtHUqfqSMWBcZS43Ena0cUGLgpkKxB1QM%2B0Fxz10wgg6r5rltnFpH05pepUq3Y2HfYqeKRntmUFNz%2BXmcOs1H31U6cC6RTVLfCg7RNBF1UF2%2FwBgu0fFQtPEU1sSg3VcNsR7dWq3af87tUFn1l3ltXpaJxpNvtcZkH2WmMst3JqRpxUH%2BWC0E1qOGtP66s1MYv%2BVLu8%2FXFXvV%2FZbunYYBeVN64ls0ur6NzpV9xzlmQwB5qC4Tq70WC0tk8dWJXeHvkD0h9zJOM0vD86%2F1NJMaIAolctvlByferCsqOKDKceOfUu1PsmoFCamV5mCrMUOCi6V6FJosMF22AcrKJgQDVhfYh6tepp%2FlYgvnCEAbJQ1L0rOpajEmRcasMiPfxhgGoVo4rwreQpV6fUJHH2e8fa1s2c13Apl1b89a58ozdoap2sjgLN9uISl7P1DrulyeIkt0zr6JjWocoPOZsaXPb6jtqBblsgsaRre2xHi4nELm0MhG1%2Bx1SXwLpFi53b%2BaHRYo%2FIrbZtuWAKu5cSEXfybnnmUCaXGTpQr0xK2O2WWY76f%2BnAjNVf7nCZHU5XqIkTnpt6VtvsFlPXg1031g%2FVRdpkkyVpD7jnmax88QwDvg%2F66NnMRdRXTcGTmQc3cuINwN5IQqi0yzb%2BYFVHuVqI5s4ADfg5oE4ybDLd28mFSFmYvRoomsWXEdLU2Wl3GJy93ZNb%2Fd5gqmNaqJZSO1l6PVRy0nZIj%2F45EetjLguh1rLqR%2BSK0hO6NrsqcNX8zoUdjQYDJ7tb4os6%2Bi%2BY0qpY2AWlnLRDWdGFTfGY1gV0zNAtJ7pdo24se0D88AwLY%2FgZmE9iuP4V5v7CSR%2FRThaHLh%2BUeBkXwU6BC7lGOevK65udTv%2BtS%2FPfW7qj3ljTcj3b9OkbV85t8xsMj7Ddj7DGpthZKwKPvso%2Fc%2F1K9aLE12fMWLV1y1D9ua8lyJdWXr%2FbG%2BnoCFutf%2FmLILe39ITUV4igr3876fpX5g2zeB52sWnIL4fXHlgeUzOx5QfIvJQyrKQE9wHUqVq%2BPEaOrz0wVvNbJZVSfsuMzxN4l9PkedFzw9V5Dj%2BnzpgoT4ZxCxJfC5RWLc74YVHxKlExCYt0JAOMatREhHBSCAtSfod6x6Ls8HCWECLwXZ9nd5Dz1T24JUdWs6fU3%2B%2BfcnT49Qe%2BkBs%2BwdsMZgPXMp3U5S958snPP%2FEE7bvkOPCuTUDTUQ%2FUzirLhML9yPahoe1D5Fj5jWsaoveyP00PehdUAHk%2FseDVWsvDWXXXsyn%2F4wfpXc2V3%2FQxli3jl%2F5hj%2F83avSCfpTNxOEKLmTjxOEKuxgNlsQn0xgct724mhynupNW1Ph6o3RYS3%2F%2B2TJrzLlkFz%2Bip3qCHKf6eqW02QJLjBYuuj4sobhCWqa%2FYHGEHpcnumuWSOhxeaL7sOakNR6vvmo%2BYcfFA8UFXEPZf9UjyudIOyNwx%2Fi90DdsujS%2FFX2UAwvWSVK4NxaMhAGw3oowp%2Fuc8CTi7D2rBgZWwb%2F60faR7SPsEbjkXy4G0XaqhXPwe2cePjxjxuHD6ssQuR1fq6PF0E%2Bo2t1nePTn8TUmxz%2FA3crMoCc7egESuoTHYc7mYdg6etORoOhR7BBGD%2BqJopELrl4S6cJNRtEAsLP%2FOdvnJq0Wo0GolY2Et9VFB2Kf%2B4bZvVyxfOMz3WdFfSIryj6DwWghre7aQbdiDrkTL3A3vNDuDpk93HqXwam%2BbWmUJZfNn5ozKV5Pmmq8PF%2FjVY%2B2Tlk2M2RzSXKjmbQ4RZcQavEYrN%2F9rlXwtIQqzxQNMzPPfHYLvuPoO9TbT8bpGw5CQPGd%2BSyX%2FCyf0Vxjd2R9NmsunnXYa8xGHzn%2BsSfM5J0y0DZEXWWxkXjcR75KBLNLHi7XvX2G8VOrf4Ykg0AMdBESIpo7MgAfyakA6rkqpI6UjNs0px7cMV%2BD5BF49Tez1VGnYmq0WIijp985m4Sn2gJR9b07riPPFo97OYbUZbxJCpot7H%2FlpZBicglCPN7WOfJkcHqc3ElWqvvz%2F1E6bIQrG%2Btz6WkM1SM9FBTR7FSs8KyBBytSmNEoquJNFN5EQyTiCrnKDx1h58yxCepPHU5nxGoxEQeeOZi2m80DxNxncVhr6BmEfUarxejw%2BWSiHhWk19bSY7aKR5MsteblJpfTLtjimBouXsm3d3djjYM%2BwEW0El9dM%2FueVRWIsXwe43R7SgbVZqrnqoJ1X%2FkuF7pcgf8duv4q6vayV5U9zMV91GxO59UUjW8rHV6u799WzKMT7umRCXbYUKM%2BfoaCcwgaoqZUtmodV3p%2BX7akb4dnU9B9La38RPFUG2SCC90tVA4XwEFhyOpZZrUCsgWYHsczLFBBVGNtstoN1bw0Z%2BO4fYIbvZVt4EUcJEKOhHeincWqONw%2Bq6w5Go%2BWGOSR7LhKV%2BKBqbBPpfUvOf9QqkpDyVhBeyyZQGMsdA5FBUqvFMtUyGq9vjnsAJU4UcrxldP1CCaofyDkSAifoP5QwWx%2BSyUGxp75BzGAvtG7uQ38LehlyEQMeh0TeE6Bm7tYdXqdkt0uOb3kfYlNwmOdDyacOq%2FqlFo1v%2BPTmTi3E%2FglC9W11b34A22zmLzvb231Q0L2Bgg60OTW4YdstO%2BYOJnO38TtpH7zy9ymokWyA79qlVSn38HtpFlImFnhu3b4boNWXklOXV0Iwo7lQ1hrZyPFcwtjwFP7iEKSHSSJw509kh8kj6pr%2BH1jR7km9vcvqN9657vffefkv%2BfKxge1X%2B7RdjYUPIESN7gTvRkB%2FRMYtEkaVkdHApmdBPpnKmz0n1xSWFOyVIuLrinZwpoCRe6kyiVZoHX088F%2BUX4%2BWKS4iBTP0IWxGtZgOdMaV4KTayqHQF%2FVihBwTbgDXTCmKoOBJeNhwJMzEVjtjIFLuU38fPR7hqNG1JS7g%2FqRCuy3vmQ3W9Vu8qbVbP%2BSzazGRJH83MzP90Ck2m31mMjP8TiLn5uwD2Ugr2PFvPQjB5BnSJvQxGQZZEB%2BLopqzGzDbMmbkAPkZVJjeO5FzOSBKCgJze2ZS4Gemc9twrwY6u9H61iUQTcRvtdT9RW3tRxAWwFs2tcuJRnI6xjmBdWjbgFNRHMHiF1uHYBfUR%2Fut5Ug2jXAaT96%2B9RH%2FFToRwIzGbKmVJ1AZQnoabSB1yyIg7ByAridHApPMjyw0OiV6RjSbCuzwLAvFizBliWJua1tsuAgvNPbmljYbpt8lkWam7b3XZiOiKJskMOtmfScnsbPW208knwjuXrXK4Q1iKIgNyYXXDVT9C2Ye%2F78GQ5BEEXfFdde2RwauOysdJNL5AzCy84ard%2FnGAVN8alecnFdgu5Gbd5DJTL%2BhHZK0vApVy3OfU8XTSJg1TlssivsPYUlIqvn66PzrVTymCc4wgF6SDNR0pDf%2B9Gp%2BVnsUH5WtpHYsuhOaey8zdwLN47V8MTbm78g687%2BP3cx6tcAeNpjYGRgYGBk8s0%2FzBIfz2%2FzlUGeZQNQhOFCWfF0GP0%2F8P8c1jusIkAuBwMTSBQAYwQM6HjaY2BkYGAV%2Bd8KJgP%2FXWG9wwAUQQGLAYqPBl942n1TvUoDQRCe1VM8kWARjNrZGIurBAsRBIuA2vkAFsJiKTYW4guIjT5ARMgTxCLoA1hcb5OgDyGHrY7f7M65e8fpLF%2B%2B2W%2FnZ2eTmGfaIJi5I0qGDlZZcD51QzTTJirZPAI9JIwVA%2BwT8L5nOdMaV0AuMJ%2BicRHq8of6LSD18fzq8ds7xjpwBnQiSI9V5QVl6NwPvgM15NXn%2FAtWZyj3W0HjEXitOc%2FdIdbetPdFTZ%2BP6t%2BX7xU0%2Fk6GJtOe1%2FB3arN0%2Fpmz1J4UZc%2BD6ExwjD7vioeGd5HvhvU%2BR%2BDZcGZ6YBPNfAi0G97iBPwFXqph2cW8%2BD7kjMfwtinHb6kLb6Wygk3cZytSEoptGrlScdHtLPeri1JKueACMZfU1ViJG1Sq5E43dIt7SZZFl1zuRhb%2FGOs44xFVDbrJzB5tYs35OmaXTrEmkv0DajnMWQB42mNgYNCCwk0MLxheMPrhgUuY2JiUmOqY2pjWMD1hdmPOY%2B5hPsLCwWLEksSyiOUOawzrLrYiti%2FsCuxJ7Kc45DiSOPZxmnG2cG7jvMelweXDNYXrEbcBdxf3KR4OngheLd443g18fHwZfFv4NfiX8T8TEBIIEZggsEpQS7BMcJsQl5CFUI3QAWEp4RLhCyJaIldEbURXiJ4RYxEzE0sQ2yD2TzxIfJkEk4SeRJbENIkNEg8k%2FklqSGZITpE8InlL8p2UmVSG1A6pb9Jx0ltkjGSmyDySlZF1kc2RnSK7R%2FaZnJ5cmdwB%2BST5SwpuCvsUjRTLFHcoOShNU9qhzKespGyhXKV8SPmBCpOKgUqcyjSVR6omqgmqe9RE1OrUnqkHqO9R%2F6FholGgsUZzgeYZLTUtL60WbS7tKh0OnQydXTpvdGV0O3S%2F6Gnopekt0ruhz6fvpl%2Bnv0n%2Fh4GdQYvBJUMhwwTDdYYvjFSM4oxmGd0zVjK2M84w3mYiYZJgssLkkqmO6TzTF2Z2ZjVmd8ylzP3MJ5lfsRCwcLJoszhhyWXpZdlhecZKxirHapbVPesF1ndsJGwCbBbZ%2FLA1sn1jZ2XXY3fFXsM%2Bz36V%2FS8HD4cGh2OOTI51ThJOK5zeOUs4OzmXOS9wPuUi4JLgss7lm2uU6zY3NrcSty1u39zN3Mvct7l%2F8xDzMPLw88jyaPM44ynkaeEZ59niucqLyUvPKwgAn3OqOQAAAQAAARcApwARAAAAAAACAAAAAQABAAAAQAAuAAAAAHjarZK9TgJBEMf%2Fd6CRaAyRhMLqCgsbL4ciglTGRPEjSiSKlnLycXJ86CEniU%2FhM9jYWPgIFkYfwd6nsDD%2Bd1mBIIUx3mZnfzs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IFR0dFcgVHQAAAAABACYALAToBCAAFwAACQE2Mh8BFhQHAQYiJwEmND8BNjIfARYyAdECOwgUB7EICPzxBxUH%2FoAICLEHFAirBxYB3QI7CAixBxQI%2FPAICAGACBQHsQgIqwcAAQBuAG4EQgRCACMAAAEXFhQHCQEWFA8BBiInCQEGIi8BJjQ3CQEmND8BNjIXCQE2MgOIsggI%2FvUBCwgIsggVB%2F70%2FvQHFQiyCAgBC%2F71CAiyCBUHAQwBDAcVBDuzCBUH%2FvT%2B9AcVCLIICAEL%2FvUICLIIFQcBDAEMBxUIsggI%2FvUBDAcAAwAX%2F%2BsExQSZABkAJQBJAAAAMh4CFRQHARYUDwEGIicBBiMiLgI0PgEEIg4BFB4BMj4BNCYFMzIWHQEzMhYdARQGKwEVFAYrASImPQEjIiY9ATQ2OwE1NDYBmcSzgk1OASwICG0HFQj%2B1HeOYrSBTU2BAW%2BzmFhYmLOZWFj%2BvJYKD0sKDw8KSw8KlgoPSwoPDwpLDwSZTYKzYo15%2FtUIFQhsCAgBK01NgbTEs4JNWJmzmFhYmLOZIw8KSw8KlgoPSwoPDwpLDwqWCg9LCg8AAAMAF%2F%2FrBMUEmQAZACUANQAAADIeAhUUBwEWFA8BBiInAQYjIi4CND4BBCIOARQeATI%2BATQmBSEyFh0BFAYjISImPQE0NgGZxLOCTU4BLAgIbQcVCP7Ud45itIFNTYEBb7OYWFiYs5lYWP5YAV4KDw8K%2FqIKDw8EmU2Cs2KNef7VCBUIbAgIAStNTYG0xLOCTViZs5hYWJizmYcPCpYKDw8KlgoPAAAAAAIAFwAXBJkEsAAPAC0AAAEzMhYVERQGKwEiJjURNDYFNRYSFRQOAiIuAjU0EjcVDgEVFB4BMj4BNTQmAiZkFR0dFWQVHR0BD6fSW5vW6tabW9KnZ3xyxejFcnwEsB0V%2FnAVHR0VAZAVHeGmPv7ZuHXWm1tbm9Z1uAEnPqY3yHh0xXJyxXR4yAAEAGQAAASwBLAADwAfAC8APwAAATMyFhURFAYrASImNRE0NgEzMhYVERQGKwEiJjURNDYBMzIWFREUBisBIiY1ETQ2BTMyFh0BFAYrASImPQE0NgQBlgoPDwqWCg8P%2Ft6WCg8PCpYKDw%2F%2B3pYKDw8KlgoPD%2F7elgoPDwqWCg8PBLAPCvuCCg8PCgR%2BCg%2F%2BcA8K%2FRIKDw8KAu4KD%2F7UDwr%2BPgoPDwoBwgoPyA8K%2BgoPDwr6Cg8AAAAAAgAaABsElgSWAEcATwAAATIfAhYfATcWFwcXFh8CFhUUDwIGDwEXBgcnBwYPAgYjIi8CJi8BByYnNycmLwImNTQ%2FAjY%2FASc2Nxc3Nj8CNhIiBhQWMjY0AlghKSYFMS0Fhj0rUAMZDgGYBQWYAQ8YA1AwOIYFLDIFJisfISkmBTEtBYY8LFADGQ0ClwYGlwINGQNQLzqFBS0xBSYreLJ%2BfrJ%2BBJYFmAEOGQJQMDmGBSwxBiYrHiIoJgYxLAWGPSxRAxkOApcFBZcCDhkDUTA5hgUtMAYmKiAhKCYGMC0Fhj0sUAIZDgGYBf6ZfrF%2BfrEABwBkAAAEsAUUABMAFwAhACUAKQAtADEAAAEhMhYdASEyFh0BITU0NjMhNTQ2FxUhNQERFAYjISImNREXETMRMxEzETMRMxEzETMRAfQBLCk7ARMKD%2Fu0DwoBEzspASwBLDsp%2FUQpO2RkZGRkZGRkBRQ7KWQPCktLCg9kKTtkZGT%2B1PzgKTs7KQMgZP1EArz9RAK8%2FUQCvP1EArwAAQAMAAAFCATRAB8AABMBNjIXARYGKwERFAYrASImNREhERQGKwEiJjURIyImEgJsCBUHAmAIBQqvDwr6Cg%2F%2B1A8K%2BgoPrwoFAmoCYAcH%2FaAICv3BCg8PCgF3%2FokKDw8KAj8KAAIAZAAAA%2BgEsAARABcAAAERFBYzIREUBiMhIiY1ETQ2MwEjIiY9AQJYOykBLB0V%2FOAVHR0VA1L6FR0EsP5wKTv9dhUdHRUETBUd%2FnAdFfoAAwAXABcEmQSZAA8AGwAwAAAAMh4CFA4CIi4CND4BBCIOARQeATI%2BATQmBTMyFhURMzIWHQEUBisBIiY1ETQ2AePq1ptbW5vW6tabW1ubAb%2FoxXJyxejFcnL%2BfDIKD68KDw8K%2BgoPDwSZW5vW6tabW1ub1urWmztyxejFcnLF6MUNDwr%2B7Q8KMgoPDwoBXgoPAAAAAAL%2FnAAABRQEsAALAA8AACkBAyMDIQEzAzMDMwEDMwMFFP3mKfIp%2FeYBr9EVohTQ%2Fp4b4BsBkP5wBLD%2B1AEs%2FnD%2B1AEsAAAAAAIAZAAABLAEsAAVAC8AAAEzMhYVETMyFgcBBiInASY2OwERNDYBMzIWFREUBiMhIiY1ETQ2OwEyFh0BITU0NgImyBUdvxQLDf65DSYN%2FrkNCxS%2FHQJUMgoPDwr75goPDwoyCg8DhA8EsB0V%2Fj4XEP5wEBABkBAXAcIVHfzgDwr%2BogoPDwoBXgoPDwqvrwoPAAMAFwAXBJkEmQAPABsAMQAAADIeAhQOAiIuAjQ%2BAQQiDgEUHgEyPgE0JgUzMhYVETMyFgcDBiInAyY2OwERNDYB4%2BrWm1tbm9bq1ptbW5sBv%2BjFcnLF6MVycv58lgoPiRUKDd8NJg3fDQoViQ8EmVub1urWm1tbm9bq1ps7csXoxXJyxejFDQ8K%2Fu0XEP7tEBABExAXARMKDwAAAAMAFwAXBJkEmQAPABsAMQAAADIeAhQOAiIuAjQ%2BAQQiDgEUHgEyPgE0JiUTFgYrAREUBisBIiY1ESMiJjcTNjIB4%2BrWm1tbm9bq1ptbW5sBv%2BjFcnLF6MVycv7n3w0KFYkPCpYKD4kVCg3fDSYEmVub1urWm1tbm9bq1ps7csXoxXJyxejFAf7tEBf%2B7QoPDwoBExcQARMQAAAAAAIAAAAABLAEsAAZADkAABMhMhYXExYVERQGBwYjISImJyY1EzQ3Ez4BBSEiBgcDBhY7ATIWHwEeATsBMjY%2FAT4BOwEyNicDLgHhAu4KEwO6BwgFDBn7tAweAgYBB7kDEwKX%2FdQKEgJXAgwKlgoTAiYCEwr6ChMCJgITCpYKDAJXAhIEsA4K%2FXQYGf5XDB4CBggEDRkBqRkYAowKDsgOC%2F4%2BCw4OCpgKDg4KmAoODgsBwgsOAAMAFwAXBJkEmQAPABsAJwAAADIeAhQOAiIuAjQ%2BAQQiDgEUHgEyPgE0JgUXFhQPAQYmNRE0NgHj6tabW1ub1urWm1tbmwG%2F6MVycsXoxXJy%2Fov9ERH9EBgYBJlbm9bq1ptbW5vW6tabO3LF6MVycsXoxV2%2BDCQMvgwLFQGQFQsAAQAXABcEmQSwACgAAAE3NhYVERQGIyEiJj8BJiMiDgEUHgEyPgE1MxQOAiIuAjQ%2BAjMyA7OHBwsPCv6WCwQHhW2BdMVycsXoxXKWW5vW6tabW1ub1nXABCSHBwQL%2FpYKDwsHhUxyxejFcnLFdHXWm1tbm9bq1ptbAAAAAAIAFwABBJkEsAAaADUAAAE3NhYVERQGIyEiJj8BJiMiDgEVIzQ%2BAjMyEzMUDgIjIicHBiY1ETQ2MyEyFg8BFjMyPgEDs4cHCw8L%2FpcLBAeGboF0xXKWW5vWdcDrllub1nXAnIYHCw8LAWgKBQiFboJ0xXIEJIcHBAv%2BlwsPCweGS3LFdHXWm1v9v3XWm1t2hggFCgFoCw8LB4VMcsUAAAAKAGQAAASwBLAADwAfAC8APwBPAF8AbwB%2FAI8AnwAAEyEyFhURFAYjISImNRE0NgUhIgYVERQWMyEyNjURNCYFMzIWHQEUBisBIiY9ATQ2MyEyFh0BFAYjISImPQE0NgczMhYdARQGKwEiJj0BNDYzITIWHQEUBiMhIiY9ATQ2BzMyFh0BFAYrASImPQE0NjMhMhYdARQGIyEiJj0BNDYHMzIWHQEUBisBIiY9ATQ2MyEyFh0BFAYjISImPQE0Nn0EGgoPDwr75goPDwPA%2FK4KDw8KA1IKDw%2F9CDIKDw8KMgoPD9IBwgoPDwr%2BPgoPD74yCg8PCjIKDw%2FSAcIKDw8K%2Fj4KDw%2B%2BMgoPDwoyCg8P0gHCCg8PCv4%2BCg8PvjIKDw8KMgoPD9IBwgoPDwr%2BPgoPDwSwDwr7ggoPDwoEfgoPyA8K%2FK4KDw8KA1IKD2QPCjIKDw8KMgoPDwoyCg8PCjIKD8gPCjIKDw8KMgoPDwoyCg8PCjIKD8gPCjIKDw8KMgoPDwoyCg8PCjIKD8gPCjIKDw8KMgoPDwoyCg8PCjIKDwAAAAACAAAAAARMBLAAGQAjAAABNTQmIyEiBh0BIyIGFREUFjMhMjY1ETQmIyE1NDY7ATIWHQEDhHVT%2FtRSdmQpOzspA4QpOzsp%2FageFMgUHgMgyFN1dlLIOyn9qCk7OykCWCk7lhUdHRWWAAIAZAAABEwETAAJADcAABMzMhYVESMRNDYFMhcWFREUBw4DIyIuAScuAiMiBwYjIicmNRE%2BATc2HgMXHgIzMjc2fTIKD2QPA8AEBRADIUNAMRwaPyonKSxHHlVLBwgGBQ4WeDsXKC4TOQQpLUUdZ1AHBEwPCvvNBDMKDzACBhH%2BWwYGO1AkDQ0ODg8PDzkFAwcPAbY3VwMCAwsGFAEODg5XCAAAAwAAAAAEsASXACEAMQBBAAAAMh4CFREUBisBIiY1ETQuASAOARURFAYrASImNRE0PgEDMzIWFREUBisBIiY1ETQ2ITMyFhURFAYrASImNRE0NgHk6N6jYw8KMgoPjeT%2B%2BuSNDwoyCg9joyqgCAwMCKAIDAwCYKAIDAwIoAgMDASXY6PedP7UCg8PCgEsf9FyctF%2F%2FtQKDw8KASx03qP9wAwI%2FjQIDAwIAcwIDAwI%2FjQIDAwIAcwIDAAAAAACAAAA0wRHA90AFQA5AAABJTYWFREUBiclJisBIiY1ETQ2OwEyBTc2Mh8BFhQPARcWFA8BBiIvAQcGIi8BJjQ%2FAScmND8BNjIXAUEBAgkMDAn%2B%2FhUZ%2BgoPDwr6GQJYeAcUByIHB3h4BwciBxQHeHgHFAciBwd3dwcHIgcUBwMurAYHCv0SCgcGrA4PCgFeCg%2BEeAcHIgcUB3h4BxQHIgcHd3cHByIHFAd4eAcUByIICAAAAAACAAAA0wNyA90AFQAvAAABJTYWFREUBiclJisBIiY1ETQ2OwEyJTMWFxYVFAcGDwEiLwEuATc2NTQnJjY%2FATYBQQECCQwMCf7%2BFRn6Cg8PCvoZAdIECgZgWgYLAwkHHQcDBkhOBgMIHQcDLqwGBwr9EgoHBqwODwoBXgoPZAEJgaGafwkBAQYXBxMIZ36EaggUBxYFAAAAAAMAAADEBGID7AAbADEASwAAATMWFxYVFAYHBgcjIi8BLgE3NjU0JicmNj8BNgUlNhYVERQGJyUmKwEiJjURNDY7ATIlMxYXFhUUBwYPASIvAS4BNzY1NCcmNj8BNgPHAwsGh0RABwoDCQcqCAIGbzs3BgIJKgf9ggECCQwMCf7%2BFRn6Cg8PCvoZAdIECgZgWgYLAwkHHQcDBkhOBgMIHQcD7AEJs9lpy1QJAQYiBhQIlrJarEcJFAYhBb6sBgcK%2FRIKBwasDg8KAV4KD2QBCYGhmn8JAQEGFwcTCGd%2BhGoIFQYWBQAAAAANAAAAAASwBLAACQAVABkAHQAhACUALQA7AD8AQwBHAEsATwAAATMVIxUhFSMRIQEjFTMVIREjESM1IQURIREhESERBSM1MwUjNTMBMxEhETM1MwEzFSMVIzUjNTM1IzUhBREhEQcjNTMFIzUzASM1MwUhNSEB9GRk%2FnBkAfQCvMjI%2FtTIZAJY%2B7QBLAGQASz84GRkArxkZP1EyP4MyGQB9MhkyGRkyAEs%2FUQBLGRkZAOEZGT%2BDGRkAfT%2B1AEsA4RkZGQCWP4MZMgBLAEsyGT%2B1AEs%2FtQBLMhkZGT%2BDP4MAfRk%2FtRkZGRkyGTI%2FtQBLMhkZGT%2B1GRkZAAAAAAJAAAAAASwBLAAAwAHAAsADwATABcAGwAfACMAADcjETMTIxEzASMRMxMjETMBIxEzASE1IRcjNTMXIzUzBSM1M2RkZMhkZAGQyMjIZGQBLMjI%2FOD%2B1AEsyGRkyGRkASzIyMgD6PwYA%2Bj8GAPo%2FBgD6PwYA%2Bj7UGRkW1tbW1sAAAIAAAAKBKYEsAANABUAAAkBFhQHAQYiJwETNDYzBCYiBhQWMjYB9AKqCAj%2BMAgUCP1WAQ8KAUM7Uzs7UzsEsP1WCBQI%2FjAICAKqAdsKD807O1Q7OwAAAAADAAAACgXSBLAADQAZACEAAAkBFhQHAQYiJwETNDYzIQEWFAcBBiIvAQkBBCYiBhQWMjYB9AKqCAj%2BMAgUCP1WAQ8KAwYCqggI%2FjAIFAg4Aaj9RP7TO1M7O1M7BLD9VggUCP4wCAgCqgHbCg%2F9VggUCP4wCAg4AaoCvM07O1Q7OwAAAAABAGQAAASwBLAAJgAAASEyFREUDwEGJjURNCYjISIPAQYWMyEyFhURFAYjISImNRE0PwE2ASwDOUsSQAgKDwr9RBkSQAgFCgK8Cg8PCvyuCg8SixIEsEv8fBkSQAgFCgO2Cg8SQAgKDwr8SgoPDwoDzxkSixIAAAABAMj%2F%2FwRMBLAACgAAEyEyFhURCQERNDb6AyAVHf4%2B%2Fj4dBLAdFfuCAbz%2BQwR%2FFR0AAAAAAwAAAAAEsASwABUARQBVAAABISIGBwMGHwEeATMhMjY%2FATYnAy4BASMiBg8BDgEjISImLwEuASsBIgYVERQWOwEyNj0BNDYzITIWHQEUFjsBMjY1ETQmASEiBg8BBhYzITI2LwEuAQM2%2FkQLEAFOBw45BhcKAcIKFwY%2BDgdTARABVpYKFgROBBYK%2FdoKFgROBBYKlgoPDwqWCg8PCgLuCg8PCpYKDw%2F%2Bsf4MChMCJgILCgJYCgsCJgITBLAPCv7TGBVsCQwMCWwVGAEtCg%2F%2BcA0JnAkNDQmcCQ0PCv12Cg8PCpYKDw8KlgoPDwoCigoP%2FagOCpgKDg4KmAoOAAAAAAQAAABkBLAETAAdACEAKQAxAAABMzIeAh8BMzIWFREUBiMhIiY1ETQ2OwE%2BBAEVMzUEIgYUFjI2NCQyFhQGIiY0AfTIOF00JAcGlik7Oyn8GCk7OymWAgknM10ByGT%2Bz76Hh76H%2Fu9WPDxWPARMKTs7FRQ7Kf2oKTs7KQJYKTsIG0U1K%2F7UZGRGh76Hh74IPFY8PFYAAAAAAgA1AAAEsASvACAAIwAACQEWFx4BHwEVITUyNi8BIQYHBh4CMxUhNTY3PgE%2FAQEDIQMCqQGBFCgSJQkK%2Fl81LBFS%2Fnk6IgsJKjIe%2FpM4HAwaBwcBj6wBVKIEr%2FwaMioTFQECQkJXLd6RWSIuHAxCQhgcDCUNDQPu%2FVoByQAAAAADAGQAAAPwBLAAJwAyADsAAAEeBhUUDgMjITU%2BATURNC4EJzUFMh4CFRQOAgclMzI2NTQuAisBETMyNjU0JisBAvEFEzUwOyodN1htbDD%2BDCk7AQYLFyEaAdc5dWM%2BHy0tEP6Pi05pESpTPnbYUFJ9Xp8CgQEHGB0zOlIuQ3VONxpZBzMoAzsYFBwLEAkHRwEpSXNDM1s6KwkxYUopOzQb%2FK5lUFqBAAABAMgAAANvBLAAGQAAARcOAQcDBhYXFSE1NjcTNjQuBCcmJzUDbQJTQgeECSxK%2Fgy6Dq0DAw8MHxUXDQYEsDkTNSj8uTEoBmFhEFIDQBEaExAJCwYHAwI5AAAAAAL%2FtQAABRQEsAAlAC8AAAEjNC4FKwERFBYfARUhNTI%2BAzURIyIOBRUjESEFIxEzByczESM3BRQyCAsZEyYYGcgyGRn%2BcAQOIhoWyBkYJhMZCwgyA%2Bj7m0tLfX1LS30DhBUgFQ4IAwH8rhYZAQJkZAEFCRUOA1IBAwgOFSAVASzI%2FOCnpwMgpwACACH%2FtQSPBLAAJQAvAAABIzQuBSsBERQWHwEVITUyPgM1ESMiDgUVIxEhEwc1IRUnNxUhNQRMMggLGRMmGBnIMhkZ%2FnAEDiIaFsgZGCYTGQsIMgPoQ6f84KenAyADhBUgFQ4IAwH9dhYZAQJkZAEFCRUOAooBAwgOFSAVASz7gn1LS319S0sABAAAAAAEsARMAA8AHwAvAD8AABMhMhYdARQGIyEiJj0BNDYTITIWHQEUBiMhIiY9ATQ2EyEyFh0BFAYjISImPQE0NhMhMhYdARQGIyEiJj0BNDYyAlgVHR0V%2FagVHR0VA%2BgVHR0V%2FBgVHR0VAyAVHR0V%2FOAVHR0VBEwVHR0V%2B7QVHR0ETB0VZBUdHRVkFR3%2B1B0VZBUdHRVkFR3%2B1B0VZBUdHRVkFR3%2B1B0VZBUdHRVkFR0ABAAAAAAEsARMAA8AHwAvAD8AABMhMhYdARQGIyEiJj0BNDYDITIWHQEUBiMhIiY9ATQ2EyEyFh0BFAYjISImPQE0NgMhMhYdARQGIyEiJj0BNDb6ArwVHR0V%2FUQVHR2zBEwVHR0V%2B7QVHR3dArwVHR0V%2FUQVHR2zBEwVHR0V%2B7QVHR0ETB0VZBUdHRVkFR3%2B1B0VZBUdHRVkFR3%2B1B0VZBUdHRVkFR3%2B1B0VZBUdHRVkFR0ABAAAAAAEsARMAA8AHwAvAD8AAAE1NDYzITIWHQEUBiMhIiYBNTQ2MyEyFh0BFAYjISImEzU0NjMhMhYdARQGIyEiJgE1NDYzITIWHQEUBiMhIiYB9B0VAlgVHR0V%2FagVHf5wHRUD6BUdHRX8GBUdyB0VAyAVHR0V%2FOAVHf7UHRUETBUdHRX7tBUdA7ZkFR0dFWQVHR3%2B6WQVHR0VZBUdHf7pZBUdHRVkFR0d%2FulkFR0dFWQVHR0AAAQAAAAABLAETAAPAB8ALwA%2FAAATITIWHQEUBiMhIiY9ATQ2EyEyFh0BFAYjISImPQE0NhMhMhYdARQGIyEiJj0BNDYTITIWHQEUBiMhIiY9ATQ2MgRMFR0dFfu0FR0dFQRMFR0dFfu0FR0dFQRMFR0dFfu0FR0dFQRMFR0dFfu0FR0dBEwdFWQVHR0VZBUd%2FtQdFWQVHR0VZBUd%2FtQdFWQVHR0VZBUd%2FtQdFWQVHR0VZBUdAAgAAAAABLAETAAPAB8ALwA%2FAE8AXwBvAH8AABMzMhYdARQGKwEiJj0BNDYpATIWHQEUBiMhIiY9ATQ2ATMyFh0BFAYrASImPQE0NikBMhYdARQGIyEiJj0BNDYBMzIWHQEUBisBIiY9ATQ2KQEyFh0BFAYjISImPQE0NgEzMhYdARQGKwEiJj0BNDYpATIWHQEUBiMhIiY9ATQ2MmQVHR0VZBUdHQFBAyAVHR0V%2FOAVHR3%2B6WQVHR0VZBUdHQFBAyAVHR0V%2FOAVHR3%2B6WQVHR0VZBUdHQFBAyAVHR0V%2FOAVHR3%2B6WQVHR0VZBUdHQFBAyAVHR0V%2FOAVHR0ETB0VZBUdHRVkFR0dFWQVHR0VZBUd%2FtQdFWQVHR0VZBUdHRVkFR0dFWQVHf7UHRVkFR0dFWQVHR0VZBUdHRVkFR3%2B1B0VZBUdHRVkFR0dFWQVHR0VZBUdAAAG%2F5wAAASwBEwAAwATACMAKgA6AEoAACEjETsCMhYdARQGKwEiJj0BNDYTITIWHQEUBiMhIiY9ATQ2BQc1IzUzNQUhMhYdARQGIyEiJj0BNDYTITIWHQEUBiMhIiY9ATQ2AZBkZJZkFR0dFWQVHR0VAfQVHR0V%2FgwVHR3%2B%2BqfIyAHCASwVHR0V%2FtQVHR0VAlgVHR0V%2FagVHR0ETB0VZBUdHRVkFR3%2B1B0VZBUdHRVkFR36fUtkS68dFWQVHR0VZBUd%2FtQdFWQVHR0VZBUdAAAABgAAAAAFFARMAA8AEwAjACoAOgBKAAATMzIWHQEUBisBIiY9ATQ2ASMRMwEhMhYdARQGIyEiJj0BNDYFMxUjFSc3BSEyFh0BFAYjISImPQE0NhMhMhYdARQGIyEiJj0BNDYyZBUdHRVkFR0dA2dkZPyuAfQVHR0V%2FgwVHR0EL8jIp6f75gEsFR0dFf7UFR0dFQJYFR0dFf2oFR0dBEwdFWQVHR0VZBUd%2B7QETP7UHRVkFR0dFWQVHchkS319rx0VZBUdHRVkFR3%2B1B0VZBUdHRVkFR0AAAAAAgAAAMgEsAPoAA8AEgAAEyEyFhURFAYjISImNRE0NgkCSwLuHywsH%2F0SHywsBIT%2B1AEsA%2BgsH%2F12HywsHwKKHyz9RAEsASwAAwAAAAAEsARMAA8AFwAfAAATITIWFREUBiMhIiY1ETQ2FxE3BScBExEEMhYUBiImNCwEWBIaGhL7qBIaGkr3ASpKASXs%2FNJwTk5wTgRMGhL8DBIaGhID9BIaZP0ftoOcAT7%2B4AH0dE5vT09vAAAAAAIA2wAFBDYEkQAWAB4AAAEyHgEVFAcOAQ8BLgQnJjU0PgIWIgYUFjI2NAKIdcZzRkWyNjYJIV5YbSk8RHOft7eCgreCBJF4ynVzj23pPz4IIWZomEiEdVijeUjDgriBgbgAAAACABcAFwSZBJkADwAXAAAAMh4CFA4CIi4CND4BAREiDgEUHgEB4%2BrWm1tbm9bq1ptbW5sBS3TFcnLFBJlbm9bq1ptbW5vW6tab%2FG8DVnLF6MVyAAACAHUAAwPfBQ8AGgA1AAABHgYVFA4DBy4DNTQ%2BBQMOAhceBBcWNj8BNiYnLgInJjc2IyYCKhVJT1dOPiUzVnB9P1SbfEokP0xXUEm8FykoAwEbITEcExUWAgYCCQkFEikMGiACCAgFD0iPdXdzdYdFR4BeRiYEBTpjl1lFh3ZzeHaQ%2Ff4hS4I6JUEnIw4IBwwQIgoYBwQQQSlZtgsBAAAAAwAAAAAEywRsAAwAKgAvAAABNz4CHgEXHgEPAiUhMhcHISIGFREUFjMhMjY9ATcRFAYjISImNRE0NgkBBzcBA%2BhsAgYUFR0OFgoFBmz9BQGQMje7%2FpApOzspAfQpO8i7o%2F5wpbm5Azj%2BlqE3AWMD9XMBAgIEDw4WKgsKc8gNuzsp%2FgwpOzsptsj%2BtKW5uaUBkKW5%2Ftf%2BljKqAWMAAgAAAAAEkwRMABsANgAAASEGByMiBhURFBYzITI2NTcVFAYjISImNRE0NgUBFhQHAQYmJzUmDgMHPgY3NT4BAV4BaaQ0wyk7OykB9Ck7yLml%2FnClubkCfwFTCAj%2BrAcLARo5ZFRYGgouOUlARioTAQsETJI2Oyn%2BDCk7OymZZ6W5uaUBkKW5G%2F7TBxUH%2Fs4GBAnLAQINFjAhO2JBNB0UBwHSCgUAAAAAAgAAAAAEnQRMAB0ANQAAASEyFwchIgYVERQWMyEyNj0BNxUUBiMhIiY1ETQ2CQE2Mh8BFhQHAQYiLwEmND8BNjIfARYyAV4BXjxDsv6jKTs7KQH0KTvIuaX%2BcKW5uQHKAYsHFQdlBwf97QcVB%2FgHB2UHFQdvCBQETBexOyn%2BDCk7OylFyNulubmlAZCluf4zAYsHB2UHFQf97AcH%2BAcVB2UHB28HAAAAAQAKAAoEpgSmADsAAAkBNjIXARYGKwEVMzU0NhcBFhQHAQYmPQEjFTMyFgcBBiInASY2OwE1IxUUBicBJjQ3ATYWHQEzNSMiJgE%2BAQgIFAgBBAcFCqrICggBCAgI%2FvgICsiqCgUH%2FvwIFAj%2B%2BAgFCq%2FICgj%2B%2BAgIAQgICsivCgUDlgEICAj%2B%2BAgKyK0KBAf%2B%2FAcVB%2F73BwQKrcgKCP74CAgBCAgKyK0KBAcBCQcVBwEEBwQKrcgKAAEAyAAAA4QETAAZAAATMzIWFREBNhYVERQGJwERFAYrASImNRE0NvpkFR0B0A8VFQ%2F%2BMB0VZBUdHQRMHRX%2BSgHFDggV%2FBgVCA4Bxf5KFR0dFQPoFR0AAAABAAAAAASwBEwAIwAAEzMyFhURATYWFREBNhYVERQGJwERFAYnAREUBisBIiY1ETQ2MmQVHQHQDxUB0A8VFQ%2F%2BMBUP%2FjAdFWQVHR0ETB0V%2FkoBxQ4IFf5KAcUOCBX8GBUIDgHF%2FkoVCA4Bxf5KFR0dFQPoFR0AAAABAJ0AGQSwBDMAFQAAAREUBicBERQGJwEmNDcBNhYVEQE2FgSwFQ%2F%2BMBUP%2FhQPDwHsDxUB0A8VBBr8GBUIDgHF%2FkoVCA4B4A4qDgHgDggV%2FkoBxQ4IAAAAAQDIABYEMwQ2AAsAABMBFhQHAQYmNRE0NvMDLhIS%2FNISGRkEMv4OCx4L%2Fg4LDhUD6BUOAAIAyABkA4QD6AAPAB8AABMzMhYVERQGKwEiJjURNDYhMzIWFREUBisBIiY1ETQ2%2BsgVHR0VyBUdHQGlyBUdHRXIFR0dA%2BgdFfzgFR0dFQMgFR0dFfzgFR0dFQMgFR0AAAEAyABkBEwD6AAPAAABERQGIyEiJjURNDYzITIWBEwdFfzgFR0dFQMgFR0DtvzgFR0dFQMgFR0dAAAAAAEAAAAZBBMEMwAVAAABETQ2FwEWFAcBBiY1EQEGJjURNDYXAfQVDwHsDw%2F%2BFA8V%2FjAPFRUPAmQBthUIDv4gDioO%2FiAOCBUBtv47DggVA%2BgVCA4AAAH%2F%2FgACBLMETwAjAAABNzIWFRMUBiMHIiY1AwEGJjUDAQYmNQM0NhcBAzQ2FwEDNDYEGGQUHgUdFWQVHQL%2BMQ4VAv4yDxUFFQ8B0gIVDwHSAh0ETgEdFfwYFR0BHRUBtf46DwkVAbX%2BOQ4JFAPoFQkP%2Fj4BthQJDv49AbYVHQAAAQEsAAAD6ARMABkAAAEzMhYVERQGKwEiJjURAQYmNRE0NhcBETQ2A1JkFR0dFWQVHf4wDxUVDwHQHQRMHRX8GBUdHRUBtv47DggVA%2BgVCA7%2BOwG2FR0AAAIAZADIBLAESAALABsAAAkBFgYjISImNwE2MgEhMhYdARQGIyEiJj0BNDYCrgH1DwkW%2B%2B4WCQ8B9Q8q%2FfcD6BUdHRX8GBUdHQQ5%2FeQPFhYPAhwP%2FUgdFWQVHR0VZBUdAAEAiP%2F8A3UESgAFAAAJAgcJAQN1%2FqABYMX92AIoA4T%2Bn%2F6fxgIoAiYAAAAAAQE7%2F%2FwEKARKAAUAAAkBJwkBNwQo%2FdnGAWH%2Bn8YCI%2F3ZxgFhAWHGAAIAFwAXBJkEmQAPADMAAAAyHgIUDgIiLgI0PgEFIyIGHQEjIgYdARQWOwEVFBY7ATI2PQEzMjY9ATQmKwE1NCYB4%2BrWm1tbm9bq1ptbW5sBfWQVHZYVHR0Vlh0VZBUdlhUdHRWWHQSZW5vW6tabW1ub1urWm7odFZYdFWQVHZYVHR0Vlh0VZBUdlhUdAAAAAAIAFwAXBJkEmQAPAB8AAAAyHgIUDgIiLgI0PgEBISIGHQEUFjMhMjY9ATQmAePq1ptbW5vW6tabW1ubAkX%2BDBUdHRUB9BUdHQSZW5vW6tabW1ub1urWm%2F5%2BHRVkFR0dFWQVHQACABcAFwSZBJkADwAzAAAAMh4CFA4CIi4CND4BBCIPAScmIg8BBhQfAQcGFB8BFjI%2FARcWMj8BNjQvATc2NC8BAePq1ptbW5vW6tabW1ubAeUZCXh4CRkJjQkJeHgJCY0JGQl4eAkZCY0JCXh4CQmNBJlbm9bq1ptbW5vW6tabrQl4eAkJjQkZCXh4CRkJjQkJeHgJCY0JGQl4eAkZCY0AAgAXABcEmQSZAA8AJAAAADIeAhQOAiIuAjQ%2BAQEnJiIPAQYUHwEWMjcBNjQvASYiBwHj6tabW1ub1urWm1tbmwEVVAcVCIsHB%2FIHFQcBdwcHiwcVBwSZW5vW6tabW1ub1urWm%2F4xVQcHiwgUCPEICAF3BxUIiwcHAAAAAAMAFwAXBJkEmQAPADsASwAAADIeAhQOAiIuAjQ%2BAQUiDgMVFDsBFjc%2BATMyFhUUBgciDgUHBhY7ATI%2BAzU0LgMTIyIGHQEUFjsBMjY9ATQmAePq1ptbW5vW6tabW1ubAT8dPEIyIRSDHgUGHR8UFw4TARkOGhITDAIBDQ6tBx4oIxgiM0Q8OpYKDw8KlgoPDwSZW5vW6tabW1ub1urWm5ELHi9PMhkFEBQQFRIXFgcIBw4UHCoZCBEQKDhcNi9IKhsJ%2FeMPCpYKDw8KlgoPAAADABcAFwSZBJkADwAfAD4AAAAyHgIUDgIiLgI0PgEFIyIGHQEUFjsBMjY9ATQmAyMiBh0BFBY7ARUjIgYdARQWMyEyNj0BNCYrARE0JgHj6tabW1ub1urWm1tbmwGWlgoPDwqWCg8PCvoKDw8KS0sKDw8KAV4KDw8KSw8EmVub1urWm1tbm9bq1ptWDwqWCg8PCpYKD%2F7UDwoyCg%2FIDwoyCg8PCjIKDwETCg8AAgAAAAAEsASwAC8AXwAAATMyFh0BHgEXMzIWHQEUBisBDgEHFRQGKwEiJj0BLgEnIyImPQE0NjsBPgE3NTQ2ExUUBisBIiY9AQ4BBzMyFh0BFAYrAR4BFzU0NjsBMhYdAT4BNyMiJj0BNDY7AS4BAg2WCg9nlxvCCg8PCsIbl2cPCpYKD2eXG8IKDw8KwhuXZw%2B5DwqWCg9EZheoCg8PCqgXZkQPCpYKD0RmF6gKDw8KqBdmBLAPCsIbl2cPCpYKD2eXG8IKDw8KwhuXZw8KlgoPZ5cbwgoP%2Fs2oCg8PCqgXZkQPCpYKD0RmF6gKDw8KqBdmRA8KlgoPRGYAAwAXABcEmQSZAA8AGwA%2FAAAAMh4CFA4CIi4CND4BBCIOARQeATI%2BATQmBxcWFA8BFxYUDwEGIi8BBwYiLwEmND8BJyY0PwE2Mh8BNzYyAePq1ptbW5vW6tabW1ubAb%2FoxXJyxejFcnKaQAcHfHwHB0AHFQd8fAcVB0AHB3x8BwdABxUHfHwHFQSZW5vW6tabW1ub1urWmztyxejFcnLF6MVaQAcVB3x8BxUHQAcHfHwHB0AHFQd8fAcVB0AHB3x8BwAAAAMAFwAXBJkEmQAPABsAMAAAADIeAhQOAiIuAjQ%2BAQQiDgEUHgEyPgE0JgcXFhQHAQYiLwEmND8BNjIfATc2MgHj6tabW1ub1urWm1tbmwG%2F6MVycsXoxXJyg2oHB%2F7ACBQIyggIagcVB0%2FFBxUEmVub1urWm1tbm9bq1ps7csXoxXJyxejFfWoHFQf%2BvwcHywcVB2oICE%2FFBwAAAAMAFwAXBJkEmQAPABgAIQAAADIeAhQOAiIuAjQ%2BAQUiDgEVFBcBJhcBFjMyPgE1NAHj6tabW1ub1urWm1tbmwFLdMVyQQJLafX9uGhzdMVyBJlbm9bq1ptbW5vW6tabO3LFdHhpAktB0P24PnLFdHMAAAAAAQAXAFMEsAP5ABUAABMBNhYVESEyFh0BFAYjIREUBicBJjQnAgoQFwImFR0dFf3aFxD99hACRgGrDQoV%2Ft0dFcgVHf7dFQoNAasNJgAAAAABAAAAUwSZA%2FkAFQAACQEWFAcBBiY1ESEiJj0BNDYzIRE0NgJ%2FAgoQEP32EBf92hUdHRUCJhcD8f5VDSYN%2FlUNChUBIx0VyBUdASMVCgAAAAEAtwAABF0EmQAVAAAJARYGIyERFAYrASImNREhIiY3ATYyAqoBqw0KFf7dHRXIFR3%2B3RUKDQGrDSYEif32EBf92hUdHRUCJhcQAgoQAAAAAQC3ABcEXQSwABUAAAEzMhYVESEyFgcBBiInASY2MyERNDYCJsgVHQEjFQoN%2FlUNJg3%2BVQ0KFQEjHQSwHRX92hcQ%2FfYQEAIKEBcCJhUdAAABAAAAtwSZBF0AFwAACQEWFAcBBiY1EQ4DBz4ENxE0NgJ%2FAgoQEP32EBdesKWBJAUsW4fHfhcEVf5VDSYN%2FlUNChUBIwIkRHVNabGdcUYHAQYVCgACAAAAAASwBLAAFQArAAABITIWFREUBi8BBwYiLwEmND8BJyY2ASEiJjURNDYfATc2Mh8BFhQPARcWBgNSASwVHRUOXvkIFAhqBwf5Xg4I%2FiH%2B1BUdFQ5e%2BQgUCGoHB%2FleDggEsB0V%2FtQVCA5e%2BQcHaggUCPleDhX7UB0VASwVCA5e%2BQcHaggUCPleDhUAAAACAEkASQRnBGcAFQArAAABFxYUDwEXFgYjISImNRE0Nh8BNzYyASEyFhURFAYvAQcGIi8BJjQ%2FAScmNgP2agcH%2BV4OCBX%2B1BUdFQ5e%2BQgU%2FQwBLBUdFQ5e%2BQgUCGoHB%2FleDggEYGoIFAj5Xg4VHRUBLBUIDl75B%2F3xHRX%2B1BUIDl75BwdqCBQI%2BV4OFQAAAAADABcAFwSZBJkADwAfAC8AAAAyHgIUDgIiLgI0PgEFIyIGFxMeATsBMjY3EzYmAyMiBh0BFBY7ATI2PQE0JgHj6tabW1ub1urWm1tbmwGz0BQYBDoEIxQ2FCMEOgQYMZYKDw8KlgoPDwSZW5vW6tabW1ub1urWm7odFP7SFB0dFAEuFB3%2BDA8KlgoPDwqWCg8AAAAABQAAAAAEsASwAEkAVQBhAGgAbwAAATIWHwEWHwEWFxY3Nj8BNjc2MzIWHwEWHwIeATsBMhYdARQGKwEiBh0BIREjESE1NCYrASImPQE0NjsBMjY1ND8BNjc%2BBAUHBhY7ATI2LwEuAQUnJgYPAQYWOwEyNhMhIiY1ESkBERQGIyERAQQJFAUFFhbEFQ8dCAsmxBYXERUXMA0NDgQZCAEPCj0KDw8KMgoP%2FnDI%2FnAPCjIKDw8KPQsOCRkFDgIGFRYfAp2mBwQK2woKAzMDEP41sQgQAzMDCgrnCwMe%2FokKDwGQAlgPCv6JBLAEAgIKDXYNCxUJDRZ2DQoHIREQFRh7LAkLDwoyCg8PCq8BLP7UrwoPDwoyCg8GBQQwgBkUAwgWEQ55ogcKDgqVCgSqnQcECo8KDgr8cg8KAXf%2BiQoPAZAAAAAAAgAAAAwErwSmACsASQAAATYWFQYCDgQuAScmByYOAQ8BBiY1NDc%2BATc%2BAScuAT4BNz4GFyYGBw4BDwEOBAcOARY2Nz4CNz4DNz4BBI0IGgItQmxhi2KORDg9EQQRMxuZGhYqCFUYEyADCQIQOjEnUmFch3vAJQgdHyaiPT44XHRZUhcYDhItIRmKcVtGYWtbKRYEBKYDEwiy%2Ft3IlVgxEQgLCwwBAQIbG5kYEyJAJghKFRE8Hzdff4U%2FM0o1JSMbL0QJGCYvcSEhHjZST2c1ODwEJygeW0AxJUBff1UyFAABAF0AHgRyBM8ATwAAAQ4BHgQXLgc%2BATceAwYHDgQHBicmNzY3PgQuAScWDgMmJy4BJyY%2BBDcGHgM3PgEuAicmPgMCjScfCic4R0IgBBsKGAoQAwEJEg5gikggBhANPkpTPhZINx8SBgsNJysiCRZOQQoVNU1bYC9QZwICBAUWITsoCAYdJzIYHw8YIiYHDyJJYlkEz0OAZVxEOSQMBzgXOB42IzElKRIqg5Gnl0o3Z0c6IAYWCwYNAwQFIDhHXGF1OWiqb0sdBxUknF0XNTQ8PEUiNWNROBYJDS5AQVUhVZloUSkAAAAAA%2F%2FcAGoE1ARGABsAPwBRAAAAMh4FFA4FIi4FND4EBSYGFxYVFAYiJjU0NzYmBwYHDgEXHgQyPgM3NiYnJgUHDgEXFhcWNj8BNiYnJicuAQIGpJ17bk85HBw6T257naKde25POhwcOU9uewIPDwYIGbD4sBcIBw5GWg0ECxYyWl%2BDiINfWjIWCwQMWv3%2FIw8JCSU4EC0OIw4DDywtCyIERi1JXGJcSSpJXGJcSS0tSVxiXEkqSVxiXEncDwYTOT58sLB8OzcTBg9FcxAxEiRGXkQxMEVeRSQSMRF1HiQPLxJEMA0EDyIPJQ8sSRIEAAAABP%2FcAAAE1ASwABQAJwA7AEwAACEjNy4ENTQ%2BBTMyFzczEzceARUUDgMHNz4BNzYmJyYlBgcOARceBBc3LgE1NDc2JhcHDgEXFhcWNj8CJyYnLgECUJQfW6l2WSwcOU9ue51SPUEglCYvbIknUGqYUi5NdiYLBAw2%2FVFGWg0ECxIqSExoNSlrjxcIB3wjDwkJJTgQLQ4MFgMsLQsieBRhdHpiGxVJXGJcSS0Pef5StVXWNBpacm5jGq0xiD8SMRFGckVzEDESHjxRQTkNmhKnbjs3EwZwJA8vEkQwDQQPC1YELEkSBAAAAAP%2FngAABRIEqwALABgAKAAAJwE2FhcBFgYjISImJSE1NDY7ATIWHQEhAQczMhYPAQ4BKwEiJi8BJjZaAoIUOBQCghUbJfryJRsBCgFZDwqWCg8BWf5DaNAUGAQ6BCMUNhQjBDoEGGQEKh8FIfvgIEdEhEsKDw8KSwLT3x0U%2FBQdHRT8FB0AAAABAGQAFQSwBLAAKAAAADIWFREBHgEdARQGJyURFh0BFAYvAQcGJj0BNDcRBQYmPQE0NjcBETQCTHxYAWsPFhgR%2FplkGhPNzRMaZP6ZERgWDwFrBLBYPv6t%2FrsOMRQpFA0M%2Bf75XRRAFRAJgIAJEBVAFF0BB%2FkMDRQpFDEOAUUBUz4AAAARAAAAAARMBLAAHQAnACsALwAzADcAOwA%2FAEMARwBLAE8AUwBXAFsAXwBjAAABMzIWHQEzMhYdASE1NDY7ATU0NjsBMhYdASE1NDYBERQGIyEiJjURFxUzNTMVMzUzFTM1MxUzNTMVMzUFFTM1MxUzNTMVMzUzFTM1MxUzNQUVMzUzFTM1MxUzNTMVMzUzFTM1A1JkFR0yFR37tB0VMh0VZBUdAfQdAQ8dFfwYFR1kZGRkZGRkZGRk%2FHxkZGRkZGRkZGT8fGRkZGRkZGRkZASwHRUyHRWWlhUdMhUdHRUyMhUd%2FnD9EhUdHRUC7shkZGRkZGRkZGRkyGRkZGRkZGRkZGTIZGRkZGRkZGRkZAAAAAMAAAAZBXcElwAZACUANwAAARcWFA8BBiY9ASMBISImPQE0NjsBATM1NDYBBycjIiY9ATQ2MyEBFxYUDwEGJj0BIyc3FzM1NDYEb%2FkPD%2FkOFZ%2F9qP7dFR0dFdECWPEV%2FamNetEVHR0VASMDGvkPD%2FkOFfG1jXqfFQSN5g4qDuYOCBWW%2FagdFWQVHQJYlhUI%2FpiNeh0VZBUd%2Fk3mDioO5g4IFZa1jXqWFQgAAAABAAAAAASwBEwAEgAAEyEyFhURFAYjIQERIyImNRE0NmQD6Ck7Oyn9rP7QZCk7OwRMOyn9qCk7%2FtQBLDspAlgpOwAAAAMAZAAABEwEsAAJABMAPwAAEzMyFh0BITU0NiEzMhYdASE1NDYBERQOBSIuBTURIRUUFRwBHgYyPgYmNTQ9AZbIFR3%2B1B0C0cgVHf7UHQEPBhgoTGacwJxmTCgYBgEsAwcNFB8nNkI2Jx8TDwUFAQSwHRX6%2BhUdHRX6%2BhUd%2FnD%2B1ClJalZcPigoPlxWakkpASz6CRIVKyclIRsWEAgJEBccISUnKhURCPoAAAAB%2F%2F8A1ARMA8IABQAAAQcJAScBBEzG%2Fp%2F%2Bn8UCJwGbxwFh%2Fp%2FHAicAAQAAAO4ETQPcAAUAAAkCNwkBBE392v3ZxgFhAWEDFf3ZAifH%2Fp8BYQAAAAAC%2F1EAZAVfA%2BgAFAApAAABITIWFREzMhYPAQYiLwEmNjsBESElFxYGKwERIRchIiY1ESMiJj8BNjIBlALqFR2WFQgO5g4qDuYOCBWW%2FoP%2BHOYOCBWWAYHX%2FRIVHZYVCA7mDioD6B0V%2FdkVDvkPD%2FkOFQGRuPkOFf5wyB0VAiYVDvkPAAABAAYAAASeBLAAMAAAEzMyFh8BITIWBwMOASMhFyEyFhQGKwEVFAYiJj0BIRUUBiImPQEjIiYvAQMjIiY0NjheERwEJgOAGB4FZAUsIf2HMAIXFR0dFTIdKh3%2B1B0qHR8SHQYFyTYUHh4EsBYQoiUY%2FiUVK8gdKh0yFR0dFTIyFR0dFTIUCQoDwR0qHQAAAAACAAAAAASwBEwACwAPAAABFSE1MzQ2MyEyFhUFIREhBLD7UMg7KQEsKTv9RASw%2B1AD6GRkKTs7Kcj84AACAAAAAAXcBEwADAAQAAATAxEzNDYzITIWFSEVBQEhAcjIyDspASwqOgH0ASz%2B1PtQASwDIP5wAlgpOzspyGT9RAK8AAEBRQAAA2sErwAbAAABFxYGKwERMzIWDwEGIi8BJjY7AREjIiY%2FATYyAnvmDggVlpYVCA7mDioO5g4IFZaWFQgO5g4qBKD5DhX9pxUO%2BQ8P%2BQ4VAlkVDvkPAAAAAQABAUQErwNrABsAAAEXFhQPAQYmPQEhFRQGLwEmND8BNhYdASE1NDYDqPkODvkPFf2oFQ%2F5Dg75DxUCWBUDYOUPKQ%2FlDwkUl5cUCQ%2FlDykP5Q8JFZWVFQkAAAAEAAAAAASwBLAACQAZAB0AIQAAAQMuASMhIgYHAwUhIgYdARQWMyEyNj0BNCYFNTMVMzUzFQSRrAUkFP1gFCQFrAQt%2FBgpOzspA%2BgpOzv%2Bq2RkZAGQAtwXLSgV%2FR1kOylkKTs7KWQpO8hkZGRkAAAAA%2F%2BcAGQEsARMAAsAIwAxAAAAMhYVERQGIiY1ETQDJSMTFgYjIisBIiYnAj0BNDU0PgE7ASUBFSIuAz0BND4CNwRpKh0dKh1k%2FV0mLwMRFQUCVBQdBDcCCwzIAqP8GAQOIhoWFR0dCwRMHRX8rhUdHRUDUhX8mcj%2B7BAIHBUBUQ76AgQQDw36%2FtT6AQsTKRwyGigUDAEAAAACAEoAAARmBLAALAA1AAABMzIWDwEeARcTFzMyFhQGBw4EIyIuBC8BLgE0NjsBNxM%2BATcnJjYDFjMyNw4BIiYCKV4UEgYSU3oPP3YRExwaEggeZGqfTzl0XFU%2BLwwLEhocExF2Pw96UxIGEyQyNDUxDDdGOASwFRMlE39N%2FrmtHSkoBwQLHBYSCg4REg4FBAgoKR2tAUdNfhQgExr7vgYGMT09AAEAFAAUBJwEnAAXAAABNwcXBxcHFycHJwcnBzcnNyc3Jxc3FzcDIOBO6rS06k7gLZubLeBO6rS06k7gLZubA7JO4C2bmy3gTuq0tOpO4C2bmy3gTuq0tAADAAAAZASwBLAAIQAtAD0AAAEzMhYdAQchMhYdARQHAw4BKwEiJi8BIyImNRE0PwI%2BARcPAREzFzMTNSE3NQEzMhYVERQGKwEiJjURNDYCijIoPBwBSCg8He4QLBf6B0YfHz0tNxSRYA0xG2SWZIjW%2Bv4%2BMv12ZBUdHRVkFR0dBLBRLJZ9USxkLR3%2BqBghMhkZJCcBkCQbxMYcKGTU1f6JZAF3feGv%2FtQdFf4MFR0dFQH0FR0AAAAAAwAAAAAEsARMACAAMAA8AAABMzIWFxMWHQEUBiMhFh0BFAYrASImLwImNRE0NjsBNgUzMhYVERQGKwEiJjURNDYhByMRHwEzNSchNQMCWPoXLBDuHTwo%2FrgcPCgyGzENYJEUNy09fP3pZBUdHRVkFR0dAl%2BIZJZkMjIBwvoETCEY%2FqgdLWQsUXYHlixRKBzGxBskAZAnJGRkHRX%2BDBUdHRUB9BUdZP6J1dSv4X0BdwADAAAAZAUOBE8AGwA3AEcAAAElNh8BHgEPASEyFhQGKwEDDgEjISImNRE0NjcXERchEz4BOwEyNiYjISoDLgQnJj8BJwUzMhYVERQGKwEiJjURNDYBZAFrHxZuDQEMVAEuVGxuVGqDBhsP%2FqoHphwOOmQBJYMGGw%2FLFRMSFv44AgoCCQMHAwUDAQwRklb9T2QVHR0VZBUdHQNp5hAWcA0mD3lMkE7%2BrRUoog0CDRElCkj%2BCVkBUxUoMjIBAgIDBQIZFrdT5B0V%2FgwVHR0VAfQVHQAAAAP%2FnABkBLAETwAdADYARgAAAQUeBBURFAYjISImJwMjIiY0NjMhJyY2PwE2BxcWBw4FKgIjIRUzMhYXEyE3ESUFMzIWFREUBisBIiY1ETQ2AdsBbgIIFBANrAf%2Bqg8bBoNqVW1sVAEuVQsBDW4WSpIRDAIDBQMHAwkDCgH%2BJd0PHAaCASZq%2FqoCUGQVHR0VZBUdHQRP5gEFEBEXC%2F3zDaIoFQFTTpBMeQ8mDXAWrrcWGQIFAwICAWQoFf6tWQH37OQdFf4MFR0dFQH0FR0AAAADAGEAAARMBQ4AGwA3AEcAAAAyFh0BBR4BFREUBiMhIiYvAQMmPwE%2BAR8BETQXNTQmBhURHAMOBAcGLwEHEyE3ESUuAQMhMhYdARQGIyEiJj0BNDYB3pBOAVMVKKIN%2FfMRJQoJ5hAWcA0mD3nGMjIBAgIDBQIZFrdT7AH3Wf6tFSiWAfQVHR0V%2FgwVHR0FDm5UaoMGGw%2F%2BqgemHA4OAWsfFm4NAQxUAS5U1ssVExIW%2FjgCCgIJAwcDBQMBDBGSVv6tZAElgwYb%2FQsdFWQVHR0VZBUdAAP%2F%2FQAGA%2BgFFAAPAC0ASQAAASEyNj0BNCYjISIGHQEUFgEVFAYiJjURBwYmLwEmNxM%2BBDMhMhYVERQGBwEDFzc2Fx4FHAIVERQWNj0BNDY3JREnAV4B9BUdHRX%2BDBUdHQEPTpBMeQ8mDXAWEOYBBRARFwsCDQ2iKBX9iexTtxYZAgUDAgIBMjIoFQFTWQRMHRVkFR0dFWQVHfzmalRubFQBLlQMAQ1uFh8BawIIEw8Mpgf%2Bqg8bBgHP%2Fq1WkhEMAQMFAwcDCQIKAv44FhITFcsPGwaDASVkAAIAFgAWBJoEmgAPACUAAAAyHgIUDgIiLgI0PgEBJSYGHQEhIgYdARQWMyEVFBY3JTY0AeLs1ptbW5vW7NabW1ubAob%2B7RAX%2Fu0KDw8KARMXEAETEASaW5vW7NabW1ub1uzWm%2F453w0KFYkPCpYKD4kVCg3fDSYAAAIAFgAWBJoEmgAPACUAAAAyHgIUDgIiLgI0PgENAQYUFwUWNj0BITI2PQE0JiMhNTQmAeLs1ptbW5vW7NabW1ubASX%2B7RAQARMQFwETCg8PCv7tFwSaW5vW7NabW1ub1uzWm%2BjfDSYN3w0KFYkPCpYKD4kVCgAAAAIAFgAWBJoEmgAPACUAAAAyHgIUDgIiLgI0PgEBAyYiBwMGFjsBERQWOwEyNjURMzI2AeLs1ptbW5vW7NabW1ubAkvfDSYN3w0KFYkPCpYKD4kVCgSaW5vW7NabW1ub1uzWm%2F5AARMQEP7tEBf%2B7QoPDwoBExcAAAIAFgAWBJoEmgAPACUAAAAyHgIUDgIiLgI0PgEFIyIGFREjIgYXExYyNxM2JisBETQmAeLs1ptbW5vW7NabW1ubAZeWCg%2BJFQoN3w0mDd8NChWJDwSaW5vW7NabW1ub1uzWm7sPCv7tFxD%2B7RAQARMQFwETCg8AAAMAGAAYBJgEmAAPAJYApgAAADIeAhQOAiIuAjQ%2BASUOAwcGJgcOAQcGFgcOAQcGFgcUFgcyHgEXHgIXHgI3Fg4BFx4CFxQGFBcWNz4CNy4BJy4BJyIOAgcGJyY2NS4BJzYuAQYHBicmNzY3HgIXHgMfAT4CJyY%2BATc%2BAzcmNzIWMjY3LgMnND4CJiceAT8BNi4CJwYHFB4BFS4CJz4BNxYyPgEB5OjVm1xcm9Xo1ZtcXJsBZA8rHDoKDz0PFD8DAxMBAzEFCRwGIgEMFhkHECIvCxU%2FOR0HFBkDDRQjEwcFaHUeISQDDTAMD0UREi4oLBAzDwQBBikEAQMLGhIXExMLBhAGKBsGBxYVEwYFAgsFAwMNFwQGCQcYFgYQCCARFwkKKiFBCwQCAQMDHzcLDAUdLDgNEiEQEgg%2FKhADGgMKEgoRBJhcm9Xo1ZtcXJvV6NWbEQwRBwkCAwYFBycPCxcHInIWInYcCUcYChQECA4QBAkuHgQPJioRFRscBAcSCgwCch0kPiAIAQcHEAsBAgsLIxcBMQENCQIPHxkCFBkdHB4QBgEBBwoMGBENBAMMJSAQEhYXDQ4qFBkKEhIDCQsXJxQiBgEOCQwHAQ0DBAUcJAwSCwRnETIoAwEJCwsLJQcKDBEAAAAAAQAAAAIErwSFABYAAAE2FwUXNxYGBw4BJwEGIi8BJjQ3ASY2AvSkjv79kfsGUE08hjv9rA8rD28PDwJYIk8EhVxliuh%2BWYcrIgsW%2FawQEG4PKxACV2XJAAYAAABgBLAErAAPABMAIwAnADcAOwAAEyEyFh0BFAYjISImPQE0NgUjFTMFITIWHQEUBiMhIiY9ATQ2BSEVIQUhMhYdARQGIyEiJj0BNDYFIRUhZAPoKTs7KfwYKTs7BBHIyPwYA%2BgpOzsp%2FBgpOzsEEf4MAfT8GAPoKTs7KfwYKTs7BBH%2B1AEsBKw7KWQpOzspZCk7ZGTIOylkKTs7KWQpO2RkyDspZCk7OylkKTtkZAAAAAIAZAAABEwEsAALABEAABMhMhYUBiMhIiY0NgERBxEBIZYDhBUdHRX8fBUdHQI7yP6iA4QEsB0qHR0qHf1E%2FtTIAfQB9AAAAAMAAABkBLAEsAAXABsAJQAAATMyFh0BITIWFREhNSMVIRE0NjMhNTQ2FxUzNQEVFAYjISImPQEB9MgpOwEsKTv%2BDMj%2BDDspASw7KcgB9Dsp%2FBgpOwSwOylkOyn%2BcGRkAZApO2QpO2RkZP1EyCk7OynIAAAABAAAAAAEsASwABUAKwBBAFcAABMhMhYPARcWFA8BBiIvAQcGJjURNDYpATIWFREUBi8BBwYiLwEmND8BJyY2ARcWFA8BFxYGIyEiJjURNDYfATc2MgU3NhYVERQGIyEiJj8BJyY0PwE2MhcyASwVCA5exwcHaggUCMdeDhUdAzUBLBUdFQ5exwgUCGoHB8deDgj%2BL2oHB8deDggV%2FtQVHRUOXscIFALLXg4VHRX%2B1BUIDl7HBwdqCBQIBLAVDl7HCBQIagcHx14OCBUBLBUdHRX%2B1BUIDl7HBwdqCBQIx14OFf0maggUCMdeDhUdFQEsFQgOXscHzl4OCBX%2B1BUdFQ5exwgUCGoHBwAAAAYAAAAABKgEqAAPABsAIwA7AEMASwAAADIeAhQOAiIuAjQ%2BAQQiDgEUHgEyPgE0JiQyFhQGIiY0JDIWFAYjIicHFhUUBiImNTQ2PwImNTQEMhYUBiImNCQyFhQGIiY0Advy3Z9fX5%2Fd8t2gXl6gAcbgv29vv%2BC%2Fb2%2F%2BLS0gIC0gAUwtICAWDg83ETNIMykfegEJ%2FoctICAtIAIdLSAgLSAEqF%2Bf3fLdoF5eoN3y3Z9Xb7%2Fgv29vv%2BC%2FBiAtISEtICAtIQqRFxwkMzMkIDEFfgEODhekIC0gIC0gIC0gIC0AAf%2FYAFoEuQS8AFsAACUBNjc2JicmIyIOAwcABw4EFx4BMzI3ATYnLgEjIgcGBwEOASY0NwA3PgEzMhceARcWBgcOBgcGIyImJyY2NwE2NzYzMhceARcWBgcBDgEnLgECIgHVWwgHdl8WGSJBMD8hIP6IDx4eLRMNBQlZN0ozAiQkEAcdEhoYDRr%2Bqw8pHA4BRyIjQS4ODyw9DQ4YIwwod26La1YOOEBGdiIwGkQB%2F0coW2tQSE5nDxE4Qv4eDyoQEAOtAdZbZWKbEQQUGjIhH%2F6JDxsdNSg3HT5CMwIkJCcQFBcMGv6uDwEcKQ4BTSIjIQEINykvYyMLKnhuiWZMBxtAOU6%2BRAH%2FSBg3ISSGV121Qv4kDwIPDyYAAAACAGQAWASvBEQAGQBEAAABPgIeAhUUDgMHLgQ1ND4CHgEFIg4DIi4DIyIGFRQeAhcWFx4EMj4DNzY3PgQ1NCYCiTB7eHVYNkN5hKg%2BPqeFeEM4WnZ4eQEjIT8yLSohJyktPyJDbxtBMjMPBw86KzEhDSIzKUAMBAgrKT8dF2oDtURIBS1TdkA5eYB%2FslVVsn%2BAeTlAdlMtBUgtJjY1JiY1NiZvTRc4SjQxDwcOPCouGBgwKEALBAkpKkQqMhNPbQACADn%2F8gR3BL4AFwAuAAAAMh8BFhUUBg8BJi8BNycBFwcvASY0NwEDNxYfARYUBwEGIi8BJjQ%2FARYfAQcXAQKru0KNQjgiHR8uEl%2F3%2FnvUaRONQkIBGxJpCgmNQkL%2B5UK6Qo1CQjcdLhJf9wGFBL5CjUJeKmsiHTUuEl%2F4%2FnvUahKNQrpCARv%2BRmkICY1CukL%2B5UJCjUK7Qjc3LxFf%2BAGFAAAAAAMAyAAAA%2BgEsAARABUAHQAAADIeAhURFAYjISImNRE0PgEHESERACIGFBYyNjQCBqqaZDo7Kf2oKTs8Zj4CWP7%2FVj09Vj0EsB4uMhX8Ryk7OykDuRUzLar9RAK8%2FRY9Vj09VgABAAAAAASwBLAAFgAACQEWFAYiLwEBEScBBRMBJyEBJyY0NjIDhgEbDx0qDiT%2B6dT%2BzP7oywEz0gEsAQsjDx0qBKH%2B5g8qHQ8j%2FvX%2B1NL%2BzcsBGAE01AEXJA4qHQAAAAADAScAEQQJBOAAMgBAAEsAAAEVHgQXIy4DJxEXHgQVFAYHFSM1JicuASczHgEXEScuBDU0PgI3NRkBDgMVFB4DFxYXET4ENC4CArwmRVI8LAKfBA0dMydAIjxQNyiym2SWVygZA4sFV0obLkJOMCAyVWg6HSoqFQ4TJhkZCWgWKTEiGBkzNwTgTgUTLD9pQiQuLBsH%2Fs0NBxMtPGQ%2Bi6oMTU8QVyhrVk1iEAFPCA4ZLzlYNkZwSCoGTf4SARIEDh02Jh0rGRQIBgPQ%2FsoCCRYgNEM0JRkAAAABAGQAZgOUBK0ASgAAATIeARUjNC4CIyIGBwYVFB4BFxYXMxUjFgYHBgc%2BATM2FjMyNxcOAyMiLgEHDgEPASc%2BBTc%2BAScjNTMmJy4CPgE3NgIxVJlemSc8OxolVBQpGxoYBgPxxQgVFS02ImIWIIwiUzUyHzY4HCAXanQmJ1YYFzcEGAcTDBEJMAwk3aYXFQcKAg4tJGEErVCLTig%2FIhIdFSw5GkowKgkFZDKCHj4yCg8BIh6TExcIASIfBAMaDAuRAxAFDQsRCjePR2QvORQrREFMIVgAAAACABn%2F%2FwSXBLAADwAfAAABMzIWDwEGIi8BJjY7AREzBRcWBisBESMRIyImPwE2MgGQlhUIDuYOKg7mDggVlsgCF%2BYOCBWWyJYVCA7mDioBLBYO%2Bg8P%2Bg4WA4QQ%2BQ4V%2FHwDhBUO%2BQ8AAAQAGf%2F%2FA%2BgEsAAHABcAGwAlAAABIzUjFSMRIQEzMhYPAQYiLwEmNjsBETMFFTM1EwczFSE1NyM1IQPoZGRkASz9qJYVCA7mDioO5g4IFZbIAZFkY8jI%2FtTIyAEsArxkZAH0%2FHwWDvoPD%2FoOFgOEZMjI%2FRL6ZJb6ZAAAAAAEABn%2F%2FwPoBLAADwAZACEAJQAAATMyFg8BBiIvASY2OwERMwUHMxUhNTcjNSERIzUjFSMRIQcVMzUBkJYVCA7mDioO5g4IFZbIAljIyP7UyMgBLGRkZAEsx2QBLBYO%2Bg8P%2Bg4WA4SW%2BmSW%2BmT7UGRkAfRkyMgAAAAEABn%2F%2FwRMBLAADwAVABsAHwAAATMyFg8BBiIvASY2OwERMwEjESM1MxMjNSMRIQcVMzUBkJYVCA7mDioO5g4IFZbIAlhkZMhkZMgBLMdkASwWDvoPD%2FoOFgOE%2FgwBkGT7UGQBkGTIyAAAAAAEABn%2F%2FwRMBLAADwAVABkAHwAAATMyFg8BBiIvASY2OwERMwEjNSMRIQcVMzUDIxEjNTMBkJYVCA7mDioO5g4IFZbIArxkyAEsx2QBZGTIASwWDvoPD%2FoOFgOE%2FgxkAZBkyMj7tAGQZAAAAAAFABn%2F%2FwSwBLAADwATABcAGwAfAAABMzIWDwEGIi8BJjY7AREzBSM1MxMhNSETITUhEyE1IQGQlhUIDuYOKg7mDggVlsgB9MjIZP7UASxk%2FnABkGT%2BDAH0ASwWDvoPD%2FoOFgOEyMj%2BDMj%2BDMj%2BDMgABQAZ%2F%2F8EsASwAA8AEwAXABsAHwAAATMyFg8BBiIvASY2OwERMwUhNSEDITUhAyE1IQMjNTMBkJYVCA7mDioO5g4IFZbIAyD%2BDAH0ZP5wAZBk%2FtQBLGTIyAEsFg76Dw%2F6DhYDhMjI%2FgzI%2FgzI%2FgzIAAIAAAAABEwETAAPAB8AAAEhMhYVERQGIyEiJjURNDYFISIGFREUFjMhMjY1ETQmAV4BkKK8u6P%2BcKW5uQJn%2FgwpOzspAfQpOzsETLuj%2FnClubmlAZClucg7Kf4MKTs7KQH0KTsAAAAAAwAAAAAETARMAA8AHwArAAABITIWFREUBiMhIiY1ETQ2BSEiBhURFBYzITI2NRE0JgUXFhQPAQYmNRE0NgFeAZClubml%2FnCju7wCZP4MKTs7KQH0KTs7%2Fm%2F9ERH9EBgYBEy5pf5wpbm5pQGQo7vIOyn%2BDCk7OykB9Ck7gr4MJAy%2BDAsVAZAVCwAAAAADAAAAAARMBEwADwAfACsAAAEhMhYVERQGIyEiJjURNDYFISIGFREUFjMhMjY1ETQmBSEyFg8BBiIvASY2AV4BkKO7uaX%2BcKW5uQJn%2FgwpOzspAfQpOzv%2BFQGQFQsMvgwkDL4MCwRMvKL%2BcKW5uaUBkKO7yDsp%2FgwpOzspAfQpO8gYEP0REf0QGAAAAAMAAAAABEwETAAPAB8AKwAAASEyFhURFAYjISImNRE0NgUhIgYVERQWMyEyNjURNCYFFxYGIyEiJj8BNjIBXgGQpbm5pf5wo7u5Amf%2BDCk7OykB9Ck7O%2F77vgwLFf5wFQsMvgwkBEy5pf5wo7u8ogGQpbnIOyn%2BDCk7OykB9Ck7z%2F0QGBgQ%2FREAAAAAAgAAAAAFFARMAB8ANQAAASEyFhURFAYjISImPQE0NjMhMjY1ETQmIyEiJj0BNDYHARYUBwEGJj0BIyImPQE0NjsBNTQ2AiYBkKW5uaX%2BcBUdHRUBwik7Oyn%2BPhUdHb8BRBAQ%2FrwQFvoVHR0V%2BhYETLml%2FnCluR0VZBUdOykB9Ck7HRVkFR3p%2FuQOJg7%2B5A4KFZYdFcgVHZYVCgAAAQDZAAID1wSeACMAAAEXFgcGAgclMhYHIggBBwYrAScmNz4BPwEhIicmNzYANjc2MwMZCQgDA5gCASwYEQ4B%2Fvf%2B8wQMDgkJCQUCUCcn%2FtIXCAoQSwENuwUJEASeCQoRC%2F5TBwEjEv7K%2FsUFDwgLFQnlbm4TFRRWAS%2FTBhAAAAACAAAAAAT%2BBEwAHwA1AAABITIWHQEUBiMhIgYVERQWMyEyFh0BFAYjISImNRE0NgUBFhQHAQYmPQEjIiY9ATQ2OwE1NDYBXgGQFR0dFf4%2BKTs7KQHCFR0dFf5wpbm5AvEBRBAQ%2FrwQFvoVHR0V%2BhYETB0VZBUdOyn%2BDCk7HRVkFR25pQGQpbnp%2FuQOJg7%2B5A4KFZYdFcgVHZYVCgACAAAAAASwBLAAFQAxAAABITIWFREUBi8BAQYiLwEmNDcBJyY2ASMiBhURFBYzITI2PQE3ERQGIyEiJjURNDYzIQLuAZAVHRUObf7IDykPjQ8PAThtDgj%2B75wpOzspAfQpO8i7o%2F5wpbm5pQEsBLAdFf5wFQgObf7IDw%2BNDykPAThtDhX%2B1Dsp%2FgwpOzsplMj%2B1qW5uaUBkKW5AAADAA4ADgSiBKIADwAbACMAAAAyHgIUDgIiLgI0PgEEIg4BFB4BMj4BNCYEMhYUBiImNAHh7tmdXV2d2e7ZnV1dnQHD5sJxccLmwnFx%2FnugcnKgcgSiXZ3Z7tmdXV2d2e7ZnUdxwubCcXHC5sJzcqBycqAAAAMAAAAABEwEsAAVAB8AIwAAATMyFhURMzIWBwEGIicBJjY7ARE0NgEhMhYdASE1NDYFFTM1AcLIFR31FAoO%2FoEOJw3%2BhQ0JFfod%2FoUD6BUd%2B7QdA2dkBLAdFf6iFg%2F%2BVg8PAaoPFgFeFR38fB0V%2BvoVHWQyMgAAAAMAAAAABEwErAAVAB8AIwAACQEWBisBFRQGKwEiJj0BIyImNwE%2BAQEhMhYdASE1NDYFFTM1AkcBeg4KFfQiFsgUGPoUCw4Bfw4n%2FfkD6BUd%2B7QdA2dkBJ7%2BTQ8g%2BhQeHRX6IQ8BrxAC%2FH8dFfr6FR1kMjIAAwAAAAAETARLABQAHgAiAAAJATYyHwEWFAcBBiInASY0PwE2MhcDITIWHQEhNTQ2BRUzNQGMAXEHFQeLBwf98wcVB%2F7cBweLCBUH1APoFR37tB0DZ2QC0wFxBweLCBUH%2FfMICAEjCBQIiwcH%2FdIdFfr6FR1kMjIABAAAAAAETASbAAkAGQAjACcAABM3NjIfAQcnJjQFNzYWFQMOASMFIiY%2FASc3ASEyFh0BITU0NgUVMzWHjg4qDk3UTQ4CFtIOFQIBHRX9qxUIDtCa1P49A%2BgVHfu0HQNnZAP%2Fjg4OTdRMDyqa0g4IFf2pFB4BFQ7Qm9T9Oh0V%2BvoVHWQyMgAAAAQAAAAABEwEsAAPABkAIwAnAAABBR4BFRMUBi8BByc3JyY2EwcGIi8BJjQ%2FAQEhMhYdASE1NDYFFTM1AV4CVxQeARUO0JvUm9IOCMNMDyoOjg4OTf76A%2BgVHfu0HQNnZASwAgEdFf2rFQgO0JrUmtIOFf1QTQ4Ojg4qDk3%2BWB0V%2BvoVHWQyMgACAAT%2F7ASwBK8ABQAIAAAlCQERIQkBFQEEsP4d%2Fsb%2BcQSs%2FTMCq2cBFP5xAacDHPz55gO5AAAAAAIAAABkBEwEsAAVABkAAAERFAYrAREhESMiJjURNDY7AREhETMHIzUzBEwdFZb9RJYVHR0V%2BgH0ZMhkZAPo%2FK4VHQGQ%2FnAdFQPoFB7%2B1AEsyMgAAAMAAABFBN0EsAAWABoALwAAAQcBJyYiDwEhESMiJjURNDY7AREhETMHIzUzARcWFAcBBiIvASY0PwE2Mh8BATYyBEwC%2FtVfCRkJlf7IlhUdHRX6AfRkyGRkAbBqBwf%2BXAgUCMoICGoHFQdPASkHFQPolf7VXwkJk%2F5wHRUD6BQe%2FtQBLMjI%2Fc5qBxUH%2FlsHB8sHFQdqCAhPASkHAAMAAAANBQcEsAAWABoAPgAAAREHJy4BBwEhESMiJjURNDY7AREhETMHIzUzARcWFA8BFxYUDwEGIi8BBwYiLwEmND8BJyY0PwE2Mh8BNzYyBExnhg8lEP72%2FreWFR0dFfoB9GTIZGQB9kYPD4ODDw9GDykPg4MPKQ9GDw%2BDgw8PRg8pD4ODDykD6P7zZ4YPAw7%2B9v5wHRUD6BQe%2FtQBLMjI%2FYxGDykPg4MPKQ9GDw%2BDgw8PRg8pD4ODDykPRg8Pg4MPAAADAAAAFQSXBLAAFQAZAC8AAAERISIGHQEhESMiJjURNDY7AREhETMHIzUzEzMyFh0BMzIWDwEGIi8BJjY7ATU0NgRM%2FqIVHf4MlhUdHRX6AfRkyGRklmQVHZYVCA7mDioO5g4IFZYdA%2Bj%2B1B0Vlv5wHRUD6BQe%2FtQBLMjI%2FagdFfoVDuYODuYOFfoVHQAAAAADAAAAAASXBLAAFQAZAC8AAAERJyYiBwEhESMiJjURNDY7AREhETMHIzUzExcWBisBFRQGKwEiJj0BIyImPwE2MgRMpQ4qDv75%2Fm6WFR0dFfoB9GTIZGTr5g4IFZYdFWQVHZYVCA7mDioD6P5wpQ8P%2Fvf%2BcB0VA%2BgUHv7UASzIyP2F5Q8V%2BhQeHhT6FQ%2FlDwADAAAAyASwBEwACQATABcAABMhMhYdASE1NDYBERQGIyEiJjURExUhNTIETBUd%2B1AdBJMdFfu0FR1kAZAETB0VlpYVHf7U%2FdoVHR0VAib%2B1MjIAAAGAAMAfQStBJcADwAZAB0ALQAxADsAAAEXFhQPAQYmPQEhNSE1NDYBIyImPQE0NjsBFyM1MwE3NhYdASEVIRUUBi8BJjQFIzU7AjIWHQEUBisBA6f4Dg74DhX%2BcAGQFf0vMhUdHRUyyGRk%2FoL3DhUBkP5wFQ73DwOBZGRkMxQdHRQzBI3mDioO5g4IFZbIlhUI%2FoUdFWQVHcjI%2FcvmDggVlsiWFQgO5g4qecgdFWQVHQAAAAACAGQAAASwBLAAFgBRAAABJTYWFREUBisBIiY1ES4ENRE0NiUyFh8BERQOAg8BERQGKwEiJjURLgQ1ETQ%2BAzMyFh8BETMRPAE%2BAjMyFh8BETMRND4DA14BFBklHRXIFR0EDiIaFiX%2B4RYZAgEVHR0LCh0VyBUdBA4iGhYBBwoTDRQZAgNkBQkVDxcZAQFkAQUJFQQxdBIUH%2FuuFR0dFQGNAQgbHzUeAWcfRJEZDA3%2BPhw%2FMSkLC%2F5BFR0dFQG%2FBA8uLkAcAcICBxENCxkMDf6iAV4CBxENCxkMDf6iAV4CBxENCwABAGQAAASwBEwAMwAAARUiDgMVERQWHwEVITUyNjURIREUFjMVITUyPgM1ETQmLwE1IRUiBhURIRE0JiM1BLAEDiIaFjIZGf5wSxn%2BDBlL%2FnAEDiIaFjIZGQGQSxkB9BlLBEw4AQUKFA78iBYZAQI4OA0lAYr%2BdiUNODgBBQoUDgN4FhkBAjg4DSX%2BdgGKJQ04AAAABgAAAAAETARMAAwAHAAgACQAKAA0AAABITIWHQEjBTUnITchBSEyFhURFAYjISImNRE0NhcVITUBBTUlBRUhNQUVFAYjIQchJyE3MwKjAXcVHWn%2B2cj%2BcGQBd%2F4lASwpOzsp%2FtQpOzspASwCvP5wAZD8GAEsArwdFf6JZP6JZAGQyGkD6B0VlmJiyGTIOyn%2BDCk7OykB9Ck7ZMjI%2FveFo4XGyMhm%2BBUdZGTIAAEAEAAQBJ8EnwAmAAATNzYWHwEWBg8BHgEXNz4BHwEeAQ8BBiIuBicuBTcRohEuDosOBhF3ZvyNdxEzE8ATBxGjAw0uMUxPZWZ4O0p3RjITCwED76IRBhPCFDERdo78ZXYRBA6IDi8RogEECBUgNUNjO0qZfHNVQBAAAAACAAAAAASwBEwAIwBBAAAAMh4EHwEVFAYvAS4BPQEmIAcVFAYPAQYmPQE%2BBRIyHgIfARUBHgEdARQGIyEiJj0BNDY3ATU0PgIB%2FLimdWQ%2FLAkJHRTKFB2N%2FsKNHRTKFB0DDTE7ZnTKcFImFgEBAW0OFR0V%2B7QVHRUOAW0CFiYETBUhKCgiCgrIFRgDIgMiFZIYGJIVIgMiAxgVyAQNJyQrIP7kExwcCgoy%2FtEPMhTUFR0dFdQUMg8BLzIEDSEZAAADAAAAAASwBLAADQAdACcAAAEHIScRMxUzNTMVMzUzASEyFhQGKwEXITcjIiY0NgMhMhYdASE1NDYETMj9qMjIyMjIyPyuArwVHR0VDIn8SokMFR0dswRMFR37UB0CvMjIAfTIyMjI%2FOAdKh1kZB0qHf7UHRUyMhUdAAAAAwBkAAAEsARMAAkAEwAdAAABIyIGFREhETQmASMiBhURIRE0JgEhETQ2OwEyFhUCvGQpOwEsOwFnZCk7ASw7%2FRv%2B1DspZCk7BEw7KfwYA%2BgpO%2F7UOyn9RAK8KTv84AGQKTs7KQAAAAAF%2F5wAAASwBEwADwATAB8AJQApAAATITIWFREUBiMhIiY1ETQ2FxEhEQUjFTMRITUzNSMRIQURByMRMwcRMxHIArx8sLB8%2FUR8sLAYA4T%2BDMjI%2FtTIyAEsAZBkyMhkZARMsHz%2BDHywsHwB9HywyP1EArzIZP7UZGQBLGT%2B1GQB9GT%2B1AEsAAAABf%2BcAAAEsARMAA8AEwAfACUAKQAAEyEyFhURFAYjISImNRE0NhcRIREBIzUjFSMRMxUzNTMFEQcjETMHETMRyAK8fLCwfP1EfLCwGAOE%2FgxkZGRkZGQBkGTIyGRkBEywfP4MfLCwfAH0fLDI%2FUQCvP2oyMgB9MjIZP7UZAH0ZP7UASwABP%2BcAAAEsARMAA8AEwAbACMAABMhMhYVERQGIyEiJjURNDYXESERBSMRMxUhESEFIxEzFSERIcgCvHywsHz9RHywsBgDhP4MyMj%2B1AEsAZDIyP7UASwETLB8%2Fgx8sLB8AfR8sMj9RAK8yP7UZAH0ZP7UZAH0AAAABP%2BcAAAEsARMAA8AEwAWABkAABMhMhYVERQGIyEiJjURNDYXESERAS0BDQERyAK8fLCwfP1EfLCwGAOE%2Fgz%2B1AEsAZD%2B1ARMsHz%2BDHywsHwB9HywyP1EArz%2BDJaWlpYBLAAAAAX%2FnAAABLAETAAPABMAFwAgACkAABMhMhYVERQGIyEiJjURNDYXESERAyERIQcjIgYVFBY7AQERMzI2NTQmI8gCvHywsHz9RHywsBgDhGT9RAK8ZIImOTYpgv4Mgik2OSYETLB8%2Fgx8sLB8AfR8sMj9RAK8%2FagB9GRWQUFUASz%2B1FRBQVYAAAAF%2F5wAAASwBEwADwATAB8AJQApAAATITIWFREUBiMhIiY1ETQ2FxEhEQUjFTMRITUzNSMRIQEjESM1MwMjNTPIArx8sLB8%2FUR8sLAYA4T%2BDMjI%2FtTIyAEsAZBkZMjIZGQETLB8%2Fgx8sLB8AfR8sMj9RAK8yGT%2B1GRkASz%2BDAGQZP4MZAAG%2F5wAAASwBEwADwATABkAHwAjACcAABMhMhYVERQGIyEiJjURNDYXESERBTMRIREzASMRIzUzBRUzNQEjNTPIArx8sLB8%2FUR8sLAYA4T9RMj%2B1GQCWGRkyP2oZAEsZGQETLB8%2Fgx8sLB8AfR8sMj9RAK8yP5wAfT%2BDAGQZMjIyP7UZAAF%2F5wAAASwBEwADwATABwAIgAmAAATITIWFREUBiMhIiY1ETQ2FxEhEQEHIzU3NSM1IQEjESM1MwMjNTPIArx8sLB8%2FUR8sLAYA4T%2BDMdkx8gBLAGQZGTIx2RkBEywfP4MfLCwfAH0fLDI%2FUQCvP5wyDLIlmT%2BDAGQZP4MZAAAAAMACQAJBKcEpwAPABsAJQAAADIeAhQOAiIuAjQ%2BAQQiDgEUHgEyPgE0JgchFSEVISc1NyEB4PDbnl5entvw255eXp4BxeTCcXHC5MJxcWz%2B1AEs%2FtRkZAEsBKdentvw255eXp7b8NueTHHC5MJxccLkwtDIZGTIZAAAAAAEAAkACQSnBKcADwAbACcAKwAAADIeAhQOAiIuAjQ%2BAQQiDgEUHgEyPgE0JgcVBxcVIycjFSMRIQcVMzUB4PDbnl5entvw255eXp4BxeTCcXHC5MJxcWwyZGRklmQBLMjIBKdentvw255eXp7b8NueTHHC5MJxccLkwtBkMmQyZGQBkGRkZAAAAv%2Fy%2F50EwgRBACAANgAAATIWFzYzMhYUBisBNTQmIyEiBh0BIyImNTQ2NyY1ND4BEzMyFhURMzIWDwEGIi8BJjY7ARE0NgH3brUsLC54qqp4gB0V%2FtQVHd5QcFZBAmKqepYKD4kVCg3fDSYN3w0KFYkPBEF3YQ6t8a36FR0dFfpzT0VrDhMSZKpi%2FbMPCv7tFxD0EBD0EBcBEwoPAAAAAAL%2F8v%2BcBMMEQQAcADMAAAEyFhc2MzIWFxQGBwEmIgcBIyImNTQ2NyY1ND4BExcWBisBERQGKwEiJjURIyImNzY3NjIB9m62LCsueaoBeFr%2Bhg0lDf6DCU9xVkECYqnm3w0KFYkPCpYKD4kVCg3HGBMZBEF3YQ%2BteGOkHAFoEBD%2Bk3NPRWsOExNkqWP9kuQQF%2F7tCg8PCgETFxDMGBMAAAABAGQAAARMBG0AGAAAJTUhATMBMwkBMwEzASEVIyIGHQEhNTQmIwK8AZD%2B8qr%2B8qr%2B1P7Uqv7yqv7yAZAyFR0BkB0VZGQBLAEsAU3%2Bs%2F7U%2FtRkHRUyMhUdAAAAAAEAeQAABDcEmwAvAAABMhYXHgEVFAYHFhUUBiMiJxUyFh0BITU0NjM1BiMiJjU0Ny4BNTQ2MzIXNCY1NDYCWF6TGll7OzIJaUo3LRUd%2FtQdFS03SmkELzlpSgUSAqMEm3FZBoNaPWcfHRpKaR77HRUyMhUd%2Bx5pShIUFVg1SmkCAhAFdKMAAAAGACcAFASJBJwAEQAqAEIASgBiAHsAAAEWEgIHDgEiJicmAhI3PgEyFgUiBw4BBwYWHwEWMzI3Njc2Nz4BLwEmJyYXIgcOAQcGFh8BFjMyNz4BNz4BLwEmJyYWJiIGFBYyNjciBw4BBw4BHwEWFxYzMjc%2BATc2Ji8BJhciBwYHBgcOAR8BFhcWMzI3PgE3NiYvASYD8m9PT29T2dzZU29PT29T2dzZ%2Fj0EBHmxIgQNDCQDBBcGG0dGYAsNAwkDCwccBAVQdRgEDA0iBAQWBhJROQwMAwkDCwf5Y4xjY4xjVhYGElE6CwwDCQMLBwgEBVB1GAQNDCIEjRcGG0dGYAsNAwkDCwcIBAR5sSIEDQwkAwPyb%2F7V%2FtVvU1dXU28BKwErb1NXVxwBIrF5DBYDCQEWYEZHGwMVDCMNBgSRAhh1UA0WAwkBFTpREgMVCyMMBwT6Y2OMY2MVFTpREQQVCyMMBwQCGHVQDRYDCQEkFmBGRxsDFQwjDQYEASKxeQwWAwkBAAAABQBkAAAD6ASwAAwADwAWABwAIgAAASERIzUhFSERNDYzIQEjNQMzByczNTMDISImNREFFRQGKwECvAEstP6s%2FoQPCgI%2FASzIZKLU1KJktP51Cg8DhA8KwwMg%2FoTIyALzCg%2F%2B1Mj84NTUyP4MDwoBi8jDCg8AAAAABQBkAAAD6ASwAAkADAATABoAIQAAASERCQERNDYzIQEjNRMjFSM1IzcDISImPQEpARUUBisBNQK8ASz%2Bov3aDwoCPwEsyD6iZKLUqv6dCg8BfAIIDwqbAyD9%2BAFe%2FdoERwoP%2FtTI%2FHzIyNT%2BZA8KNzcKD1AAAAAAAwAAAAAEsAP0AAgAGQAfAAABIxUzFyERIzcFMzIeAhUhFSEDETM0PgIBMwMhASEEiqJkZP7UotT9EsgbGiEOASz9qMhkDiEaAnPw8PzgASwB9AMgyGQBLNTUBBErJGT%2BogHCJCsRBP5w%2FnAB9AAAAAMAAAAABEwETAAZADIAOQAAATMyFh0BMzIWHQEUBiMhIiY9ATQ2OwE1NDYFNTIWFREUBiMhIic3ARE0NjMVFBYzITI2AQc1IzUzNQKKZBUdMhUdHRX%2B1BUdHRUyHQFzKTs7Kf2oARP2%2Fro7KVg%2BASw%2BWP201MjIBEwdFTIdFWQVHR0VZBUdMhUd%2BpY7KfzgKTsE9gFGAUQpO5Y%2BWFj95tSiZKIAAwBkAAAEvARMABkANgA9AAABMzIWHQEzMhYdARQGIyEiJj0BNDY7ATU0NgU1MhYVESMRMxQOAiMhIiY1ETQ2MxUUFjMhMjYBBzUjNTM1AcJkFR0yFR0dFf7UFR0dFTIdAXMpO8jIDiEaG%2F2oKTs7KVg%2BASw%2BWAGc1MjIBEwdFTIdFWQVHR0VZBUdMhUd%2BpY7Kf4M%2FtQkKxEEOykDICk7lj5YWP3m1KJkogAAAAP%2FogAABRYE1AALABsAHwAACQEWBiMhIiY3ATYyEyMiBhcTHgE7ATI2NxM2JgMVMzUCkgJ9FyAs%2BwQsIBcCfRZARNAUGAQ6BCMUNhQjBDoEGODIBK37sCY3NyYEUCf%2BTB0U%2FtIUHR0UAS4UHf4MZGQAAAAACQAAAAAETARMAA8AHwAvAD8ATwBfAG8AfwCPAAABMzIWHQEUBisBIiY9ATQ2EzMyFh0BFAYrASImPQE0NiEzMhYdARQGKwEiJj0BNDYBMzIWHQEUBisBIiY9ATQ2ITMyFh0BFAYrASImPQE0NiEzMhYdARQGKwEiJj0BNDYBMzIWHQEUBisBIiY9ATQ2ITMyFh0BFAYrASImPQE0NiEzMhYdARQGKwEiJj0BNDYBqfoKDw8K%2BgoPDwr6Cg8PCvoKDw8BmvoKDw8K%2BgoPD%2Fzq%2BgoPDwr6Cg8PAZr6Cg8PCvoKDw8BmvoKDw8K%2BgoPD%2Fzq%2BgoPDwr6Cg8PAZr6Cg8PCvoKDw8BmvoKDw8K%2BgoPDwRMDwqWCg8PCpYKD%2F7UDwqWCg8PCpYKDw8KlgoPDwqWCg%2F%2B1A8KlgoPDwqWCg8PCpYKDw8KlgoPDwqWCg8PCpYKD%2F7UDwqWCg8PCpYKDw8KlgoPDwqWCg8PCpYKDw8KlgoPAAAAAwAAAAAEsAUUABkAKQAzAAABMxUjFSEyFg8BBgchJi8BJjYzITUjNTM1MwEhMhYUBisBFyE3IyImNDYDITIWHQEhNTQ2ArxkZAFePjEcQiko%2FPwoKUIcMT4BXmRkyP4%2BArwVHR0VDIn8SooNFR0dswRMFR37UB0EsMhkTzeEUzMzU4Q3T2TIZPx8HSodZGQdKh3%2B1B0VMjIVHQAABAAAAAAEsAUUAAUAGQArADUAAAAyFhUjNAchFhUUByEyFg8BIScmNjMhJjU0AyEyFhQGKwEVBSElNSMiJjQ2AyEyFh0BITU0NgIwUDnCPAE6EgMBSCkHIq%2F9WrIiCikBSAOvArwVHR0VlgET%2FEoBE5YVHR2zBEwVHftQHQUUOykpjSUmCBEhFpGRFiERCCb%2BlR0qHcjIyMgdKh39qB0VMjIVHQAEAAAAAASwBJ0ABwAUACQALgAAADIWFAYiJjQTMzIWFRQXITY1NDYzASEyFhQGKwEXITcjIiY0NgMhMhYdASE1NDYCDZZqapZqty4iKyf%2BvCcrI%2F7NArwVHR0VDYr8SokMFR0dswRMFR37UB0EnWqWamqW%2Fus5Okxra0w6Of5yHSodZGQdKh3%2B1B0VMjIVHQAEAAAAAASwBRQADwAcACwANgAAATIeARUUBiImNTQ3FzcnNhMzMhYVFBchNjU0NjMBITIWFAYrARchNyMiJjQ2AyEyFh0BITU0NgJYL1szb5xvIpBvoyIfLiIrJ%2F68Jysj%2Fs0CvBUdHRUNivxKiQwVHR2zBEwVHftQHQUUa4s2Tm9vTj5Rj2%2BjGv4KOTpMa2tMOjn%2Bch0qHWRkHSod%2FtQdFTIyFR0AAAADAAAAAASwBRIAEgAiACwAAAEFFSEUHgMXIS4BNTQ%2BAjcBITIWFAYrARchNyMiJjQ2AyEyFh0BITU0NgJYASz%2B1CU%2FP00T%2Fe48PUJtj0r%2BogK8FR0dFQ2K%2FEqJDBUdHbMETBUd%2B1AdBLChizlmUT9IGVO9VFShdksE%2FH4dKh1kZB0qHf7UHRUyMhUdAAIAyAAAA%2BgFFAAPACkAAAAyFh0BHgEdASE1NDY3NTQDITIWFyMVMxUjFTMVIxUzFAYjISImNRE0NgIvUjsuNv5wNi5kAZA2XBqsyMjIyMh1U%2F5wU3V1BRQ7KU4aXDYyMjZcGk4p%2Fkc2LmRkZGRkU3V1UwGQU3UAAAMAZP%2F%2FBEwETAAPAC8AMwAAEyEyFhURFAYjISImNRE0NgMhMhYdARQGIyEXFhQGIi8BIQcGIiY0PwEhIiY9ATQ2BQchJ5YDhBUdHRX8fBUdHQQDtgoPDwr%2B5eANGiUNWP30Vw0mGg3g%2Ft8KDw8BqmQBRGQETB0V%2FgwVHR0VAfQVHf1EDwoyCg%2FgDSUbDVhYDRslDeAPCjIKD2RkZAAAAAAEAAAAAASwBEwAGQAjAC0ANwAAEyEyFh0BIzQmKwEiBhUjNCYrASIGFSM1NDYDITIWFREhETQ2ExUUBisBIiY9ASEVFAYrASImPQHIAyBTdWQ7KfopO2Q7KfopO2R1EQPoKTv7UDvxHRVkFR0D6B0VZBUdBEx1U8gpOzspKTs7KchTdf4MOyn%2B1AEsKTv%2BDDIVHR0VMjIVHR0VMgADAAEAAASpBKwADQARABsAAAkBFhQPASEBJjQ3ATYyCQMDITIWHQEhNTQ2AeACqh8fg%2F4f%2FfsgIAEnH1n%2BrAFWAS%2F%2Bq6IDIBUd%2FHwdBI39VR9ZH4MCBh9ZHwEoH%2F5u%2FqoBMAFV%2FBsdFTIyFR0AAAAAAgCPAAAEIQSwABcALwAAAQMuASMhIgYHAwYWMyEVFBYyNj0BMzI2AyE1NDY7ATU0NjsBETMRMzIWHQEzMhYVBCG9CCcV%2FnAVJwi9CBMVAnEdKh19FROo%2Fa0dFTIdFTDILxUdMhUdAocB%2BhMcHBP%2BBhMclhUdHRWWHP2MMhUdMhUdASz%2B1B0VMh0VAAAEAAAAAASwBLAADQAQAB8AIgAAASERFAYjIREBNTQ2MyEBIzUBIREUBiMhIiY1ETQ2MyEBIzUDhAEsDwr%2Bif7UDwoBdwEsyP2oASwPCv12Cg8PCgF3ASzIAyD9wQoPAk8BLFQKD%2F7UyP4M%2FcEKDw8KA7YKD%2F7UyAAC%2F5wAZAUUBEcARgBWAAABMzIeAhcWFxY2NzYnJjc%2BARYXFgcOASsBDgEPAQ4BKwEiJj8BBisBIicHDgErASImPwEmLwEuAT0BNDY7ATY3JyY2OwE2BSMiBh0BFBY7ATI2PQE0JgHkw0uOakkMEhEfQwoKGRMKBQ8XDCkCA1Y9Pgc4HCcDIhVkFRgDDDEqwxgpCwMiFWQVGAMaVCyfExwdFXwLLW8QBxXLdAFF%2BgoPDwr6Cg8PBEdBa4pJDgYKISAiJRsQCAYIDCw9P1c3fCbqFB0dFEYOCEAUHR0UnUplNQcmFTIVHVdPXw4TZV8PCjIKDw8KMgoPAAb%2FnP%2FmBRQEfgAJACQANAA8AFIAYgAAASU2Fh8BFgYPASUzMhYfASEyFh0BFAYHBQYmJyYjISImPQE0NhcjIgYdARQ7ATI2NTQmJyYEIgYUFjI2NAE3PgEeARceAT8BFxYGDwEGJi8BJjYlBwYfAR4BPwE2Jy4BJy4BAoEBpxMuDiAOAxCL%2FCtqQ0geZgM3FR0cE%2F0fFyIJKjr%2B1D5YWLlQExIqhhALIAsSAYBALS1ALf4PmBIgHhMQHC0aPzANITNQL3wpgigJASlmHyElDR0RPRMFAhQHCxADhPcICxAmDyoNeMgiNtQdFTIVJgeEBBQPQ1g%2ByD5YrBwVODMQEAtEERzJLUAtLUD%2B24ITChESEyMgAwWzPUkrRSgJL5cvfRxYGyYrDwkLNRAhFEgJDAQAAAAAAwBkAAAEOQSwAFEAYABvAAABMzIWHQEeARcWDgIPATIeBRUUDgUjFRQGKwEiJj0BIxUUBisBIiY9ASMiJj0BNDY7AREjIiY9ATQ2OwE1NDY7ATIWHQEzNTQ2AxUhMj4CNTc0LgMjARUhMj4CNTc0LgMjAnGWCg9PaAEBIC4uEBEGEjQwOiodFyI2LUAjGg8KlgoPZA8KlgoPrwoPDwpLSwoPDwqvDwqWCg9kD9cBBxwpEwsBAQsTKRz%2B%2BQFrHCkTCwEBCxMpHASwDwptIW1KLk0tHwYGAw8UKDJOLTtdPCoVCwJLCg8PCktLCg8PCksPCpYKDwJYDwqWCg9LCg8PCktLCg%2F%2B1MgVHR0LCgQOIhoW%2FnDIFR0dCwoEDiIaFgAAAwAEAAIEsASuABcAKQAsAAATITIWFREUBg8BDgEjISImJy4CNRE0NgQiDgQPARchNy4FAyMT1AMMVnokEhIdgVL9xFKCHAgYKHoCIIx9VkcrHQYGnAIwnAIIIClJVSGdwwSuelb%2BYDO3QkJXd3ZYHFrFMwGgVnqZFyYtLSUMDPPzBQ8sKDEj%2FsIBBQACAMgAAAOEBRQADwAZAAABMzIWFREUBiMhIiY1ETQ2ARUUBisBIiY9AQHblmesVCn%2BPilUrAFINhWWFTYFFKxn%2FgwpVFQpAfRnrPwY4RU2NhXhAAACAMgAAAOEBRQADwAZAAABMxQWMxEUBiMhIiY1ETQ2ARUUBisBIiY9AQHbYLOWVCn%2BPilUrAFINhWWFTYFFJaz%2FkIpVFQpAfRnrPwY4RU2NhXhAAACAAAAFAUOBBoAFAAaAAAJASUHFRcVJwc1NzU0Jj4CPwEnCQEFJTUFJQUO%2FYL%2Bhk5klpZkAQEBBQQvkwKCAVz%2Bov6iAV4BXgL%2F%2FuWqPOCWx5SVyJb6BA0GCgYDKEEBG%2F1ipqaTpaUAAAMAZAH0BLADIAAHAA8AFwAAEjIWFAYiJjQkMhYUBiImNCQyFhQGIiY0vHxYWHxYAeh8WFh8WAHofFhYfFgDIFh8WFh8WFh8WFh8WFh8WFh8AAAAAAMBkAAAArwETAAHAA8AFwAAADIWFAYiJjQSMhYUBiImNBIyFhQGIiY0Aeh8WFh8WFh8WFh8WFh8WFh8WARMWHxYWHz%2ByFh8WFh8%2FshYfFhYfAAAAAMAZABkBEwETAAPAB8ALwAAEyEyFh0BFAYjISImPQE0NhMhMhYdARQGIyEiJj0BNDYTITIWHQEUBiMhIiY9ATQ2fQO2Cg8PCvxKCg8PCgO2Cg8PCvxKCg8PCgO2Cg8PCvxKCg8PBEwPCpYKDw8KlgoP%2FnAPCpYKDw8KlgoP%2FnAPCpYKDw8KlgoPAAAABAAAAAAEsASwAA8AHwAvADMAAAEhMhYVERQGIyEiJjURNDYFISIGFREUFjMhMjY1ETQmBSEyFhURFAYjISImNRE0NhcVITUBXgH0ory7o%2F4Mpbm5Asv9qCk7OykCWCk7O%2F2xAfQVHR0V%2FgwVHR1HAZAEsLuj%2FgylubmlAfSlucg7Kf2oKTs7KQJYKTtkHRX%2B1BUdHRUBLBUdZMjIAAAAAAEAZABkBLAETAA7AAATITIWFAYrARUzMhYUBisBFTMyFhQGKwEVMzIWFAYjISImNDY7ATUjIiY0NjsBNSMiJjQ2OwE1IyImNDaWA%2BgVHR0VMjIVHR0VMjIVHR0VMjIVHR0V%2FBgVHR0VMjIVHR0VMjIVHR0VMjIVHR0ETB0qHcgdKh3IHSodyB0qHR0qHcgdKh3IHSodyB0qHQAAAAYBLAAFA%2BgEowAHAA0AEwAZAB8AKgAAAR4BBgcuATYBMhYVIiYlFAYjNDYBMhYVIiYlFAYjNDYDFRQGIiY9ARYzMgKKVz8%2FV1c%2FP%2F75fLB8sAK8sHyw%2FcB8sHywArywfLCwHSodKAMRBKNDsrJCQrKy%2FsCwfLB8fLB8sP7UsHywfHywfLD%2B05AVHR0VjgQAAAH%2FtQDIBJQDgQBCAAABNzYXAR4BBw4BKwEyFRQOBCsBIhE0NyYiBxYVECsBIi4DNTQzIyImJyY2NwE2HwEeAQ4BLwEHIScHBi4BNgLpRRkUASoLCAYFGg8IAQQNGyc%2FKZK4ChRUFQu4jjBJJxkHAgcPGQYGCAsBKhQaTBQVCiMUM7YDe7YsFCMKFgNuEwYS%2FtkLHw8OEw0dNkY4MhwBIBgXBAQYF%2F7gKjxTQyMNEw4PHwoBKBIHEwUjKBYGDMHBDAUWKCMAAAAAAgAAAAAEsASwACUAQwAAASM0LgUrAREUFh8BFSE1Mj4DNREjIg4FFSMRIQEjNC4DKwERFBYXMxUjNTI1ESMiDgMVIzUhBLAyCAsZEyYYGcgyGRn%2BcAQOIhoWyBkYJhMZCwgyA%2Bj9RBkIChgQEWQZDQzIMmQREBgKCBkB9AOEFSAVDggDAfyuFhkBAmRkAQUJFQ4DUgEDCA4VIBUBLP0SDxMKBQH%2BVwsNATIyGQGpAQUKEw%2BWAAAAAAMAAAAABEwErgAdACAAMAAAATUiJy4BLwEBIwEGBw4BDwEVITUiJj8BIRcWBiMVARsBARUUBiMhIiY9ATQ2MyEyFgPoGR4OFgUE%2Ft9F%2FtQSFQkfCwsBETE7EkUBJT0NISf%2B7IZ5AbEdFfwYFR0dFQPoFR0BLDIgDiIKCwLr%2FQ4jFQkTBQUyMisusKYiQTIBhwFW%2Fqr942QVHR0VZBUdHQADAAAAAASwBLAADwBHAEoAABMhMhYVERQGIyEiJjURNDYFIyIHAQYHBgcGHQEUFjMhMjY9ATQmIyInJj8BIRcWBwYjIgYdARQWMyEyNj0BNCYnIicmJyMBJhMjEzIETBUdHRX7tBUdHQJGRg0F%2FtUREhImDAsJAREIDAwINxAKCj8BCjkLEQwYCAwMCAE5CAwLCBEZGQ8B%2FuAFDsVnBLAdFfu0FR0dFQRMFR1SDP0PIBMSEAUNMggMDAgyCAwXDhmjmR8YEQwIMggMDAgyBwwBGRskAuwM%2FgUBCAAABAAAAAAEsASwAAMAEwAjACcAAAEhNSEFITIWFREUBiMhIiY1ETQ2KQEyFhURFAYjISImNRE0NhcRIREEsPtQBLD7ggGQFR0dFf5wFR0dAm0BkBUdHRX%2BcBUdHUcBLARMZMgdFfx8FR0dFQOEFR0dFf5wFR0dFQGQFR1k%2FtQBLAAEAAAAAASwBLAADwAfACMAJwAAEyEyFhURFAYjISImNRE0NgEhMhYVERQGIyEiJjURNDYXESEREyE1ITIBkBUdHRX%2BcBUdHQJtAZAVHR0V%2FnAVHR1HASzI%2B1AEsASwHRX8fBUdHRUDhBUd%2FgwdFf5wFR0dFQGQFR1k%2FtQBLP2oZAAAAAACAAAAZASwA%2BgAJwArAAATITIWFREzNTQ2MyEyFh0BMxUjFRQGIyEiJj0BIxEUBiMhIiY1ETQ2AREhETIBkBUdZB0VAZAVHWRkHRX%2BcBUdZB0V%2FnAVHR0CnwEsA%2BgdFf6ilhUdHRWWZJYVHR0Vlv6iFR0dFQMgFR3%2B1P7UASwAAAQAAAAABLAEsAADABMAFwAnAAAzIxEzFyEyFhURFAYjISImNRE0NhcRIREBITIWFREUBiMhIiY1ETQ2ZGRklgGQFR0dFf5wFR0dRwEs%2FqIDhBUdHRX8fBUdHQSwZB0V%2FnAVHR0VAZAVHWT%2B1AEs%2FgwdFf5wFR0dFQGQFR0AAAAAAgBkAAAETASwACcAKwAAATMyFhURFAYrARUhMhYVERQGIyEiJjURNDYzITUjIiY1ETQ2OwE1MwcRIRECWJYVHR0VlgHCFR0dFfx8FR0dFQFelhUdHRWWZMgBLARMHRX%2BcBUdZB0V%2FnAVHR0VAZAVHWQdFQGQFR1kyP7UASwAAAAEAAAAAASwBLAAAwATABcAJwAAISMRMwUhMhYVERQGIyEiJjURNDYXESERASEyFhURFAYjISImNRE0NgSwZGT9dgGQFR0dFf5wFR0dRwEs%2FK4DhBUdHRX8fBUdHQSwZB0V%2FnAVHR0VAZAVHWT%2B1AEs%2FgwdFf5wFR0dFQGQFR0AAAEBLAAwA28EgAAPAAAJAQYjIiY1ETQ2MzIXARYUA2H%2BEhcSDhAQDhIXAe4OAjX%2BEhcbGQPoGRsX%2FhIOKgAAAAABAUEAMgOEBH4ACwAACQE2FhURFAYnASY0AU8B7h0qKh3%2BEg4CewHuHREp%2FBgpER0B7g4qAAAAAAEAMgFBBH4DhAALAAATITIWBwEGIicBJjZkA%2BgpER3%2BEg4qDv4SHREDhCod%2FhIODgHuHSoAAAAAAQAyASwEfgNvAAsAAAkBFgYjISImNwE2MgJ7Ae4dESn8GCkRHQHuDioDYf4SHSoqHQHuDgAAAAACAAgAAASwBCgABgAKAAABFQE1LQE1ASE1IQK8%2FUwBnf5jBKj84AMgAuW2%2Fr3dwcHd%2B9jIAAAAAAIAAABkBLAEsAALADEAAAEjFTMVIREzNSM1IQEzND4FOwERFAYPARUhNSIuAzURMzIeBRUzESEEsMjI%2FtTIyAEs%2B1AyCAsZEyYYGWQyGRkBkAQOIhoWZBkYJhMZCwgy%2FOADhGRkASxkZP4MFSAVDggDAf3aFhkBAmRkAQUJFQ4CJgEDCA4VIBUBLAAAAgAAAAAETAPoACUAMQAAASM0LgUrAREUFh8BFSE1Mj4DNREjIg4FFSMRIQEjFTMVIREzNSM1IQMgMggLGRMmGBlkMhkZ%2FnAEDiIaFmQZGCYTGQsIMgMgASzIyP7UyMgBLAK8FSAVDggDAf3aFhkCAWRkAQUJFQ4CJgEDCA4VIBUBLPzgZGQBLGRkAAABAMgAZgNyBEoAEgAAATMyFgcJARYGKwEiJwEmNDcBNgK9oBAKDP4wAdAMChCgDQr%2BKQcHAdcKBEoWDP4w%2FjAMFgkB1wgUCAHXCQAAAQE%2BAGYD6ARKABIAAAEzMhcBFhQHAQYrASImNwkBJjYBU6ANCgHXBwf%2BKQoNoBAKDAHQ%2FjAMCgRKCf4pCBQI%2FikJFgwB0AHQDBYAAAEAZgDIBEoDcgASAAAAFh0BFAcBBiInASY9ATQ2FwkBBDQWCf4pCBQI%2FikJFgwB0AHQA3cKEKANCv4pBwcB1woNoBAKDP4wAdAAAAABAGYBPgRKA%2BgAEgAACQEWHQEUBicJAQYmPQE0NwE2MgJqAdcJFgz%2BMP4wDBYJAdcIFAPh%2FikKDaAQCgwB0P4wDAoQoA0KAdcHAAAAAgDZ%2F%2FkEPQSwAAUAOgAAARQGIzQ2BTMyFh8BNjc%2BAh4EBgcOBgcGIiYjIgYiJy4DLwEuAT4EHgEXJyY2A%2BiwfLD%2BVmQVJgdPBQsiKFAzRyorDwURAQQSFyozTSwNOkkLDkc3EDlfNyYHBw8GDyUqPjdGMR%2BTDA0EsHywfLDIHBPCAQIGBwcFDx81S21DBxlLR1xKQhEFBQcHGWt0bCQjP2hJNyATBwMGBcASGAAAAAACAMgAFQOEBLAAFgAaAAATITIWFREUBisBEQcGJjURIyImNRE0NhcVITX6AlgVHR0Vlv8TGpYVHR2rASwEsB0V%2FnAVHf4MsgkQFQKKHRUBkBUdZGRkAAAAAgDIABkETASwAA4AEgAAEyEyFhURBRElIREjETQ2ARU3NfoC7ic9%2FUQCWP1EZB8BDWQEsFEs%2FFt1A7Z9%2FBgEARc0%2FV1kFGQAAQAAAAECTW%2FDBF9fDzz1AB8EsAAAAADQdnOXAAAAANB2c5f%2FUf%2BcBdwFFAAAAAgAAgAAAAAAAAABAAAFFP%2BFAAAFFP9R%2FtQF3AABAAAAAAAAAAAAAAAAAAAAowG4ACgAAAAAAZAAAASwAAAEsABkBLAAAASwAAAEsABwAooAAAUUAAACigAABRQAAAGxAAABRQAAANgAAADYAAAAogAAAQQAAABIAAABBAAAAUUAAASwAGQEsAB7BLAAyASwAMgB9AAABLD%2F8gSwAAAEsAAABLD%2F8ASwAAAEsAAOBLAACQSwAGQEsP%2FTBLD%2F0wSwAAAEsAAABLAAAASwAAAEsAAABLAAJgSwAG4EsAAXBLAAFwSwABcEsABkBLAAGgSwAGQEsAAMBLAAZASwABcEsP%2BcBLAAZASwABcEsAAXBLAAAASwABcEsAAXBLAAFwSwAGQEsAAABLAAZASwAAAEsAAABLAAAASwAAAEsAAABLAAAASwAAAEsAAABLAAZASwAMgEsAAABLAAAASwADUEsABkBLAAyASw%2F7UEsAAhBLAAAASwAAAEsAAABLAAAASwAAAEsP%2BcBLAAAASwAAAEsAAABLAA2wSwABcEsAB1BLAAAASwAAAEsAAABLAACgSwAMgEsAAABLAAnQSwAMgEsADIBLAAyASwAAAEsP%2F%2BBLABLASwAGQEsACIBLABOwSwABcEsAAXBLAAFwSwABcEsAAXBLAAFwSwAAAEsAAXBLAAFwSwABcEsAAXBLAAAASwALcEsAC3BLAAAASwAAAEsABJBLAAFwSwAAAEsAAABLAAXQSw%2F9wEsP%2FcBLD%2FnwSwAGQEsAAABLAAAASwAAAEsABkBLD%2F%2FwSwAAAEsP9RBLAABgSwAAAEsAAABLABRQSwAAEEsAAABLD%2FnASwAEoEsAAUBLAAAASwAAAEsAAABLD%2FnASwAGEEsP%2F9BLAAFgSwABYEsAAWBLAAFgSwABgEsAAABMQAAASwAGQAAAAAAAD%2F2ABkADkAyAAAAScAZAAZABkAGQAZABkAGQAZAAAAAAAAAAAAAADZAAAAAAAOAAAAAAAAAAAAAAAEAAAAAAAAAAAAAAAAAAMAZABkAAAAEAAAAAAAZP%2Bc%2F5z%2FnP%2Bc%2F5z%2FnP%2Bc%2F5wACQAJ%2F%2FL%2F8gBkAHkAJwBkAGQAAAAAAGT%2FogAAAAAAAAAAAAAAAADIAGQAAAABAI8AAP%2Bc%2F5wAZAAEAMgAyAAAAGQBkABkAAAAZAEs%2F7UAAAAAAAAAAAAAAAAAAABkAAABLAFBADIAMgAIAAAAAADIAT4AZgBmANkAyADIAAAAKgAqACoAKgCyAOgA6AFOAU4BTgFOAU4BTgFOAU4BTgFOAU4BTgFOAU4BpAIGAiICfgKGAqwC5ANGA24DjAPEBAgEMgRiBKIE3AVcBboGcgb0ByAHYgfKCB4IYgi%2BCTYJhAm2Cd4KKApMCpQK4gswC4oLygwIDFgNKg1eDbAODg5oDrQPKA%2BmD%2BYQEhBUEJAQqhEqEXYRthIKEjgSfBLAExoTdBPQFCoU1BU8FagVzBYEFjYWYBawFv4XUhemGAIYLhhqGJYYsBjgGP4ZKBloGZQZxBnaGe4aNhpoGrga9hteG7QcMhyUHOIdHB1EHWwdlB28HeYeLh52HsAfYh%2FSIEYgviEyIXYhuCJAIpYiuCMOIyIjOCN6I8Ij4CQCJDAkXiSWJOIlNCVgJbwmFCZ%2BJuYnUCe8J%2FgoNChwKKwpoCnMKiYqSiqEKworeiwILGgsuizsLRwtiC30LiguZi6iLtgvDi9GL34vsi%2F4MD4whDDSMRIxYDGuMegyJDJeMpoy3jMiMz4zaDO2NBg0YDSoNNI1LDWeNeg2PjZ8Ntw3GjdON5I31DgQOEI4hjjIOQo5SjmIOcw6HDpsOpo63jugO9w8GDxQPKI8%2BD0yPew%2BOj6MPtQ%2FKD9uP6o%2F%2BkBIQIBAxkECQX5CGEKoQu5DGENCQ3ZDoEPKRBBEYESuRPZFWkW2RgZGdEa0RvZHNkd2R7ZH9kgWSDJITkhqSIZIzEkSSThJXkmESapKAkouSlIAAQAAARcApwARAAAAAAACAAAAAQABAAAAQAAuAAAAAAAAABAAxgABAAAAAAATABIAAAADAAEECQAAAGoAEgADAAEECQABACgAfAADAAEECQACAA4ApAADAAEECQADAEwAsgADAAEECQAEADgA%2FgADAAEECQAFAHgBNgADAAEECQAGADYBrgADAAEECQAIABYB5AADAAEECQAJABYB%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%2FtQAyAAAAAAAAAAAAAAAAAAAAAAAAAAABFwAAAQIBAwADAA0ADgEEAJYBBQEGAQcBCAEJAQoBCwEMAQ0BDgEPARABEQESARMA7wEUARUBFgEXARgBGQEaARsBHAEdAR4BHwEgASEBIgEjASQBJQEmAScBKAEpASoBKwEsAS0BLgEvATABMQEyATMBNAE1ATYBNwE4ATkBOgE7ATwBPQE%2BAT8BQAFBAUIBQwFEAUUBRgFHAUgBSQFKAUsBTAFNAU4BTwFQAVEBUgFTAVQBVQFWAVcBWAFZAVoBWwFcAV0BXgFfAWABYQFiAWMBZAFlAWYBZwFoAWkBagFrAWwBbQFuAW8BcAFxAXIBcwF0AXUBdgF3AXgBeQF6AXsBfAF9AX4BfwGAAYEBggGDAYQBhQGGAYcBiAGJAYoBiwGMAY0BjgGPAZABkQGSAZMBlAGVAZYBlwGYAZkBmgGbAZwBnQGeAZ8BoAGhAaIBowGkAaUBpgGnAagBqQGqAasBrAGtAa4BrwGwAbEBsgGzAbQBtQG2AbcBuAG5AboBuwG8Ab0BvgG%2FAcABwQHCAcMBxAHFAcYBxwHIAckBygHLAcwBzQHOAc8B0AHRAdIB0wHUAdUB1gHXAdgB2QHaAdsB3AHdAd4B3wHgAeEB4gHjAeQB5QHmAecB6AHpAeoB6wHsAe0B7gHvAfAB8QHyAfMB9AH1AfYB9wH4AfkB%2BgH7AfwB%2FQH%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%3D%20format%28%27truetype%27%29%2Cdata%3Aimage%2Fsvg%2Bxml%3Bbase64%2CPD94bWwgdmVyc2lvbj0iMS4wIiBzdGFuZGFsb25lPSJubyI%2FPgo8IURPQ1RZUEUgc3ZnIFBVQkxJQyAiLS8vVzNDLy9EVEQgU1ZHIDEuMS8vRU4iICJodHRwOi8vd3d3LnczLm9yZy9HcmFwaGljcy9TVkcvMS4xL0RURC9zdmcxMS5kdGQiID4KPHN2ZyB4bWxucz0iaHR0cDovL3d3dy53My5vcmcvMjAwMC9zdmciPgo8bWV0YWRhdGE%2BPC9tZXRhZGF0YT4KPGRlZnM%2BCjxmb250IGlkPSJnbHlwaGljb25zX2hhbGZsaW5nc3JlZ3VsYXIiIGhvcml6LWFkdi14PSIxMjAwIiA%2BCjxmb250LWZhY2UgdW5pdHMtcGVyLWVtPSIxMjAwIiBhc2NlbnQ9Ijk2MCIgZGVzY2VudD0iLTI0MCIgLz4KPG1pc3NpbmctZ2x5cGggaG9yaXotYWR2LXg9IjUwMCIgLz4KPGdseXBoIGhvcml6LWFkdi14PSIwIiAvPgo8Z2x5cGggaG9yaXotYWR2LXg9IjQwMCIgLz4KPGdseXBoIHVuaWNvZGU9IiAiIC8%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%2BCjxnbHlwaCB1bmljb2RlPSImI3gyMDAzOyIgaG9yaXotYWR2LXg9IjEzMDAiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3gyMDA0OyIgaG9yaXotYWR2LXg9IjQzMyIgLz4KPGdseXBoIHVuaWNvZGU9IiYjeDIwMDU7IiBob3Jpei1hZHYteD0iMzI1IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4MjAwNjsiIGhvcml6LWFkdi14PSIyMTYiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3gyMDA3OyIgaG9yaXotYWR2LXg9IjIxNiIgLz4KPGdseXBoIHVuaWNvZGU9IiYjeDIwMDg7IiBob3Jpei1hZHYteD0iMTYyIiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4MjAwOTsiIGhvcml6LWFkdi14PSIyNjAiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3gyMDBhOyIgaG9yaXotYWR2LXg9IjcyIiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4MjAyZjsiIGhvcml6LWFkdi14PSIyNjAiIC8%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3gyNmZhOyIgZD0iTTc3NCAxMTkzLjVxMTYgLTkuNSAyMC41IC0yN3QtNS41IC0zMy41bC0xMzYgLTE4N2w0NjcgLTc0NmgzMHEyMCAwIDM1IC0xOC41dDE1IC0zOS41di00MmgtMTIwMHY0MnEwIDIxIDE1IDM5LjV0MzUgMTguNWgzMGw0NjggNzQ2bC0xMzUgMTgzcS0xMCAxNiAtNS41IDM0dDIwLjUgMjh0MzQgNS41dDI4IC0yMC41bDExMSAtMTQ4bDExMiAxNTBxOSAxNiAyNyAyMC41dDM0IC01ek02MDAgMjAwaDM3N2wtMTgyIDExMmwtMTk1IDUzNHYtNjQ2eiAiIC8%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%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDI0OyIgZD0iTTEzMDAgMGgtNTM4bC00MSA0MDBoLTI0MmwtNDEgLTQwMGgtNTM4bDQzMSAxMjAwaDIwOWwtMjEgLTMwMGgxNjJsLTIwIDMwMGgyMDh6TTUxNSA4MDBsLTI3IC0zMDBoMjI0bC0yNyAzMDBoLTE3MHoiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDI1OyIgZD0iTTU1MCAxMjAwaDIwMHEyMSAwIDM1LjUgLTE0LjV0MTQuNSAtMzUuNXYtNDUwaDE5MXEyMCAwIDI1LjUgLTExLjV0LTcuNSAtMjcuNWwtMzI3IC00MDBxLTEzIC0xNiAtMzIgLTE2dC0zMiAxNmwtMzI3IDQwMHEtMTMgMTYgLTcuNSAyNy41dDI1LjUgMTEuNWgxOTF2NDUwcTAgMjEgMTQuNSAzNS41dDM1LjUgMTQuNXpNMTEyNSA0MDBoNTBxMTAgMCAxNy41IC03LjV0Ny41IC0xNy41di0zNTBxMCAtMTAgLTcuNSAtMTcuNXQtMTcuNSAtNy41IGgtMTA1MHEtMTAgMCAtMTcuNSA3LjV0LTcuNSAxNy41djM1MHEwIDEwIDcuNSAxNy41dDE3LjUgNy41aDUwcTEwIDAgMTcuNSAtNy41dDcuNSAtMTcuNXYtMTc1aDkwMHYxNzVxMCAxMCA3LjUgMTcuNXQxNy41IDcuNXoiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDI2OyIgZD0iTTYwMCAxMTc3cTExNyAwIDIyNCAtNDUuNXQxODQuNSAtMTIzdDEyMyAtMTg0LjV0NDUuNSAtMjI0dC00NS41IC0yMjR0LTEyMyAtMTg0LjV0LTE4NC41IC0xMjN0LTIyNCAtNDUuNXQtMjI0IDQ1LjV0LTE4NC41IDEyM3QtMTIzIDE4NC41dC00NS41IDIyNHQ0NS41IDIyNHQxMjMgMTg0LjV0MTg0LjUgMTIzdDIyNCA0NS41ek02MDAgMTAyN3EtMTE2IDAgLTIxNC41IC01N3QtMTU1LjUgLTE1NS41dC01NyAtMjE0LjV0NTcgLTIxNC41IHQxNTUuNSAtMTU1LjV0MjE0LjUgLTU3dDIxNC41IDU3dDE1NS41IDE1NS41dDU3IDIxNC41dC01NyAyMTQuNXQtMTU1LjUgMTU1LjV0LTIxNC41IDU3ek01MjUgOTAwaDE1MHExMCAwIDE3LjUgLTcuNXQ3LjUgLTE3LjV2LTI3NWgxMzdxMjEgMCAyNiAtMTEuNXQtOCAtMjcuNWwtMjIzIC0yNzVxLTEzIC0xNiAtMzIgLTE2dC0zMiAxNmwtMjIzIDI3NXEtMTMgMTYgLTggMjcuNXQyNiAxMS41aDEzN3YyNzVxMCAxMCA3LjUgMTcuNXQxNy41IDcuNXogIiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTAyNzsiIGQ9Ik02MDAgMTE3N3ExMTcgMCAyMjQgLTQ1LjV0MTg0LjUgLTEyM3QxMjMgLTE4NC41dDQ1LjUgLTIyNHQtNDUuNSAtMjI0dC0xMjMgLTE4NC41dC0xODQuNSAtMTIzdC0yMjQgLTQ1LjV0LTIyNCA0NS41dC0xODQuNSAxMjN0LTEyMyAxODQuNXQtNDUuNSAyMjR0NDUuNSAyMjR0MTIzIDE4NC41dDE4NC41IDEyM3QyMjQgNDUuNXpNNjAwIDEwMjdxLTExNiAwIC0yMTQuNSAtNTd0LTE1NS41IC0xNTUuNXQtNTcgLTIxNC41dDU3IC0yMTQuNSB0MTU1LjUgLTE1NS41dDIxNC41IC01N3QyMTQuNSA1N3QxNTUuNSAxNTUuNXQ1NyAyMTQuNXQtNTcgMjE0LjV0LTE1NS41IDE1NS41dC0yMTQuNSA1N3pNNjMyIDkxNGwyMjMgLTI3NXExMyAtMTYgOCAtMjcuNXQtMjYgLTExLjVoLTEzN3YtMjc1cTAgLTEwIC03LjUgLTE3LjV0LTE3LjUgLTcuNWgtMTUwcS0xMCAwIC0xNy41IDcuNXQtNy41IDE3LjV2Mjc1aC0xMzdxLTIxIDAgLTI2IDExLjV0OCAyNy41bDIyMyAyNzVxMTMgMTYgMzIgMTYgdDMyIC0xNnoiIC8%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%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDMyOyIgZD0iTTEyNSAxMjAwaDEwNTBxMTAgMCAxNy41IC03LjV0Ny41IC0xNy41di0xMTUwcTAgLTEwIC03LjUgLTE3LjV0LTE3LjUgLTcuNWgtMTA1MHEtMTAgMCAtMTcuNSA3LjV0LTcuNSAxNy41djExNTBxMCAxMCA3LjUgMTcuNXQxNy41IDcuNXpNMTA3NSAxMDAwaC04NTBxLTEwIDAgLTE3LjUgLTcuNXQtNy41IC0xNy41di04NTBxMCAtMTAgNy41IC0xNy41dDE3LjUgLTcuNWg4NTBxMTAgMCAxNy41IDcuNXQ3LjUgMTcuNXY4NTAgcTAgMTAgLTcuNSAxNy41dC0xNy41IDcuNXpNMzI1IDkwMGg1MHExMCAwIDE3LjUgLTcuNXQ3LjUgLTE3LjV2LTUwcTAgLTEwIC03LjUgLTE3LjV0LTE3LjUgLTcuNWgtNTBxLTEwIDAgLTE3LjUgNy41dC03LjUgMTcuNXY1MHEwIDEwIDcuNSAxNy41dDE3LjUgNy41ek01MjUgOTAwaDQ1MHExMCAwIDE3LjUgLTcuNXQ3LjUgLTE3LjV2LTUwcTAgLTEwIC03LjUgLTE3LjV0LTE3LjUgLTcuNWgtNDUwcS0xMCAwIC0xNy41IDcuNXQtNy41IDE3LjV2NTAgcTAgMTAgNy41IDE3LjV0MTcuNSA3LjV6TTMyNSA3MDBoNTBxMTAgMCAxNy41IC03LjV0Ny41IC0xNy41di01MHEwIC0xMCAtNy41IC0xNy41dC0xNy41IC03LjVoLTUwcS0xMCAwIC0xNy41IDcuNXQtNy41IDE3LjV2NTBxMCAxMCA3LjUgMTcuNXQxNy41IDcuNXpNNTI1IDcwMGg0NTBxMTAgMCAxNy41IC03LjV0Ny41IC0xNy41di01MHEwIC0xMCAtNy41IC0xNy41dC0xNy41IC03LjVoLTQ1MHEtMTAgMCAtMTcuNSA3LjV0LTcuNSAxNy41djUwIHEwIDEwIDcuNSAxNy41dDE3LjUgNy41ek0zMjUgNTAwaDUwcTEwIDAgMTcuNSAtNy41dDcuNSAtMTcuNXYtNTBxMCAtMTAgLTcuNSAtMTcuNXQtMTcuNSAtNy41aC01MHEtMTAgMCAtMTcuNSA3LjV0LTcuNSAxNy41djUwcTAgMTAgNy41IDE3LjV0MTcuNSA3LjV6TTUyNSA1MDBoNDUwcTEwIDAgMTcuNSAtNy41dDcuNSAtMTcuNXYtNTBxMCAtMTAgLTcuNSAtMTcuNXQtMTcuNSAtNy41aC00NTBxLTEwIDAgLTE3LjUgNy41dC03LjUgMTcuNXY1MCBxMCAxMCA3LjUgMTcuNXQxNy41IDcuNXpNMzI1IDMwMGg1MHExMCAwIDE3LjUgLTcuNXQ3LjUgLTE3LjV2LTUwcTAgLTEwIC03LjUgLTE3LjV0LTE3LjUgLTcuNWgtNTBxLTEwIDAgLTE3LjUgNy41dC03LjUgMTcuNXY1MHEwIDEwIDcuNSAxNy41dDE3LjUgNy41ek01MjUgMzAwaDQ1MHExMCAwIDE3LjUgLTcuNXQ3LjUgLTE3LjV2LTUwcTAgLTEwIC03LjUgLTE3LjV0LTE3LjUgLTcuNWgtNDUwcS0xMCAwIC0xNy41IDcuNXQtNy41IDE3LjV2NTAgcTAgMTAgNy41IDE3LjV0MTcuNSA3LjV6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTAzMzsiIGQ9Ik05MDAgODAwdjIwMHEwIDgzIC01OC41IDE0MS41dC0xNDEuNSA1OC41aC0zMDBxLTgyIDAgLTE0MSAtNTl0LTU5IC0xNDF2LTIwMGgtMTAwcS00MSAwIC03MC41IC0yOS41dC0yOS41IC03MC41di02MDBxMCAtNDEgMjkuNSAtNzAuNXQ3MC41IC0yOS41aDkwMHE0MSAwIDcwLjUgMjkuNXQyOS41IDcwLjV2NjAwcTAgNDEgLTI5LjUgNzAuNXQtNzAuNSAyOS41aC0xMDB6TTQwMCA4MDB2MTUwcTAgMjEgMTUgMzUuNXQzNSAxNC41aDIwMCBxMjAgMCAzNSAtMTQuNXQxNSAtMzUuNXYtMTUwaC0zMDB6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTAzNDsiIGQ9Ik0xMjUgMTEwMGg1MHExMCAwIDE3LjUgLTcuNXQ3LjUgLTE3LjV2LTEwNzVoLTEwMHYxMDc1cTAgMTAgNy41IDE3LjV0MTcuNSA3LjV6TTEwNzUgMTA1MnE0IDAgOSAtMnExNiAtNiAxNiAtMjN2LTQyMXEwIC02IC0zIC0xMnEtMzMgLTU5IC02Ni41IC05OXQtNjUuNSAtNTh0LTU2LjUgLTI0LjV0LTUyLjUgLTYuNXEtMjYgMCAtNTcuNSA2LjV0LTUyLjUgMTMuNXQtNjAgMjFxLTQxIDE1IC02MyAyMi41dC01Ny41IDE1dC02NS41IDcuNSBxLTg1IDAgLTE2MCAtNTdxLTcgLTUgLTE1IC01cS02IDAgLTExIDNxLTE0IDcgLTE0IDIydjQzOHEyMiA1NSA4MiA5OC41dDExOSA0Ni41cTIzIDIgNDMgMC41dDQzIC03dDMyLjUgLTguNXQzOCAtMTN0MzIuNSAtMTFxNDEgLTE0IDYzLjUgLTIxdDU3IC0xNHQ2My41IC03cTEwMyAwIDE4MyA4N3E3IDggMTggOHoiIC8%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%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDQyOyIgZD0iTTUwMCAxMjAwbDY4MiAtNjgycTggLTggOCAtMTh0LTggLTE4bC00NjQgLTQ2NHEtOCAtOCAtMTggLTh0LTE4IDhsLTY4MiA2ODJsMSA0NzVxMCAxMCA3LjUgMTcuNXQxNy41IDcuNWg0NzR6TTgwMCAxMjAwbDY4MiAtNjgycTggLTggOCAtMTh0LTggLTE4bC00NjQgLTQ2NHEtOCAtOCAtMTggLTh0LTE4IDhsLTU2IDU2bDQyNCA0MjZsLTcwMCA3MDBoMTUwek0zMTkuNSAxMDI0LjVxLTI5LjUgMjkuNSAtNzEgMjkuNXQtNzEgLTI5LjUgdC0yOS41IC03MS41dDI5LjUgLTcxLjV0NzEgLTI5LjV0NzEgMjkuNXQyOS41IDcxLjV0LTI5LjUgNzEuNXoiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDQzOyIgZD0iTTMwMCAxMjAwaDgyNXE3NSAwIDc1IC03NXYtOTAwcTAgLTI1IC0xOCAtNDNsLTY0IC02NHEtOCAtOCAtMTMgLTUuNXQtNSAxMi41djk1MHEwIDEwIC03LjUgMTcuNXQtMTcuNSA3LjVoLTcwMHEtMjUgMCAtNDMgLTE4bC02NCAtNjRxLTggLTggLTUuNSAtMTN0MTIuNSAtNWg3MDBxMTAgMCAxNy41IC03LjV0Ny41IC0xNy41di05NTBxMCAtMTAgLTcuNSAtMTcuNXQtMTcuNSAtNy41aC04NTBxLTEwIDAgLTE3LjUgNy41dC03LjUgMTcuNXY5NzUgcTAgMjUgMTggNDNsMTM5IDEzOXExOCAxOCA0MyAxOHoiIC8%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDQ5OyIgZD0iTTg3NyAxMjAwbDIgLTU3cS04MyAtMTkgLTExNiAtNDUuNXQtNDAgLTY2LjVsLTEzMiAtODM5cS05IC00OSAxMyAtNjl0OTYgLTI2di05N2gtNTAwdjk3cTE4NiAxNiAyMDAgOThsMTczIDgzMnEzIDE3IDMgMzB0LTEuNSAyMi41dC05IDE3LjV0LTEzLjUgMTIuNXQtMjEuNSAxMHQtMjYgOC41dC0zMy41IDEwcS0xMyAzIC0xOSA1djU3aDQyNXoiIC8%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%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%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%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDY5OyIgZD0iTTI1MCAxMTAwaDEwMHEyMSAwIDM1LjUgLTE0LjV0MTQuNSAtMzUuNXYtNDM4bDQ2NCA0NTNxMTUgMTQgMjUuNSAxMHQxMC41IC0yNXYtMTAwMHEwIC0yMSAtMTAuNSAtMjV0LTI1LjUgMTBsLTQ2NCA0NTN2LTQzOHEwIC0yMSAtMTQuNSAtMzUuNXQtMzUuNSAtMTQuNWgtMTAwcS0yMSAwIC0zNS41IDE0LjV0LTE0LjUgMzUuNXYxMDAwcTAgMjEgMTQuNSAzNS41dDM1LjUgMTQuNXoiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDcwOyIgZD0iTTUwIDExMDBoMTAwcTIxIDAgMzUuNSAtMTQuNXQxNC41IC0zNS41di00MzhsNDY0IDQ1M3ExNSAxNCAyNS41IDEwdDEwLjUgLTI1di00MzhsNDY0IDQ1M3ExNSAxNCAyNS41IDEwdDEwLjUgLTI1di0xMDAwcTAgLTIxIC0xMC41IC0yNXQtMjUuNSAxMGwtNDY0IDQ1M3YtNDM4cTAgLTIxIC0xMC41IC0yNXQtMjUuNSAxMGwtNDY0IDQ1M3YtNDM4cTAgLTIxIC0xNC41IC0zNS41dC0zNS41IC0xNC41aC0xMDBxLTIxIDAgLTM1LjUgMTQuNSB0LTE0LjUgMzUuNXYxMDAwcTAgMjEgMTQuNSAzNS41dDM1LjUgMTQuNXoiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDcxOyIgZD0iTTEyMDAgMTA1MHYtMTAwMHEwIC0yMSAtMTAuNSAtMjV0LTI1LjUgMTBsLTQ2NCA0NTN2LTQzOHEwIC0yMSAtMTAuNSAtMjV0LTI1LjUgMTBsLTQ5MiA0ODBxLTE1IDE0IC0xNSAzNXQxNSAzNWw0OTIgNDgwcTE1IDE0IDI1LjUgMTB0MTAuNSAtMjV2LTQzOGw0NjQgNDUzcTE1IDE0IDI1LjUgMTB0MTAuNSAtMjV6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTA3MjsiIGQ9Ik0yNDMgMTA3NGw4MTQgLTQ5OHExOCAtMTEgMTggLTI2dC0xOCAtMjZsLTgxNCAtNDk4cS0xOCAtMTEgLTMwLjUgLTR0LTEyLjUgMjh2MTAwMHEwIDIxIDEyLjUgMjh0MzAuNSAtNHoiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDczOyIgZD0iTTI1MCAxMDAwaDIwMHEyMSAwIDM1LjUgLTE0LjV0MTQuNSAtMzUuNXYtODAwcTAgLTIxIC0xNC41IC0zNS41dC0zNS41IC0xNC41aC0yMDBxLTIxIDAgLTM1LjUgMTQuNXQtMTQuNSAzNS41djgwMHEwIDIxIDE0LjUgMzUuNXQzNS41IDE0LjV6TTY1MCAxMDAwaDIwMHEyMSAwIDM1LjUgLTE0LjV0MTQuNSAtMzUuNXYtODAwcTAgLTIxIC0xNC41IC0zNS41dC0zNS41IC0xNC41aC0yMDBxLTIxIDAgLTM1LjUgMTQuNXQtMTQuNSAzNS41djgwMCBxMCAyMSAxNC41IDM1LjV0MzUuNSAxNC41eiIgLz4KPGdseXBoIHVuaWNvZGU9IiYjeGUwNzQ7IiBkPSJNMTEwMCA5NTB2LTgwMHEwIC0yMSAtMTQuNSAtMzUuNXQtMzUuNSAtMTQuNWgtODAwcS0yMSAwIC0zNS41IDE0LjV0LTE0LjUgMzUuNXY4MDBxMCAyMSAxNC41IDM1LjV0MzUuNSAxNC41aDgwMHEyMSAwIDM1LjUgLTE0LjV0MTQuNSAtMzUuNXoiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDc1OyIgZD0iTTUwMCA2MTJ2NDM4cTAgMjEgMTAuNSAyNXQyNS41IC0xMGw0OTIgLTQ4MHExNSAtMTQgMTUgLTM1dC0xNSAtMzVsLTQ5MiAtNDgwcS0xNSAtMTQgLTI1LjUgLTEwdC0xMC41IDI1djQzOGwtNDY0IC00NTNxLTE1IC0xNCAtMjUuNSAtMTB0LTEwLjUgMjV2MTAwMHEwIDIxIDEwLjUgMjV0MjUuNSAtMTB6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTA3NjsiIGQ9Ik0xMDQ4IDExMDJsMTAwIDFxMjAgMCAzNSAtMTQuNXQxNSAtMzUuNWw1IC0xMDAwcTAgLTIxIC0xNC41IC0zNS41dC0zNS41IC0xNC41bC0xMDAgLTFxLTIxIDAgLTM1LjUgMTQuNXQtMTQuNSAzNS41bC0yIDQzN2wtNDYzIC00NTRxLTE0IC0xNSAtMjQuNSAtMTAuNXQtMTAuNSAyNS41bC0yIDQzN2wtNDYyIC00NTVxLTE1IC0xNCAtMjUuNSAtOS41dC0xMC41IDI0LjVsLTUgMTAwMHEwIDIxIDEwLjUgMjUuNXQyNS41IC0xMC41bDQ2NiAtNDUwIGwtMiA0MzhxMCAyMCAxMC41IDI0LjV0MjUuNSAtOS41bDQ2NiAtNDUxbC0yIDQzOHEwIDIxIDE0LjUgMzUuNXQzNS41IDE0LjV6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTA3NzsiIGQ9Ik04NTAgMTEwMGgxMDBxMjEgMCAzNS41IC0xNC41dDE0LjUgLTM1LjV2LTEwMDBxMCAtMjEgLTE0LjUgLTM1LjV0LTM1LjUgLTE0LjVoLTEwMHEtMjEgMCAtMzUuNSAxNC41dC0xNC41IDM1LjV2NDM4bC00NjQgLTQ1M3EtMTUgLTE0IC0yNS41IC0xMHQtMTAuNSAyNXYxMDAwcTAgMjEgMTAuNSAyNXQyNS41IC0xMGw0NjQgLTQ1M3Y0MzhxMCAyMSAxNC41IDM1LjV0MzUuNSAxNC41eiIgLz4KPGdseXBoIHVuaWNvZGU9IiYjeGUwNzg7IiBkPSJNNjg2IDEwODFsNTAxIC01NDBxMTUgLTE1IDEwLjUgLTI2dC0yNi41IC0xMWgtMTA0MnEtMjIgMCAtMjYuNSAxMXQxMC41IDI2bDUwMSA1NDBxMTUgMTUgMzYgMTV0MzYgLTE1ek0xNTAgNDAwaDEwMDBxMjEgMCAzNS41IC0xNC41dDE0LjUgLTM1LjV2LTEwMHEwIC0yMSAtMTQuNSAtMzUuNXQtMzUuNSAtMTQuNWgtMTAwMHEtMjEgMCAtMzUuNSAxNC41dC0xNC41IDM1LjV2MTAwcTAgMjEgMTQuNSAzNS41dDM1LjUgMTQuNXoiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDc5OyIgZD0iTTg4NSA5MDBsLTM1MiAtMzUzbDM1MiAtMzUzbC0xOTcgLTE5OGwtNTUyIDU1Mmw1NTIgNTUweiIgLz4KPGdseXBoIHVuaWNvZGU9IiYjeGUwODA7IiBkPSJNMTA2NCA1NDdsLTU1MSAtNTUxbC0xOTggMTk4bDM1MyAzNTNsLTM1MyAzNTNsMTk4IDE5OHoiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDgxOyIgZD0iTTYwMCAxMTc3cTExNyAwIDIyNCAtNDUuNXQxODQuNSAtMTIzdDEyMyAtMTg0LjV0NDUuNSAtMjI0dC00NS41IC0yMjR0LTEyMyAtMTg0LjV0LTE4NC41IC0xMjN0LTIyNCAtNDUuNXQtMjI0IDQ1LjV0LTE4NC41IDEyM3QtMTIzIDE4NC41dC00NS41IDIyNHQ0NS41IDIyNHQxMjMgMTg0LjV0MTg0LjUgMTIzdDIyNCA0NS41ek02NTAgOTAwaC0xMDBxLTIxIDAgLTM1LjUgLTE0LjV0LTE0LjUgLTM1LjV2LTE1MGgtMTUwIHEtMjEgMCAtMzUuNSAtMTQuNXQtMTQuNSAtMzUuNXYtMTAwcTAgLTIxIDE0LjUgLTM1LjV0MzUuNSAtMTQuNWgxNTB2LTE1MHEwIC0yMSAxNC41IC0zNS41dDM1LjUgLTE0LjVoMTAwcTIxIDAgMzUuNSAxNC41dDE0LjUgMzUuNXYxNTBoMTUwcTIxIDAgMzUuNSAxNC41dDE0LjUgMzUuNXYxMDBxMCAyMSAtMTQuNSAzNS41dC0zNS41IDE0LjVoLTE1MHYxNTBxMCAyMSAtMTQuNSAzNS41dC0zNS41IDE0LjV6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTA4MjsiIGQ9Ik02MDAgMTE3N3ExMTcgMCAyMjQgLTQ1LjV0MTg0LjUgLTEyM3QxMjMgLTE4NC41dDQ1LjUgLTIyNHQtNDUuNSAtMjI0dC0xMjMgLTE4NC41dC0xODQuNSAtMTIzdC0yMjQgLTQ1LjV0LTIyNCA0NS41dC0xODQuNSAxMjN0LTEyMyAxODQuNXQtNDUuNSAyMjR0NDUuNSAyMjR0MTIzIDE4NC41dDE4NC41IDEyM3QyMjQgNDUuNXpNODUwIDcwMGgtNTAwcS0yMSAwIC0zNS41IC0xNC41dC0xNC41IC0zNS41di0xMDBxMCAtMjEgMTQuNSAtMzUuNSB0MzUuNSAtMTQuNWg1MDBxMjEgMCAzNS41IDE0LjV0MTQuNSAzNS41djEwMHEwIDIxIC0xNC41IDM1LjV0LTM1LjUgMTQuNXoiIC8%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%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%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%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%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDk2OyIgZD0iTTg1MCAxMjAwaDMwMHEyMSAwIDM1LjUgLTE0LjV0MTQuNSAtMzUuNXYtMzAwcTAgLTIxIC0xMC41IC0yNXQtMjQuNSAxMGwtOTQgOTRsLTI0OSAtMjQ5cS04IC03IC0xOCAtN3QtMTggN2wtMTA2IDEwNnEtNyA4IC03IDE4dDcgMThsMjQ5IDI0OWwtOTQgOTRxLTE0IDE0IC0xMCAyNC41dDI1IDEwLjV6TTM1MCAwaC0zMDBxLTIxIDAgLTM1LjUgMTQuNXQtMTQuNSAzNS41djMwMHEwIDIxIDEwLjUgMjV0MjQuNSAtMTBsOTQgLTk0bDI0OSAyNDkgcTggNyAxOCA3dDE4IC03bDEwNiAtMTA2cTcgLTggNyAtMTh0LTcgLTE4bC0yNDkgLTI0OWw5NCAtOTRxMTQgLTE0IDEwIC0yNC41dC0yNSAtMTAuNXoiIC8%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%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%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%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%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMTE4OyIgZD0iTTIwMCA4MDBsLTIwMCAtNDAwdjYwMGgyMDBxMCA0MSAyOS41IDcwLjV0NzAuNSAyOS41aDMwMHE0MiAwIDcxIC0yOS41dDI5IC03MC41aDUwMHYtMjAwaC0xMDAwek0xNTAwIDcwMGwtMzAwIC03MDBoLTEyMDBsMzAwIDcwMGgxMjAweiIgLz4KPGdseXBoIHVuaWNvZGU9IiYjeGUxMTk7IiBkPSJNNjM1IDExODRsMjMwIC0yNDlxMTQgLTE0IDEwIC0yNC41dC0yNSAtMTAuNWgtMTUwdi02MDFoMTUwcTIxIDAgMjUgLTEwLjV0LTEwIC0yNC41bC0yMzAgLTI0OXEtMTQgLTE1IC0zNSAtMTV0LTM1IDE1bC0yMzAgMjQ5cS0xNCAxNCAtMTAgMjQuNXQyNSAxMC41aDE1MHY2MDFoLTE1MHEtMjEgMCAtMjUgMTAuNXQxMCAyNC41bDIzMCAyNDlxMTQgMTUgMzUgMTV0MzUgLTE1eiIgLz4KPGdseXBoIHVuaWNvZGU9IiYjeGUxMjA7IiBkPSJNOTM2IDg2NGwyNDkgLTIyOXExNCAtMTUgMTQgLTM1LjV0LTE0IC0zNS41bC0yNDkgLTIyOXEtMTUgLTE1IC0yNS41IC0xMC41dC0xMC41IDI0LjV2MTUxaC02MDB2LTE1MXEwIC0yMCAtMTAuNSAtMjQuNXQtMjUuNSAxMC41bC0yNDkgMjI5cS0xNCAxNSAtMTQgMzUuNXQxNCAzNS41bDI0OSAyMjlxMTUgMTUgMjUuNSAxMC41dDEwLjUgLTI1LjV2LTE0OWg2MDB2MTQ5cTAgMjEgMTAuNSAyNS41dDI1LjUgLTEwLjV6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTEyMTsiIGQ9Ik0xMTY5IDQwMGwtMTcyIDczMnEtNSAyMyAtMjMgNDUuNXQtMzggMjIuNWgtNjcycS0yMCAwIC0zOCAtMjB0LTIzIC00MWwtMTcyIC03MzloMTEzOHpNMTEwMCAzMDBoLTEwMDBxLTQxIDAgLTcwLjUgLTI5LjV0LTI5LjUgLTcwLjV2LTEwMHEwIC00MSAyOS41IC03MC41dDcwLjUgLTI5LjVoMTAwMHE0MSAwIDcwLjUgMjkuNXQyOS41IDcwLjV2MTAwcTAgNDEgLTI5LjUgNzAuNXQtNzAuNSAyOS41ek04MDAgMTAwdjEwMGgxMDB2LTEwMGgtMTAwIHpNMTAwMCAxMDB2MTAwaDEwMHYtMTAwaC0xMDB6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTEyMjsiIGQ9Ik0xMTUwIDExMDBxMjEgMCAzNS41IC0xNC41dDE0LjUgLTM1LjV2LTg1MHEwIC0yMSAtMTQuNSAtMzUuNXQtMzUuNSAtMTQuNXQtMzUuNSAxNC41dC0xNC41IDM1LjV2ODUwcTAgMjEgMTQuNSAzNS41dDM1LjUgMTQuNXpNMTAwMCAyMDBsLTY3NSAyMDBoLTM4bDQ3IC0yNzZxMyAtMTYgLTUuNSAtMjB0LTI5LjUgLTRoLTdoLTg0cS0yMCAwIC0zNC41IDE0dC0xOC41IDM1cS01NSAzMzcgLTU1IDM1MXYyNTB2NnEwIDE2IDEgMjMuNXQ2LjUgMTQgdDE3LjUgNi41aDIwMGw2NzUgMjUwdi04NTB6TTAgNzUwdi0yNTBxLTQgMCAtMTEgMC41dC0yNCA2dC0zMCAxNXQtMjQgMzB0LTExIDQ4LjV2NTBxMCAyNiAxMC41IDQ2dDI1IDMwdDI5IDE2dDI1LjUgN3oiIC8%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%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%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%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%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%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%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%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%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%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%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMTYyOyIgZD0iTTc5MyAxMTgybDkgLTlxOCAtMTAgNSAtMjdxLTMgLTExIC03OSAtMjI1LjV0LTc4IC0yMjEuNWwzMDAgMXEyNCAwIDMyLjUgLTE3LjV0LTUuNSAtMzUuNXEtMSAwIC0xMzMuNSAtMTU1dC0yNjcgLTMxMi41dC0xMzguNSAtMTYyLjVxLTEyIC0xNSAtMjYgLTE1aC05bC05IDhxLTkgMTEgLTQgMzJxMiA5IDQyIDEyMy41dDc5IDIyNC41bDM5IDExMGgtMzAycS0yMyAwIC0zMSAxOXEtMTAgMjEgNiA0MXE3NSA4NiAyMDkuNSAyMzcuNSB0MjI4IDI1N3Q5OC41IDExMS41cTkgMTYgMjUgMTZoOXoiIC8%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%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%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%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%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%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%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%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%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%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%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%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMjIxOyIgZD0iTTQ4MCAxMTY1bDY4MiAtNjgzcTMxIC0zMSAzMSAtNzUuNXQtMzEgLTc1LjVsLTEzMSAtMTMxaC00ODFsLTUxNyA1MThxLTMyIDMxIC0zMiA3NS41dDMyIDc1LjVsMjk1IDI5NnEzMSAzMSA3NS41IDMxdDc2LjUgLTMxek0xMDggNzk0bDM0MiAtMzQybDMwMyAzMDRsLTM0MSAzNDF6TTI1MCAxMDBoODAwcTIxIDAgMzUuNSAtMTQuNXQxNC41IC0zNS41di01MGgtOTAwdjUwcTAgMjEgMTQuNSAzNS41dDM1LjUgMTQuNXoiIC8%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%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%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%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%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%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%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  function delegateMethod(delegator, delegatee, methodName) {
    var inherited = delegator[methodName];
    delegator[methodName] = function() {
      var target = delegatee;
      var method = delegatee[methodName];

      // The method doesn't exist on the delegatee. Instead,
      // call the method on the delegator, if it exists.
      if (!method) {
        target = delegator;
        method = inherited;
      }

      if (method) {
        return method.apply(target, arguments);
      }
    };
  }

  // Implement a vague facsimilie of jQuery's data method
  function elementData(el, name, value) {
    if (arguments.length == 2) {
      return el["htmlwidget_data_" + name];
    } else if (arguments.length == 3) {
      el["htmlwidget_data_" + name] = value;
      return el;
    } else {
      throw new Error("Wrong number of arguments for elementData: " +
        arguments.length);
    }
  }

  // http://stackoverflow.com/questions/3446170/escape-string-for-use-in-javascript-regex
  function escapeRegExp(str) {
    return str.replace(/[\-\[\]\/\{\}\(\)\*\+\?\.\\\^\$\|]/g, "\\$&");
  }

  function hasClass(el, className) {
    var re = new RegExp("\\b" + escapeRegExp(className) + "\\b");
    return re.test(el.className);
  }

  // elements - array (or array-like object) of HTML elements
  // className - class name to test for
  // include - if true, only return elements with given className;
  //   if false, only return elements *without* given className
  function filterByClass(elements, className, include) {
    var results = [];
    for (var i = 0; i < elements.length; i++) {
      if (hasClass(elements[i], className) == include)
        results.push(elements[i]);
    }
    return results;
  }

  function on(obj, eventName, func) {
    if (obj.addEventListener) {
      obj.addEventListener(eventName, func, false);
    } else if (obj.attachEvent) {
      obj.attachEvent(eventName, func);
    }
  }

  function off(obj, eventName, func) {
    if (obj.removeEventListener)
      obj.removeEventListener(eventName, func, false);
    else if (obj.detachEvent) {
      obj.detachEvent(eventName, func);
    }
  }

  // Translate array of values to top/right/bottom/left, as usual with
  // the "padding" CSS property
  // https://developer.mozilla.org/en-US/docs/Web/CSS/padding
  function unpackPadding(value) {
    if (typeof(value) === "number")
      value = [value];
    if (value.length === 1) {
      return {top: value[0], right: value[0], bottom: value[0], left: value[0]};
    }
    if (value.length === 2) {
      return {top: value[0], right: value[1], bottom: value[0], left: value[1]};
    }
    if (value.length === 3) {
      return {top: value[0], right: value[1], bottom: value[2], left: value[1]};
    }
    if (value.length === 4) {
      return {top: value[0], right: value[1], bottom: value[2], left: value[3]};
    }
  }

  // Convert an unpacked padding object to a CSS value
  function paddingToCss(paddingObj) {
    return paddingObj.top + "px " + paddingObj.right + "px " + paddingObj.bottom + "px " + paddingObj.left + "px";
  }

  // Makes a number suitable for CSS
  function px(x) {
    if (typeof(x) === "number")
      return x + "px";
    else
      return x;
  }

  // Retrieves runtime widget sizing information for an element.
  // The return value is either null, or an object with fill, padding,
  // defaultWidth, defaultHeight fields.
  function sizingPolicy(el) {
    var sizingEl = document.querySelector("script[data-for='" + el.id + "'][type='application/htmlwidget-sizing']");
    if (!sizingEl)
      return null;
    var sp = JSON.parse(sizingEl.textContent || sizingEl.text || "{}");
    if (viewerMode) {
      return sp.viewer;
    } else {
      return sp.browser;
    }
  }

  // @param tasks Array of strings (or falsy value, in which case no-op).
  //   Each element must be a valid JavaScript expression that yields a
  //   function. Or, can be an array of objects with "code" and "data"
  //   properties; in this case, the "code" property should be a string
  //   of JS that's an expr that yields a function, and "data" should be
  //   an object that will be added as an additional argument when that
  //   function is called.
  // @param target The object that will be "this" for each function
  //   execution.
  // @param args Array of arguments to be passed to the functions. (The
  //   same arguments will be passed to all functions.)
  function evalAndRun(tasks, target, args) {
    if (tasks) {
      forEach(tasks, function(task) {
        var theseArgs = args;
        if (typeof(task) === "object") {
          theseArgs = theseArgs.concat([task.data]);
          task = task.code;
        }
        var taskFunc = eval("(" + task + ")");
        if (typeof(taskFunc) !== "function") {
          throw new Error("Task must be a function! Source:\n" + task);
        }
        taskFunc.apply(target, theseArgs);
      });
    }
  }

  function initSizing(el) {
    var sizing = sizingPolicy(el);
    if (!sizing)
      return;

    var cel = document.getElementById("htmlwidget_container");
    if (!cel)
      return;

    if (typeof(sizing.padding) !== "undefined") {
      document.body.style.margin = "0";
      document.body.style.padding = paddingToCss(unpackPadding(sizing.padding));
    }

    if (sizing.fill) {
      document.body.style.overflow = "hidden";
      document.body.style.width = "100%";
      document.body.style.height = "100%";
      document.documentElement.style.width = "100%";
      document.documentElement.style.height = "100%";
      if (cel) {
        cel.style.position = "absolute";
        var pad = unpackPadding(sizing.padding);
        cel.style.top = pad.top + "px";
        cel.style.right = pad.right + "px";
        cel.style.bottom = pad.bottom + "px";
        cel.style.left = pad.left + "px";
        el.style.width = "100%";
        el.style.height = "100%";
      }

      return {
        getWidth: function() { return cel.offsetWidth; },
        getHeight: function() { return cel.offsetHeight; }
      };

    } else {
      el.style.width = px(sizing.width);
      el.style.height = px(sizing.height);

      return {
        getWidth: function() { return el.offsetWidth; },
        getHeight: function() { return el.offsetHeight; }
      };
    }
  }

  // Default implementations for methods
  var defaults = {
    find: function(scope) {
      return querySelectorAll(scope, "." + this.name);
    },
    renderError: function(el, err) {
      var $el = $(el);

      this.clearError(el);

      // Add all these error classes, as Shiny does
      var errClass = "shiny-output-error";
      if (err.type !== null) {
        // use the classes of the error condition as CSS class names
        errClass = errClass + " " + $.map(asArray(err.type), function(type) {
          return errClass + "-" + type;
        }).join(" ");
      }
      errClass = errClass + " htmlwidgets-error";

      // Is el inline or block? If inline or inline-block, just display:none it
      // and add an inline error.
      var display = $el.css("display");
      $el.data("restore-display-mode", display);

      if (display === "inline" || display === "inline-block") {
        $el.hide();
        if (err.message !== "") {
          var errorSpan = $("<span>").addClass(errClass);
          errorSpan.text(err.message);
          $el.after(errorSpan);
        }
      } else if (display === "block") {
        // If block, add an error just after the el, set visibility:none on the
        // el, and position the error to be on top of the el.
        // Mark it with a unique ID and CSS class so we can remove it later.
        $el.css("visibility", "hidden");
        if (err.message !== "") {
          var errorDiv = $("<div>").addClass(errClass).css("position", "absolute")
            .css("top", el.offsetTop)
            .css("left", el.offsetLeft)
            // setting width can push out the page size, forcing otherwise
            // unnecessary scrollbars to appear and making it impossible for
            // the element to shrink; so use max-width instead
            .css("maxWidth", el.offsetWidth)
            .css("height", el.offsetHeight);
          errorDiv.text(err.message);
          $el.after(errorDiv);

          // Really dumb way to keep the size/position of the error in sync with
          // the parent element as the window is resized or whatever.
          var intId = setInterval(function() {
            if (!errorDiv[0].parentElement) {
              clearInterval(intId);
              return;
            }
            errorDiv
              .css("top", el.offsetTop)
              .css("left", el.offsetLeft)
              .css("maxWidth", el.offsetWidth)
              .css("height", el.offsetHeight);
          }, 500);
        }
      }
    },
    clearError: function(el) {
      var $el = $(el);
      var display = $el.data("restore-display-mode");
      $el.data("restore-display-mode", null);

      if (display === "inline" || display === "inline-block") {
        if (display)
          $el.css("display", display);
        $(el.nextSibling).filter(".htmlwidgets-error").remove();
      } else if (display === "block"){
        $el.css("visibility", "inherit");
        $(el.nextSibling).filter(".htmlwidgets-error").remove();
      }
    },
    sizing: {}
  };

  // Called by widget bindings to register a new type of widget. The definition
  // object can contain the following properties:
  // - name (required) - A string indicating the binding name, which will be
  //   used by default as the CSS classname to look for.
  // - initialize (optional) - A function(el) that will be called once per
  //   widget element; if a value is returned, it will be passed as the third
  //   value to renderValue.
  // - renderValue (required) - A function(el, data, initValue) that will be
  //   called with data. Static contexts will cause this to be called once per
  //   element; Shiny apps will cause this to be called multiple times per
  //   element, as the data changes.
  window.HTMLWidgets.widget = function(definition) {
    if (!definition.name) {
      throw new Error("Widget must have a name");
    }
    if (!definition.type) {
      throw new Error("Widget must have a type");
    }
    // Currently we only support output widgets
    if (definition.type !== "output") {
      throw new Error("Unrecognized widget type '" + definition.type + "'");
    }
    // TODO: Verify that .name is a valid CSS classname

    // Support new-style instance-bound definitions. Old-style class-bound
    // definitions have one widget "object" per widget per type/class of
    // widget; the renderValue and resize methods on such widget objects
    // take el and instance arguments, because the widget object can't
    // store them. New-style instance-bound definitions have one widget
    // object per widget instance; the definition that's passed in doesn't
    // provide renderValue or resize methods at all, just the single method
    //   factory(el, width, height)
    // which returns an object that has renderValue(x) and resize(w, h).
    // This enables a far more natural programming style for the widget
    // author, who can store per-instance state using either OO-style
    // instance fields or functional-style closure variables (I guess this
    // is in contrast to what can only be called C-style pseudo-OO which is
    // what we required before).
    if (definition.factory) {
      definition = createLegacyDefinitionAdapter(definition);
    }

    if (!definition.renderValue) {
      throw new Error("Widget must have a renderValue function");
    }

    // For static rendering (non-Shiny), use a simple widget registration
    // scheme. We also use this scheme for Shiny apps/documents that also
    // contain static widgets.
    window.HTMLWidgets.widgets = window.HTMLWidgets.widgets || [];
    // Merge defaults into the definition; don't mutate the original definition.
    var staticBinding = extend({}, defaults, definition);
    overrideMethod(staticBinding, "find", function(superfunc) {
      return function(scope) {
        var results = superfunc(scope);
        // Filter out Shiny outputs, we only want the static kind
        return filterByClass(results, "html-widget-output", false);
      };
    });
    window.HTMLWidgets.widgets.push(staticBinding);

    if (shinyMode) {
      // Shiny is running. Register the definition with an output binding.
      // The definition itself will not be the output binding, instead
      // we will make an output binding object that delegates to the
      // definition. This is because we foolishly used the same method
      // name (renderValue) for htmlwidgets definition and Shiny bindings
      // but they actually have quite different semantics (the Shiny
      // bindings receive data that includes lots of metadata that it
      // strips off before calling htmlwidgets renderValue). We can't
      // just ignore the difference because in some widgets it's helpful
      // to call this.renderValue() from inside of resize(), and if
      // we're not delegating, then that call will go to the Shiny
      // version instead of the htmlwidgets version.

      // Merge defaults with definition, without mutating either.
      var bindingDef = extend({}, defaults, definition);

      // This object will be our actual Shiny binding.
      var shinyBinding = new Shiny.OutputBinding();

      // With a few exceptions, we'll want to simply use the bindingDef's
      // version of methods if they are available, otherwise fall back to
      // Shiny's defaults. NOTE: If Shiny's output bindings gain additional
      // methods in the future, and we want them to be overrideable by
      // HTMLWidget binding definitions, then we'll need to add them to this
      // list.
      delegateMethod(shinyBinding, bindingDef, "getId");
      delegateMethod(shinyBinding, bindingDef, "onValueChange");
      delegateMethod(shinyBinding, bindingDef, "onValueError");
      delegateMethod(shinyBinding, bindingDef, "renderError");
      delegateMethod(shinyBinding, bindingDef, "clearError");
      delegateMethod(shinyBinding, bindingDef, "showProgress");

      // The find, renderValue, and resize are handled differently, because we
      // want to actually decorate the behavior of the bindingDef methods.

      shinyBinding.find = function(scope) {
        var results = bindingDef.find(scope);

        // Only return elements that are Shiny outputs, not static ones
        var dynamicResults = results.filter(".html-widget-output");

        // It's possible that whatever caused Shiny to think there might be
        // new dynamic outputs, also caused there to be new static outputs.
        // Since there might be lots of different htmlwidgets bindings, we
        // schedule execution for later--no need to staticRender multiple
        // times.
        if (results.length !== dynamicResults.length)
          scheduleStaticRender();

        return dynamicResults;
      };

      // Wrap renderValue to handle initialization, which unfortunately isn't
      // supported natively by Shiny at the time of this writing.

      shinyBinding.renderValue = function(el, data) {
        // Resolve strings marked as javascript literals to objects
        if (!(data.evals instanceof Array)) data.evals = [data.evals];
        for (var i = 0; data.evals && i < data.evals.length; i++) {
          window.HTMLWidgets.evaluateStringMember(data.x, data.evals[i]);
        }
        if (!bindingDef.renderOnNullValue) {
          if (data.x === null) {
            el.style.visibility = "hidden";
            return;
          } else {
            el.style.visibility = "inherit";
          }
        }
        if (!elementData(el, "initialized")) {
          initSizing(el);

          elementData(el, "initialized", true);
          if (bindingDef.initialize) {
            var result = bindingDef.initialize(el, el.offsetWidth,
              el.offsetHeight);
            elementData(el, "init_result", result);
          }
        }
        Shiny.renderDependencies(data.deps);
        bindingDef.renderValue(el, data.x, elementData(el, "init_result"));
        evalAndRun(data.jsHooks.render, elementData(el, "init_result"), [el, data.x]);
      };

      // Only override resize if bindingDef implements it
      if (bindingDef.resize) {
        shinyBinding.resize = function(el, width, height) {
          // Shiny can call resize before initialize/renderValue have been
          // called, which doesn't make sense for widgets.
          if (elementData(el, "initialized")) {
            bindingDef.resize(el, width, height, elementData(el, "init_result"));
          }
        };
      }

      Shiny.outputBindings.register(shinyBinding, bindingDef.name);
    }
  };

  var scheduleStaticRenderTimerId = null;
  function scheduleStaticRender() {
    if (!scheduleStaticRenderTimerId) {
      scheduleStaticRenderTimerId = setTimeout(function() {
        scheduleStaticRenderTimerId = null;
        window.HTMLWidgets.staticRender();
      }, 1);
    }
  }

  // Render static widgets after the document finishes loading
  // Statically render all elements that are of this widget's class
  window.HTMLWidgets.staticRender = function() {
    var bindings = window.HTMLWidgets.widgets || [];
    forEach(bindings, function(binding) {
      var matches = binding.find(document.documentElement);
      forEach(matches, function(el) {
        var sizeObj = initSizing(el, binding);

        if (hasClass(el, "html-widget-static-bound"))
          return;
        el.className = el.className + " html-widget-static-bound";

        var initResult;
        if (binding.initialize) {
          initResult = binding.initialize(el,
            sizeObj ? sizeObj.getWidth() : el.offsetWidth,
            sizeObj ? sizeObj.getHeight() : el.offsetHeight
          );
          elementData(el, "init_result", initResult);
        }

        if (binding.resize) {
          var lastSize = {};
          var resizeHandler = function(e) {
            var size = {
              w: sizeObj ? sizeObj.getWidth() : el.offsetWidth,
              h: sizeObj ? sizeObj.getHeight() : el.offsetHeight
            };
            if (size.w === 0 && size.h === 0)
              return;
            if (size.w === lastSize.w && size.h === lastSize.h)
              return;
            lastSize = size;
            binding.resize(el, size.w, size.h, initResult);
          };

          on(window, "resize", resizeHandler);

          // This is needed for cases where we're running in a Shiny
          // app, but the widget itself is not a Shiny output, but
          // rather a simple static widget. One example of this is
          // an rmarkdown document that has runtime:shiny and widget
          // that isn't in a render function. Shiny only knows to
          // call resize handlers for Shiny outputs, not for static
          // widgets, so we do it ourselves.
          if (window.jQuery) {
            window.jQuery(document).on(
              "shown.htmlwidgets shown.bs.tab.htmlwidgets shown.bs.collapse.htmlwidgets",
              resizeHandler
            );
            window.jQuery(document).on(
              "hidden.htmlwidgets hidden.bs.tab.htmlwidgets hidden.bs.collapse.htmlwidgets",
              resizeHandler
            );
          }

          // This is needed for the specific case of ioslides, which
          // flips slides between display:none and display:block.
          // Ideally we would not have to have ioslide-specific code
          // here, but rather have ioslides raise a generic event,
          // but the rmarkdown package just went to CRAN so the
          // window to getting that fixed may be long.
          if (window.addEventListener) {
            // It's OK to limit this to window.addEventListener
            // browsers because ioslides itself only supports
            // such browsers.
            on(document, "slideenter", resizeHandler);
            on(document, "slideleave", resizeHandler);
          }
        }

        var scriptData = document.querySelector("script[data-for='" + el.id + "'][type='application/json']");
        if (scriptData) {
          var data = JSON.parse(scriptData.textContent || scriptData.text);
          // Resolve strings marked as javascript literals to objects
          if (!(data.evals instanceof Array)) data.evals = [data.evals];
          for (var k = 0; data.evals && k < data.evals.length; k++) {
            window.HTMLWidgets.evaluateStringMember(data.x, data.evals[k]);
          }
          binding.renderValue(el, data.x, initResult);
          evalAndRun(data.jsHooks.render, initResult, [el, data.x]);
        }
      });
    });

    invokePostRenderHandlers();
  }

  // Wait until after the document has loaded to render the widgets.
  if (document.addEventListener) {
    document.addEventListener("DOMContentLoaded", function() {
      document.removeEventListener("DOMContentLoaded", arguments.callee, false);
      window.HTMLWidgets.staticRender();
    }, false);
  } else if (document.attachEvent) {
    document.attachEvent("onreadystatechange", function() {
      if (document.readyState === "complete") {
        document.detachEvent("onreadystatechange", arguments.callee);
        window.HTMLWidgets.staticRender();
      }
    });
  }


  window.HTMLWidgets.getAttachmentUrl = function(depname, key) {
    // If no key, default to the first item
    if (typeof(key) === "undefined")
      key = 1;

    var link = document.getElementById(depname + "-" + key + "-attachment");
    if (!link) {
      throw new Error("Attachment " + depname + "/" + key + " not found in document");
    }
    return link.getAttribute("href");
  };

  window.HTMLWidgets.dataframeToD3 = function(df) {
    var names = [];
    var length;
    for (var name in df) {
        if (df.hasOwnProperty(name))
            names.push(name);
        if (typeof(df[name]) !== "object" || typeof(df[name].length) === "undefined") {
            throw new Error("All fields must be arrays");
        } else if (typeof(length) !== "undefined" && length !== df[name].length) {
            throw new Error("All fields must be arrays of the same length");
        }
        length = df[name].length;
    }
    var results = [];
    var item;
    for (var row = 0; row < length; row++) {
        item = {};
        for (var col = 0; col < names.length; col++) {
            item[names[col]] = df[names[col]][row];
        }
        results.push(item);
    }
    return results;
  };

  window.HTMLWidgets.transposeArray2D = function(array) {
      if (array.length === 0) return array;
      var newArray = array[0].map(function(col, i) {
          return array.map(function(row) {
              return row[i]
          })
      });
      return newArray;
  };
  // Split value at splitChar, but allow splitChar to be escaped
  // using escapeChar. Any other characters escaped by escapeChar
  // will be included as usual (including escapeChar itself).
  function splitWithEscape(value, splitChar, escapeChar) {
    var results = [];
    var escapeMode = false;
    var currentResult = "";
    for (var pos = 0; pos < value.length; pos++) {
      if (!escapeMode) {
        if (value[pos] === splitChar) {
          results.push(currentResult);
          currentResult = "";
        } else if (value[pos] === escapeChar) {
          escapeMode = true;
        } else {
          currentResult += value[pos];
        }
      } else {
        currentResult += value[pos];
        escapeMode = false;
      }
    }
    if (currentResult !== "") {
      results.push(currentResult);
    }
    return results;
  }
  // Function authored by Yihui/JJ Allaire
  window.HTMLWidgets.evaluateStringMember = function(o, member) {
    var parts = splitWithEscape(member, '.', '\\');
    for (var i = 0, l = parts.length; i < l; i++) {
      var part = parts[i];
      // part may be a character or 'numeric' member name
      if (o !== null && typeof o === "object" && part in o) {
        if (i == (l - 1)) { // if we are at the end of the line then evalulate
          if (typeof o[part] === "string")
            o[part] = eval("(" + o[part] + ")");
        } else { // otherwise continue to next embedded object
          o = o[part];
        }
      }
    }
  };

  // Retrieve the HTMLWidget instance (i.e. the return value of an
  // HTMLWidget binding's initialize() or factory() function)
  // associated with an element, or null if none.
  window.HTMLWidgets.getInstance = function(el) {
    return elementData(el, "init_result");
  };

  // Finds the first element in the scope that matches the selector,
  // and returns the HTMLWidget instance (i.e. the return value of
  // an HTMLWidget binding's initialize() or factory() function)
  // associated with that element, if any. If no element matches the
  // selector, or the first matching element has no HTMLWidget
  // instance associated with it, then null is returned.
  //
  // The scope argument is optional, and defaults to window.document.
  window.HTMLWidgets.find = function(scope, selector) {
    if (arguments.length == 1) {
      selector = scope;
      scope = document;
    }

    var el = scope.querySelector(selector);
    if (el === null) {
      return null;
    } else {
      return window.HTMLWidgets.getInstance(el);
    }
  };

  // Finds all elements in the scope that match the selector, and
  // returns the HTMLWidget instances (i.e. the return values of
  // an HTMLWidget binding's initialize() or factory() function)
  // associated with the elements, in an array. If elements that
  // match the selector don't have an associated HTMLWidget
  // instance, the returned array will contain nulls.
  //
  // The scope argument is optional, and defaults to window.document.
  window.HTMLWidgets.findAll = function(scope, selector) {
    if (arguments.length == 1) {
      selector = scope;
      scope = document;
    }

    var nodes = scope.querySelectorAll(selector);
    var results = [];
    for (var i = 0; i < nodes.length; i++) {
      results.push(window.HTMLWidgets.getInstance(nodes[i]));
    }
    return results;
  };

  var postRenderHandlers = [];
  function invokePostRenderHandlers() {
    while (postRenderHandlers.length) {
      var handler = postRenderHandlers.shift();
      if (handler) {
        handler();
      }
    }
  }

  // Register the given callback function to be invoked after the
  // next time static widgets are rendered.
  window.HTMLWidgets.addPostRenderHandler = function(callback) {
    postRenderHandlers.push(callback);
  };

  // Takes a new-style instance-bound definition, and returns an
  // old-style class-bound definition. This saves us from having
  // to rewrite all the logic in this file to accomodate both
  // types of definitions.
  function createLegacyDefinitionAdapter(defn) {
    var result = {
      name: defn.name,
      type: defn.type,
      initialize: function(el, width, height) {
        return defn.factory(el, width, height);
      },
      renderValue: function(el, x, instance) {
        return instance.renderValue(x);
      },
      resize: function(el, width, height, instance) {
        return instance.resize(width, height);
      }
    };

    if (defn.find)
      result.find = defn.find;
    if (defn.renderError)
      result.renderError = defn.renderError;
    if (defn.clearError)
      result.clearError = defn.clearError;

    return result;
  }
})();

"></script>
+<script src="data:application/x-javascript;base64,(function() {

// some helper functions: using a global object DTWidget so that it can be used
// in JS() code, e.g. datatable(options = list(foo = JS('code'))); unlike R's
// dynamic scoping, when 'code' is eval()'ed, JavaScript does not know objects
// from the "parent frame", e.g. JS('DTWidget') will not work unless it was made
// a global object
var DTWidget = {};

DTWidget.formatCurrency = function(thiz, row, data, col, currency, digits, interval, mark, decMark, before) {
  var d = parseFloat(data[col]);
  if (isNaN(d)) return;
  // 123456666.7890 -> 123,456,666.7890
  var markInterval = function(x, interval, mark) {
    if (!/^-?[\d.]+$/.test(x)) return x;
    var xv = x.split('.');
    if (xv.length > 2) return x;  // should have at most one decimal point
    xv[0] = xv[0].replace(new RegExp('\\B(?=(\\d{' + interval + '})+(?!\\d))', 'g'), mark);
    return xv.join(decMark);
  };
  d = d.toFixed(digits);
  var res = markInterval(d, interval, mark);
  res = before ? (/^-/.test(res) ? '-' + currency + res.replace(/^-/, '') : currency + res) :
    res + currency;
  $(thiz.api().cell(row, col).node()).html(res);
};

DTWidget.formatString = function(thiz, row, data, col, prefix, suffix) {
  var d = data[col];
  if (d === null) return;
  $(thiz.api().cell(row, col).node()).html(prefix + d + suffix);
};

DTWidget.formatPercentage = function(thiz, row, data, col, digits) {
  var d = parseFloat(data[col]);
  if (isNaN(d)) return;
  $(thiz.api().cell(row, col).node()).html((d * 100).toFixed(digits) + '%');
};

DTWidget.formatRound = function(thiz, row, data, col, digits) {
  var d = parseFloat(data[col]);
  if (isNaN(d)) return;
  $(thiz.api().cell(row, col).node()).html(d.toFixed(digits));
};

DTWidget.formatSignif = function(thiz, row, data, col, digits) {
  var d = parseFloat(data[col]);
  if (isNaN(d)) return;
  $(thiz.api().cell(row, col).node()).html(d.toPrecision(digits));
};

DTWidget.formatDate = function(thiz, row, data, col, method) {
  var d = data[col];
  if (d === null) return;
  d = new Date(d);
  $(thiz.api().cell(row, col).node()).html(d[method]());
};

window.DTWidget = DTWidget;

var transposeArray2D = function(a) {
  return a.length === 0 ? a : HTMLWidgets.transposeArray2D(a);
};

HTMLWidgets.widget({
  name: "datatables",
  type: "output",
  initialize: function(el, width, height) {
    $(el).html('&nbsp;');
    return { data: null };
  },
  renderValue: function(el, data, instance) {
    if (el.offsetWidth === 0 || el.offsetHeight === 0) {
      instance.data = data;
      return;
    }
    instance.data = null;
    var $el = $(el);
    $el.empty();

    if (data === null) {
      return;
    }

    // If we are in a flexdashboard scroll layout then we:
    //  (a) Always want to use pagination (otherwise we'll have
    //      a "double scroll bar" effect on the phone); and
    //  (b) Never want to fill the container (we want the pagination
    //      level to determine the size of the container)
    if (window.FlexDashboard && !window.FlexDashboard.isFillPage()) {
      data.options.bPaginate = true;
      data.fillContainer = false;
    }

    // if we are in the viewer then we always want to fillContainer and
    // and autoHideNavigation (unless the user has explicitly set these)
    if (window.HTMLWidgets.viewerMode) {
      if (!data.hasOwnProperty("fillContainer"))
        data.fillContainer = true;
      if (!data.hasOwnProperty("autoHideNavigation"))
        data.autoHideNavigation = true;
    }

    // propagate fillContainer to instance (so we have it in resize)
    instance.fillContainer = data.fillContainer;

    var cells = data.data;

    if (cells instanceof Array) cells = transposeArray2D(cells);

    $el.append(data.container);
    var $table = $el.find('table');
    if (data.class) $table.addClass(data.class);
    if (data.caption) $table.prepend(data.caption);

    if (HTMLWidgets.shinyMode && data.selection.mode !== 'none' &&
        data.selection.target === 'row+column') {
      if ($table.children('tfoot').length === 0) {
        $table.append($('<tfoot>'));
        $table.find('thead tr').clone().appendTo($table.find('tfoot'));
      }
    }

    // column filters
    var filterRow;
    switch (data.filter) {
      case 'top':
        $table.children('thead').append(data.filterHTML);
        filterRow = $table.find('thead tr:last td');
        break;
      case 'bottom':
        if ($table.children('tfoot').length === 0) {
          $table.append($('<tfoot>'));
        }
        $table.children('tfoot').prepend(data.filterHTML);
        filterRow = $table.find('tfoot tr:first td');
        break;
    }

    var options = { searchDelay: 1000 };
    if (cells !== null) $.extend(options, {
      data: cells
    });

    // options for fillContainer
    var bootstrapActive = typeof($.fn.popover) != 'undefined';
    if (instance.fillContainer) {

      // force scrollX/scrollY and turn off autoWidth
      options.scrollX = true;
      options.scrollY = "100px"; // can be any value, we'll adjust below

      // if we aren't paginating then move around the info/filter controls
      // to save space at the bottom and rephrase the info callback
      if (data.options.bPaginate === false) {

        // we know how to do this cleanly for bootstrap, not so much
        // for other themes/layouts
        if (bootstrapActive) {
          options.dom = "<'row'<'col-sm-4'i><'col-sm-8'f>>" +
                        "<'row'<'col-sm-12'tr>>";
        }

        options.fnInfoCallback = function(oSettings, iStart, iEnd,
                                           iMax, iTotal, sPre) {
          return Number(iTotal).toLocaleString() + " records";
        };
      }
    }

    // auto hide navigation if requested
    if (data.autoHideNavigation === true) {
      if (bootstrapActive && data.options.bPaginate !== false) {
        // strip all nav if length >= cells
        if ((cells instanceof Array) && data.options.iDisplayLength >= cells.length)
          options.dom = "<'row'<'col-sm-12'tr>>";
        // alternatively lean things out for flexdashboard mobile portrait
        else if (window.FlexDashboard && window.FlexDashboard.isMobilePhone())
          options.dom = "<'row'<'col-sm-12'f>>" +
                        "<'row'<'col-sm-12'tr>>"  +
                        "<'row'<'col-sm-12'p>>";
      }
    }

    $.extend(true, options, data.options || {});

    var searchCols = options.searchCols;
    if (searchCols) {
      searchCols = searchCols.map(function(x) {
        return x === null ? '' : x.search;
      });
      // FIXME: this means I don't respect the escapeRegex setting
      delete options.searchCols;
    }

    // server-side processing?
    var server = options.serverSide === true;

    // use the dataSrc function to pre-process JSON data returned from R
    var DT_rows_all = [], DT_rows_current = [];
    if (server && HTMLWidgets.shinyMode && typeof options.ajax === 'object' &&
        /^session\/[\da-z]+\/dataobj/.test(options.ajax.url) && !options.ajax.dataSrc) {
      options.ajax.dataSrc = function(json) {
        DT_rows_all = $.makeArray(json.DT_rows_all);
        DT_rows_current = $.makeArray(json.DT_rows_current);
        return json.data;
      };
    }

    var table = $table.DataTable(options);
    $el.data('datatable', table);

    var inArray = function(val, array) {
      return $.inArray(val, $.makeArray(array)) > -1;
    };

    // encode + to %2B when searching in the table on server side, because
    // shiny::parseQueryString() treats + as spaces, and DataTables does not
    // encode + to %2B (or % to %25) when sending the request
    var encode_plus = function(x) {
      return server ? x.replace(/%/g, '%25').replace(/\+/g, '%2B') : x;
    };

    if (data.filter !== 'none') {

      filterRow.each(function(i, td) {

        var $td = $(td), type = $td.data('type'), filter;
        var $input = $td.children('div').first().children('input');
        $input.prop('disabled', !table.settings()[0].aoColumns[i].bSearchable || type === 'disabled');
        $input.on('input blur', function() {
          $input.next('span').toggle(Boolean($input.val()));
        });
        // Bootstrap sets pointer-events to none and we won't be able to click
        // the clear button
        $input.next('span').css('pointer-events', 'auto').hide().click(function() {
          $(this).hide().prev('input').val('').trigger('input').focus();
        });
        var searchCol;  // search string for this column
        if (searchCols && searchCols[i]) {
          searchCol = searchCols[i];
          $input.val(searchCol).trigger('input');
        }
        var $x = $td.children('div').last();

        // remove the overflow: hidden attribute of the scrollHead
        // (otherwise the scrolling table body obscures the filters)
        var scrollHead = $(el).find('.dataTables_scrollHead,.dataTables_scrollFoot');
        var cssOverflow = scrollHead.css('overflow');
        if (cssOverflow === 'hidden') {
          $x.on('show hide', function(e) {
            scrollHead.css('overflow', e.type === 'show' ? '' : cssOverflow);
          });
          $x.css('z-index', 25);
        }

        if (inArray(type, ['factor', 'logical'])) {
          $input.on({
            click: function() {
              $input.parent().hide(); $x.show().trigger('show'); filter[0].selectize.focus();
            },
            input: function() {
              if ($input.val() === '') filter[0].selectize.setValue([]);
            }
          });
          var $input2 = $x.children('select');
          filter = $input2.selectize({
            options: $input2.data('options').map(function(v, i) {
              return ({text: v, value: v});
            }),
            plugins: ['remove_button'],
            hideSelected: true,
            onChange: function(value) {
              if (value === null) value = []; // compatibility with jQuery 3.0
              $input.val(value.length ? JSON.stringify(value) : '');
              if (value.length) $input.trigger('input');
              $input.attr('title', $input.val());
              if (server) {
                table.column(i).search(value.length ? encode_plus(JSON.stringify(value)) : '').draw();
                return;
              }
              // turn off filter if nothing selected
              $td.data('filter', value.length > 0);
              table.draw();  // redraw table, and filters will be applied
            }
          });
          if (searchCol) filter[0].selectize.setValue(JSON.parse(searchCol));
          // an ugly hack to deal with shiny: for some reason, the onBlur event
          // of selectize does not work in shiny
          $x.find('div > div.selectize-input > input').on('blur', function() {
            $x.hide().trigger('hide'); $input.parent().show(); $input.trigger('blur');
          });
          filter.next('div').css('margin-bottom', 'auto');
        } else if (type === 'character') {
          var fun = function() {
            var regex = false, ci = true;
            if (options.search) {
              regex = options.search.regex,
              ci = options.search.caseInsensitive !== false;
            }
            table.column(i).search(encode_plus($input.val()), regex, !regex, ci).draw();
          };
          if (server) {
            fun = $.fn.dataTable.util.throttle(fun, options.searchDelay);
          }
          $input.on('input', fun);
        } else if (inArray(type, ['number', 'integer', 'date', 'time'])) {
          var $x0 = $x;
          $x = $x0.children('div').first();
          $x0.css({
            'background-color': '#fff',
            'border': '1px #ddd solid',
            'border-radius': '4px',
            'padding': '20px 20px 10px 20px'
          });
          var $spans = $x0.children('span').css({
            'margin-top': '10px',
            'white-space': 'nowrap'
          });
          var $span1 = $spans.first(), $span2 = $spans.last();
          var r1 = +$x.data('min'), r2 = +$x.data('max');
          // when the numbers are too small or have many decimal places, the
          // slider may have numeric precision problems (#150)
          var scale = Math.pow(10, Math.max(0, +$x.data('scale') || 0));
          r1 = Math.round(r1 * scale); r2 = Math.round(r2 * scale);
          var scaleBack = function(x, scale) {
            if (scale === 1) return x;
            var d = Math.round(Math.log(scale) / Math.log(10));
            // to avoid problems like 3.423/100 -> 0.034230000000000003
            return (x / scale).toFixed(d);
          };
          $input.on({
            focus: function() {
              $x0.show().trigger('show');
              // first, make sure the slider div leaves at least 20px between
              // the two (slider value) span's
              $x0.width(Math.max(160, $span1.outerWidth() + $span2.outerWidth() + 20));
              // then, if the input is really wide, make the slider the same
              // width as the input
              if ($x0.outerWidth() < $input.outerWidth()) {
                $x0.outerWidth($input.outerWidth());
              }
              // make sure the slider div does not reach beyond the right margin
              if ($(window).width() < $x0.offset().left + $x0.width()) {
                $x0.offset({
                  'left': $input.offset().left + $input.outerWidth() - $x0.outerWidth()
                });
              }
            },
            blur: function() {
              $x0.hide().trigger('hide');
            },
            input: function() {
              if ($input.val() === '') filter.val([r1, r2]);
            },
            change: function() {
              var v = $input.val().replace(/\s/g, '');
              if (v === '') return;
              v = v.split('...');
              if (v.length !== 2) {
                $input.parent().addClass('has-error');
                return;
              }
              if (v[0] === '') v[0] = r1;
              if (v[1] === '') v[1] = r2;
              $input.parent().removeClass('has-error');
              // treat date as UTC time at midnight
              var strTime = function(x) {
                var s = type === 'date' ? 'T00:00:00Z' : '';
                var t = new Date(x + s).getTime();
                // add 10 minutes to date since it does not hurt the date, and
                // it helps avoid the tricky floating point arithmetic problems,
                // e.g. sometimes the date may be a few milliseconds earlier
                // than the midnight due to precision problems in noUiSlider
                return type === 'date' ? t + 3600000 : t;
              };
              if (inArray(type, ['date', 'time'])) {
                v[0] = strTime(v[0]);
                v[1] = strTime(v[1]);
              }
              if (v[0] != r1) v[0] *= scale;
              if (v[1] != r2) v[1] *= scale;
              filter.val(v);
            }
          });
          var formatDate = function(d) {
            d = scaleBack(d, scale);
            if (type === 'number') return d;
            if (type === 'integer') return parseInt(d);
            var x = new Date(+d);
            if (type === 'date') {
              var pad0 = function(x) {
                return ('0' + x).substr(-2, 2);
              };
              return x.getUTCFullYear() + '-' + pad0(1 + x.getUTCMonth())
                      + '-' + pad0(x.getUTCDate());
            } else {
              return x.toISOString();
            }
          };
          var opts = type === 'date' ? { step: 60 * 60 * 1000 } :
                     type === 'integer' ? { step: 1 } : {};
          filter = $x.noUiSlider($.extend({
            start: [r1, r2],
            range: {min: r1, max: r2},
            connect: true
          }, opts));
          if (scale > 1) (function() {
            var t1 = r1, t2 = r2;
            var val = filter.val();
            while (val[0] > r1 || val[1] < r2) {
              if (val[0] > r1) {
                t1 -= val[0] - r1;
              }
              if (val[1] < r2) {
                t2 += r2 - val[1];
              }
              filter = $x.noUiSlider($.extend({
                start: [t1, t2],
                range: {min: t1, max: t2},
                connect: true
              }, opts), true);
              val = filter.val();
            }
            r1  = t1; r2 = t2;
          })();
          $span1.text(formatDate(r1)); $span2.text(formatDate(r2));
          var updateSlider = function(e) {
            var val = filter.val();
            // turn off filter if in full range
            $td.data('filter', val[0] > r1 || val[1] < r2);
            var v1 = formatDate(val[0]), v2 = formatDate(val[1]), ival;
            if ($td.data('filter')) {
              ival = v1 + ' ... ' + v2;
              $input.attr('title', ival).val(ival).trigger('input');
            } else {
              $input.attr('title', '').val('');
            }
            $span1.text(v1); $span2.text(v2);
            if (e.type === 'slide') return;  // no searching when sliding only
            if (server) {
              table.column(i).search($td.data('filter') ? ival : '').draw();
              return;
            }
            table.draw();
          };
          filter.on({
            set: updateSlider,
            slide: updateSlider
          });
        }

        // server-side processing will be handled by R (or whatever server
        // language you use); the following code is only needed for client-side
        // processing
        if (server) {
          // if a search string has been pre-set, search now
          if (searchCol) table.column(i).search(encode_plus(searchCol)).draw();
          return;
        }

        var customFilter = function(settings, data, dataIndex) {
          // there is no way to attach a search function to a specific table,
          // and we need to make sure a global search function is not applied to
          // all tables (i.e. a range filter in a previous table should not be
          // applied to the current table); we use the settings object to
          // determine if we want to perform searching on the current table,
          // since settings.sTableId will be different to different tables
          if (table.settings()[0] !== settings) return true;
          // no filter on this column or no need to filter this column
          if (typeof filter === 'undefined' || !$td.data('filter')) return true;

          var r = filter.val(), v, r0, r1;
          if (type === 'number' || type === 'integer') {
            v = parseFloat(data[i]);
            // how to handle NaN? currently exclude these rows
            if (isNaN(v)) return(false);
            r0 = parseFloat(scaleBack(r[0], scale))
            r1 = parseFloat(scaleBack(r[1], scale));
            if (v >= r0 && v <= r1) return true;
          } else if (type === 'date' || type === 'time') {
            v = new Date(data[i]);
            r0 = new Date(r[0] / scale); r1 = new Date(r[1] / scale);
            if (v >= r0 && v <= r1) return true;
          } else if (type === 'factor') {
            if (r.length === 0 || inArray(data[i], r)) return true;
          } else if (type === 'logical') {
            if (r.length === 0) return true;
            if (inArray(data[i] === '' ? 'na' : data[i], r)) return true;
          }
          return false;
        };

        $.fn.dataTable.ext.search.push(customFilter);

        // search for the preset search strings if it is non-empty
        if (searchCol) {
          if (inArray(type, ['factor', 'logical'])) {
            filter[0].selectize.setValue(JSON.parse(searchCol));
          } else if (type === 'character') {
            $input.trigger('input');
          } else if (inArray(type, ['number', 'integer', 'date', 'time'])) {
            $input.trigger('change');
          }
        }

      });

    }

    // highlight search keywords
    var highlight = function() {
      var body = $(table.table().body());
      // removing the old highlighting first
      body.unhighlight();

      // don't highlight the "not found" row, so we get the rows using the api
      if (table.rows({ filter: 'applied' }).data().length === 0) return;
      // highlight gloal search keywords
      body.highlight($.trim(table.search()).split(/\s+/));
      // then highlight keywords from individual column filters
      if (filterRow) filterRow.each(function(i, td) {
        var $td = $(td), type = $td.data('type');
        if (type !== 'character') return;
        var $input = $td.children('div').first().children('input');
        var column = table.column(i).nodes().to$(),
            val = $.trim($input.val());
        if (type !== 'character' || val === '') return;
        column.highlight(val.split(/\s+/));
      });
    };

    if (options.searchHighlight) {
      table
      .on('draw.dt.dth column-visibility.dt.dth column-reorder.dt.dth', highlight)
      .on('destroy', function() {
        // remove event handler
        table.off( 'draw.dt.dth column-visibility.dt.dth column-reorder.dt.dth' );
      });

      // initial highlight for state saved conditions and initial states
      highlight();
    }

    // run the callback function on the table instance
    if (typeof data.callback === 'function') data.callback(table);
    this.adjustWidth(el);

     // fillContainer = TRUE behavior
    if (instance.fillContainer) {

      // we need to wait just a bit to do this so DT can completely
      // finish laying itself out
      var thiz = this;
      setTimeout(function() {

        // calculate correct height
        thiz.fillAvailableHeight(el, $(el).innerHeight());

        // we need to force DT to recalculate column widths
        // (otherwise all the columns are the same size)
        table.columns.adjust();
      }, 200);
    }

    // interaction with shiny
    if (!HTMLWidgets.shinyMode) return;

    var methods = {};
    var shinyData = {};

    methods.updateCaption = function(caption) {
      if (!caption) return;
      $table.children('caption').replaceWith(caption);
    }

    var changeInput = function(id, data, type) {
      id = el.id + '_' + id;
      if (type) id = id + ':' + type;
      // do not update if the new data is the same as old data
      if (shinyData.hasOwnProperty(id) && shinyData[id] === JSON.stringify(data))
        return;
      shinyData[id] = JSON.stringify(data);
      Shiny.onInputChange(id, data);
    };

    var addOne = function(x) {
      return x.map(function(i) { return 1 + i; });
    };

    var unique = function(x) {
      var ux = [];
      $.each(x, function(i, el){
        if ($.inArray(el, ux) === -1) ux.push(el);
      });
      return ux;
    }

    // change the row index of a cell
    var tweakCellIndex = function(cell) {
      var info = cell.index();
      if (server) {
        info.row = DT_rows_current[info.row];
      } else {
        info.row += 1;
      }
      return {row: info.row, col: info.column};
    }

    var selMode = data.selection.mode, selTarget = data.selection.target;
    if (inArray(selMode, ['single', 'multiple'])) {
      var selClass = data.style === 'bootstrap' ? 'active' : 'selected';
      var selected = data.selection.selected, selected1, selected2;
      if (selected === null) {
        selected1 = selected2 = [];
      } else if (selTarget === 'row') {
        selected1 = $.makeArray(selected);
      } else if (selTarget === 'column') {
        selected2 = $.makeArray(selected);
      } else if (selTarget === 'row+column') {
        selected1 = $.makeArray(selected.rows);
        selected2 = $.makeArray(selected.cols);
      }
      // row, column, or cell selection
      if (inArray(selTarget, ['row', 'row+column'])) {
        var selectedRows = function() {
          var rows = table.rows('.' + selClass, {search: 'applied'});
          var idx = rows.indexes().toArray();
          if (!server) return addOne(idx);
          idx = idx.map(function(i) {
            return DT_rows_current[i];
          });
          selected1 = selMode === 'multiple' ? unique(selected1.concat(idx)) : idx;
          return selected1;
        }
        table.on('click.dt', 'tbody tr', function() {
          var $this = $(this), thisRow = table.row(this);
          if (selMode === 'multiple') {
            $this.toggleClass(selClass);
          } else {
            if ($this.hasClass(selClass)) {
              $this.removeClass(selClass);
            } else {
              table.$('tr.' + selClass).removeClass(selClass);
              $this.addClass(selClass);
            }
          }
          if (server && !$this.hasClass(selClass)) {
            var id = DT_rows_current[thisRow.index()];
            // remove id from selected1 since its class .selected has been removed
            selected1.splice($.inArray(id, selected1), 1);
          }
          changeInput('rows_selected', selectedRows());
          changeInput('row_last_clicked', server ?
                      DT_rows_current[thisRow.index()] : thisRow.index() + 1);
        });
        changeInput('rows_selected', selected1);
        var selectRows = function() {
          table.$('tr.' + selClass).removeClass(selClass);
          if (selected1.length === 0) return;
          if (server) {
            table.rows({page: 'current'}).every(function() {
              if (inArray(DT_rows_current[this.index()], selected1)) {
                $(this.node()).addClass(selClass);
              }
            });
          } else {
            var selected0 = selected1.map(function(i) { return i - 1; });
            $(table.rows(selected0).nodes()).addClass(selClass);
          }
        }
        selectRows();  // in case users have specified pre-selected rows
        // restore selected rows after the table is redrawn (e.g. sort/search/page);
        // client-side tables will preserve the selections automatically; for
        // server-side tables, we have to *real* row indices are in `selected1`
        if (server) table.on('draw.dt', selectRows);
        methods.selectRows = function(selected) {
          selected1 = selected ? selected : [];
          selectRows();
          changeInput('rows_selected', selected1);
        }
      }

      if (inArray(selTarget, ['column', 'row+column'])) {
        if (selTarget === 'row+column') {
          $(table.columns().footer()).css('cursor', 'pointer');
        }
        table.on('click.dt', selTarget === 'column' ? 'tbody td' : 'tfoot tr th', function() {
          var colIdx = selTarget === 'column' ? table.cell(this).index().column :
              $.inArray(this, table.columns().footer()),
              thisCol = $(table.column(colIdx).nodes());
          if (colIdx === -1) return;
          if (thisCol.hasClass(selClass)) {
            thisCol.removeClass(selClass);
            selected2.splice($.inArray(colIdx, selected2), 1);
          } else {
            if (selMode === 'single') $(table.cells().nodes()).removeClass(selClass);
            thisCol.addClass(selClass);
            selected2 = selMode === 'single' ? [colIdx] : unique(selected2.concat([colIdx]));
          }
          changeInput('columns_selected', selected2);
        });
        changeInput('columns_selected', selected2);
        var selectCols = function() {
          table.columns().nodes().flatten().to$().removeClass(selClass);
          if (selected2.length > 0)
            table.columns(selected2).nodes().flatten().to$().addClass(selClass);
        }
        selectCols();  // in case users have specified pre-selected columns
        if (server) table.on('draw.dt', selectCols);
        methods.selectColumns = function(selected) {
          selected2 = selected ? selected : [];
          selectCols();
          changeInput('columns_selected', selected2);
        }
      }

      if (selTarget === 'cell') {
        var selected3;
        if (selected === null) {
          selected3 = [];
        } else {
          selected3 = selected;
        }
        var findIndex = function(ij) {
          for (var i = 0; i < selected3.length; i++) {
            if (ij[0] === selected3[i][0] && ij[1] === selected3[i][1]) return i;
          }
          return -1;
        }
        table.on('click.dt', 'tbody td', function() {
          var $this = $(this), info = tweakCellIndex(table.cell(this));
          if ($this.hasClass(selClass)) {
            $this.removeClass(selClass);
            selected3.splice(findIndex([info.row, info.col]), 1);
          } else {
            if (selMode === 'single') $(table.cells().nodes()).removeClass(selClass);
            $this.addClass(selClass);
            selected3 = selMode === 'single' ? [[info.row, info.col]] :
              unique(selected3.concat([[info.row, info.col]]));
          }
          changeInput('cells_selected', transposeArray2D(selected3), 'shiny.matrix');
        });
        changeInput('cells_selected', transposeArray2D(selected3), 'shiny.matrix');
        var selectCells = function() {
          table.$('td.' + selClass).removeClass(selClass);
          if (selected3.length === 0) return;
          if (server) {
            table.cells({page: 'current'}).every(function() {
              var info = tweakCellIndex(this);
              if (findIndex([info.row, info.col], selected3) > -1)
                $(this.node()).addClass(selClass);
            });
          } else {
            selected3.map(function(ij) {
              $(table.cell(ij[0] - 1, ij[1]).node()).addClass(selClass);
            });
          }
        };
        selectCells();  // in case users have specified pre-selected columns
        if (server) table.on('draw.dt', selectCells);
        methods.selectCells = function(selected) {
          selected3 = selected ? selected : [];
          selectCells();
          changeInput('cells_selected', transposeArray2D(selected3), 'shiny.matrix');
        }
      }
    }

    // expose some table info to Shiny
    var updateTableInfo = function(e, settings) {
      // TODO: is anyone interested in the page info?
      // changeInput('page_info', table.page.info());
      var updateRowInfo = function(id, modifier) {
        var idx;
        if (server) {
          idx = modifier.page === 'current' ? DT_rows_current : DT_rows_all;
        } else {
          var rows = table.rows($.extend({
            search: 'applied',
            page: 'all'
          }, modifier));
          idx = addOne(rows.indexes().toArray());
        }
        changeInput('rows' + '_' + id, idx);
      };
      updateRowInfo('current', {page: 'current'});
      updateRowInfo('all', {});
    }
    table.on('draw.dt', updateTableInfo);
    updateTableInfo();

    // state info
    table.on('draw.dt column-visibility.dt', function() {
      changeInput('state', table.state());
    });
    changeInput('state', table.state());

    // search info
    var updateSearchInfo = function() {
      changeInput('search', table.search());
      if (filterRow) changeInput('search_columns', filterRow.toArray().map(function(td) {
        return $(td).find('input').first().val();
      }));
    }
    table.on('draw.dt', updateSearchInfo);
    updateSearchInfo();

    // the current cell clicked on
    table.on('click.dt', 'tbody td', function() {
      var info = tweakCellIndex(table.cell(this));
      info.value = table.cell(this).data();
      changeInput('cell_clicked', info);
    })
    changeInput('cell_clicked', {});

    // do not trigger table selection when clicking on links unless they have classes
    table.on('click.dt', 'tbody td a', function(e) {
      if (this.className === '') e.stopPropagation();
    });

    methods.addRow = function(data, rowname) {
      var data0 = table.row(0).data(), n = data0.length, d = n - data.length;
      if (d === 1) {
        data = rowname.concat(data)
      } else if (d !== 0) {
        console.log(data);
        console.log(data0);
        throw 'New data must be of the same length as current data (' + n + ')';
      };
      table.row.add(data).draw();
    }

    methods.updateSearch = function(keywords) {
      if (keywords.global !== null)
        $(table.table().container()).find('input[type=search]').first()
             .val(keywords.global).trigger('input');
      var columns = keywords.columns;
      if (!filterRow || columns === null) return;
      filterRow.toArray().map(function(td, i) {
        var v = typeof columns === 'string' ? columns : columns[i];
        if (typeof v === 'undefined') {
          console.log('The search keyword for column ' + i + ' is undefined')
          return;
        }
        $(td).find('input').first().val(v);
        table.column(i).search(v);
      });
      table.draw();
    }

    methods.selectPage = function(page) {
      if (table.page.info().pages < page || page < 1) {
        throw 'Selected page is out of range';
      };
      table.page(page - 1).draw(false);
    }

    methods.reloadData = function(resetPaging, clearSelection) {
      // empty selections first if necessary
      if (methods.selectRows && inArray('row', clearSelection)) methods.selectRows([]);
      if (methods.selectColumns && inArray('column', clearSelection)) methods.selectColumns([]);
      if (methods.selectCells && inArray('cell', clearSelection)) methods.selectCells([]);
      table.ajax.reload(null, resetPaging);
    }

    table.shinyMethods = methods;
  },
  resize: function(el, width, height, instance) {
    if (instance.data) this.renderValue(el, instance.data, instance);

    // dynamically adjust height if fillContainer = TRUE
    if (instance.fillContainer)
      this.fillAvailableHeight(el, height);

    this.adjustWidth(el);
  },

  // dynamically set the scroll body to fill available height
  // (used with fillContainer = TRUE)
  fillAvailableHeight: function(el, availableHeight) {

    // see how much of the table is occupied by header/footer elements
    // and use that to compute a target scroll body height
    var dtWrapper = $(el).find('div.dataTables_wrapper');
    var dtScrollBody = $(el).find($('div.dataTables_scrollBody'));
    var framingHeight = dtWrapper.innerHeight() - dtScrollBody.innerHeight();
    var scrollBodyHeight = availableHeight - framingHeight;

    // set the height
    dtScrollBody.height(scrollBodyHeight + 'px');
  },

  // adjust the width of columns; remove the hard-coded widths on table and the
  // scroll header when scrollX/Y are enabled
  adjustWidth: function(el) {
    var $el = $(el), table = $el.data('datatable');
    if (table) table.columns.adjust();
    $el.find('.dataTables_scrollHeadInner').css('width', '')
        .children('table').css('margin-left', '');
  }
});

  if (!HTMLWidgets.shinyMode) return;

  Shiny.addCustomMessageHandler('datatable-calls', function(data) {
    var id = data.id;
    var el = document.getElementById(id);
    var table = el ? $(el).data('datatable') : null;
    if (!table) {
      console.log("Couldn't find table with id " + id);
      return;
    }

    var methods = table.shinyMethods, call = data.call;
    if (methods[call.method]) {
      methods[call.method].apply(table, call.args);
    } else {
      console.log("Unknown method " + call.method);
    }
  });

})();
"></script>
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b,c,d){return this.iterator("column",function(e,f){var g=e.aoPreSearchCols;if(a===k)return g[f].sSearch;e.oFeatures.bFilter&&(h.extend(g[f],{sSearch:a+"",bRegex:null===b?!1:b,bSmart:null===c?!0:c,bCaseInsensitive:null===d?!0:d}),fa(e,e.oPreviousSearch,1))})});p("state()",function(){return this.context.length?this.context[0].oSavedState:null});p("state.clear()",function(){return this.iterator("table",function(a){a.fnStateSaveCallback.call(a.oInstance,a,{})})});p("state.loaded()",function(){return this.context.length?
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d=b.oClasses,e=b.nTable,f=b.nTBody,g=b.nTHead,j=b.nTFoot,i=h(e),f=h(f),k=h(b.nTableWrapper),l=h.map(b.aoData,function(a){return a.nTr}),p;b.bDestroying=!0;u(b,"aoDestroyCallback","destroy",[b]);a||(new r(b)).columns().visible(!0);k.unbind(".DT").find(":not(tbody *)").unbind(".DT");h(D).unbind(".DT-"+b.sInstance);e!=g.parentNode&&(i.children("thead").detach(),i.append(g));j&&e!=j.parentNode&&(i.children("tfoot").detach(),i.append(j));b.aaSorting=[];b.aaSortingFixed=[];va(b);h(l).removeClass(b.asStripeClasses.join(" "));
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sSearch:"",bRegex:!1,bSmart:!0};m.models.oRow={nTr:null,anCells:null,_aData:[],_aSortData:null,_aFilterData:null,_sFilterRow:null,_sRowStripe:"",src:null,idx:-1};m.models.oColumn={idx:null,aDataSort:null,asSorting:null,bSearchable:null,bSortable:null,bVisible:null,_sManualType:null,_bAttrSrc:!1,fnCreatedCell:null,fnGetData:null,fnSetData:null,mData:null,mRender:null,nTh:null,nTf:null,sClass:null,sContentPadding:null,sDefaultContent:null,sName:null,sSortDataType:"std",sSortingClass:null,sSortingClassJUI:null,
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bSort:null,bSortMulti:null,bSortClasses:null,bStateSave:null},oScroll:{bCollapse:null,iBarWidth:0,sX:null,sXInner:null,sY:null},oLanguage:{fnInfoCallback:null},oBrowser:{bScrollOversize:!1,bScrollbarLeft:!1,bBounding:!1,barWidth:0},ajax:null,aanFeatures:[],aoData:[],aiDisplay:[],aiDisplayMaster:[],aIds:{},aoColumns:[],aoHeader:[],aoFooter:[],oPreviousSearch:{},aoPreSearchCols:[],aaSorting:null,aaSortingFixed:[],asStripeClasses:null,asDestroyStripes:[],sDestroyWidth:0,aoRowCallback:[],aoHeaderCallback:[],
aoFooterCallback:[],aoDrawCallback:[],aoRowCreatedCallback:[],aoPreDrawCallback:[],aoInitComplete:[],aoStateSaveParams:[],aoStateLoadParams:[],aoStateLoaded:[],sTableId:"",nTable:null,nTHead:null,nTFoot:null,nTBody:null,nTableWrapper:null,bDeferLoading:!1,bInitialised:!1,aoOpenRows:[],sDom:null,searchDelay:null,sPaginationType:"two_button",iStateDuration:0,aoStateSave:[],aoStateLoad:[],oSavedState:null,oLoadedState:null,sAjaxSource:null,sAjaxDataProp:null,bAjaxDataGet:!0,jqXHR:null,json:k,oAjaxData:k,
fnServerData:null,aoServerParams:[],sServerMethod:null,fnFormatNumber:null,aLengthMenu:null,iDraw:0,bDrawing:!1,iDrawError:-1,_iDisplayLength:10,_iDisplayStart:0,_iRecordsTotal:0,_iRecordsDisplay:0,bJUI:null,oClasses:{},bFiltered:!1,bSorted:!1,bSortCellsTop:null,oInit:null,aoDestroyCallback:[],fnRecordsTotal:function(){return"ssp"==y(this)?1*this._iRecordsTotal:this.aiDisplayMaster.length},fnRecordsDisplay:function(){return"ssp"==y(this)?1*this._iRecordsDisplay:this.aiDisplay.length},fnDisplayEnd:function(){var a=
this._iDisplayLength,b=this._iDisplayStart,c=b+a,d=this.aiDisplay.length,e=this.oFeatures,f=e.bPaginate;return e.bServerSide?!1===f||-1===a?b+d:Math.min(b+a,this._iRecordsDisplay):!f||c>d||-1===a?d:c},oInstance:null,sInstance:null,iTabIndex:0,nScrollHead:null,nScrollFoot:null,aLastSort:[],oPlugins:{},rowIdFn:null,rowId:null};m.ext=v={buttons:{},classes:{},builder:"-source-",errMode:"alert",feature:[],search:[],selector:{cell:[],column:[],row:[]},internal:{},legacy:{ajax:null},pager:{},renderer:{pageButton:{},
header:{}},order:{},type:{detect:[],search:{},order:{}},_unique:0,fnVersionCheck:m.fnVersionCheck,iApiIndex:0,oJUIClasses:{},sVersion:m.version};h.extend(v,{afnFiltering:v.search,aTypes:v.type.detect,ofnSearch:v.type.search,oSort:v.type.order,afnSortData:v.order,aoFeatures:v.feature,oApi:v.internal,oStdClasses:v.classes,oPagination:v.pager});h.extend(m.ext.classes,{sTable:"dataTable",sNoFooter:"no-footer",sPageButton:"paginate_button",sPageButtonActive:"current",sPageButtonDisabled:"disabled",sStripeOdd:"odd",
sStripeEven:"even",sRowEmpty:"dataTables_empty",sWrapper:"dataTables_wrapper",sFilter:"dataTables_filter",sInfo:"dataTables_info",sPaging:"dataTables_paginate paging_",sLength:"dataTables_length",sProcessing:"dataTables_processing",sSortAsc:"sorting_asc",sSortDesc:"sorting_desc",sSortable:"sorting",sSortableAsc:"sorting_asc_disabled",sSortableDesc:"sorting_desc_disabled",sSortableNone:"sorting_disabled",sSortColumn:"sorting_",sFilterInput:"",sLengthSelect:"",sScrollWrapper:"dataTables_scroll",sScrollHead:"dataTables_scrollHead",
sScrollHeadInner:"dataTables_scrollHeadInner",sScrollBody:"dataTables_scrollBody",sScrollFoot:"dataTables_scrollFoot",sScrollFootInner:"dataTables_scrollFootInner",sHeaderTH:"",sFooterTH:"",sSortJUIAsc:"",sSortJUIDesc:"",sSortJUI:"",sSortJUIAscAllowed:"",sSortJUIDescAllowed:"",sSortJUIWrapper:"",sSortIcon:"",sJUIHeader:"",sJUIFooter:""});var Ca="",Ca="",H=Ca+"ui-state-default",ia=Ca+"css_right ui-icon ui-icon-",Xb=Ca+"fg-toolbar ui-toolbar ui-widget-header ui-helper-clearfix";h.extend(m.ext.oJUIClasses,
m.ext.classes,{sPageButton:"fg-button ui-button "+H,sPageButtonActive:"ui-state-disabled",sPageButtonDisabled:"ui-state-disabled",sPaging:"dataTables_paginate fg-buttonset ui-buttonset fg-buttonset-multi ui-buttonset-multi paging_",sSortAsc:H+" sorting_asc",sSortDesc:H+" sorting_desc",sSortable:H+" sorting",sSortableAsc:H+" sorting_asc_disabled",sSortableDesc:H+" sorting_desc_disabled",sSortableNone:H+" sorting_disabled",sSortJUIAsc:ia+"triangle-1-n",sSortJUIDesc:ia+"triangle-1-s",sSortJUI:ia+"carat-2-n-s",
sSortJUIAscAllowed:ia+"carat-1-n",sSortJUIDescAllowed:ia+"carat-1-s",sSortJUIWrapper:"DataTables_sort_wrapper",sSortIcon:"DataTables_sort_icon",sScrollHead:"dataTables_scrollHead "+H,sScrollFoot:"dataTables_scrollFoot "+H,sHeaderTH:H,sFooterTH:H,sJUIHeader:Xb+" ui-corner-tl ui-corner-tr",sJUIFooter:Xb+" ui-corner-bl ui-corner-br"});var Mb=m.ext.pager;h.extend(Mb,{simple:function(){return["previous","next"]},full:function(){return["first","previous","next","last"]},numbers:function(a,b){return[ya(a,
b)]},simple_numbers:function(a,b){return["previous",ya(a,b),"next"]},full_numbers:function(a,b){return["first","previous",ya(a,b),"next","last"]},_numbers:ya,numbers_length:7});h.extend(!0,m.ext.renderer,{pageButton:{_:function(a,b,c,d,e,f){var g=a.oClasses,j=a.oLanguage.oPaginate,i=a.oLanguage.oAria.paginate||{},k,l,m=0,p=function(b,d){var o,r,u,s,v=function(b){Ta(a,b.data.action,true)};o=0;for(r=d.length;o<r;o++){s=d[o];if(h.isArray(s)){u=h("<"+(s.DT_el||"div")+"/>").appendTo(b);p(u,s)}else{k=null;
l="";switch(s){case "ellipsis":b.append('<span class="ellipsis">&#x2026;</span>');break;case "first":k=j.sFirst;l=s+(e>0?"":" "+g.sPageButtonDisabled);break;case "previous":k=j.sPrevious;l=s+(e>0?"":" "+g.sPageButtonDisabled);break;case "next":k=j.sNext;l=s+(e<f-1?"":" "+g.sPageButtonDisabled);break;case "last":k=j.sLast;l=s+(e<f-1?"":" "+g.sPageButtonDisabled);break;default:k=s+1;l=e===s?g.sPageButtonActive:""}if(k!==null){u=h("<a>",{"class":g.sPageButton+" "+l,"aria-controls":a.sTableId,"aria-label":i[s],
"data-dt-idx":m,tabindex:a.iTabIndex,id:c===0&&typeof s==="string"?a.sTableId+"_"+s:null}).html(k).appendTo(b);Wa(u,{action:s},v);m++}}}},r;try{r=h(b).find(I.activeElement).data("dt-idx")}catch(o){}p(h(b).empty(),d);r&&h(b).find("[data-dt-idx="+r+"]").focus()}}});h.extend(m.ext.type.detect,[function(a,b){var c=b.oLanguage.sDecimal;return Za(a,c)?"num"+c:null},function(a){if(a&&!(a instanceof Date)&&(!ac.test(a)||!bc.test(a)))return null;var b=Date.parse(a);return null!==b&&!isNaN(b)||M(a)?"date":
null},function(a,b){var c=b.oLanguage.sDecimal;return Za(a,c,!0)?"num-fmt"+c:null},function(a,b){var c=b.oLanguage.sDecimal;return Rb(a,c)?"html-num"+c:null},function(a,b){var c=b.oLanguage.sDecimal;return Rb(a,c,!0)?"html-num-fmt"+c:null},function(a){return M(a)||"string"===typeof a&&-1!==a.indexOf("<")?"html":null}]);h.extend(m.ext.type.search,{html:function(a){return M(a)?a:"string"===typeof a?a.replace(Ob," ").replace(Aa,""):""},string:function(a){return M(a)?a:"string"===typeof a?a.replace(Ob,
" "):a}});var za=function(a,b,c,d){if(0!==a&&(!a||"-"===a))return-Infinity;b&&(a=Qb(a,b));a.replace&&(c&&(a=a.replace(c,"")),d&&(a=a.replace(d,"")));return 1*a};h.extend(v.type.order,{"date-pre":function(a){return Date.parse(a)||0},"html-pre":function(a){return M(a)?"":a.replace?a.replace(/<.*?>/g,"").toLowerCase():a+""},"string-pre":function(a){return M(a)?"":"string"===typeof a?a.toLowerCase():!a.toString?"":a.toString()},"string-asc":function(a,b){return a<b?-1:a>b?1:0},"string-desc":function(a,
b){return a<b?1:a>b?-1:0}});db("");h.extend(!0,m.ext.renderer,{header:{_:function(a,b,c,d){h(a.nTable).on("order.dt.DT",function(e,f,g,h){if(a===f){e=c.idx;b.removeClass(c.sSortingClass+" "+d.sSortAsc+" "+d.sSortDesc).addClass(h[e]=="asc"?d.sSortAsc:h[e]=="desc"?d.sSortDesc:c.sSortingClass)}})},jqueryui:function(a,b,c,d){h("<div/>").addClass(d.sSortJUIWrapper).append(b.contents()).append(h("<span/>").addClass(d.sSortIcon+" "+c.sSortingClassJUI)).appendTo(b);h(a.nTable).on("order.dt.DT",function(e,
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n.identity(t),n.fromRotationTranslation(t,s,e),t[3]=a[0],t[7]=a[1],t[11]=a[2],t[15]=a[3],n.identity(i),0!==o[2]&&(i[9]=o[2],n.multiply(t,t,i)),0!==o[1]&&(i[9]=0,i[8]=o[1],n.multiply(t,t,i)),0!==o[0]&&(i[8]=0,i[4]=o[0],n.multiply(t,t,i)),n.scale(t,t,r),t}},{"gl-mat4/create":143,"gl-mat4/fromRotationTranslation":146,"gl-mat4/identity":147,"gl-mat4/multiply":150,"gl-mat4/scale":156,"gl-mat4/translate":157}],35:[function(t,e,r){e.exports=t("gl-quat/slerp")},{"gl-quat/slerp":36}],36:[function(t,e,r){function n(t,e,r,n){var i,o,a,s,l,u=e[0],c=e[1],h=e[2],f=e[3],p=r[0],d=r[1],m=r[2],g=r[3];return o=u*p+c*d+h*m+f*g,0>o&&(o=-o,p=-p,d=-d,m=-m,g=-g),1-o>1e-6?(i=Math.acos(o),a=Math.sin(i),s=Math.sin((1-n)*i)/a,l=Math.sin(n*i)/a):(s=1-n,l=n),t[0]=s*u+l*p,t[1]=s*c+l*d,t[2]=s*h+l*m,t[3]=s*f+l*g,t}e.exports=n},{}],37:[function(t,e,r){"use strict";function n(t,e,r,n,i,o,a,s,l,u){var c=e+o+u;if(h>0){var h=Math.sqrt(c+1);t[0]=.5*(a-l)/h,t[1]=.5*(s-n)/h,t[2]=.5*(r-o)/h,t[3]=.5*h}else{var f=Math.max(e,o,u),h=Math.sqrt(2*f-c+1);e>=f?(t[0]=.5*h,t[1]=.5*(i+r)/h,t[2]=.5*(s+n)/h,t[3]=.5*(a-l)/h):o>=f?(t[0]=.5*(r+i)/h,t[1]=.5*h,t[2]=.5*(l+a)/h,t[3]=.5*(s-n)/h):(t[0]=.5*(n+s)/h,t[1]=.5*(a+l)/h,t[2]=.5*h,t[3]=.5*(r-i)/h)}return t}e.exports=n},{}],38:[function(t,e,r){"use strict";function n(t,e,r){return Math.sqrt(Math.pow(t,2)+Math.pow(e,2)+Math.pow(r,2))}function i(t,e,r,n){return Math.sqrt(Math.pow(t,2)+Math.pow(e,2)+Math.pow(r,2)+Math.pow(n,2))}function o(t,e){var r=e[0],n=e[1],o=e[2],a=e[3],s=i(r,n,o,a);s>1e-6?(t[0]=r/s,t[1]=n/s,t[2]=o/s,t[3]=a/s):(t[0]=t[1]=t[2]=0,t[3]=1)}function a(t,e,r){this.radius=l([r]),this.center=l(e),this.rotation=l(t),this.computedRadius=this.radius.curve(0),this.computedCenter=this.center.curve(0),this.computedRotation=this.rotation.curve(0),this.computedUp=[.1,0,0],this.computedEye=[.1,0,0],this.computedMatrix=[.1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0],this.recalcMatrix(0)}function s(t){t=t||{};var e=t.center||[0,0,0],r=t.rotation||[0,0,0,1],n=t.radius||1;e=[].slice.call(e,0,3),r=[].slice.call(r,0,4),o(r,r);var i=new a(r,e,Math.log(n));return i.setDistanceLimits(t.zoomMin,t.zoomMax),("eye"in t||"up"in t)&&i.lookAt(0,t.eye,t.center,t.up),i}e.exports=s;var l=t("filtered-vector"),u=t("gl-mat4/lookAt"),c=t("gl-mat4/fromQuat"),h=t("gl-mat4/invert"),f=t("./lib/quatFromFrame"),p=a.prototype;p.lastT=function(){return Math.max(this.radius.lastT(),this.center.lastT(),this.rotation.lastT())},p.recalcMatrix=function(t){this.radius.curve(t),this.center.curve(t),this.rotation.curve(t);var e=this.computedRotation;o(e,e);var r=this.computedMatrix;c(r,e);var n=this.computedCenter,i=this.computedEye,a=this.computedUp,s=Math.exp(this.computedRadius[0]);i[0]=n[0]+s*r[2],i[1]=n[1]+s*r[6],i[2]=n[2]+s*r[10],a[0]=r[1],a[1]=r[5],a[2]=r[9];for(var l=0;3>l;++l){for(var u=0,h=0;3>h;++h)u+=r[l+4*h]*i[h];r[12+l]=-u}},p.getMatrix=function(t,e){this.recalcMatrix(t);var r=this.computedMatrix;if(e){for(var n=0;16>n;++n)e[n]=r[n];return e}return r},p.idle=function(t){this.center.idle(t),this.radius.idle(t),this.rotation.idle(t)},p.flush=function(t){this.center.flush(t),this.radius.flush(t),this.rotation.flush(t)},p.pan=function(t,e,r,i){e=e||0,r=r||0,i=i||0,this.recalcMatrix(t);var o=this.computedMatrix,a=o[1],s=o[5],l=o[9],u=n(a,s,l);a/=u,s/=u,l/=u;var c=o[0],h=o[4],f=o[8],p=c*a+h*s+f*l;c-=a*p,h-=s*p,f-=l*p;var d=n(c,h,f);c/=d,h/=d,f/=d;var m=o[2],g=o[6],v=o[10],y=m*a+g*s+v*l,b=m*c+g*h+v*f;m-=y*a+b*c,g-=y*s+b*h,v-=y*l+b*f;var x=n(m,g,v);m/=x,g/=x,v/=x;var _=c*e+a*r,w=h*e+s*r,M=f*e+l*r;this.center.move(t,_,w,M);var k=Math.exp(this.computedRadius[0]);k=Math.max(1e-4,k+i),this.radius.set(t,Math.log(k))},p.rotate=function(t,e,r,o){this.recalcMatrix(t),e=e||0,r=r||0;var a=this.computedMatrix,s=a[0],l=a[4],u=a[8],c=a[1],h=a[5],f=a[9],p=a[2],d=a[6],m=a[10],g=e*s+r*c,v=e*l+r*h,y=e*u+r*f,b=-(d*y-m*v),x=-(m*g-p*y),_=-(p*v-d*g),w=Math.sqrt(Math.max(0,1-Math.pow(b,2)-Math.pow(x,2)-Math.pow(_,2))),M=i(b,x,_,w);M>1e-6?(b/=M,x/=M,_/=M,w/=M):(b=x=_=0,w=1);var k=this.computedRotation,A=k[0],T=k[1],E=k[2],S=k[3],L=A*w+S*b+T*_-E*x,z=T*w+S*x+E*b-A*_,I=E*w+S*_+A*x-T*b,P=S*w-A*b-T*x-E*_;if(o){b=p,x=d,_=m;var C=Math.sin(o)/n(b,x,_);b*=C,x*=C,_*=C,w=Math.cos(e),L=L*w+P*b+z*_-I*x,z=z*w+P*x+I*b-L*_,I=I*w+P*_+L*x-z*b,P=P*w-L*b-z*x-I*_}var R=i(L,z,I,P);R>1e-6?(L/=R,z/=R,I/=R,P/=R):(L=z=I=0,P=1),this.rotation.set(t,L,z,I,P)},p.lookAt=function(t,e,r,n){this.recalcMatrix(t),r=r||this.computedCenter,e=e||this.computedEye,n=n||this.computedUp;var i=this.computedMatrix;u(i,e,r,n);var a=this.computedRotation;f(a,i[0],i[1],i[2],i[4],i[5],i[6],i[8],i[9],i[10]),o(a,a),this.rotation.set(t,a[0],a[1],a[2],a[3]);for(var s=0,l=0;3>l;++l)s+=Math.pow(r[l]-e[l],2);this.radius.set(t,.5*Math.log(Math.max(s,1e-6))),this.center.set(t,r[0],r[1],r[2])},p.translate=function(t,e,r,n){this.center.move(t,e||0,r||0,n||0)},p.setMatrix=function(t,e){var r=this.computedRotation;f(r,e[0],e[1],e[2],e[4],e[5],e[6],e[8],e[9],e[10]),o(r,r),this.rotation.set(t,r[0],r[1],r[2],r[3]);var n=this.computedMatrix;h(n,e);var i=n[15];if(Math.abs(i)>1e-6){var a=n[12]/i,s=n[13]/i,l=n[14]/i;this.recalcMatrix(t);var u=Math.exp(this.computedRadius[0]);this.center.set(t,a-n[2]*u,s-n[6]*u,l-n[10]*u),this.radius.idle(t)}else this.center.idle(t),this.radius.idle(t)},p.setDistance=function(t,e){e>0&&this.radius.set(t,Math.log(e))},p.setDistanceLimits=function(t,e){t=t>0?Math.log(t):-(1/0),
e=e>0?Math.log(e):1/0,e=Math.max(e,t),this.radius.bounds[0][0]=t,this.radius.bounds[1][0]=e},p.getDistanceLimits=function(t){var e=this.radius.bounds;return t?(t[0]=Math.exp(e[0][0]),t[1]=Math.exp(e[1][0]),t):[Math.exp(e[0][0]),Math.exp(e[1][0])]},p.toJSON=function(){return this.recalcMatrix(this.lastT()),{center:this.computedCenter.slice(),rotation:this.computedRotation.slice(),distance:Math.log(this.computedRadius[0]),zoomMin:this.radius.bounds[0][0],zoomMax:this.radius.bounds[1][0]}},p.fromJSON=function(t){var e=this.lastT(),r=t.center;r&&this.center.set(e,r[0],r[1],r[2]);var n=t.rotation;n&&this.rotation.set(e,n[0],n[1],n[2],n[3]);var i=t.distance;i&&i>0&&this.radius.set(e,Math.log(i)),this.setDistanceLimits(t.zoomMin,t.zoomMax)}},{"./lib/quatFromFrame":37,"filtered-vector":21,"gl-mat4/fromQuat":145,"gl-mat4/invert":148,"gl-mat4/lookAt":149}],39:[function(t,e,r){"use strict";function n(t,e,r){return Math.sqrt(Math.pow(t,2)+Math.pow(e,2)+Math.pow(r,2))}function i(t){return Math.min(1,Math.max(-1,t))}function o(t){var e=Math.abs(t[0]),r=Math.abs(t[1]),n=Math.abs(t[2]),i=[0,0,0];e>Math.max(r,n)?i[2]=1:r>Math.max(e,n)?i[0]=1:i[1]=1;for(var o=0,a=0,s=0;3>s;++s)o+=t[s]*t[s],a+=i[s]*t[s];for(var s=0;3>s;++s)i[s]-=a/o*t[s];return f(i,i),i}function a(t,e,r,n,i,o,a,s){this.center=l(r),this.up=l(n),this.right=l(i),this.radius=l([o]),this.angle=l([a,s]),this.angle.bounds=[[-(1/0),-Math.PI/2],[1/0,Math.PI/2]],this.setDistanceLimits(t,e),this.computedCenter=this.center.curve(0),this.computedUp=this.up.curve(0),this.computedRight=this.right.curve(0),this.computedRadius=this.radius.curve(0),this.computedAngle=this.angle.curve(0),this.computedToward=[0,0,0],this.computedEye=[0,0,0],this.computedMatrix=new Array(16);for(var u=0;16>u;++u)this.computedMatrix[u]=.5;this.recalcMatrix(0)}function s(t){t=t||{};var e=t.center||[0,0,0],r=t.up||[0,1,0],i=t.right||o(r),s=t.radius||1,l=t.theta||0,u=t.phi||0;if(e=[].slice.call(e,0,3),r=[].slice.call(r,0,3),f(r,r),i=[].slice.call(i,0,3),f(i,i),"eye"in t){var c=t.eye,d=[c[0]-e[0],c[1]-e[1],c[2]-e[2]];h(i,d,r),n(i[0],i[1],i[2])<1e-6?i=o(r):f(i,i),s=n(d[0],d[1],d[2]);var m=p(r,d)/s,g=p(i,d)/s;u=Math.acos(m),l=Math.acos(g)}return s=Math.log(s),new a(t.zoomMin,t.zoomMax,e,r,i,s,l,u)}e.exports=s;var l=t("filtered-vector"),u=t("gl-mat4/invert"),c=t("gl-mat4/rotate"),h=t("gl-vec3/cross"),f=t("gl-vec3/normalize"),p=t("gl-vec3/dot"),d=a.prototype;d.setDistanceLimits=function(t,e){t=t>0?Math.log(t):-(1/0),e=e>0?Math.log(e):1/0,e=Math.max(e,t),this.radius.bounds[0][0]=t,this.radius.bounds[1][0]=e},d.getDistanceLimits=function(t){var e=this.radius.bounds[0];return t?(t[0]=Math.exp(e[0][0]),t[1]=Math.exp(e[1][0]),t):[Math.exp(e[0][0]),Math.exp(e[1][0])]},d.recalcMatrix=function(t){this.center.curve(t),this.up.curve(t),this.right.curve(t),this.radius.curve(t),this.angle.curve(t);for(var e=this.computedUp,r=this.computedRight,i=0,o=0,a=0;3>a;++a)o+=e[a]*r[a],i+=e[a]*e[a];for(var s=Math.sqrt(i),l=0,a=0;3>a;++a)r[a]-=e[a]*o/i,l+=r[a]*r[a],e[a]/=s;for(var u=Math.sqrt(l),a=0;3>a;++a)r[a]/=u;var c=this.computedToward;h(c,e,r),f(c,c);for(var p=Math.exp(this.computedRadius[0]),d=this.computedAngle[0],m=this.computedAngle[1],g=Math.cos(d),v=Math.sin(d),y=Math.cos(m),b=Math.sin(m),x=this.computedCenter,_=g*y,w=v*y,M=b,k=-g*b,A=-v*b,T=y,E=this.computedEye,S=this.computedMatrix,a=0;3>a;++a){var L=_*r[a]+w*c[a]+M*e[a];S[4*a+1]=k*r[a]+A*c[a]+T*e[a],S[4*a+2]=L,S[4*a+3]=0}var z=S[1],I=S[5],P=S[9],C=S[2],R=S[6],j=S[10],D=I*j-P*R,O=P*C-z*j,F=z*R-I*C,N=n(D,O,F);D/=N,O/=N,F/=N,S[0]=D,S[4]=O,S[8]=F;for(var a=0;3>a;++a)E[a]=x[a]+S[2+4*a]*p;for(var a=0;3>a;++a){for(var l=0,B=0;3>B;++B)l+=S[a+4*B]*E[B];S[12+a]=-l}S[15]=1},d.getMatrix=function(t,e){this.recalcMatrix(t);var r=this.computedMatrix;if(e){for(var n=0;16>n;++n)e[n]=r[n];return e}return r};var m=[0,0,0];d.rotate=function(t,e,r,n){if(this.angle.move(t,e,r),n){this.recalcMatrix(t);var i=this.computedMatrix;m[0]=i[2],m[1]=i[6],m[2]=i[10];for(var o=this.computedUp,a=this.computedRight,s=this.computedToward,l=0;3>l;++l)i[4*l]=o[l],i[4*l+1]=a[l],i[4*l+2]=s[l];c(i,i,n,m);for(var l=0;3>l;++l)o[l]=i[4*l],a[l]=i[4*l+1];this.up.set(t,o[0],o[1],o[2]),this.right.set(t,a[0],a[1],a[2])}},d.pan=function(t,e,r,i){e=e||0,r=r||0,i=i||0,this.recalcMatrix(t);var o=this.computedMatrix,a=(Math.exp(this.computedRadius[0]),o[1]),s=o[5],l=o[9],u=n(a,s,l);a/=u,s/=u,l/=u;var c=o[0],h=o[4],f=o[8],p=c*a+h*s+f*l;c-=a*p,h-=s*p,f-=l*p;var d=n(c,h,f);c/=d,h/=d,f/=d;var m=c*e+a*r,g=h*e+s*r,v=f*e+l*r;this.center.move(t,m,g,v);var y=Math.exp(this.computedRadius[0]);y=Math.max(1e-4,y+i),this.radius.set(t,Math.log(y))},d.translate=function(t,e,r,n){this.center.move(t,e||0,r||0,n||0)},d.setMatrix=function(t,e,r,o){var a=1;"number"==typeof r&&(a=0|r),(0>a||a>3)&&(a=1);var s=(a+2)%3;e||(this.recalcMatrix(t),e=this.computedMatrix);var l=e[a],c=e[a+4],h=e[a+8];if(o){var f=Math.abs(l),p=Math.abs(c),d=Math.abs(h),m=Math.max(f,p,d);f===m?(l=0>l?-1:1,c=h=0):d===m?(h=0>h?-1:1,l=c=0):(c=0>c?-1:1,l=h=0)}else{var g=n(l,c,h);l/=g,c/=g,h/=g}var v=e[s],y=e[s+4],b=e[s+8],x=v*l+y*c+b*h;v-=l*x,y-=c*x,b-=h*x;var _=n(v,y,b);v/=_,y/=_,b/=_;var w=c*b-h*y,M=h*v-l*b,k=l*y-c*v,A=n(w,M,k);w/=A,M/=A,k/=A,this.center.jump(t,G,H,X),this.radius.idle(t),this.up.jump(t,l,c,h),this.right.jump(t,v,y,b);var T,E;if(2===a){var S=e[1],L=e[5],z=e[9],I=S*v+L*y+z*b,P=S*w+L*M+z*k;T=0>D?-Math.PI/2:Math.PI/2,E=Math.atan2(P,I)}else{var C=e[2],R=e[6],j=e[10],D=C*l+R*c+j*h,O=C*v+R*y+j*b,F=C*w+R*M+j*k;T=Math.asin(i(D)),E=Math.atan2(F,O)}this.angle.jump(t,E,T),this.recalcMatrix(t);var N=e[2],B=e[6],U=e[10],V=this.computedMatrix;u(V,e);var q=V[15],G=V[12]/q,H=V[13]/q,X=V[14]/q,Y=Math.exp(this.computedRadius[0]);this.center.jump(t,G-N*Y,H-B*Y,X-U*Y)},d.lastT=function(){return Math.max(this.center.lastT(),this.up.lastT(),this.right.lastT(),this.radius.lastT(),this.angle.lastT())},d.idle=function(t){this.center.idle(t),this.up.idle(t),this.right.idle(t),this.radius.idle(t),this.angle.idle(t)},d.flush=function(t){this.center.flush(t),this.up.flush(t),this.right.flush(t),this.radius.flush(t),this.angle.flush(t)},d.setDistance=function(t,e){e>0&&this.radius.set(t,Math.log(e))},d.lookAt=function(t,e,r,o){this.recalcMatrix(t),e=e||this.computedEye,r=r||this.computedCenter,o=o||this.computedUp;var a=o[0],s=o[1],l=o[2],u=n(a,s,l);if(!(1e-6>u)){a/=u,s/=u,l/=u;var c=e[0]-r[0],h=e[1]-r[1],f=e[2]-r[2],p=n(c,h,f);if(!(1e-6>p)){c/=p,h/=p,f/=p;var d=this.computedRight,m=d[0],g=d[1],v=d[2],y=a*m+s*g+l*v;m-=y*a,g-=y*s,v-=y*l;var b=n(m,g,v);if(!(.01>b&&(m=s*f-l*h,g=l*c-a*f,v=a*h-s*c,b=n(m,g,v),1e-6>b))){m/=b,g/=b,v/=b,this.up.set(t,a,s,l),this.right.set(t,m,g,v),this.center.set(t,r[0],r[1],r[2]),this.radius.set(t,Math.log(p));var x=s*v-l*g,_=l*m-a*v,w=a*g-s*m,M=n(x,_,w);x/=M,_/=M,w/=M;var k=a*c+s*h+l*f,A=m*c+g*h+v*f,T=x*c+_*h+w*f,E=Math.asin(i(k)),S=Math.atan2(T,A),L=this.angle._state,z=L[L.length-1],I=L[L.length-2];z%=2*Math.PI;var P=Math.abs(z+2*Math.PI-S),C=Math.abs(z-S),R=Math.abs(z-2*Math.PI-S);C>P&&(z+=2*Math.PI),C>R&&(z-=2*Math.PI),this.angle.jump(this.angle.lastT(),z,I),this.angle.set(t,S,E)}}}}},{"filtered-vector":21,"gl-mat4/invert":148,"gl-mat4/rotate":152,"gl-vec3/cross":24,"gl-vec3/dot":25,"gl-vec3/normalize":28}],40:[function(t,e,r){"use strict";function n(t,e){this._controllerNames=Object.keys(t),this._controllerList=this._controllerNames.map(function(e){return t[e]}),this._mode=e,this._active=t[e],this._active||(this._mode="turntable",this._active=t.turntable),this.modes=this._controllerNames,this.computedMatrix=this._active.computedMatrix,this.computedEye=this._active.computedEye,this.computedUp=this._active.computedUp,this.computedCenter=this._active.computedCenter,this.computedRadius=this._active.computedRadius}function i(t){t=t||{};var e=t.eye||[0,0,1],r=t.center||[0,0,0],i=t.up||[0,1,0],l=t.distanceLimits||[0,1/0],u=t.mode||"turntable",c=o(),h=a(),f=s();return c.setDistanceLimits(l[0],l[1]),c.lookAt(0,e,r,i),h.setDistanceLimits(l[0],l[1]),h.lookAt(0,e,r,i),f.setDistanceLimits(l[0],l[1]),f.lookAt(0,e,r,i),new n({turntable:c,orbit:h,matrix:f},u)}e.exports=i;var o=t("turntable-camera-controller"),a=t("orbit-camera-controller"),s=t("matrix-camera-controller"),l=n.prototype,u=[["flush",1],["idle",1],["lookAt",4],["rotate",4],["pan",4],["translate",4],["setMatrix",2],["setDistanceLimits",2],["setDistance",2]];u.forEach(function(t){for(var e=t[0],r=[],n=0;n<t[1];++n)r.push("a"+n);var i="var cc=this._controllerList;for(var i=0;i<cc.length;++i){cc[i]."+t[0]+"("+r.join()+")}";l[e]=Function.apply(null,r.concat(i))}),l.recalcMatrix=function(t){this._active.recalcMatrix(t)},l.getDistance=function(t){return this._active.getDistance(t)},l.getDistanceLimits=function(t){return this._active.getDistanceLimits(t)},l.lastT=function(){return this._active.lastT()},l.setMode=function(t){if(t!==this._mode){var e=this._controllerNames.indexOf(t);if(!(0>e)){var 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e?this.words[n]=this.words[n]|1<<i:this.words[n]=this.words[n]&~(1<<i),this.strip()},i.prototype.iadd=function(t){if(this.sign&&!t.sign){this.sign=!1;var e=this.isub(t);return this.sign=!this.sign,this._normSign()}if(!this.sign&&t.sign){t.sign=!1;var e=this.isub(t);return t.sign=!0,e._normSign()}var r,n;this.length>t.length?(r=this,n=t):(r=t,n=this);for(var i=0,o=0;o<n.length;o++){var e=r.words[o]+n.words[o]+i;this.words[o]=67108863&e,i=e>>>26}for(;0!==i&&o<r.length;o++){var e=r.words[o]+i;this.words[o]=67108863&e,i=e>>>26}if(this.length=r.length,0!==i)this.words[this.length]=i,this.length++;else if(r!==this)for(;o<r.length;o++)this.words[o]=r.words[o];return this},i.prototype.add=function(t){if(t.sign&&!this.sign){t.sign=!1;var e=this.sub(t);return t.sign=!0,e}if(!t.sign&&this.sign){this.sign=!1;var e=t.sub(this);return this.sign=!0,e}return this.length>t.length?this.clone().iadd(t):t.clone().iadd(this)},i.prototype.isub=function(t){if(t.sign){t.sign=!1;var e=this.iadd(t);return t.sign=!0,e._normSign()}if(this.sign)return this.sign=!1,this.iadd(t),this.sign=!0,this._normSign();var r=this.cmp(t);if(0===r)return this.sign=!1,this.length=1,this.words[0]=0,this;var n,i;r>0?(n=this,i=t):(n=t,i=this);for(var o=0,a=0;a<i.length;a++){var e=n.words[a]-i.words[a]+o;o=e>>26,this.words[a]=67108863&e}for(;0!==o&&a<n.length;a++){var e=n.words[a]+o;o=e>>26,this.words[a]=67108863&e}if(0===o&&a<n.length&&n!==this)for(;a<n.length;a++)this.words[a]=n.words[a];return this.length=Math.max(this.length,a),n!==this&&(this.sign=!0),this.strip()},i.prototype.sub=function(t){return this.clone().isub(t)},i.prototype._smallMulTo=function(t,e){e.sign=t.sign!==this.sign,e.length=this.length+t.length;for(var r=0,n=0;n<e.length-1;n++){for(var i=r>>>26,o=67108863&r,a=Math.min(n,t.length-1),s=Math.max(0,n-this.length+1);a>=s;s++){var l=n-s,u=0|this.words[l],c=0|t.words[s],h=u*c,f=67108863&h;i=i+(h/67108864|0)|0,f=f+o|0,o=67108863&f,i=i+(f>>>26)|0}e.words[n]=o,r=i}return 0!==r?e.words[n]=r:e.length--,e.strip()},i.prototype._bigMulTo=function(t,e){e.sign=t.sign!==this.sign,e.length=this.length+t.length;for(var r=0,n=0,i=0;i<e.length-1;i++){var o=n;n=0;for(var a=67108863&r,s=Math.min(i,t.length-1),l=Math.max(0,i-this.length+1);s>=l;l++){var u=i-l,c=0|this.words[u],h=0|t.words[l],f=c*h,p=67108863&f;o=o+(f/67108864|0)|0,p=p+a|0,a=67108863&p,o=o+(p>>>26)|0,n+=o>>>26,o&=67108863}e.words[i]=a,r=o,o=n}return 0!==r?e.words[i]=r:e.length--,e.strip()},i.prototype.mulTo=function(t,e){var r;return r=this.length+t.length<63?this._smallMulTo(t,e):this._bigMulTo(t,e)},i.prototype.mul=function(t){var e=new i(null);return e.words=new Array(this.length+t.length),this.mulTo(t,e)},i.prototype.imul=function(t){if(0===this.cmpn(0)||0===t.cmpn(0))return this.words[0]=0,this.length=1,this;var e=this.length,r=t.length;this.sign=t.sign!==this.sign,this.length=this.length+t.length,this.words[this.length-1]=0;for(var n=this.length-2;n>=0;n--){for(var i=0,o=0,a=Math.min(n,r-1),s=Math.max(0,n-e+1);a>=s;s++){var l=n-s,u=this.words[l],c=t.words[s],h=u*c,f=67108863&h;i+=h/67108864|0,f+=o,o=67108863&f,i+=f>>>26}this.words[n]=o,this.words[n+1]+=i,i=0}for(var i=0,l=1;l<this.length;l++){var p=this.words[l]+i;this.words[l]=67108863&p,i=p>>>26}return this.strip()},i.prototype.imuln=function(t){r("number"==typeof t);for(var e=0,n=0;n<this.length;n++){var i=this.words[n]*t,o=(67108863&i)+(67108863&e);e>>=26,e+=i/67108864|0,e+=o>>>26,this.words[n]=67108863&o}return 0!==e&&(this.words[n]=e,this.length++),this},i.prototype.muln=function(t){return this.clone().imuln(t)},i.prototype.sqr=function(){return this.mul(this)},i.prototype.isqr=function(){return this.mul(this)},i.prototype.ishln=function(t){r("number"==typeof t&&t>=0);var e=t%26,n=(t-e)/26,i=67108863>>>26-e<<26-e;if(0!==e){for(var o=0,a=0;a<this.length;a++){var s=this.words[a]&i,l=this.words[a]-s<<e;this.words[a]=l|o,o=s>>>26-e}o&&(this.words[a]=o,this.length++)}if(0!==n){for(var a=this.length-1;a>=0;a--)this.words[a+n]=this.words[a];for(var a=0;n>a;a++)this.words[a]=0;this.length+=n}return this.strip()},i.prototype.ishrn=function(t,e,n){r("number"==typeof t&&t>=0);var i;i=e?(e-e%26)/26:0;var o=t%26,a=Math.min((t-o)/26,this.length),s=67108863^67108863>>>o<<o,l=n;if(i-=a,i=Math.max(0,i),l){for(var u=0;a>u;u++)l.words[u]=this.words[u];l.length=a}if(0===a);else if(this.length>a){this.length-=a;for(var u=0;u<this.length;u++)this.words[u]=this.words[u+a]}else this.words[0]=0,this.length=1;for(var c=0,u=this.length-1;u>=0&&(0!==c||u>=i);u--){var h=this.words[u];this.words[u]=c<<26-o|h>>>o,c=h&s}return l&&0!==c&&(l.words[l.length++]=c),0===this.length&&(this.words[0]=0,this.length=1),this.strip(),this},i.prototype.shln=function(t){return this.clone().ishln(t)},i.prototype.shrn=function(t){return this.clone().ishrn(t)},i.prototype.testn=function(t){r("number"==typeof t&&t>=0);var e=t%26,n=(t-e)/26,i=1<<e;if(this.length<=n)return!1;var o=this.words[n];return!!(o&i)},i.prototype.imaskn=function(t){r("number"==typeof t&&t>=0);var e=t%26,n=(t-e)/26;if(r(!this.sign,"imaskn works only with positive numbers"),0!==e&&n++,this.length=Math.min(n,this.length),0!==e){var i=67108863^67108863>>>e<<e;this.words[this.length-1]&=i}return this.strip()},i.prototype.maskn=function(t){return this.clone().imaskn(t)},i.prototype.iaddn=function(t){return r("number"==typeof t),0>t?this.isubn(-t):this.sign?1===this.length&&this.words[0]<t?(this.words[0]=t-this.words[0],this.sign=!1,this):(this.sign=!1,this.isubn(t),this.sign=!0,this):this._iaddn(t)},i.prototype._iaddn=function(t){this.words[0]+=t;for(var e=0;e<this.length&&this.words[e]>=67108864;e++)this.words[e]-=67108864,e===this.length-1?this.words[e+1]=1:this.words[e+1]++;return this.length=Math.max(this.length,e+1),this},i.prototype.isubn=function(t){if(r("number"==typeof t),0>t)return this.iaddn(-t);if(this.sign)return this.sign=!1,this.iaddn(t),this.sign=!0,this;this.words[0]-=t;for(var e=0;e<this.length&&this.words[e]<0;e++)this.words[e]+=67108864,this.words[e+1]-=1;return this.strip()},i.prototype.addn=function(t){return this.clone().iaddn(t)},i.prototype.subn=function(t){return this.clone().isubn(t)},i.prototype.iabs=function(){return this.sign=!1,this},i.prototype.abs=function(){return this.clone().iabs()},i.prototype._ishlnsubmul=function(t,e,n){var i,o=t.length+n;if(this.words.length<o){for(var a=new Array(o),i=0;i<this.length;i++)a[i]=this.words[i];this.words=a}else i=this.length;for(this.length=Math.max(this.length,o);i<this.length;i++)this.words[i]=0;for(var s=0,i=0;i<t.length;i++){var l=this.words[i+n]+s,u=t.words[i]*e;l-=67108863&u,s=(l>>26)-(u/67108864|0),this.words[i+n]=67108863&l}for(;i<this.length-n;i++){var l=this.words[i+n]+s;s=l>>26,this.words[i+n]=67108863&l}if(0===s)return this.strip();r(-1===s),s=0;for(var i=0;i<this.length;i++){var l=-this.words[i]+s;s=l>>26,this.words[i]=67108863&l}return this.sign=!0,this.strip()},i.prototype._wordDiv=function(t,e){var r=this.length-t.length,n=this.clone(),o=t,a=o.words[o.length-1],s=this._countBits(a);r=26-s,0!==r&&(o=o.shln(r),n.ishln(r),a=o.words[o.length-1]);var l,u=n.length-o.length;if("mod"!==e){l=new i(null),l.length=u+1,l.words=new Array(l.length);for(var c=0;c<l.length;c++)l.words[c]=0}var h=n.clone()._ishlnsubmul(o,1,u);h.sign||(n=h,l&&(l.words[u]=1));for(var f=u-1;f>=0;f--){var p=67108864*n.words[o.length+f]+n.words[o.length+f-1];for(p=Math.min(p/a|0,67108863),n._ishlnsubmul(o,p,f);n.sign;)p--,n.sign=!1,n._ishlnsubmul(o,1,f),0!==n.cmpn(0)&&(n.sign=!n.sign);l&&(l.words[f]=p)}return l&&l.strip(),n.strip(),"div"!==e&&0!==r&&n.ishrn(r),{div:l?l:null,mod:n}},i.prototype.divmod=function(t,e){if(r(0!==t.cmpn(0)),this.sign&&!t.sign){var n,o,a=this.neg().divmod(t,e);return"mod"!==e&&(n=a.div.neg()),"div"!==e&&(o=0===a.mod.cmpn(0)?a.mod:t.sub(a.mod)),{div:n,mod:o}}if(!this.sign&&t.sign){var n,a=this.divmod(t.neg(),e);return"mod"!==e&&(n=a.div.neg()),{div:n,mod:a.mod}}return this.sign&&t.sign?this.neg().divmod(t.neg(),e):t.length>this.length||this.cmp(t)<0?{div:new i(0),mod:this}:1===t.length?"div"===e?{div:this.divn(t.words[0]),mod:null}:"mod"===e?{div:null,mod:new i(this.modn(t.words[0]))}:{div:this.divn(t.words[0]),mod:new i(this.modn(t.words[0]))}:this._wordDiv(t,e)},i.prototype.div=function(t){return this.divmod(t,"div").div},i.prototype.mod=function(t){return this.divmod(t,"mod").mod},i.prototype.divRound=function(t){var e=this.divmod(t);if(0===e.mod.cmpn(0))return e.div;var r=e.div.sign?e.mod.isub(t):e.mod,n=t.shrn(1),i=t.andln(1),o=r.cmp(n);return 0>o||1===i&&0===o?e.div:e.div.sign?e.div.isubn(1):e.div.iaddn(1)},i.prototype.modn=function(t){r(67108863>=t);for(var e=(1<<26)%t,n=0,i=this.length-1;i>=0;i--)n=(e*n+this.words[i])%t;return n},i.prototype.idivn=function(t){r(67108863>=t);for(var e=0,n=this.length-1;n>=0;n--){var i=this.words[n]+67108864*e;this.words[n]=i/t|0,e=i%t}return this.strip()},i.prototype.divn=function(t){return this.clone().idivn(t)},i.prototype.egcd=function(t){r(!t.sign),r(0!==t.cmpn(0));var e=this,n=t.clone();e=e.sign?e.mod(t):e.clone();for(var o=new i(1),a=new i(0),s=new i(0),l=new i(1),u=0;e.isEven()&&n.isEven();)e.ishrn(1),n.ishrn(1),++u;for(var c=n.clone(),h=e.clone();0!==e.cmpn(0);){for(;e.isEven();)e.ishrn(1),o.isEven()&&a.isEven()?(o.ishrn(1),a.ishrn(1)):(o.iadd(c).ishrn(1),a.isub(h).ishrn(1));for(;n.isEven();)n.ishrn(1),s.isEven()&&l.isEven()?(s.ishrn(1),l.ishrn(1)):(s.iadd(c).ishrn(1),l.isub(h).ishrn(1));e.cmp(n)>=0?(e.isub(n),o.isub(s),a.isub(l)):(n.isub(e),s.isub(o),l.isub(a))}return{a:s,b:l,gcd:n.ishln(u)}},i.prototype._invmp=function(t){r(!t.sign),r(0!==t.cmpn(0));var e=this,n=t.clone();e=e.sign?e.mod(t):e.clone();for(var o=new i(1),a=new i(0),s=n.clone();e.cmpn(1)>0&&n.cmpn(1)>0;){for(;e.isEven();)e.ishrn(1),o.isEven()?o.ishrn(1):o.iadd(s).ishrn(1);for(;n.isEven();)n.ishrn(1),a.isEven()?a.ishrn(1):a.iadd(s).ishrn(1);e.cmp(n)>=0?(e.isub(n),o.isub(a)):(n.isub(e),a.isub(o))}return 0===e.cmpn(1)?o:a},i.prototype.gcd=function(t){if(0===this.cmpn(0))return t.clone();if(0===t.cmpn(0))return this.clone();var e=this.clone(),r=t.clone();e.sign=!1,r.sign=!1;for(var n=0;e.isEven()&&r.isEven();n++)e.ishrn(1),r.ishrn(1);for(;;){for(;e.isEven();)e.ishrn(1);for(;r.isEven();)r.ishrn(1);var i=e.cmp(r);if(0>i){var o=e;e=r,r=o}else if(0===i||0===r.cmpn(1))break;e.isub(r)}return r.ishln(n)},i.prototype.invm=function(t){return this.egcd(t).a.mod(t)},i.prototype.isEven=function(){return 0===(1&this.words[0])},i.prototype.isOdd=function(){return 1===(1&this.words[0])},i.prototype.andln=function(t){return this.words[0]&t},i.prototype.bincn=function(t){r("number"==typeof t);var e=t%26,n=(t-e)/26,i=1<<e;if(this.length<=n){for(var o=this.length;n+1>o;o++)this.words[o]=0;return this.words[n]|=i,this.length=n+1,this}for(var a=i,o=n;0!==a&&o<this.length;o++){var s=this.words[o];s+=a,a=s>>>26,s&=67108863,this.words[o]=s}return 0!==a&&(this.words[o]=a,this.length++),this},i.prototype.cmpn=function(t){var e=0>t;if(e&&(t=-t),this.sign&&!e)return-1;if(!this.sign&&e)return 1;t&=67108863,this.strip();
var r;if(this.length>1)r=1;else{var n=this.words[0];r=n===t?0:t>n?-1:1}return this.sign&&(r=-r),r},i.prototype.cmp=function(t){if(this.sign&&!t.sign)return-1;if(!this.sign&&t.sign)return 1;var e=this.ucmp(t);return this.sign?-e:e},i.prototype.ucmp=function(t){if(this.length>t.length)return 1;if(this.length<t.length)return-1;for(var e=0,r=this.length-1;r>=0;r--){var n=this.words[r],i=t.words[r];if(n!==i){i>n?e=-1:n>i&&(e=1);break}}return e},i.red=function(t){return new f(t)},i.prototype.toRed=function(t){return r(!this.red,"Already a number in reduction context"),r(!this.sign,"red works only with positives"),t.convertTo(this)._forceRed(t)},i.prototype.fromRed=function(){return r(this.red,"fromRed works only with numbers in reduction context"),this.red.convertFrom(this)},i.prototype._forceRed=function(t){return this.red=t,this},i.prototype.forceRed=function(t){return r(!this.red,"Already a number in reduction context"),this._forceRed(t)},i.prototype.redAdd=function(t){return r(this.red,"redAdd works only with red numbers"),this.red.add(this,t)},i.prototype.redIAdd=function(t){return r(this.red,"redIAdd works only with red numbers"),this.red.iadd(this,t)},i.prototype.redSub=function(t){return r(this.red,"redSub works only with red numbers"),this.red.sub(this,t)},i.prototype.redISub=function(t){return r(this.red,"redISub works only with red numbers"),this.red.isub(this,t)},i.prototype.redShl=function(t){return r(this.red,"redShl works only with red numbers"),this.red.shl(this,t)},i.prototype.redMul=function(t){return r(this.red,"redMul works only with red numbers"),this.red._verify2(this,t),this.red.mul(this,t)},i.prototype.redIMul=function(t){return r(this.red,"redMul works only with red numbers"),this.red._verify2(this,t),this.red.imul(this,t)},i.prototype.redSqr=function(){return r(this.red,"redSqr works only with red numbers"),this.red._verify1(this),this.red.sqr(this)},i.prototype.redISqr=function(){return r(this.red,"redISqr works only with red 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g=0;h>g;++g)t.color[g]=s(r,u,c,m,r.RGBA,r.COLOR_ATTACHMENT0+g);0===h?(t._color_rb=l(r,u,c,r.RGBA4,r.COLOR_ATTACHMENT0),f&&f.drawBuffersWEBGL(y[0])):h>1&&f.drawBuffersWEBGL(y[h]);var v=r.getExtension("WEBGL_depth_texture");v?p?t.depth=s(r,u,c,v.UNSIGNED_INT_24_8_WEBGL,r.DEPTH_STENCIL,r.DEPTH_STENCIL_ATTACHMENT):d&&(t.depth=s(r,u,c,r.UNSIGNED_SHORT,r.DEPTH_COMPONENT,r.DEPTH_ATTACHMENT)):d&&p?t._depth_rb=l(r,u,c,r.DEPTH_STENCIL,r.DEPTH_STENCIL_ATTACHMENT):d?t._depth_rb=l(r,u,c,r.DEPTH_COMPONENT16,r.DEPTH_ATTACHMENT):p&&(t._depth_rb=l(r,u,c,r.STENCIL_INDEX,r.STENCIL_ATTACHMENT));var b=r.checkFramebufferStatus(r.FRAMEBUFFER);if(b!==r.FRAMEBUFFER_COMPLETE){t._destroyed=!0,r.bindFramebuffer(r.FRAMEBUFFER,null),r.deleteFramebuffer(t.handle),t.handle=null,t.depth&&(t.depth.dispose(),t.depth=null),t._depth_rb&&(r.deleteRenderbuffer(t._depth_rb),t._depth_rb=null);for(var g=0;g<t.color.length;++g)t.color[g].dispose(),t.color[g]=null;t._color_rb&&(r.deleteRenderbuffer(t._color_rb),t._color_rb=null),i(r,e),a(b)}i(r,e)}function c(t,e,r,n,i,o,a,s){this.gl=t,this._shape=[0|e,0|r],this._destroyed=!1,this._ext=s,this.color=new Array(i);for(var l=0;i>l;++l)this.color[l]=null;this._color_rb=null,this.depth=null,this._depth_rb=null,this._colorType=n,this._useDepth=o,this._useStencil=a;var c=this,h=[0|e,0|r];Object.defineProperties(h,{0:{get:function(){return c._shape[0]},set:function(t){return c.width=t}},1:{get:function(){return c._shape[1]},set:function(t){return c.height=t}}}),this._shapeVector=h,u(this)}function h(t,e,r){if(t._destroyed)throw new Error("gl-fbo: Can't resize destroyed FBO");if(t._shape[0]!==e||t._shape[1]!==r){var o=t.gl,s=o.getParameter(o.MAX_RENDERBUFFER_SIZE);if(0>e||e>s||0>r||r>s)throw new Error("gl-fbo: Can't resize FBO, invalid dimensions");t._shape[0]=e,t._shape[1]=r;for(var l=n(o),u=0;u<t.color.length;++u)t.color[u].shape=t._shape;t._color_rb&&(o.bindRenderbuffer(o.RENDERBUFFER,t._color_rb),o.renderbufferStorage(o.RENDERBUFFER,o.RGBA4,t._shape[0],t._shape[1])),t.depth&&(t.depth.shape=t._shape),t._depth_rb&&(o.bindRenderbuffer(o.RENDERBUFFER,t._depth_rb),t._useDepth&&t._useStencil?o.renderbufferStorage(o.RENDERBUFFER,o.DEPTH_STENCIL,t._shape[0],t._shape[1]):t._useDepth?o.renderbufferStorage(o.RENDERBUFFER,o.DEPTH_COMPONENT16,t._shape[0],t._shape[1]):t._useStencil&&o.renderbufferStorage(o.RENDERBUFFER,o.STENCIL_INDEX,t._shape[0],t._shape[1])),o.bindFramebuffer(o.FRAMEBUFFER,t.handle);var c=o.checkFramebufferStatus(o.FRAMEBUFFER);c!==o.FRAMEBUFFER_COMPLETE&&(t.dispose(),i(o,l),a(c)),i(o,l)}}function f(t,e,r,n){d||(d=t.FRAMEBUFFER_UNSUPPORTED,m=t.FRAMEBUFFER_INCOMPLETE_ATTACHMENT,g=t.FRAMEBUFFER_INCOMPLETE_DIMENSIONS,v=t.FRAMEBUFFER_INCOMPLETE_MISSING_ATTACHMENT);var i=t.getExtension("WEBGL_draw_buffers");if(!y&&i&&o(t,i),Array.isArray(e)&&(n=r,r=0|e[1],e=0|e[0]),"number"!=typeof e)throw new Error("gl-fbo: Missing shape parameter");var a=t.getParameter(t.MAX_RENDERBUFFER_SIZE);if(0>e||e>a||0>r||r>a)throw new Error("gl-fbo: Parameters are too large for FBO");n=n||{};var s=1;if("color"in n){if(s=Math.max(0|n.color,0),0>s)throw new Error("gl-fbo: Must specify a nonnegative number of colors");if(s>1){if(!i)throw new Error("gl-fbo: Multiple draw buffer extension not supported");if(s>t.getParameter(i.MAX_COLOR_ATTACHMENTS_WEBGL))throw new Error("gl-fbo: Context does not support "+s+" draw buffers");
}}var l=t.UNSIGNED_BYTE,u=t.getExtension("OES_texture_float");if(n.float&&s>0){if(!u)throw new Error("gl-fbo: Context does not support floating point textures");l=t.FLOAT}else n.preferFloat&&s>0&&u&&(l=t.FLOAT);var h=!0;"depth"in n&&(h=!!n.depth);var f=!1;return"stencil"in n&&(f=!!n.stencil),new c(t,e,r,l,s,h,f,i)}var p=t("gl-texture2d");e.exports=f;var d,m,g,v,y=null,b=c.prototype;Object.defineProperties(b,{shape:{get:function(){return this._destroyed?[0,0]:this._shapeVector},set:function(t){if(Array.isArray(t)||(t=[0|t,0|t]),2!==t.length)throw new Error("gl-fbo: Shape vector must be length 2");var e=0|t[0],r=0|t[1];return h(this,e,r),[e,r]},enumerable:!1},width:{get:function(){return this._destroyed?0:this._shape[0]},set:function(t){return t=0|t,h(this,t,this._shape[1]),t},enumerable:!1},height:{get:function(){return this._destroyed?0:this._shape[1]},set:function(t){return t=0|t,h(this,this._shape[0],t),t},enumerable:!1}}),b.bind=function(){if(!this._destroyed){var t=this.gl;t.bindFramebuffer(t.FRAMEBUFFER,this.handle),t.viewport(0,0,this._shape[0],this._shape[1])}},b.dispose=function(){if(!this._destroyed){this._destroyed=!0;var t=this.gl;t.deleteFramebuffer(this.handle),this.handle=null,this.depth&&(this.depth.dispose(),this.depth=null),this._depth_rb&&(t.deleteRenderbuffer(this._depth_rb),this._depth_rb=null);for(var e=0;e<this.color.length;++e)this.color[e].dispose(),this.color[e]=null;this._color_rb&&(t.deleteRenderbuffer(this._color_rb),this._color_rb=null)}}},{"gl-texture2d":233}],135:[function(t,e,r){r.lineVertex="precision mediump float;\n#define GLSLIFY 1\n\nfloat inverse_1_0(float m) {\n  return 1.0 / m;\n}\n\nmat2 inverse_1_0(mat2 m) {\n  return mat2(m[1][1],-m[0][1],\n             -m[1][0], m[0][0]) / (m[0][0]*m[1][1] - m[0][1]*m[1][0]);\n}\n\nmat3 inverse_1_0(mat3 m) {\n  float a00 = m[0][0], a01 = m[0][1], a02 = m[0][2];\n  float a10 = m[1][0], a11 = m[1][1], a12 = m[1][2];\n  float a20 = m[2][0], a21 = m[2][1], a22 = m[2][2];\n\n  float b01 = a22 * a11 - a12 * a21;\n  float b11 = -a22 * a10 + a12 * a20;\n  float b21 = a21 * a10 - a11 * a20;\n\n  float det = a00 * b01 + a01 * b11 + a02 * b21;\n\n  return mat3(b01, (-a22 * a01 + a02 * a21), (a12 * a01 - a02 * a11),\n              b11, (a22 * a00 - a02 * a20), (-a12 * a00 + a02 * a10),\n              b21, (-a21 * a00 + a01 * a20), (a11 * a00 - a01 * a10)) / det;\n}\n\nmat4 inverse_1_0(mat4 m) {\n  float\n      a00 = m[0][0], a01 = m[0][1], a02 = m[0][2], a03 = m[0][3],\n      a10 = m[1][0], a11 = m[1][1], a12 = m[1][2], a13 = m[1][3],\n      a20 = m[2][0], a21 = m[2][1], a22 = m[2][2], a23 = m[2][3],\n      a30 = m[3][0], a31 = m[3][1], a32 = m[3][2], a33 = m[3][3],\n\n      b00 = a00 * a11 - a01 * a10,\n      b01 = a00 * a12 - a02 * a10,\n      b02 = a00 * a13 - a03 * a10,\n      b03 = a01 * a12 - a02 * a11,\n      b04 = a01 * a13 - a03 * a11,\n      b05 = a02 * a13 - a03 * a12,\n      b06 = a20 * a31 - a21 * a30,\n      b07 = a20 * a32 - a22 * a30,\n      b08 = a20 * a33 - a23 * a30,\n      b09 = a21 * a32 - a22 * a31,\n      b10 = a21 * a33 - a23 * a31,\n      b11 = a22 * a33 - a23 * a32,\n\n      det = b00 * b11 - b01 * b10 + b02 * b09 + b03 * b08 - b04 * b07 + b05 * b06;\n\n  return mat4(\n      a11 * b11 - a12 * b10 + a13 * b09,\n      a02 * b10 - a01 * b11 - a03 * b09,\n      a31 * b05 - a32 * b04 + a33 * b03,\n      a22 * b04 - a21 * b05 - a23 * b03,\n      a12 * b08 - a10 * b11 - a13 * b07,\n      a00 * b11 - a02 * b08 + a03 * b07,\n      a32 * b02 - a30 * b05 - a33 * b01,\n      a20 * b05 - a22 * b02 + a23 * b01,\n      a10 * b10 - a11 * b08 + a13 * b06,\n      a01 * b08 - a00 * b10 - a03 * b06,\n      a30 * b04 - a31 * b02 + a33 * b00,\n      a21 * b02 - a20 * b04 - a23 * b00,\n      a11 * b07 - a10 * b09 - a12 * b06,\n      a00 * b09 - a01 * b07 + a02 * b06,\n      a31 * b01 - a30 * b03 - a32 * b00,\n      a20 * b03 - a21 * b01 + a22 * b00) / det;\n}\n\n\n\nattribute vec2 a, d;\n\nuniform mat3 matrix;\nuniform vec2 screenShape;\nuniform float width;\n\nvarying vec2 direction;\n\nvoid main() {\n  vec2 dir = (matrix * vec3(d, 0)).xy;\n  vec3 base = matrix * vec3(a, 1);\n  vec2 n = 0.5 * width *\n    normalize(screenShape.yx * vec2(dir.y, -dir.x)) / screenShape.xy;\n  vec2 tangent = normalize(screenShape.xy * dir);\n  if(dir.x < 0.0 || (dir.x == 0.0 && dir.y < 0.0)) {\n    direction = -tangent;\n  } else {\n    direction = tangent;\n  }\n  gl_Position = vec4(base.xy/base.z + n, 0, 1);\n}\n",r.lineFragment="precision mediump float;\n#define GLSLIFY 1\n\nuniform vec4 color;\nuniform vec2 screenShape;\nuniform sampler2D dashPattern;\nuniform float dashLength;\n\nvarying vec2 direction;\n\nvoid main() {\n  float t = fract(dot(direction, gl_FragCoord.xy) / dashLength);\n  vec4 pcolor = color * texture2D(dashPattern, vec2(t, 0.0)).r;\n  gl_FragColor = vec4(pcolor.rgb * pcolor.a, pcolor.a);\n}\n",r.mitreVertex="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 p;\n\nuniform mat3  matrix;\nuniform vec2 screenShape;\nuniform float radius;\n\nvoid main() {\n  vec3 pp = matrix * vec3(p, 1);\n  gl_Position  = vec4(pp.xy, 0, pp.z);\n  gl_PointSize = radius;\n}\n",r.mitreFragment="precision mediump float;\n#define GLSLIFY 1\n\nuniform vec4 color;\n\nvoid main() {\n  if(length(gl_PointCoord.xy - 0.5) > 0.25) {\n    discard;\n  }\n  gl_FragColor = vec4(color.rgb, color.a);\n}\n",r.pickVertex="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 a, d;\nattribute vec4 pick0, pick1;\n\nuniform mat3 matrix;\nuniform vec2 screenShape;\nuniform float width;\n\nvarying vec4 pickA, pickB;\n\nfloat inverse_1_0(float m) {\n  return 1.0 / m;\n}\n\nmat2 inverse_1_0(mat2 m) {\n  return mat2(m[1][1],-m[0][1],\n             -m[1][0], m[0][0]) / (m[0][0]*m[1][1] - m[0][1]*m[1][0]);\n}\n\nmat3 inverse_1_0(mat3 m) {\n  float a00 = m[0][0], a01 = m[0][1], a02 = m[0][2];\n  float a10 = m[1][0], a11 = m[1][1], a12 = m[1][2];\n  float a20 = m[2][0], a21 = m[2][1], a22 = m[2][2];\n\n  float b01 = a22 * a11 - a12 * a21;\n  float b11 = -a22 * a10 + a12 * a20;\n  float b21 = a21 * a10 - a11 * a20;\n\n  float det = a00 * b01 + a01 * b11 + a02 * b21;\n\n  return mat3(b01, (-a22 * a01 + a02 * a21), (a12 * a01 - a02 * a11),\n              b11, (a22 * a00 - a02 * a20), (-a12 * a00 + a02 * a10),\n              b21, (-a21 * a00 + a01 * a20), (a11 * a00 - a01 * a10)) / det;\n}\n\nmat4 inverse_1_0(mat4 m) {\n  float\n      a00 = m[0][0], a01 = m[0][1], a02 = m[0][2], a03 = m[0][3],\n      a10 = m[1][0], a11 = m[1][1], a12 = m[1][2], a13 = m[1][3],\n      a20 = m[2][0], a21 = m[2][1], a22 = m[2][2], a23 = m[2][3],\n      a30 = m[3][0], a31 = m[3][1], a32 = m[3][2], a33 = m[3][3],\n\n      b00 = a00 * a11 - a01 * a10,\n      b01 = a00 * a12 - a02 * a10,\n      b02 = a00 * a13 - a03 * a10,\n      b03 = a01 * a12 - a02 * a11,\n      b04 = a01 * a13 - a03 * a11,\n      b05 = a02 * a13 - a03 * a12,\n      b06 = a20 * a31 - a21 * a30,\n      b07 = a20 * a32 - a22 * a30,\n      b08 = a20 * a33 - a23 * a30,\n      b09 = a21 * a32 - a22 * a31,\n      b10 = a21 * a33 - a23 * a31,\n      b11 = a22 * a33 - a23 * a32,\n\n      det = b00 * b11 - b01 * b10 + b02 * b09 + b03 * b08 - b04 * b07 + b05 * b06;\n\n  return mat4(\n      a11 * b11 - a12 * b10 + a13 * b09,\n      a02 * b10 - a01 * b11 - a03 * b09,\n      a31 * b05 - a32 * b04 + a33 * b03,\n      a22 * b04 - a21 * b05 - a23 * b03,\n      a12 * b08 - a10 * b11 - a13 * b07,\n      a00 * b11 - a02 * b08 + a03 * b07,\n      a32 * b02 - a30 * b05 - a33 * b01,\n      a20 * b05 - a22 * b02 + a23 * b01,\n      a10 * b10 - a11 * b08 + a13 * b06,\n      a01 * b08 - a00 * b10 - a03 * b06,\n      a30 * b04 - a31 * b02 + a33 * b00,\n      a21 * b02 - a20 * b04 - a23 * b00,\n      a11 * b07 - a10 * b09 - a12 * b06,\n      a00 * b09 - a01 * b07 + a02 * b06,\n      a31 * b01 - a30 * b03 - a32 * b00,\n      a20 * b03 - a21 * b01 + a22 * b00) / det;\n}\n\n\n\nvoid main() {\n  vec3 base = matrix * vec3(a, 1);\n  vec2 n = width *\n    normalize(screenShape.yx * vec2(d.y, -d.x)) / screenShape.xy;\n  gl_Position = vec4(base.xy/base.z + n, 0, 1);\n  pickA = pick0;\n  pickB = pick1;\n}\n",r.pickFragment="precision mediump float;\n#define GLSLIFY 1\n\nuniform vec4 pickOffset;\n\nvarying vec4 pickA, pickB;\n\nvoid main() {\n  vec4 fragId = vec4(pickA.xyz, 0.0);\n  if(pickB.w > pickA.w) {\n    fragId.xyz = pickB.xyz;\n  }\n\n  fragId += pickOffset;\n\n  fragId.y += floor(fragId.x / 256.0);\n  fragId.x -= floor(fragId.x / 256.0) * 256.0;\n\n  fragId.z += floor(fragId.y / 256.0);\n  fragId.y -= floor(fragId.y / 256.0) * 256.0;\n\n  fragId.w += floor(fragId.z / 256.0);\n  fragId.z -= floor(fragId.z / 256.0) * 256.0;\n\n  gl_FragColor = fragId / 255.0;\n}\n",r.fillVertex="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 a, d;\n\nuniform mat3 matrix;\nuniform vec2 projectAxis;\nuniform float projectValue;\nuniform float depth;\n\nvoid main() {\n  vec3 base = matrix * vec3(a, 1);\n  vec2 p = base.xy / base.z;\n  if(d.y < 0.0 || (d.y == 0.0 && d.x < 0.0)) {\n    if(dot(p, projectAxis) < projectValue) {\n      p = p * (1.0 - abs(projectAxis)) + projectAxis * projectValue;\n    }\n  }\n  gl_Position = vec4(p, depth, 1);\n}\n",r.fillFragment="precision mediump float;\n#define GLSLIFY 1\n\nuniform vec4 color;\n\nvoid main() {\n  gl_FragColor = vec4(color.rgb * color.a, color.a);\n}\n"},{}],136:[function(t,e,r){"use strict";function n(t,e,r,n,i,o,a,s){this.plot=t,this.dashPattern=e,this.lineBuffer=r,this.pickBuffer=n,this.lineShader=i,this.mitreShader=o,this.fillShader=a,this.pickShader=s,this.usingDashes=!1,this.bounds=[1/0,1/0,-(1/0),-(1/0)],this.width=1,this.color=[0,0,1,1],this.fill=[!1,!1,!1,!1],this.fillColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.data=null,this.numPoints=0,this.vertCount=0,this.pickOffset=0,this.lodBuffer=[]}function i(t){return t.map(function(t){return t.slice()})}function o(t,e){var r=t.gl,i=s(r),o=s(r),u=l(r,[1,1]),c=a(r,h.lineVertex,h.lineFragment),f=a(r,h.mitreVertex,h.mitreFragment),p=a(r,h.fillVertex,h.fillFragment),d=a(r,h.pickVertex,h.pickFragment),m=new n(t,u,i,o,c,f,p,d);return t.addObject(m),m.update(e),m}e.exports=o;var a=t("gl-shader"),s=t("gl-buffer"),l=t("gl-texture2d"),u=t("ndarray"),c=t("typedarray-pool"),h=t("./lib/shaders"),f=n.prototype;f.draw=function(){var t=[1,0,0,0,1,0,0,0,1],e=[0,0],r=[1,0],n=[-1,0],i=[0,1],o=[0,-1];return function(){var a=this.plot,s=this.color,l=this.width,u=(this.numPoints,this.bounds),c=this.vertCount;if(c){var h=a.gl,f=a.viewBox,p=a.dataBox,d=a.pixelRatio,m=u[2]-u[0],g=u[3]-u[1],v=p[2]-p[0],y=p[3]-p[1],b=f[2]-f[0],x=f[3]-f[1];t[0]=2*m/v,t[4]=2*g/y,t[6]=2*(u[0]-p[0])/v-1,t[7]=2*(u[1]-p[1])/y-1,e[0]=b,e[1]=x;var _=this.lineBuffer;_.bind();var w=this.fill;if(w[0]||w[1]||w[2]||w[3]){var M=this.fillShader;M.bind();var k=M.uniforms;k.matrix=t,k.depth=a.nextDepthValue();var A=M.attributes;A.a.pointer(h.FLOAT,!1,16,0),A.d.pointer(h.FLOAT,!1,16,8),h.depthMask(!0),h.enable(h.DEPTH_TEST);var T=this.fillColor;w[0]&&(k.color=T[0],k.projectAxis=n,k.projectValue=1,h.drawArrays(h.TRIANGLES,0,c)),w[1]&&(k.color=T[1],k.projectAxis=o,k.projectValue=1,h.drawArrays(h.TRIANGLES,0,c)),w[2]&&(k.color=T[2],k.projectAxis=r,k.projectValue=1,h.drawArrays(h.TRIANGLES,0,c)),w[3]&&(k.color=T[3],k.projectAxis=i,k.projectValue=1,h.drawArrays(h.TRIANGLES,0,c)),h.depthMask(!1),h.disable(h.DEPTH_TEST)}var E=this.lineShader;E.bind();var S=E.uniforms;S.matrix=t,S.color=s,S.width=l*d,S.screenShape=e,S.dashPattern=this.dashPattern.bind(),S.dashLength=this.dashLength*d;var L=E.attributes;if(L.a.pointer(h.FLOAT,!1,16,0),L.d.pointer(h.FLOAT,!1,16,8),h.drawArrays(h.TRIANGLES,0,c),l>2&&!this.usingDashes){var z=this.mitreShader;z.bind();var I=z.uniforms;I.matrix=t,I.color=s,I.screenShape=e,I.radius=l*d,z.attributes.p.pointer(h.FLOAT,!1,48,0),h.drawArrays(h.POINTS,0,c/3|0)}}}}(),f.drawPick=function(){var t=[1,0,0,0,1,0,0,0,1],e=[0,0],r=[0,0,0,0];return function(n){var i=this.plot,o=this.pickShader,a=this.lineBuffer,s=this.pickBuffer,l=this.width,u=this.numPoints,c=this.bounds,h=this.vertCount,f=i.gl,p=i.viewBox,d=i.dataBox,m=i.pickPixelRatio,g=c[2]-c[0],v=c[3]-c[1],y=d[2]-d[0],b=d[3]-d[1],x=p[2]-p[0],_=p[3]-p[1];if(this.pickOffset=n,!h)return n+u;t[0]=2*g/y,t[4]=2*v/b,t[6]=2*(c[0]-d[0])/y-1,t[7]=2*(c[1]-d[1])/b-1,e[0]=x,e[1]=_,r[0]=255&n,r[1]=n>>>8&255,r[2]=n>>>16&255,r[3]=n>>>24,o.bind();var w=o.uniforms;w.matrix=t,w.width=l*m,w.pickOffset=r,w.screenShape=e;var M=o.attributes;return a.bind(),M.a.pointer(f.FLOAT,!1,16,0),M.d.pointer(f.FLOAT,!1,16,8),s.bind(),M.pick0.pointer(f.UNSIGNED_BYTE,!1,8,0),M.pick1.pointer(f.UNSIGNED_BYTE,!1,8,4),f.drawArrays(f.TRIANGLES,0,h),n+u}}(),f.pick=function(t,e,r){var n=this.pickOffset,i=this.numPoints;if(n>r||r>=n+i)return null;var o=r-n,a=this.data;return{object:this,pointId:o,dataCoord:[a[2*o],a[2*o+1]]}},f.update=function(t){t=t||{};var e=this.plot.gl;!!t.connectGaps;this.color=(t.color||[0,0,1,1]).slice(),this.width=+(t.width||1),this.fill=(t.fill||[!1,!1,!1,!1]).slice(),this.fillColor=i(t.fillColor||[[0,0,0,1],[0,0,0,1],[0,0,0,1],[0,0,0,1]]);for(var r=t.dashes||[1],n=0,o=0;o<r.length;++o)n+=r[o];for(var a=c.mallocUint8(n),s=0,h=255,o=0;o<r.length;++o){for(var f=0;f<r[o];++f)a[s++]=h;h^=255}this.dashPattern.dispose(),this.usingDashes=r.length>1,this.dashPattern=l(e,u(a,[n,1,4],[1,0,0])),this.dashPattern.minFilter=e.NEAREST,this.dashPattern.magFilter=e.NEAREST,this.dashLength=n,c.free(a);var p=t.positions;this.data=p;var d=this.bounds;d[0]=d[1]=1/0,d[2]=d[3]=-(1/0);var m=this.numPoints=p.length>>>1;if(0!==m){for(var o=0;m>o;++o){var g=p[2*o],v=p[2*o+1];isNaN(g)||isNaN(v)||(d[0]=Math.min(d[0],g),d[1]=Math.min(d[1],v),d[2]=Math.max(d[2],g),d[3]=Math.max(d[3],v))}d[0]===d[2]&&(d[2]+=1),d[3]===d[1]&&(d[3]+=1);for(var y=c.mallocFloat32(24*(m-1)),b=c.mallocUint32(12*(m-1)),x=y.length,_=b.length,s=m,w=0;s>1;){var M=--s,g=p[2*s],v=p[2*s+1],k=M-1,A=p[2*k],T=p[2*k+1];if(!(isNaN(g)||isNaN(v)||isNaN(A)||isNaN(T))){w+=1,g=(g-d[0])/(d[2]-d[0]),v=(v-d[1])/(d[3]-d[1]),A=(A-d[0])/(d[2]-d[0]),T=(T-d[1])/(d[3]-d[1]);var E=A-g,S=T-v,L=M|1<<24,z=M-1,I=M,P=M-1|1<<24;y[--x]=-S,y[--x]=-E,y[--x]=v,y[--x]=g,b[--_]=L,b[--_]=z,y[--x]=S,y[--x]=E,y[--x]=T,y[--x]=A,b[--_]=I,b[--_]=P,y[--x]=-S,y[--x]=-E,y[--x]=T,y[--x]=A,b[--_]=I,b[--_]=P,y[--x]=S,y[--x]=E,y[--x]=T,y[--x]=A,b[--_]=I,b[--_]=P,y[--x]=-S,y[--x]=-E,y[--x]=v,y[--x]=g,b[--_]=L,b[--_]=z,y[--x]=S,y[--x]=E,y[--x]=v,y[--x]=g,b[--_]=L,b[--_]=z}}this.vertCount=6*w,this.lineBuffer.update(y.subarray(x)),this.pickBuffer.update(b.subarray(_)),c.free(y),c.free(b)}},f.dispose=function(){this.plot.removeObject(this),this.lineBuffer.dispose(),this.pickBuffer.dispose(),this.lineShader.dispose(),this.mitreShader.dispose(),this.fillShader.dispose(),this.pickShader.dispose(),this.dashPattern.dispose()}},{"./lib/shaders":135,"gl-buffer":129,"gl-shader":208,"gl-texture2d":233,ndarray:456,"typedarray-pool":481}],137:[function(t,e,r){var n=t("gl-shader"),i="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position, nextPosition;\nattribute float arcLength, lineWidth;\nattribute vec4 color;\n\nuniform vec2 screenShape;\nuniform float pixelRatio;\nuniform mat4 model, view, projection;\n\nvarying vec4 fragColor;\nvarying vec3 worldPosition;\nvarying float pixelArcLength;\n\nvoid main() {\n  vec4 projected = projection * view * model * vec4(position, 1.0);\n  vec4 tangentClip = projection * view * model * vec4(nextPosition - position, 0.0);\n  vec2 tangent = normalize(screenShape * tangentClip.xy);\n  vec2 offset = 0.5 * pixelRatio * lineWidth * vec2(tangent.y, -tangent.x) / screenShape;\n\n  gl_Position = vec4(projected.xy + projected.w * offset, projected.zw);\n\n  worldPosition = position;\n  pixelArcLength = arcLength;\n  fragColor = color;\n}\n",o="precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3      clipBounds[2];\nuniform sampler2D dashTexture;\nuniform float     dashScale;\nuniform float     opacity;\n\nvarying vec3    worldPosition;\nvarying float   pixelArcLength;\nvarying vec4    fragColor;\n\nvoid main() {\n  if(any(lessThan(worldPosition, clipBounds[0])) || any(greaterThan(worldPosition, clipBounds[1]))) {\n    discard;\n  }\n  float dashWeight = texture2D(dashTexture, vec2(dashScale * pixelArcLength, 0)).r;\n  if(dashWeight < 0.5) {\n    discard;\n  }\n  gl_FragColor = fragColor * opacity;\n}\n",a="precision mediump float;\n#define GLSLIFY 1\n\n#define FLOAT_MAX  1.70141184e38\n#define FLOAT_MIN  1.17549435e-38\n\nlowp vec4 encode_float_1_0(highp float v) {\n  highp float av = abs(v);\n\n  //Handle special cases\n  if(av < FLOAT_MIN) {\n    return vec4(0.0, 0.0, 0.0, 0.0);\n  } else if(v > FLOAT_MAX) {\n    return vec4(127.0, 128.0, 0.0, 0.0) / 255.0;\n  } else if(v < -FLOAT_MAX) {\n    return vec4(255.0, 128.0, 0.0, 0.0) / 255.0;\n  }\n\n  highp vec4 c = vec4(0,0,0,0);\n\n  //Compute exponent and mantissa\n  highp float e = floor(log2(av));\n  highp float m = av * pow(2.0, -e) - 1.0;\n  \n  //Unpack mantissa\n  c[1] = floor(128.0 * m);\n  m -= c[1] / 128.0;\n  c[2] = floor(32768.0 * m);\n  m -= c[2] / 32768.0;\n  c[3] = floor(8388608.0 * m);\n  \n  //Unpack exponent\n  highp float ebias = e + 127.0;\n  c[0] = floor(ebias / 2.0);\n  ebias -= c[0] * 2.0;\n  c[1] += floor(ebias) * 128.0; \n\n  //Unpack sign bit\n  c[0] += 128.0 * step(0.0, -v);\n\n  //Scale back to range\n  return c / 255.0;\n}\n\n\n\nuniform float pickId;\nuniform vec3 clipBounds[2];\n\nvarying vec3 worldPosition;\nvarying float pixelArcLength;\nvarying vec4 fragColor;\n\nvoid main() {\n  if(any(lessThan(worldPosition, clipBounds[0])) || any(greaterThan(worldPosition, clipBounds[1]))) {\n    discard;\n  }\n  gl_FragColor = vec4(pickId/255.0, encode_float_1_0(pixelArcLength).xyz);\n}",s=[{name:"position",type:"vec3"},{name:"nextPosition",type:"vec3"},{name:"arcLength",type:"float"},{name:"lineWidth",type:"float"},{name:"color",type:"vec4"}];r.createShader=function(t){return n(t,i,o,null,s)},r.createPickShader=function(t){return n(t,i,a,null,s)}},{"gl-shader":208}],138:[function(t,e,r){"use strict";function n(t,e){for(var r=0,n=0;3>n;++n){var i=t[n]-e[n];r+=i*i}return Math.sqrt(r)}function i(t){for(var e=[[-1e6,-1e6,-1e6],[1e6,1e6,1e6]],r=0;3>r;++r)e[0][r]=Math.max(t[0][r],e[0][r]),e[1][r]=Math.min(t[1][r],e[1][r]);return e}function o(t,e,r,n){this.arcLength=t,this.position=e,this.index=r,this.dataCoordinate=n}function a(t,e,r,n,i,o){this.gl=t,this.shader=e,this.pickShader=r,this.buffer=n,this.vao=i,this.clipBounds=[[-(1/0),-(1/0),-(1/0)],[1/0,1/0,1/0]],this.points=[],this.arcLength=[],this.vertexCount=0,this.bounds=[[0,0,0],[0,0,0]],this.pickId=0,this.lineWidth=1,this.texture=o,this.dashScale=1,this.opacity=1,this.dirty=!0,this.pixelRatio=1}function s(t){var e=t.gl||t.scene&&t.scene.gl,r=m(e);r.attributes.position.location=0,r.attributes.nextPosition.location=1,r.attributes.arcLength.location=2,r.attributes.lineWidth.location=3,r.attributes.color.location=4;var n=g(e);n.attributes.position.location=0,n.attributes.nextPosition.location=1,n.attributes.arcLength.location=2,n.attributes.lineWidth.location=3,n.attributes.color.location=4;for(var i=l(e),o=u(e,[{buffer:i,size:3,offset:0,stride:48},{buffer:i,size:3,offset:12,stride:48},{buffer:i,size:1,offset:24,stride:48},{buffer:i,size:1,offset:28,stride:48},{buffer:i,size:4,offset:32,stride:48}]),s=p(new Array(1024),[256,1,4]),h=0;1024>h;++h)s.data[h]=255;var f=c(e,s);f.wrap=e.REPEAT;var d=new a(e,r,n,i,o,f);return d.update(t),d}e.exports=s;var l=t("gl-buffer"),u=t("gl-vao"),c=t("gl-texture2d"),h=t("glsl-read-float"),f=t("binary-search-bounds"),p=t("ndarray"),d=t("./lib/shaders"),m=d.createShader,g=d.createPickShader,v=[1,0,0,0,0,1,0,0,0,0,1,0,0,0,0,1],y=a.prototype;y.isTransparent=function(){return this.opacity<1},y.isOpaque=function(){return this.opacity>=1},y.pickSlots=1,y.setPickBase=function(t){this.pickId=t},y.drawTransparent=y.draw=function(t){var e=this.gl,r=this.shader,n=this.vao;r.bind(),r.uniforms={model:t.model||v,view:t.view||v,projection:t.projection||v,clipBounds:i(this.clipBounds),dashTexture:this.texture.bind(),dashScale:this.dashScale/this.arcLength[this.arcLength.length-1],opacity:this.opacity,screenShape:[e.drawingBufferWidth,e.drawingBufferHeight],pixelRatio:this.pixelRatio},n.bind(),n.draw(e.TRIANGLE_STRIP,this.vertexCount)},y.drawPick=function(t){var e=this.gl,r=this.pickShader,n=this.vao;r.bind(),r.uniforms={model:t.model||v,view:t.view||v,projection:t.projection||v,pickId:this.pickId,clipBounds:i(this.clipBounds),screenShape:[e.drawingBufferWidth,e.drawingBufferHeight],pixelRatio:this.pixelRatio},n.bind(),n.draw(e.TRIANGLE_STRIP,this.vertexCount)},y.update=function(t){var e,r;this.dirty=!0;var i=!!t.connectGaps;"dashScale"in t&&(this.dashScale=t.dashScale),"opacity"in t&&(this.opacity=+t.opacity);var o=t.position||t.positions;if(o){var a=t.color||t.colors||[0,0,0,1],s=t.lineWidth||1,l=[],u=[],c=[],h=0,d=0,m=[[1/0,1/0,1/0],[-(1/0),-(1/0),-(1/0)]],g=!1;t:for(e=1;e<o.length;++e){var v=o[e-1],y=o[e];for(u.push(h),c.push(v.slice()),r=0;3>r;++r){if(isNaN(v[r])||isNaN(y[r])||!isFinite(v[r])||!isFinite(y[r])){if(!i&&l.length>0){for(var b=0;24>b;++b)l.push(l[l.length-12]);d+=2,g=!0}continue t}m[0][r]=Math.min(m[0][r],v[r],y[r]),m[1][r]=Math.max(m[1][r],v[r],y[r])}var x,_;Array.isArray(a[0])?(x=a[e-1],_=a[e]):x=_=a,3===x.length&&(x=[x[0],x[1],x[2],1]),3===_.length&&(_=[_[0],_[1],_[2],1]);var w;w=Array.isArray(s)?s[e-1]:s;var M=h;if(h+=n(v,y),g){for(r=0;2>r;++r)l.push(v[0],v[1],v[2],y[0],y[1],y[2],M,w,x[0],x[1],x[2],x[3]);d+=2,g=!1}l.push(v[0],v[1],v[2],y[0],y[1],y[2],M,w,x[0],x[1],x[2],x[3],v[0],v[1],v[2],y[0],y[1],y[2],M,-w,x[0],x[1],x[2],x[3],y[0],y[1],y[2],v[0],v[1],v[2],h,-w,_[0],_[1],_[2],_[3],y[0],y[1],y[2],v[0],v[1],v[2],h,w,_[0],_[1],_[2],_[3]),d+=4}if(this.buffer.update(l),u.push(h),c.push(o[o.length-1].slice()),this.bounds=m,this.vertexCount=d,this.points=c,this.arcLength=u,"dashes"in t){var k=t.dashes,A=k.slice();for(A.unshift(0),e=1;e<A.length;++e)A[e]=A[e-1]+A[e];var T=p(new Array(1024),[256,1,4]);for(e=0;256>e;++e){for(r=0;4>r;++r)T.set(e,0,r,0);1&f.le(A,A[A.length-1]*e/255)?T.set(e,0,0,0):T.set(e,0,0,255)}this.texture.setPixels(T)}}},y.dispose=function(){this.shader.dispose(),this.vao.dispose(),this.buffer.dispose()},y.pick=function(t){if(!t)return null;if(t.id!==this.pickId)return null;var e=h(t.value[0],t.value[1],t.value[2],0),r=f.le(this.arcLength,e);if(0>r)return null;if(r===this.arcLength.length-1)return new o(this.arcLength[this.arcLength.length-1],this.points[this.points.length-1].slice(),r);for(var n=this.points[r],i=this.points[Math.min(r+1,this.points.length-1)],a=(e-this.arcLength[r])/(this.arcLength[r+1]-this.arcLength[r]),s=1-a,l=[0,0,0],u=0;3>u;++u)l[u]=s*n[u]+a*i[u];var c=Math.min(.5>a?r:r+1,this.points.length-1);return new o(e,l,c,this.points[c])}},{"./lib/shaders":137,"binary-search-bounds":139,"gl-buffer":129,"gl-texture2d":233,"gl-vao":237,"glsl-read-float":140,ndarray:456}],139:[function(t,e,r){arguments[4][22][0].apply(r,arguments)},{dup:22}],140:[function(t,e,r){function n(t,e,r,n){return i[0]=n,i[1]=r,i[2]=e,i[3]=t,o[0]}e.exports=n;var i=new Uint8Array(4),o=new Float32Array(i.buffer)},{}],141:[function(t,e,r){function n(t,e){var r=e[0],n=e[1],i=e[2],o=e[3],a=e[4],s=e[5],l=e[6],u=e[7],c=e[8],h=c*a-s*u,f=-c*o+s*l,p=u*o-a*l,d=r*h+n*f+i*p;return d?(d=1/d,t[0]=h*d,t[1]=(-c*n+i*u)*d,t[2]=(s*n-i*a)*d,t[3]=f*d,t[4]=(c*r-i*l)*d,t[5]=(-s*r+i*o)*d,t[6]=p*d,t[7]=(-u*r+n*l)*d,t[8]=(a*r-n*o)*d,t):null}e.exports=n},{}],142:[function(t,e,r){function n(t){var e=new Float32Array(16);return e[0]=t[0],e[1]=t[1],e[2]=t[2],e[3]=t[3],e[4]=t[4],e[5]=t[5],e[6]=t[6],e[7]=t[7],e[8]=t[8],e[9]=t[9],e[10]=t[10],e[11]=t[11],e[12]=t[12],e[13]=t[13],e[14]=t[14],e[15]=t[15],e}e.exports=n},{}],143:[function(t,e,r){function n(){var t=new Float32Array(16);return t[0]=1,t[1]=0,t[2]=0,t[3]=0,t[4]=0,t[5]=1,t[6]=0,t[7]=0,t[8]=0,t[9]=0,t[10]=1,t[11]=0,t[12]=0,t[13]=0,t[14]=0,t[15]=1,t}e.exports=n},{}],144:[function(t,e,r){function n(t){var e=t[0],r=t[1],n=t[2],i=t[3],o=t[4],a=t[5],s=t[6],l=t[7],u=t[8],c=t[9],h=t[10],f=t[11],p=t[12],d=t[13],m=t[14],g=t[15],v=e*a-r*o,y=e*s-n*o,b=e*l-i*o,x=r*s-n*a,_=r*l-i*a,w=n*l-i*s,M=u*d-c*p,k=u*m-h*p,A=u*g-f*p,T=c*m-h*d,E=c*g-f*d,S=h*g-f*m;return v*S-y*E+b*T+x*A-_*k+w*M}e.exports=n},{}],145:[function(t,e,r){function n(t,e){var r=e[0],n=e[1],i=e[2],o=e[3],a=r+r,s=n+n,l=i+i,u=r*a,c=n*a,h=n*s,f=i*a,p=i*s,d=i*l,m=o*a,g=o*s,v=o*l;return t[0]=1-h-d,t[1]=c+v,t[2]=f-g,t[3]=0,t[4]=c-v,t[5]=1-u-d,t[6]=p+m,t[7]=0,t[8]=f+g,t[9]=p-m,t[10]=1-u-h,t[11]=0,t[12]=0,t[13]=0,t[14]=0,t[15]=1,t}e.exports=n},{}],146:[function(t,e,r){function n(t,e,r){var n=e[0],i=e[1],o=e[2],a=e[3],s=n+n,l=i+i,u=o+o,c=n*s,h=n*l,f=n*u,p=i*l,d=i*u,m=o*u,g=a*s,v=a*l,y=a*u;return t[0]=1-(p+m),t[1]=h+y,t[2]=f-v,t[3]=0,t[4]=h-y,t[5]=1-(c+m),t[6]=d+g,t[7]=0,t[8]=f+v,t[9]=d-g,t[10]=1-(c+p),t[11]=0,t[12]=r[0],t[13]=r[1],t[14]=r[2],t[15]=1,t}e.exports=n},{}],147:[function(t,e,r){function n(t){return t[0]=1,t[1]=0,t[2]=0,t[3]=0,t[4]=0,t[5]=1,t[6]=0,t[7]=0,t[8]=0,t[9]=0,t[10]=1,t[11]=0,t[12]=0,t[13]=0,t[14]=0,t[15]=1,t}e.exports=n},{}],148:[function(t,e,r){function n(t,e){var r=e[0],n=e[1],i=e[2],o=e[3],a=e[4],s=e[5],l=e[6],u=e[7],c=e[8],h=e[9],f=e[10],p=e[11],d=e[12],m=e[13],g=e[14],v=e[15],y=r*s-n*a,b=r*l-i*a,x=r*u-o*a,_=n*l-i*s,w=n*u-o*s,M=i*u-o*l,k=c*m-h*d,A=c*g-f*d,T=c*v-p*d,E=h*g-f*m,S=h*v-p*m,L=f*v-p*g,z=y*L-b*S+x*E+_*T-w*A+M*k;return z?(z=1/z,t[0]=(s*L-l*S+u*E)*z,t[1]=(i*S-n*L-o*E)*z,t[2]=(m*M-g*w+v*_)*z,t[3]=(f*w-h*M-p*_)*z,t[4]=(l*T-a*L-u*A)*z,t[5]=(r*L-i*T+o*A)*z,t[6]=(g*x-d*M-v*b)*z,t[7]=(c*M-f*x+p*b)*z,t[8]=(a*S-s*T+u*k)*z,t[9]=(n*T-r*S-o*k)*z,t[10]=(d*w-m*x+v*y)*z,t[11]=(h*x-c*w-p*y)*z,t[12]=(s*A-a*E-l*k)*z,t[13]=(r*E-n*A+i*k)*z,t[14]=(m*b-d*_-g*y)*z,t[15]=(c*_-h*b+f*y)*z,t):null}e.exports=n},{}],149:[function(t,e,r){function n(t,e,r,n){var o,a,s,l,u,c,h,f,p,d,m=e[0],g=e[1],v=e[2],y=n[0],b=n[1],x=n[2],_=r[0],w=r[1],M=r[2];return Math.abs(m-_)<1e-6&&Math.abs(g-w)<1e-6&&Math.abs(v-M)<1e-6?i(t):(h=m-_,f=g-w,p=v-M,d=1/Math.sqrt(h*h+f*f+p*p),h*=d,f*=d,p*=d,o=b*p-x*f,a=x*h-y*p,s=y*f-b*h,d=Math.sqrt(o*o+a*a+s*s),d?(d=1/d,o*=d,a*=d,s*=d):(o=0,a=0,s=0),l=f*s-p*a,u=p*o-h*s,c=h*a-f*o,d=Math.sqrt(l*l+u*u+c*c),d?(d=1/d,l*=d,u*=d,c*=d):(l=0,u=0,c=0),t[0]=o,t[1]=l,t[2]=h,t[3]=0,t[4]=a,t[5]=u,t[6]=f,t[7]=0,t[8]=s,t[9]=c,t[10]=p,t[11]=0,t[12]=-(o*m+a*g+s*v),t[13]=-(l*m+u*g+c*v),t[14]=-(h*m+f*g+p*v),t[15]=1,t)}var i=t("./identity");e.exports=n},{"./identity":147}],150:[function(t,e,r){function n(t,e,r){var n=e[0],i=e[1],o=e[2],a=e[3],s=e[4],l=e[5],u=e[6],c=e[7],h=e[8],f=e[9],p=e[10],d=e[11],m=e[12],g=e[13],v=e[14],y=e[15],b=r[0],x=r[1],_=r[2],w=r[3];return t[0]=b*n+x*s+_*h+w*m,t[1]=b*i+x*l+_*f+w*g,t[2]=b*o+x*u+_*p+w*v,t[3]=b*a+x*c+_*d+w*y,b=r[4],x=r[5],_=r[6],w=r[7],t[4]=b*n+x*s+_*h+w*m,t[5]=b*i+x*l+_*f+w*g,t[6]=b*o+x*u+_*p+w*v,t[7]=b*a+x*c+_*d+w*y,b=r[8],x=r[9],_=r[10],w=r[11],t[8]=b*n+x*s+_*h+w*m,t[9]=b*i+x*l+_*f+w*g,t[10]=b*o+x*u+_*p+w*v,t[11]=b*a+x*c+_*d+w*y,b=r[12],x=r[13],_=r[14],w=r[15],t[12]=b*n+x*s+_*h+w*m,t[13]=b*i+x*l+_*f+w*g,t[14]=b*o+x*u+_*p+w*v,t[15]=b*a+x*c+_*d+w*y,t}e.exports=n},{}],151:[function(t,e,r){function n(t,e,r,n,i){var o=1/Math.tan(e/2),a=1/(n-i);return t[0]=o/r,t[1]=0,t[2]=0,t[3]=0,t[4]=0,t[5]=o,t[6]=0,t[7]=0,t[8]=0,t[9]=0,t[10]=(i+n)*a,t[11]=-1,t[12]=0,t[13]=0,t[14]=2*i*n*a,t[15]=0,t}e.exports=n},{}],152:[function(t,e,r){function n(t,e,r,n){var i,o,a,s,l,u,c,h,f,p,d,m,g,v,y,b,x,_,w,M,k,A,T,E,S=n[0],L=n[1],z=n[2],I=Math.sqrt(S*S+L*L+z*z);return Math.abs(I)<1e-6?null:(I=1/I,S*=I,L*=I,z*=I,i=Math.sin(r),o=Math.cos(r),a=1-o,s=e[0],l=e[1],u=e[2],c=e[3],h=e[4],f=e[5],p=e[6],d=e[7],m=e[8],g=e[9],v=e[10],y=e[11],b=S*S*a+o,x=L*S*a+z*i,_=z*S*a-L*i,w=S*L*a-z*i,M=L*L*a+o,k=z*L*a+S*i,A=S*z*a+L*i,T=L*z*a-S*i,E=z*z*a+o,t[0]=s*b+h*x+m*_,t[1]=l*b+f*x+g*_,t[2]=u*b+p*x+v*_,t[3]=c*b+d*x+y*_,t[4]=s*w+h*M+m*k,t[5]=l*w+f*M+g*k,t[6]=u*w+p*M+v*k,t[7]=c*w+d*M+y*k,t[8]=s*A+h*T+m*E,t[9]=l*A+f*T+g*E,t[10]=u*A+p*T+v*E,t[11]=c*A+d*T+y*E,e!==t&&(t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15]),t)}e.exports=n},{}],153:[function(t,e,r){function n(t,e,r){var n=Math.sin(r),i=Math.cos(r),o=e[4],a=e[5],s=e[6],l=e[7],u=e[8],c=e[9],h=e[10],f=e[11];return e!==t&&(t[0]=e[0],t[1]=e[1],t[2]=e[2],t[3]=e[3],t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15]),t[4]=o*i+u*n,t[5]=a*i+c*n,t[6]=s*i+h*n,t[7]=l*i+f*n,t[8]=u*i-o*n,t[9]=c*i-a*n,t[10]=h*i-s*n,t[11]=f*i-l*n,t}e.exports=n},{}],154:[function(t,e,r){function n(t,e,r){var n=Math.sin(r),i=Math.cos(r),o=e[0],a=e[1],s=e[2],l=e[3],u=e[8],c=e[9],h=e[10],f=e[11];return e!==t&&(t[4]=e[4],t[5]=e[5],t[6]=e[6],t[7]=e[7],t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15]),t[0]=o*i-u*n,t[1]=a*i-c*n,t[2]=s*i-h*n,t[3]=l*i-f*n,t[8]=o*n+u*i,t[9]=a*n+c*i,t[10]=s*n+h*i,t[11]=l*n+f*i,t}e.exports=n},{}],155:[function(t,e,r){function n(t,e,r){var n=Math.sin(r),i=Math.cos(r),o=e[0],a=e[1],s=e[2],l=e[3],u=e[4],c=e[5],h=e[6],f=e[7];return e!==t&&(t[8]=e[8],t[9]=e[9],t[10]=e[10],t[11]=e[11],t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15]),t[0]=o*i+u*n,t[1]=a*i+c*n,t[2]=s*i+h*n,t[3]=l*i+f*n,t[4]=u*i-o*n,t[5]=c*i-a*n,t[6]=h*i-s*n,t[7]=f*i-l*n,t}e.exports=n},{}],156:[function(t,e,r){function n(t,e,r){var n=r[0],i=r[1],o=r[2];return t[0]=e[0]*n,t[1]=e[1]*n,t[2]=e[2]*n,t[3]=e[3]*n,t[4]=e[4]*i,t[5]=e[5]*i,t[6]=e[6]*i,t[7]=e[7]*i,t[8]=e[8]*o,t[9]=e[9]*o,t[10]=e[10]*o,t[11]=e[11]*o,t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15],t}e.exports=n},{}],157:[function(t,e,r){function n(t,e,r){var n,i,o,a,s,l,u,c,h,f,p,d,m=r[0],g=r[1],v=r[2];return e===t?(t[12]=e[0]*m+e[4]*g+e[8]*v+e[12],t[13]=e[1]*m+e[5]*g+e[9]*v+e[13],t[14]=e[2]*m+e[6]*g+e[10]*v+e[14],t[15]=e[3]*m+e[7]*g+e[11]*v+e[15]):(n=e[0],i=e[1],o=e[2],a=e[3],s=e[4],l=e[5],u=e[6],c=e[7],h=e[8],f=e[9],p=e[10],d=e[11],t[0]=n,t[1]=i,t[2]=o,t[3]=a,t[4]=s,t[5]=l,t[6]=u,t[7]=c,t[8]=h,t[9]=f,t[10]=p,t[11]=d,t[12]=n*m+s*g+h*v+e[12],t[13]=i*m+l*g+f*v+e[13],t[14]=o*m+u*g+p*v+e[14],t[15]=a*m+c*g+d*v+e[15]),t}e.exports=n},{}],158:[function(t,e,r){function n(t,e){if(t===e){var r=e[1],n=e[2],i=e[3],o=e[6],a=e[7],s=e[11];t[1]=e[4],t[2]=e[8],t[3]=e[12],t[4]=r,t[6]=e[9],t[7]=e[13],t[8]=n,t[9]=o,t[11]=e[14],t[12]=i,t[13]=a,t[14]=s}else t[0]=e[0],t[1]=e[4],t[2]=e[8],t[3]=e[12],t[4]=e[1],t[5]=e[5],t[6]=e[9],t[7]=e[13],t[8]=e[2],t[9]=e[6],t[10]=e[10],t[11]=e[14],t[12]=e[3],t[13]=e[7],t[14]=e[11],t[15]=e[15];return t}e.exports=n},{}],159:[function(t,e,r){"use strict";function n(t,e){for(var r=[0,0,0,0],n=0;4>n;++n)for(var i=0;4>i;++i)r[i]+=t[4*n+i]*e[n];return r}function i(t,e,r,i,o){for(var a=n(i,n(r,n(e,[t[0],t[1],t[2],1]))),s=0;3>s;++s)a[s]/=a[3];return[.5*o[0]*(1+a[0]),.5*o[1]*(1-a[1])]}function o(t,e){if(2===t.length){for(var r=0,n=0,i=0;2>i;++i)r+=Math.pow(e[i]-t[0][i],2),n+=Math.pow(e[i]-t[1][i],2);return r=Math.sqrt(r),n=Math.sqrt(n),1e-6>r+n?[1,0]:[n/(r+n),r/(n+r)]}if(3===t.length){var o=[0,0];return u(t[0],t[1],t[2],e,o),l(t,o)}return[]}function a(t,e){for(var r=[0,0,0],n=0;n<t.length;++n)for(var i=t[n],o=e[n],a=0;3>a;++a)r[a]+=o*i[a];return r}function s(t,e,r,n,s,l){if(1===t.length)return[0,t[0].slice()];for(var u=new Array(t.length),c=0;c<t.length;++c)u[c]=i(t[c],r,n,s,l);for(var h=0,f=1/0,c=0;c<u.length;++c){for(var p=0,d=0;2>d;++d)p+=Math.pow(u[c][d]-e[d],2);f>p&&(f=p,h=c)}for(var m=o(u,e),g=0,c=0;3>c;++c){if(m[c]<-.001||m[c]>1.0001)return null;g+=m[c]}return Math.abs(g-1)>.001?null:[h,a(t,m),m]}var l=t("barycentric"),u=t("polytope-closest-point/lib/closest_point_2d.js");e.exports=s},{barycentric:162,"polytope-closest-point/lib/closest_point_2d.js":164}],160:[function(t,e,r){var n="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position, normal;\nattribute vec4 color;\nattribute vec2 uv;\n\nuniform mat4 model\n           , view\n           , projection;\nuniform vec3 eyePosition\n           , lightPosition;\n\nvarying vec3 f_normal\n           , f_lightDirection\n           , f_eyeDirection\n           , f_data;\nvarying vec4 f_color;\nvarying vec2 f_uv;\n\nvoid main() {\n  vec4 m_position  = model * vec4(position, 1.0);\n  vec4 t_position  = view * m_position;\n  gl_Position      = projection * t_position;\n  f_color          = color;\n  f_normal         = normal;\n  f_data           = position;\n  f_eyeDirection   = eyePosition   - position;\n  f_lightDirection = lightPosition - position;\n  f_uv             = uv;\n}",i="precision mediump float;\n#define GLSLIFY 1\n\nfloat beckmannDistribution_2_0(float x, float roughness) {\n  float NdotH = max(x, 0.0001);\n  float cos2Alpha = NdotH * NdotH;\n  float tan2Alpha = (cos2Alpha - 1.0) / cos2Alpha;\n  float roughness2 = roughness * roughness;\n  float denom = 3.141592653589793 * roughness2 * cos2Alpha * cos2Alpha;\n  return exp(tan2Alpha / roughness2) / denom;\n}\n\n\n\nfloat cookTorranceSpecular_1_1(\n  vec3 lightDirection,\n  vec3 viewDirection,\n  vec3 surfaceNormal,\n  float roughness,\n  float fresnel) {\n\n  float VdotN = max(dot(viewDirection, surfaceNormal), 0.0);\n  float LdotN = max(dot(lightDirection, surfaceNormal), 0.0);\n\n  //Half angle vector\n  vec3 H = normalize(lightDirection + viewDirection);\n\n  //Geometric term\n  float NdotH = max(dot(surfaceNormal, H), 0.0);\n  float VdotH = max(dot(viewDirection, H), 0.000001);\n  float LdotH = max(dot(lightDirection, H), 0.000001);\n  float G1 = (2.0 * NdotH * VdotN) / VdotH;\n  float G2 = (2.0 * NdotH * LdotN) / LdotH;\n  float G = min(1.0, min(G1, G2));\n  \n  //Distribution term\n  float D = beckmannDistribution_2_0(NdotH, roughness);\n\n  //Fresnel term\n  float F = pow(1.0 - VdotN, fresnel);\n\n  //Multiply terms and done\n  return  G * F * D / max(3.14159265 * VdotN, 0.000001);\n}\n\n\n\nuniform vec3 clipBounds[2];\nuniform float roughness\n            , fresnel\n            , kambient\n            , kdiffuse\n            , kspecular\n            , opacity;\nuniform sampler2D texture;\n\nvarying vec3 f_normal\n           , f_lightDirection\n           , f_eyeDirection\n           , f_data;\nvarying vec4 f_color;\nvarying vec2 f_uv;\n\nvoid main() {\n  if(any(lessThan(f_data, clipBounds[0])) || \n     any(greaterThan(f_data, clipBounds[1]))) {\n    discard;\n  }\n\n  vec3 N = normalize(f_normal);\n  vec3 L = normalize(f_lightDirection);\n  vec3 V = normalize(f_eyeDirection);\n  \n  if(!gl_FrontFacing) {\n    N = -N;\n  }\n\n  float specular = cookTorranceSpecular_1_1(L, V, N, roughness, fresnel);\n  float diffuse  = min(kambient + kdiffuse * max(dot(N, L), 0.0), 1.0);\n\n  vec4 surfaceColor = f_color * texture2D(texture, f_uv);\n  vec4 litColor = surfaceColor.a * vec4(diffuse * surfaceColor.rgb + kspecular * vec3(1,1,1) * specular,  1.0);\n\n  gl_FragColor = litColor * opacity;\n}",o="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\nattribute vec4 color;\nattribute vec2 uv;\n\nuniform mat4 model, view, projection;\n\nvarying vec4 f_color;\nvarying vec3 f_data;\nvarying vec2 f_uv;\n\nvoid main() {\n  gl_Position = projection * view * model * vec4(position, 1.0);\n  f_color = color;\n  f_data  = position;\n  f_uv    = uv;\n}",a="precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3 clipBounds[2];\nuniform sampler2D texture;\nuniform float opacity;\n\nvarying vec4 f_color;\nvarying vec3 f_data;\nvarying vec2 f_uv;\n\nvoid main() {\n  if(any(lessThan(f_data, clipBounds[0])) || \n     any(greaterThan(f_data, clipBounds[1]))) {\n    discard;\n  }\n\n  gl_FragColor = f_color * texture2D(texture, f_uv) * opacity;\n}",s="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\nattribute vec4 color;\nattribute vec2 uv;\nattribute float pointSize;\n\nuniform mat4 model, view, projection;\nuniform vec3 clipBounds[2];\n\nvarying vec4 f_color;\nvarying vec2 f_uv;\n\nvoid main() {\n  if(any(lessThan(position, clipBounds[0])) || \n     any(greaterThan(position, clipBounds[1]))) {\n    gl_Position = vec4(0,0,0,0);\n  } else {\n    gl_Position = projection * view * model * vec4(position, 1.0);\n  }\n  gl_PointSize = pointSize;\n  f_color = color;\n  f_uv = uv;\n}",l="precision mediump float;\n#define GLSLIFY 1\n\nuniform sampler2D texture;\nuniform float opacity;\n\nvarying vec4 f_color;\nvarying vec2 f_uv;\n\nvoid main() {\n  vec2 pointR = gl_PointCoord.xy - vec2(0.5,0.5);\n  if(dot(pointR, pointR) > 0.25) {\n    discard;\n  }\n  gl_FragColor = f_color * texture2D(texture, f_uv) * opacity;\n}",u="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\nattribute vec4 id;\n\nuniform mat4 model, view, projection;\n\nvarying vec3 f_position;\nvarying vec4 f_id;\n\nvoid main() {\n  gl_Position = projection * view * model * vec4(position, 1.0);\n  f_id        = id;\n  f_position  = position;\n}",c="precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3  clipBounds[2];\nuniform float pickId;\n\nvarying vec3 f_position;\nvarying vec4 f_id;\n\nvoid main() {\n  if(any(lessThan(f_position, clipBounds[0])) || \n     any(greaterThan(f_position, clipBounds[1]))) {\n    discard;\n  }\n  gl_FragColor = vec4(pickId, f_id.xyz);\n}",h="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3  position;\nattribute float pointSize;\nattribute vec4  id;\n\nuniform mat4 model, view, projection;\nuniform vec3 clipBounds[2];\n\nvarying vec3 f_position;\nvarying vec4 f_id;\n\nvoid main() {\n  if(any(lessThan(position, clipBounds[0])) || \n     any(greaterThan(position, clipBounds[1]))) {\n    gl_Position = vec4(0,0,0,0);\n  } else {\n    gl_Position  = projection * view * model * vec4(position, 1.0);\n    gl_PointSize = pointSize;\n  }\n  f_id         = id;\n  f_position   = position;\n}",f="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\n\nuniform mat4 model, view, projection;\n\nvoid main() {\n  gl_Position = projection * view * model * vec4(position, 1.0);\n}",p="precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3 contourColor;\n\nvoid main() {\n  gl_FragColor = vec4(contourColor,1);\n}\n";
r.meshShader={vertex:n,fragment:i,attributes:[{name:"position",type:"vec3"},{name:"normal",type:"vec3"},{name:"color",type:"vec4"},{name:"uv",type:"vec2"}]},r.wireShader={vertex:o,fragment:a,attributes:[{name:"position",type:"vec3"},{name:"color",type:"vec4"},{name:"uv",type:"vec2"}]},r.pointShader={vertex:s,fragment:l,attributes:[{name:"position",type:"vec3"},{name:"color",type:"vec4"},{name:"uv",type:"vec2"},{name:"pointSize",type:"float"}]},r.pickShader={vertex:u,fragment:c,attributes:[{name:"position",type:"vec3"},{name:"id",type:"vec4"}]},r.pointPickShader={vertex:h,fragment:c,attributes:[{name:"position",type:"vec3"},{name:"pointSize",type:"float"},{name:"id",type:"vec4"}]},r.contourShader={vertex:f,fragment:p,attributes:[{name:"position",type:"vec3"}]}},{}],161:[function(t,e,r){"use strict";function n(t,e,r,n,i,o,a,s,l,u,c,h,f,p,d,m,g,v,y,b,x,_,w,M,k,A,T){this.gl=t,this.cells=[],this.positions=[],this.intensity=[],this.texture=e,this.dirty=!0,this.triShader=r,this.lineShader=n,this.pointShader=i,this.pickShader=o,this.pointPickShader=a,this.contourShader=s,this.trianglePositions=l,this.triangleColors=c,this.triangleNormals=f,this.triangleUVs=h,this.triangleIds=u,this.triangleVAO=p,this.triangleCount=0,this.lineWidth=1,this.edgePositions=d,this.edgeColors=g,this.edgeUVs=v,this.edgeIds=m,this.edgeVAO=y,this.edgeCount=0,this.pointPositions=b,this.pointColors=_,this.pointUVs=w,this.pointSizes=M,this.pointIds=x,this.pointVAO=k,this.pointCount=0,this.contourLineWidth=1,this.contourPositions=A,this.contourVAO=T,this.contourCount=0,this.contourColor=[0,0,0],this.contourEnable=!0,this.pickId=1,this.bounds=[[1/0,1/0,1/0],[-(1/0),-(1/0),-(1/0)]],this.clipBounds=[[-(1/0),-(1/0),-(1/0)],[1/0,1/0,1/0]],this.lightPosition=[1e5,1e5,0],this.ambientLight=.8,this.diffuseLight=.8,this.specularLight=2,this.roughness=.5,this.fresnel=1.5,this.opacity=1,this._model=j,this._view=j,this._projection=j,this._resolution=[1,1]}function i(t){for(var e=k({colormap:t,nshades:256,format:"rgba"}),r=new Uint8Array(1024),n=0;256>n;++n){for(var i=e[n],o=0;3>o;++o)r[4*n+o]=i[o];r[4*n+3]=255*i[3]}return M(r,[256,256,4],[4,0,1])}function o(t,e,r){for(var n=new Array(e),i=0;e>i;++i)n[i]=0;for(var o=t.length,i=0;o>i;++i)for(var a=t[i],s=0;s<a.length;++s)n[a[s]]=r[i];return n}function a(t){for(var e=t.length,r=new Array(e),n=0;e>n;++n)r[n]=t[n][2];return r}function s(t){var e=g(t,L);return e.attributes.position.location=0,e.attributes.color.location=2,e.attributes.uv.location=3,e.attributes.normal.location=4,e}function l(t){var e=g(t,z);return e.attributes.position.location=0,e.attributes.color.location=2,e.attributes.uv.location=3,e}function u(t){var e=g(t,I);return e.attributes.position.location=0,e.attributes.color.location=2,e.attributes.uv.location=3,e.attributes.pointSize.location=4,e}function c(t){var e=g(t,P);return e.attributes.position.location=0,e.attributes.id.location=1,e}function h(t){var e=g(t,C);return e.attributes.position.location=0,e.attributes.id.location=1,e.attributes.pointSize.location=4,e}function f(t){var e=g(t,R);return e.attributes.position.location=0,e}function p(t){var e=t.gl,r=s(e),i=l(e),o=u(e),a=c(e),p=h(e),d=f(e),m=b(e,M(new Uint8Array([255,255,255,255]),[1,1,4]));m.generateMipmap(),m.minFilter=e.LINEAR_MIPMAP_LINEAR,m.magFilter=e.LINEAR;var g=v(e),x=v(e),_=v(e),w=v(e),k=v(e),A=y(e,[{buffer:g,type:e.FLOAT,size:3},{buffer:k,type:e.UNSIGNED_BYTE,size:4,normalized:!0},{buffer:x,type:e.FLOAT,size:4},{buffer:_,type:e.FLOAT,size:2},{buffer:w,type:e.FLOAT,size:3}]),T=v(e),E=v(e),S=v(e),L=v(e),z=y(e,[{buffer:T,type:e.FLOAT,size:3},{buffer:L,type:e.UNSIGNED_BYTE,size:4,normalized:!0},{buffer:E,type:e.FLOAT,size:4},{buffer:S,type:e.FLOAT,size:2}]),I=v(e),P=v(e),C=v(e),R=v(e),j=v(e),D=y(e,[{buffer:I,type:e.FLOAT,size:3},{buffer:j,type:e.UNSIGNED_BYTE,size:4,normalized:!0},{buffer:P,type:e.FLOAT,size:4},{buffer:C,type:e.FLOAT,size:2},{buffer:R,type:e.FLOAT,size:1}]),O=v(e),F=y(e,[{buffer:O,type:e.FLOAT,size:3}]),N=new n(e,m,r,i,o,a,p,d,g,k,x,_,w,A,T,L,E,S,z,I,j,P,C,R,D,O,F);return N.update(t),N}var d=1e-6,m=1e-6,g=t("gl-shader"),v=t("gl-buffer"),y=t("gl-vao"),b=t("gl-texture2d"),x=t("normals"),_=t("gl-mat4/multiply"),w=t("gl-mat4/invert"),M=t("ndarray"),k=t("colormap"),A=t("simplicial-complex-contour"),T=t("typedarray-pool"),E=t("./lib/shaders"),S=t("./lib/closest-point"),L=E.meshShader,z=E.wireShader,I=E.pointShader,P=E.pickShader,C=E.pointPickShader,R=E.contourShader,j=[1,0,0,0,0,1,0,0,0,0,1,0,0,0,0,1],D=n.prototype;D.isOpaque=function(){return this.opacity>=1},D.isTransparent=function(){return this.opacity<1},D.pickSlots=1,D.setPickBase=function(t){this.pickId=t},D.highlight=function(t){if(!t||!this.contourEnable)return void(this.contourCount=0);for(var e=A(this.cells,this.intensity,t.intensity),r=e.cells,n=e.vertexIds,i=e.vertexWeights,o=r.length,a=T.mallocFloat32(6*o),s=0,l=0;o>l;++l)for(var u=r[l],c=0;2>c;++c){var h=u[0];2===u.length&&(h=u[c]);for(var f=n[h][0],p=n[h][1],d=i[h],m=1-d,g=this.positions[f],v=this.positions[p],y=0;3>y;++y)a[s++]=d*g[y]+m*v[y]}this.contourCount=s/3|0,this.contourPositions.update(a.subarray(0,s)),T.free(a)},D.update=function(t){t=t||{};var e=this.gl;this.dirty=!0,"contourEnable"in t&&(this.contourEnable=t.contourEnable),"contourColor"in t&&(this.contourColor=t.contourColor),"lineWidth"in t&&(this.lineWidth=t.lineWidth),"lightPosition"in t&&(this.lightPosition=t.lightPosition),"opacity"in t&&(this.opacity=t.opacity),"ambient"in t&&(this.ambientLight=t.ambient),"diffuse"in t&&(this.diffuseLight=t.diffuse),"specular"in t&&(this.specularLight=t.specular),"roughness"in t&&(this.roughness=t.roughness),"fresnel"in t&&(this.fresnel=t.fresnel),t.texture?(this.texture.dispose(),this.texture=b(e,t.texture)):t.colormap&&(this.texture.shape=[256,256],this.texture.minFilter=e.LINEAR_MIPMAP_LINEAR,this.texture.magFilter=e.LINEAR,this.texture.setPixels(i(t.colormap)),this.texture.generateMipmap());var r=t.cells,n=t.positions;if(n&&r){var s=[],l=[],u=[],c=[],h=[],f=[],p=[],g=[],v=[],y=[],_=[],w=[],M=[],k=[];this.cells=r,this.positions=n;var A=t.vertexNormals,T=t.cellNormals,E=void 0===t.vertexNormalsEpsilon?d:t.vertexNormalsEpsilon,S=void 0===t.faceNormalsEpsilon?m:t.faceNormalsEpsilon;t.useFacetNormals&&!T&&(T=x.faceNormals(r,n,S)),T||A||(A=x.vertexNormals(r,n,E));var L=t.vertexColors,z=t.cellColors,I=t.meshColor||[1,1,1,1],P=t.vertexUVs,C=t.vertexIntensity,R=t.cellUVs,j=t.cellIntensity,D=1/0,O=-(1/0);if(!P&&!R)if(C)for(var F=0;F<C.length;++F){var N=C[F];D=Math.min(D,N),O=Math.max(O,N)}else if(j)for(var F=0;F<j.length;++F){var N=j[F];D=Math.min(D,N),O=Math.max(O,N)}else for(var F=0;F<n.length;++F){var N=n[F][2];D=Math.min(D,N),O=Math.max(O,N)}C?this.intensity=C:j?this.intensity=o(r,n.length,j):this.intensity=a(n);var B=t.pointSizes,U=t.pointSize||1;this.bounds=[[1/0,1/0,1/0],[-(1/0),-(1/0),-(1/0)]];for(var F=0;F<n.length;++F)for(var V=n[F],q=0;3>q;++q)!isNaN(V[q])&&isFinite(V[q])&&(this.bounds[0][q]=Math.min(this.bounds[0][q],V[q]),this.bounds[1][q]=Math.max(this.bounds[1][q],V[q]));var G=0,H=0,X=0;t:for(var F=0;F<r.length;++F){var Y=r[F];switch(Y.length){case 1:for(var W=Y[0],V=n[W],q=0;3>q;++q)if(isNaN(V[q])||!isFinite(V[q]))continue t;y.push(V[0],V[1],V[2]);var Z;Z=L?L[W]:z?z[F]:I,3===Z.length?_.push(Z[0],Z[1],Z[2],1):_.push(Z[0],Z[1],Z[2],Z[3]);var Q;Q=P?P[W]:C?[(C[W]-D)/(O-D),0]:R?R[F]:j?[(j[F]-D)/(O-D),0]:[(V[2]-D)/(O-D),0],w.push(Q[0],Q[1]),B?M.push(B[W]):M.push(U),k.push(F),X+=1;break;case 2:for(var q=0;2>q;++q)for(var W=Y[q],V=n[W],K=0;3>K;++K)if(isNaN(V[K])||!isFinite(V[K]))continue t;for(var q=0;2>q;++q){var W=Y[q],V=n[W];f.push(V[0],V[1],V[2]);var Z;Z=L?L[W]:z?z[F]:I,3===Z.length?p.push(Z[0],Z[1],Z[2],1):p.push(Z[0],Z[1],Z[2],Z[3]);var Q;Q=P?P[W]:C?[(C[W]-D)/(O-D),0]:R?R[F]:j?[(j[F]-D)/(O-D),0]:[(V[2]-D)/(O-D),0],g.push(Q[0],Q[1]),v.push(F)}H+=1;break;case 3:for(var q=0;3>q;++q)for(var W=Y[q],V=n[W],K=0;3>K;++K)if(isNaN(V[K])||!isFinite(V[K]))continue t;for(var q=0;3>q;++q){var W=Y[q],V=n[W];s.push(V[0],V[1],V[2]);var Z;Z=L?L[W]:z?z[F]:I,3===Z.length?l.push(Z[0],Z[1],Z[2],1):l.push(Z[0],Z[1],Z[2],Z[3]);var Q;Q=P?P[W]:C?[(C[W]-D)/(O-D),0]:R?R[F]:j?[(j[F]-D)/(O-D),0]:[(V[2]-D)/(O-D),0],c.push(Q[0],Q[1]);var J;J=A?A[W]:T[F],u.push(J[0],J[1],J[2]),h.push(F)}G+=1}}this.pointCount=X,this.edgeCount=H,this.triangleCount=G,this.pointPositions.update(y),this.pointColors.update(_),this.pointUVs.update(w),this.pointSizes.update(M),this.pointIds.update(new Uint32Array(k)),this.edgePositions.update(f),this.edgeColors.update(p),this.edgeUVs.update(g),this.edgeIds.update(new Uint32Array(v)),this.trianglePositions.update(s),this.triangleColors.update(l),this.triangleUVs.update(c),this.triangleNormals.update(u),this.triangleIds.update(new Uint32Array(h))}},D.drawTransparent=D.draw=function(t){t=t||{};for(var e=this.gl,r=t.model||j,n=t.view||j,i=t.projection||j,o=[[-1e6,-1e6,-1e6],[1e6,1e6,1e6]],a=0;3>a;++a)o[0][a]=Math.max(o[0][a],this.clipBounds[0][a]),o[1][a]=Math.min(o[1][a],this.clipBounds[1][a]);var s={model:r,view:n,projection:i,clipBounds:o,kambient:this.ambientLight,kdiffuse:this.diffuseLight,kspecular:this.specularLight,roughness:this.roughness,fresnel:this.fresnel,eyePosition:[0,0,0],lightPosition:[0,0,0],opacity:this.opacity,contourColor:this.contourColor,texture:0};this.texture.bind(0);var l=new Array(16);_(l,s.view,s.model),_(l,s.projection,l),w(l,l);for(var a=0;3>a;++a)s.eyePosition[a]=l[12+a]/l[15];for(var u=l[15],a=0;3>a;++a)u+=this.lightPosition[a]*l[4*a+3];for(var a=0;3>a;++a){for(var c=l[12+a],h=0;3>h;++h)c+=l[4*h+a]*this.lightPosition[h];s.lightPosition[a]=c/u}if(this.triangleCount>0){var f=this.triShader;f.bind(),f.uniforms=s,this.triangleVAO.bind(),e.drawArrays(e.TRIANGLES,0,3*this.triangleCount),this.triangleVAO.unbind()}if(this.edgeCount>0&&this.lineWidth>0){var f=this.lineShader;f.bind(),f.uniforms=s,this.edgeVAO.bind(),e.lineWidth(this.lineWidth),e.drawArrays(e.LINES,0,2*this.edgeCount),this.edgeVAO.unbind()}if(this.pointCount>0){var f=this.pointShader;f.bind(),f.uniforms=s,this.pointVAO.bind(),e.drawArrays(e.POINTS,0,this.pointCount),this.pointVAO.unbind()}if(this.contourEnable&&this.contourCount>0&&this.contourLineWidth>0){var f=this.contourShader;f.bind(),f.uniforms=s,this.contourVAO.bind(),e.drawArrays(e.LINES,0,this.contourCount),this.contourVAO.unbind()}},D.drawPick=function(t){t=t||{};for(var e=this.gl,r=t.model||j,n=t.view||j,i=t.projection||j,o=[[-1e6,-1e6,-1e6],[1e6,1e6,1e6]],a=0;3>a;++a)o[0][a]=Math.max(o[0][a],this.clipBounds[0][a]),o[1][a]=Math.min(o[1][a],this.clipBounds[1][a]);this._model=[].slice.call(r),this._view=[].slice.call(n),this._projection=[].slice.call(i),this._resolution=[e.drawingBufferWidth,e.drawingBufferHeight];var s={model:r,view:n,projection:i,clipBounds:o,pickId:this.pickId/255},l=this.pickShader;if(l.bind(),l.uniforms=s,this.triangleCount>0&&(this.triangleVAO.bind(),e.drawArrays(e.TRIANGLES,0,3*this.triangleCount),this.triangleVAO.unbind()),this.edgeCount>0&&(this.edgeVAO.bind(),e.lineWidth(this.lineWidth),e.drawArrays(e.LINES,0,2*this.edgeCount),this.edgeVAO.unbind()),this.pointCount>0){var l=this.pointPickShader;l.bind(),l.uniforms=s,this.pointVAO.bind(),e.drawArrays(e.POINTS,0,this.pointCount),this.pointVAO.unbind()}},D.pick=function(t){if(!t)return null;if(t.id!==this.pickId)return null;for(var e=t.value[0]+256*t.value[1]+65536*t.value[2],r=this.cells[e],n=this.positions,i=new Array(r.length),o=0;o<r.length;++o)i[o]=n[r[o]];var a=S(i,[t.coord[0],this._resolution[1]-t.coord[1]],this._model,this._view,this._projection,this._resolution);if(!a)return null;for(var s=a[2],l=0,o=0;o<r.length;++o)l+=s[o]*this.intensity[r[o]];return{position:a[1],index:r[a[0]],cell:r,cellId:e,intensity:l,dataCoordinate:this.positions[r[a[0]]]}},D.dispose=function(){this.texture.dispose(),this.triShader.dispose(),this.lineShader.dispose(),this.pointShader.dispose(),this.pickShader.dispose(),this.pointPickShader.dispose(),this.triangleVAO.dispose(),this.trianglePositions.dispose(),this.triangleColors.dispose(),this.triangleUVs.dispose(),this.triangleNormals.dispose(),this.triangleIds.dispose(),this.edgeVAO.dispose(),this.edgePositions.dispose(),this.edgeColors.dispose(),this.edgeUVs.dispose(),this.edgeIds.dispose(),this.pointVAO.dispose(),this.pointPositions.dispose(),this.pointColors.dispose(),this.pointUVs.dispose(),this.pointSizes.dispose(),this.pointIds.dispose(),this.contourVAO.dispose(),this.contourPositions.dispose(),this.contourShader.dispose()},e.exports=p},{"./lib/closest-point":159,"./lib/shaders":160,colormap:111,"gl-buffer":129,"gl-mat4/invert":148,"gl-mat4/multiply":150,"gl-shader":208,"gl-texture2d":233,"gl-vao":237,ndarray:456,normals:163,"simplicial-complex-contour":165,"typedarray-pool":481}],162:[function(t,e,r){"use 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t=this.gl,e=this.screenBox,r=this.viewBox,n=this.dataBox,i=this.pixelRatio,o=this.grid,a=this.line,s=this.text,l=this.objects;if(this._depthCounter=0,this.pickDirty&&(this._pickTimeout&&clearTimeout(this._pickTimeout),this.pickDirty=!1,this._pickTimeout=setTimeout(this._drawPick,this.pickDelay)),this.dirty){this.dirty=!1,t.bindFramebuffer(t.FRAMEBUFFER,null),t.enable(t.SCISSOR_TEST),t.disable(t.DEPTH_TEST),t.depthFunc(t.LESS),t.depthMask(!1),t.enable(t.BLEND),t.blendEquation(t.FUNC_ADD,t.FUNC_ADD),t.blendFunc(t.ONE,t.ONE_MINUS_SRC_ALPHA),t.scissor(e[0],e[1],e[2]-e[0],e[3]-e[1]);var u=this.borderColor;t.clearColor(u[0]*u[3],u[1]*u[3],u[2]*u[3],u[3]),t.clear(t.COLOR_BUFFER_BIT|t.DEPTH_BUFFER_BIT),t.scissor(r[0],r[1],r[2]-r[0],r[3]-r[1]),t.viewport(r[0],r[1],r[2]-r[0],r[3]-r[1]);var c=this.backgroundColor;t.clearColor(c[0]*c[3],c[1]*c[3],c[2]*c[3],c[3]),t.clear(t.COLOR_BUFFER_BIT),o.draw();var h=this.zeroLineEnable,f=this.zeroLineColor,p=this.zeroLineWidth;if(h[0]||h[1]){a.bind();for(var d=0;2>d;++d)if(h[d]&&n[d]<=0&&n[d+2]>=0){var m=e[d]-n[d]*(e[d+2]-e[d])/(n[d+2]-n[d]);0===d?a.drawLine(m,e[1],m,e[3],p[d],f[d]):a.drawLine(e[0],m,e[2],m,p[d],f[d])}}for(var d=0;d<l.length;++d)l[d].draw();t.viewport(e[0],e[1],e[2]-e[0],e[3]-e[1]),t.scissor(e[0],e[1],e[2]-e[0],e[3]-e[1]),this.grid.drawTickMarks(),a.bind();var g=this.borderLineEnable,v=this.borderLineWidth,y=this.borderLineColor;g[1]&&a.drawLine(r[0],r[1]-.5*v[1]*i,r[0],r[3]+.5*v[3]*i,v[1],y[1]),g[0]&&a.drawLine(r[0]-.5*v[0]*i,r[1],r[2]+.5*v[2]*i,r[1],v[0],y[0]),g[3]&&a.drawLine(r[2],r[1]-.5*v[1]*i,r[2],r[3]+.5*v[3]*i,v[3],y[3]),g[2]&&a.drawLine(r[0]-.5*v[0]*i,r[3],r[2]+.5*v[2]*i,r[3],v[2],y[2]),s.bind();for(var d=0;2>d;++d)s.drawTicks(d);this.titleEnable&&s.drawTitle();for(var b=this.overlays,d=0;d<b.length;++d)b[d].draw();t.disable(t.SCISSOR_TEST),t.disable(t.BLEND),t.depthMask(!0)}}}(),f.drawPick=function(){return function(){var t=this.pickBuffer;this.gl;this._pickTimeout=null,t.begin();for(var e=1,r=this.objects,n=0;n<r.length;++n)e=r[n].drawPick(e);t.end()}}(),f.pick=function(){return function(t,e){var r=this.pixelRatio,n=this.pickPixelRatio,i=this.viewBox,o=0|Math.round((t-i[0]/r)*n),a=0|Math.round((e-i[1]/r)*n),s=this.pickBuffer.query(o,a,this.pickRadius);if(!s)return null;for(var l=s.id+(s.value[0]<<8)+(s.value[1]<<16)+(s.value[2]<<24),u=this.objects,c=0;c<u.length;++c){var h=u[c].pick(o,a,l);if(h)return h}return null}}(),f.setScreenBox=function(t){var e=this.screenBox,r=this.pixelRatio;e[0]=0|Math.round(t[0]*r),e[1]=0|Math.round(t[1]*r),e[2]=0|Math.round(t[2]*r),e[3]=0|Math.round(t[3]*r),this.setDirty()},f.setDataBox=function(t){var e=this.dataBox,r=e[0]!==t[0]||e[1]!==t[1]||e[2]!==t[2]||e[3]!==t[3];r&&(e[0]=t[0],e[1]=t[1],e[2]=t[2],e[3]=t[3],this.setDirty())},f.setViewBox=function(t){var e=this.pixelRatio,r=this.viewBox;r[0]=0|Math.round(t[0]*e),r[1]=0|Math.round(t[1]*e),r[2]=0|Math.round(t[2]*e),r[3]=0|Math.round(t[3]*e);var n=this.pickPixelRatio;this.pickBuffer.shape=[0|Math.round((t[2]-t[0])*n),0|Math.round((t[3]-t[1])*n)],this.setDirty()},f.update=function(t){t=t||{};var e=this.gl;this.pixelRatio=t.pixelRatio||1;var r=this.pixelRatio;this.pickPixelRatio=Math.max(r,1),this.setScreenBox(t.screenBox||[0,0,e.drawingBufferWidth/r,e.drawingBufferHeight/r]);this.screenBox;this.setViewBox(t.viewBox||[.125*(this.screenBox[2]-this.screenBox[0])/r,.125*(this.screenBox[3]-this.screenBox[1])/r,.875*(this.screenBox[2]-this.screenBox[0])/r,.875*(this.screenBox[3]-this.screenBox[1])/r]);var n=this.viewBox,a=(n[2]-n[0])/(n[3]-n[1]);this.setDataBox(t.dataBox||[-10,-10/a,10,10/a]),this.borderColor=(t.borderColor||[0,0,0,0]).slice(),this.backgroundColor=(t.backgroundColor||[0,0,0,0]).slice(),this.gridLineEnable=(t.gridLineEnable||[!0,!0]).slice(),this.gridLineWidth=(t.gridLineWidth||[1,1]).slice(),this.gridLineColor=i(t.gridLineColor||[[.5,.5,.5,1],[.5,.5,.5,1]]),this.zeroLineEnable=(t.zeroLineEnable||[!0,!0]).slice(),this.zeroLineWidth=(t.zeroLineWidth||[4,4]).slice(),this.zeroLineColor=i(t.zeroLineColor||[[0,0,0,1],[0,0,0,1]]),this.tickMarkLength=(t.tickMarkLength||[0,0,0,0]).slice(),this.tickMarkWidth=(t.tickMarkWidth||[0,0,0,0]).slice(),this.tickMarkColor=i(t.tickMarkColor||[[0,0,0,1],[0,0,0,1],[0,0,0,1],[0,0,0,1]]),this.titleCenter=(t.titleCenter||[.5*(n[0]+n[2])/r,(n[3]+120)/r]).slice(),this.titleEnable=!("titleEnable"in t&&!t.titleEnable),this.titleAngle=t.titleAngle||0,this.titleColor=(t.titleColor||[0,0,0,1]).slice(),this.labelPad=(t.labelPad||[15,15,15,15]).slice(),this.labelAngle=(t.labelAngle||[0,Math.PI/2,0,3*Math.PI/2]).slice(),this.labelEnable=(t.labelEnable||[!0,!0,!0,!0]).slice(),this.labelColor=i(t.labelColor||[[0,0,0,1],[0,0,0,1],[0,0,0,1],[0,0,0,1]]),this.tickPad=(t.tickPad||[15,15,15,15]).slice(),this.tickAngle=(t.tickAngle||[0,0,0,0]).slice(),this.tickEnable=(t.tickEnable||[!0,!0,!0,!0]).slice(),this.tickColor=i(t.tickColor||[[0,0,0,1],[0,0,0,1],[0,0,0,1],[0,0,0,1]]),this.borderLineEnable=(t.borderLineEnable||[!0,!0,!0,!0]).slice(),this.borderLineWidth=(t.borderLineWidth||[2,2,2,2]).slice(),this.borderLineColor=i(t.borderLineColor||[[0,0,0,1],[0,0,0,1],[0,0,0,1],[0,0,0,1]]);var s=t.ticks||[[],[]],l=this._tickBounds;l[0]=l[1]=1/0,l[2]=l[3]=-(1/0);for(var u=0;2>u;++u){var 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i(t){this.gl=t,this.pixelRatio=1,this.bounds=[[-10,-10,-10],[10,10,10]],this.ticks=[[],[],[]],this.autoTicks=!0,this.tickSpacing=[1,1,1],this.tickEnable=[!0,!0,!0],this.tickFont=["sans-serif","sans-serif","sans-serif"],this.tickSize=[12,12,12],this.tickAngle=[0,0,0],this.tickColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.tickPad=[10,10,10],this.lastCubeProps={cubeEdges:[0,0,0],axis:[0,0,0]},this.labels=["x","y","z"],this.labelEnable=[!0,!0,!0],this.labelFont="sans-serif",this.labelSize=[20,20,20],this.labelAngle=[0,0,0],this.labelColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.labelPad=[10,10,10],this.lineEnable=[!0,!0,!0],this.lineMirror=[!1,!1,!1],this.lineWidth=[1,1,1],this.lineColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.lineTickEnable=[!0,!0,!0],this.lineTickMirror=[!1,!1,!1],this.lineTickLength=[0,0,0],this.lineTickWidth=[1,1,1],this.lineTickColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.gridEnable=[!0,!0,!0],this.gridWidth=[1,1,1],this.gridColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.zeroEnable=[!0,!0,!0],this.zeroLineColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.zeroLineWidth=[2,2,2],this.backgroundEnable=[!1,!1,!1],this.backgroundColor=[[.8,.8,.8,.5],[.8,.8,.8,.5],[.8,.8,.8,.5]],this._firstInit=!0,this._text=null,this._lines=null,this._background=c(t)}function o(){this.primalOffset=[0,0,0],this.primalMinor=[0,0,0],this.mirrorOffset=[0,0,0],this.mirrorMinor=[0,0,0]}function a(t,e,r,n,i){for(var o=t.primalOffset,a=t.primalMinor,s=t.mirrorOffset,l=t.mirrorMinor,u=n[e],c=0;3>c;++c)if(e!==c){var h=o,f=s,p=a,d=l;u&1<<c&&(h=s,f=o,p=l,d=a),h[c]=r[0][c],f[c]=r[1][c],i[c]>0?(p[c]=-1,d[c]=0):(p[c]=0,d[c]=1)}}function s(t,e){var r=new i(t);return r.update(e),r}e.exports=s;var l=t("./lib/text.js"),u=t("./lib/lines.js"),c=t("./lib/background.js"),h=t("./lib/cube.js"),f=t("./lib/ticks.js"),p=new Float32Array([1,0,0,0,0,1,0,0,0,0,1,0,0,0,0,1]),d=i.prototype;d.update=function(t){function e(e,r,n){if(n in t){var i,o=t[n],a=this[n];(e?Array.isArray(o)&&Array.isArray(o[0]):Array.isArray(o))?this[n]=i=[r(o[0]),r(o[1]),r(o[2])]:this[n]=i=[r(o),r(o),r(o)];for(var s=0;3>s;++s)if(i[s]!==a[s])return!0}return!1}t=t||{};var r,n=e.bind(this,!1,Number),i=e.bind(this,!1,Boolean),o=e.bind(this,!1,String),a=e.bind(this,!0,function(t){if(Array.isArray(t)){if(3===t.length)return[+t[0],+t[1],+t[2],1];if(4===t.length)return[+t[0],+t[1],+t[2],+t[3]]}return[0,0,0,1]}),s=!1,c=!1;if("bounds"in t)for(var h=t.bounds,p=0;2>p;++p)for(var d=0;3>d;++d)h[p][d]!==this.bounds[p][d]&&(c=!0),this.bounds[p][d]=h[p][d];if("ticks"in t){r=t.ticks,s=!0,this.autoTicks=!1;for(var p=0;3>p;++p)this.tickSpacing[p]=0}else n("tickSpacing")&&(this.autoTicks=!0,c=!0);if(this._firstInit&&("ticks"in t||"tickSpacing"in t||(this.autoTicks=!0),c=!0,s=!0,this._firstInit=!1),c&&this.autoTicks&&(r=f.create(this.bounds,this.tickSpacing),s=!0),s){for(var p=0;3>p;++p)r[p].sort(function(t,e){return t.x-e.x});f.equal(r,this.ticks)?s=!1:this.ticks=r}i("tickEnable"),o("tickFont")&&(s=!0),n("tickSize"),n("tickAngle"),n("tickPad"),a("tickColor");var m=o("labels");o("labelFont")&&(m=!0),i("labelEnable"),n("labelSize"),n("labelPad"),a("labelColor"),i("lineEnable"),i("lineMirror"),n("lineWidth"),a("lineColor"),i("lineTickEnable"),i("lineTickMirror"),n("lineTickLength"),n("lineTickWidth"),a("lineTickColor"),i("gridEnable"),n("gridWidth"),a("gridColor"),i("zeroEnable"),a("zeroLineColor"),n("zeroLineWidth"),i("backgroundEnable"),a("backgroundColor"),this._text?this._text&&(m||s)&&this._text.update(this.bounds,this.labels,this.labelFont,this.ticks,this.tickFont):this._text=l(this.gl,this.bounds,this.labels,this.labelFont,this.ticks,this.tickFont),this._lines&&s&&(this._lines.dispose(),this._lines=null),this._lines||(this._lines=u(this.gl,this.bounds,this.ticks))};var m=[new o,new o,new o],g=[0,0,0],v={model:p,view:p,projection:p};d.isOpaque=function(){return!0},d.isTransparent=function(){return!1},d.drawTransparent=function(t){};var y=[0,0,0],b=[0,0,0],x=[0,0,0];d.draw=function(t){t=t||v;for(var e=this.gl,r=t.model||p,i=t.view||p,o=t.projection||p,s=this.bounds,l=h(r,i,o,s),u=l.cubeEdges,c=l.axis,f=i[12],d=i[13],_=i[14],w=i[15],M=this.pixelRatio*(o[3]*f+o[7]*d+o[11]*_+o[15]*w)/e.drawingBufferHeight,k=0;3>k;++k)this.lastCubeProps.cubeEdges[k]=u[k],this.lastCubeProps.axis[k]=c[k];for(var A=m,k=0;3>k;++k)a(m[k],k,this.bounds,u,c);for(var e=this.gl,T=g,k=0;3>k;++k)this.backgroundEnable[k]?T[k]=c[k]:T[k]=0;this._background.draw(r,i,o,s,T,this.backgroundColor),this._lines.bind(r,i,o,this);for(var k=0;3>k;++k){var E=[0,0,0];c[k]>0?E[k]=s[1][k]:E[k]=s[0][k];for(var S=0;2>S;++S){var L=(k+1+S)%3,z=(k+1+(1^S))%3;this.gridEnable[L]&&this._lines.drawGrid(L,z,this.bounds,E,this.gridColor[L],this.gridWidth[L]*this.pixelRatio)}for(var S=0;2>S;++S){var L=(k+1+S)%3,z=(k+1+(1^S))%3;this.zeroEnable[z]&&s[0][z]<=0&&s[1][z]>=0&&this._lines.drawZero(L,z,this.bounds,E,this.zeroLineColor[z],this.zeroLineWidth[z]*this.pixelRatio)}}for(var k=0;3>k;++k){this.lineEnable[k]&&this._lines.drawAxisLine(k,this.bounds,A[k].primalOffset,this.lineColor[k],this.lineWidth[k]*this.pixelRatio),this.lineMirror[k]&&this._lines.drawAxisLine(k,this.bounds,A[k].mirrorOffset,this.lineColor[k],this.lineWidth[k]*this.pixelRatio);for(var I=n(y,A[k].primalMinor),P=n(b,A[k].mirrorMinor),C=this.lineTickLength,S=0;3>S;++S){var R=M/r[5*S];I[S]*=C[S]*R,P[S]*=C[S]*R}this.lineTickEnable[k]&&this._lines.drawAxisTicks(k,A[k].primalOffset,I,this.lineTickColor[k],this.lineTickWidth[k]*this.pixelRatio),this.lineTickMirror[k]&&this._lines.drawAxisTicks(k,A[k].mirrorOffset,P,this.lineTickColor[k],this.lineTickWidth[k]*this.pixelRatio)}this._text.bind(r,i,o,this.pixelRatio);for(var k=0;3>k;++k){for(var j=A[k].primalMinor,D=n(x,A[k].primalOffset),S=0;3>S;++S)this.lineTickEnable[k]&&(D[S]+=M*j[S]*Math.max(this.lineTickLength[S],0)/r[5*S]);if(this.tickEnable[k]){for(var S=0;3>S;++S)D[S]+=M*j[S]*this.tickPad[S]/r[5*S];this._text.drawTicks(k,this.tickSize[k],this.tickAngle[k],D,this.tickColor[k])}if(this.labelEnable[k]){for(var S=0;3>S;++S)D[S]+=M*j[S]*this.labelPad[S]/r[5*S];D[k]+=.5*(s[0][k]+s[1][k]),this._text.drawLabel(k,this.labelSize[k],this.labelAngle[k],D,this.labelColor[k])}}},d.dispose=function(){this._text.dispose(),this._lines.dispose(),this._background.dispose(),this._lines=null,this._text=null,this._background=null,this.gl=null}},{"./lib/background.js":182,"./lib/cube.js":183,"./lib/lines.js":184,"./lib/text.js":186,"./lib/ticks.js":187}],182:[function(t,e,r){"use strict";function n(t,e,r,n){this.gl=t,this.buffer=e,this.vao=r,this.shader=n}function i(t){for(var e=[],r=[],i=0,l=0;3>l;++l)for(var u=(l+1)%3,c=(l+2)%3,h=[0,0,0],f=[0,0,0],p=-1;1>=p;p+=2){r.push(i,i+2,i+1,i+1,i+2,i+3),h[l]=p,f[l]=p;for(var d=-1;1>=d;d+=2){h[u]=d;for(var m=-1;1>=m;m+=2)h[c]=m,e.push(h[0],h[1],h[2],f[0],f[1],f[2]),i+=1}var g=u;u=c,c=g}var v=o(t,new Float32Array(e)),y=o(t,new Uint16Array(r),t.ELEMENT_ARRAY_BUFFER),b=a(t,[{buffer:v,type:t.FLOAT,size:3,offset:0,stride:24},{buffer:v,type:t.FLOAT,size:3,offset:12,stride:24}],y),x=s(t);return x.attributes.position.location=0,x.attributes.normal.location=1,new n(t,v,b,x)}e.exports=i;var o=t("gl-buffer"),a=t("gl-vao"),s=t("./shaders").bg,l=n.prototype;l.draw=function(t,e,r,n,i,o){for(var a=!1,s=0;3>s;++s)a=a||i[s];if(a){var l=this.gl;l.enable(l.POLYGON_OFFSET_FILL),l.polygonOffset(1,2),
this.shader.bind(),this.shader.uniforms={model:t,view:e,projection:r,bounds:n,enable:i,colors:o},this.vao.bind(),this.vao.draw(this.gl.TRIANGLES,36),l.disable(l.POLYGON_OFFSET_FILL)}},l.dispose=function(){this.vao.dispose(),this.buffer.dispose(),this.shader.dispose()}},{"./shaders":185,"gl-buffer":129,"gl-vao":237}],183:[function(t,e,r){"use strict";function n(t,e,r){for(var n=0;4>n;++n){t[n]=r[12+n];for(var i=0;3>i;++i)t[n]+=e[i]*r[4*i+n]}}function i(t){for(var e=0;e<m.length;++e)if(t=l.positive(t,m[e]),t.length<3)return 0;for(var r=t[0],n=r[0]/r[3],i=r[1]/r[3],o=0,e=1;e+1<t.length;++e){var a=t[e],s=t[e+1],u=a[0]/a[3],c=a[1]/a[3],h=s[0]/s[3],f=s[1]/s[3],p=u-n,d=c-i,g=h-n,v=f-i;o+=Math.abs(p*v-d*g)}return o}function o(t,e,r,o){s(c,e,t),s(c,r,c);for(var l=0,m=0;2>m;++m){p[2]=o[m][2];for(var b=0;2>b;++b){p[1]=o[b][1];for(var x=0;2>x;++x)p[0]=o[x][0],n(h[l],p,c),l+=1}}for(var _=-1,m=0;8>m;++m){for(var w=h[m][3],M=0;3>M;++M)f[m][M]=h[m][M]/w;0>w&&(0>_?_=m:f[m][2]<f[_][2]&&(_=m))}if(0>_){_=0;for(var k=0;3>k;++k){for(var A=(k+2)%3,T=(k+1)%3,E=-1,S=-1,L=0;2>L;++L){var z=L<<k,I=z+(L<<A)+(1-L<<T),P=z+(1-L<<A)+(L<<T);u(f[z],f[I],f[P],d)<0||(L?E=1:S=1)}if(0>E||0>S)S>E&&(_|=1<<k);else{for(var L=0;2>L;++L){var z=L<<k,I=z+(L<<A)+(1-L<<T),P=z+(1-L<<A)+(L<<T),C=i([h[z],h[I],h[P],h[z+(1<<A)+(1<<T)]]);L?E=C:S=C}S>E&&(_|=1<<k)}}}for(var R=7^_,j=-1,m=0;8>m;++m)m!==_&&m!==R&&(0>j?j=m:f[j][1]>f[m][1]&&(j=m));for(var D=-1,m=0;3>m;++m){var O=j^1<<m;if(O!==_&&O!==R){0>D&&(D=O);var T=f[O];T[0]<f[D][0]&&(D=O)}}for(var F=-1,m=0;3>m;++m){var O=j^1<<m;if(O!==_&&O!==R&&O!==D){0>F&&(F=O);var T=f[O];T[0]>f[F][0]&&(F=O)}}var N=g;N[0]=N[1]=N[2]=0,N[a.log2(D^j)]=j&D,N[a.log2(j^F)]=j&F;var B=7^F;B===_||B===R?(B=7^D,N[a.log2(F^B)]=B&F):N[a.log2(D^B)]=B&D;for(var U=v,V=_,k=0;3>k;++k)V&1<<k?U[k]=-1:U[k]=1;return y}e.exports=o;var a=t("bit-twiddle"),s=t("gl-mat4/multiply"),l=(t("gl-mat4/invert"),t("split-polygon")),u=t("robust-orientation"),c=new Array(16),h=(new Array(16),new Array(8)),f=new Array(8),p=new Array(3),d=[0,0,0];!function(){for(var t=0;8>t;++t)h[t]=[1,1,1,1],f[t]=[1,1,1]}();var m=[[0,0,1,0,0],[0,0,-1,1,0],[0,-1,0,1,0],[0,1,0,1,0],[-1,0,0,1,0],[1,0,0,1,0]],g=[1,1,1],v=[0,0,0],y={cubeEdges:g,axis:v}},{"bit-twiddle":51,"gl-mat4/invert":148,"gl-mat4/multiply":150,"robust-orientation":462,"split-polygon":189}],184:[function(t,e,r){"use strict";function n(t){return t[0]=t[1]=t[2]=0,t}function i(t,e){return t[0]=e[0],t[1]=e[1],t[2]=e[2],t}function o(t,e,r,n,i,o,a,s){this.gl=t,this.vertBuffer=e,this.vao=r,this.shader=n,this.tickCount=i,this.tickOffset=o,this.gridCount=a,this.gridOffset=s}function a(t,e,r){var n=[],i=[0,0,0],a=[0,0,0],c=[0,0,0],h=[0,0,0];n.push(0,0,1,0,1,1,0,0,-1,0,0,-1,0,1,1,0,1,-1);for(var f=0;3>f;++f){for(var p=n.length/3|0,d=0;d<r[f].length;++d){var m=+r[f][d].x;n.push(m,0,1,m,1,1,m,0,-1,m,0,-1,m,1,1,m,1,-1)}var g=n.length/3|0;i[f]=p,a[f]=g-p;for(var p=n.length/3|0,v=0;v<r[f].length;++v){var m=+r[f][v].x;n.push(m,0,1,m,1,1,m,0,-1,m,0,-1,m,1,1,m,1,-1)}var g=n.length/3|0;c[f]=p,h[f]=g-p}var y=s(t,new Float32Array(n)),b=l(t,[{buffer:y,type:t.FLOAT,size:3,stride:0,offset:0}]),x=u(t);return x.attributes.position.location=0,new o(t,y,b,x,a,i,h,c)}e.exports=a;var s=t("gl-buffer"),l=t("gl-vao"),u=t("./shaders").line,c=[0,0,0],h=[0,0,0],f=[0,0,0],p=[0,0,0],d=[1,1],m=o.prototype;m.bind=function(t,e,r){this.shader.bind(),this.shader.uniforms.model=t,this.shader.uniforms.view=e,this.shader.uniforms.projection=r,d[0]=this.gl.drawingBufferWidth,d[1]=this.gl.drawingBufferHeight,this.shader.uniforms.screenShape=d,this.vao.bind()},m.drawAxisLine=function(t,e,r,o,a){var s=n(h);this.shader.uniforms.majorAxis=h,s[t]=e[1][t]-e[0][t],this.shader.uniforms.minorAxis=s;var l=i(p,r);l[t]+=e[0][t],this.shader.uniforms.offset=l,this.shader.uniforms.lineWidth=a,this.shader.uniforms.color=o;var u=n(f);u[(t+2)%3]=1,this.shader.uniforms.screenAxis=u,this.vao.draw(this.gl.TRIANGLES,6);var u=n(f);u[(t+1)%3]=1,this.shader.uniforms.screenAxis=u,this.vao.draw(this.gl.TRIANGLES,6)},m.drawAxisTicks=function(t,e,r,i,o){if(this.tickCount[t]){var a=n(c);a[t]=1,this.shader.uniforms.majorAxis=a,this.shader.uniforms.offset=e,this.shader.uniforms.minorAxis=r,this.shader.uniforms.color=i,this.shader.uniforms.lineWidth=o;var s=n(f);s[t]=1,this.shader.uniforms.screenAxis=s,this.vao.draw(this.gl.TRIANGLES,this.tickCount[t],this.tickOffset[t])}},m.drawGrid=function(t,e,r,o,a,s){if(this.gridCount[t]){var l=n(h);l[e]=r[1][e]-r[0][e],this.shader.uniforms.minorAxis=l;var u=i(p,o);u[e]+=r[0][e],this.shader.uniforms.offset=u;var d=n(c);d[t]=1,this.shader.uniforms.majorAxis=d;var m=n(f);m[t]=1,this.shader.uniforms.screenAxis=m,this.shader.uniforms.lineWidth=s,this.shader.uniforms.color=a,this.vao.draw(this.gl.TRIANGLES,this.gridCount[t],this.gridOffset[t])}},m.drawZero=function(t,e,r,o,a,s){var l=n(h);this.shader.uniforms.majorAxis=l,l[t]=r[1][t]-r[0][t],this.shader.uniforms.minorAxis=l;var u=i(p,o);u[t]+=r[0][t],this.shader.uniforms.offset=u;var c=n(f);c[e]=1,this.shader.uniforms.screenAxis=c,this.shader.uniforms.lineWidth=s,this.shader.uniforms.color=a,this.vao.draw(this.gl.TRIANGLES,6)},m.dispose=function(){this.vao.dispose(),this.vertBuffer.dispose(),this.shader.dispose()}},{"./shaders":185,"gl-buffer":129,"gl-vao":237}],185:[function(t,e,r){"use strict";var n=t("gl-shader"),i="#define GLSLIFY 1\nattribute vec3 position;\n\nuniform mat4 model, view, projection;\nuniform vec3 offset, majorAxis, minorAxis, screenAxis;\nuniform float lineWidth;\nuniform vec2 screenShape;\n\nvec3 project(vec3 p) {\n  vec4 pp = projection * view * model * vec4(p, 1.0);\n  return pp.xyz / max(pp.w, 0.0001);\n}\n\nvoid main() {\n  vec3 major = position.x * majorAxis;\n  vec3 minor = position.y * minorAxis;\n\n  vec3 vPosition = major + minor + offset;\n  vec3 pPosition = project(vPosition);\n  vec3 offset = project(vPosition + screenAxis * position.z);\n\n  vec2 screen = normalize((offset - pPosition).xy * screenShape) / screenShape;\n\n  gl_Position = vec4(pPosition + vec3(0.5 * screen * lineWidth, 0), 1.0);\n}\n",o="precision mediump float;\n#define GLSLIFY 1\nuniform vec4 color;\nvoid main() {\n  gl_FragColor = color;\n}";r.line=function(t){return n(t,i,o,null,[{name:"position",type:"vec3"}])};var a="#define GLSLIFY 1\nattribute vec3 position;\n\nuniform mat4 model, view, projection;\nuniform vec3 offset, axis;\nuniform float scale, angle, pixelScale;\nuniform vec2 resolution;\n\nvoid main() {  \n  //Compute plane offset\n  vec2 planeCoord = position.xy * pixelScale;\n  mat2 planeXform = scale * mat2(cos(angle), sin(angle),\n                                -sin(angle), cos(angle));\n  vec2 viewOffset = 2.0 * planeXform * planeCoord / resolution;\n\n  //Compute world offset\n  float axisDistance = position.z;\n  vec3 dataPosition = axisDistance * axis + offset;\n  vec4 worldPosition = model * vec4(dataPosition, 1);\n  \n  //Compute clip position\n  vec4 viewPosition = view * worldPosition;\n  vec4 clipPosition = projection * viewPosition;\n  clipPosition /= clipPosition.w;\n\n  //Apply text offset in clip coordinates\n  clipPosition += vec4(viewOffset, 0, 0);\n\n  //Done\n  gl_Position = clipPosition;\n}",s="precision mediump float;\n#define GLSLIFY 1\nuniform vec4 color;\nvoid main() {\n  gl_FragColor = color;\n}";r.text=function(t){return n(t,a,s,null,[{name:"position",type:"vec3"}])};var l="#define GLSLIFY 1\nattribute vec3 position;\nattribute vec3 normal;\n\nuniform mat4 model, view, projection;\nuniform vec3 enable;\nuniform vec3 bounds[2];\n\nvarying vec3 colorChannel;\n\nvoid main() {\n  if(dot(normal, enable) > 0.0) {\n    vec3 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n=O[r];n.shape=H,n.begin();for(var i=0;t>i;++i)if(j[i]===r){var o=R[i];o.drawPick&&(o.pixelRatio=1,o.drawPick(V))}n.end()}}}function b(){if(!s()){e();var t=G.camera.tick();V.view=G.camera.matrix,F=F||t,N=N||t,I.pixelRatio=G.pixelRatio,C.pixelRatio=G.pixelRatio;var r=R.length,n=W[0],i=W[1];n[0]=n[1]=n[2]=1/0,i[0]=i[1]=i[2]=-(1/0);for(var a=0;r>a;++a){var l=R[a];l.pixelRatio=G.pixelRatio,l.axes=G.axes,F=F||!!l.dirty,N=N||!!l.dirty;var u=l.bounds;if(u)for(var h=u[0],f=u[1],p=0;3>p;++p)n[p]=Math.min(n[p],h[p]),i[p]=Math.max(i[p],f[p])}var m=G.bounds;if(G.autoBounds)for(var p=0;3>p;++p){if(i[p]<n[p])n[p]=-1,i[p]=1;else{n[p]===i[p]&&(n[p]-=1,i[p]+=1);var v=.05*(i[p]-n[p]);n[p]=n[p]-v,i[p]=i[p]+v}m[0][p]=n[p],m[1][p]=i[p]}for(var b=!1,p=0;3>p;++p)b=b||Z[0][p]!==m[0][p]||Z[1][p]!==m[1][p],Z[0][p]=m[0][p],Z[1][p]=m[1][p];if(b){for(var x=[0,0,0],a=0;3>a;++a)x[a]=o((m[1][a]-m[0][a])/10);I.autoTicks?I.update({bounds:m,tickSpacing:x}):I.update({bounds:m})}N=N||b,F=F||b;var 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L=!1;I.enable&&(L=L||I.isTransparent(),I.draw(V)),C.axes=I,T.object&&C.draw(V),k.disable(k.CULL_FACE);for(var a=0;r>a;++a){var l=R[a];l.axes=I,l.pixelRatio=G.pixelRatio,l.isOpaque&&l.isOpaque()&&l.draw(V),l.isTransparent&&l.isTransparent()&&(L=!0)}if(L){E.shape=q,E.bind(),k.clear(k.DEPTH_BUFFER_BIT),k.colorMask(!1,!1,!1,!1),k.depthMask(!0),k.depthFunc(k.LESS),I.enable&&I.isTransparent()&&I.drawTransparent(V);for(var a=0;r>a;++a){var l=R[a];l.isOpaque&&l.isOpaque()&&l.draw(V)}k.enable(k.BLEND),k.blendEquation(k.FUNC_ADD),k.blendFunc(k.ONE,k.ONE_MINUS_SRC_ALPHA),k.colorMask(!0,!0,!0,!0),k.depthMask(!1),k.clearColor(0,0,0,0),k.clear(k.COLOR_BUFFER_BIT),I.isTransparent()&&I.drawTransparent(V);for(var a=0;r>a;++a){var l=R[a];l.isTransparent&&l.isTransparent()&&l.drawTransparent(V)}k.bindFramebuffer(k.FRAMEBUFFER,null),k.blendFunc(k.ONE,k.ONE_MINUS_SRC_ALPHA),k.disable(k.DEPTH_TEST),S.bind(),E.color[0].bind(0),S.uniforms.accumBuffer=0,d(k),k.disable(k.BLEND)}F=!1;for(var a=0;r>a;++a)R[a].dirty=!1}}}function x(){_||G.contextLost||(requestAnimationFrame(x),b())}t=t||{};var _=!1,w=(t.pixelRatio||parseFloat(window.devicePixelRatio),t.canvas);if(!w)if(w=document.createElement("canvas"),t.container){var M=t.container;M.appendChild(w)}else document.body.appendChild(w);var k=t.gl;if(k||(k=i(w,t.glOptions||{premultipliedAlpha:!0,antialias:!0})),!k)throw new Error("webgl not supported");var A=t.bounds||[[-10,-10,-10],[10,10,10]],T=new n,E=p(k,[k.drawingBufferWidth,k.drawingBufferHeight],{preferFloat:!0}),S=v(k),L=t.camera||{eye:[2,0,0],center:[0,0,0],up:[0,1,0],zoomMin:.1,zoomMax:100,mode:"turntable"},z=t.axes||{},I=u(k,z);I.enable=!z.disable;var P=t.spikes||{},C=h(k,P),R=[],j=[],D=[],O=[],F=!0,N=!0,B=new Array(16),U=new Array(16),V={view:null,projection:B,model:U},N=!0,q=[k.drawingBufferWidth,k.drawingBufferHeight],G={gl:k,contextLost:!1,pixelRatio:t.pixelRatio||parseFloat(window.devicePixelRatio),canvas:w,selection:T,camera:l(w,L),axes:I,axesPixels:null,spikes:C,bounds:A,objects:R,shape:q,aspect:t.aspectRatio||[1,1,1],pickRadius:t.pickRadius||10,zNear:t.zNear||.01,zFar:t.zFar||1e3,fovy:t.fovy||Math.PI/4,clearColor:t.clearColor||[0,0,0,0],autoResize:a(t.autoResize),autoBounds:a(t.autoBounds),autoScale:!!t.autoScale,autoCenter:a(t.autoCenter),clipToBounds:a(t.clipToBounds),snapToData:!!t.snapToData,onselect:t.onselect||null,onrender:t.onrender||null,onclick:t.onclick||null,cameraParams:V,oncontextloss:null,mouseListener:null},H=[k.drawingBufferWidth/G.pixelRatio|0,k.drawingBufferHeight/G.pixelRatio|0];G.autoResize&&e(),window.addEventListener("resize",e),G.update=function(t){_||(t=t||{},F=!0,N=!0)},G.add=function(t){_||(t.axes=I,R.push(t),j.push(-1),F=!0,N=!0,r())},G.remove=function(t){if(!_){var e=R.indexOf(t);0>e||(R.splice(e,1),j.pop(),F=!0,N=!0,r())}},G.dispose=function(){if(!_&&(_=!0,window.removeEventListener("resize",e),w.removeEventListener("webglcontextlost",s),G.mouseListener.enabled=!1,!G.contextLost)){I.dispose(),C.dispose();for(var t=0;t<R.length;++t)R[t].dispose();E.dispose();for(var t=0;t<O.length;++t)O[t].dispose();S.dispose(),k=null,I=null,C=null,R=[]}};var X=!1,Y=0;G.mouseListener=m(w,function(t,e,r){if(!_){var n=O.length,i=R.length,o=T.object;T.distance=1/0,T.mouse[0]=e,T.mouse[1]=r,T.object=null,T.screen=null,T.dataCoordinate=T.dataPosition=null;var a=!1;if(t&&Y)X=!0;else{X&&(N=!0),X=!1;for(var s=0;n>s;++s){var l=O[s].query(e,H[1]-r-1,G.pickRadius);if(l){if(l.distance>T.distance)continue;for(var u=0;i>u;++u){var c=R[u];if(j[u]===s){var h=c.pick(l);h&&(T.buttons=t,T.screen=l.coord,T.distance=l.distance,T.object=c,T.index=h.distance,T.dataPosition=h.position,T.dataCoordinate=h.dataCoordinate,T.data=h,a=!0)}}}}}o&&o!==T.object&&(o.highlight&&o.highlight(null),F=!0),T.object&&(T.object.highlight&&T.object.highlight(T.data),F=!0),a=a||T.object!==o,a&&G.onselect&&G.onselect(T),1&t&&!(1&Y)&&G.onclick&&G.onclick(T),Y=t}}),w.addEventListener("webglcontextlost",s);var W=[[1/0,1/0,1/0],[-(1/0),-(1/0),-(1/0)]],Z=[W[0].slice(),W[1].slice()];return x(),G.redraw=function(){_||(F=!0,b())},G}e.exports=s;var l=t("3d-view-controls"),u=t("gl-axes3d"),c=t("gl-axes3d/properties"),h=t("gl-spikes3d"),f=t("gl-select-static"),p=t("gl-fbo"),d=t("a-big-triangle"),m=t("mouse-change"),g=t("gl-mat4/perspective"),v=t("./lib/shader")},{"./lib/shader":177,"3d-view-controls":178,"a-big-triangle":180,"gl-axes3d":181,"gl-axes3d/properties":191,"gl-fbo":134,"gl-mat4/perspective":151,"gl-select-static":207,"gl-spikes3d":193,"mouse-change":444}],195:[function(t,e,r){"use strict";e.exports={vertex:"precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 position;\nattribute vec2 offset;\nattribute vec4 color;\n\nuniform mat3 viewTransform;\nuniform vec2 pixelScale;\n\nvarying vec4 fragColor;\n\nvec4 computePosition_1_0(vec2 position, vec2 offset, mat3 view, vec2 scale) {\n  vec3 xposition = view * vec3(position, 1.0);\n  return vec4(\n    xposition.xy + scale * offset * xposition.z,\n    0,\n    xposition.z);\n}\n\n\n\n\nvoid main() {\n  fragColor = color;\n\n  gl_Position = computePosition_1_0(\n    position,\n    offset,\n    viewTransform,\n    pixelScale);\n}\n",fragment:"precision lowp float;\n#define GLSLIFY 1\nvarying vec4 fragColor;\nvoid main() {\n  gl_FragColor = vec4(fragColor.rgb * fragColor.a, fragColor.a);\n}\n",pickVertex:"precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 position;\nattribute vec2 offset;\nattribute vec4 id;\n\nuniform mat3 viewTransform;\nuniform vec2 pixelScale;\nuniform vec4 pickOffset;\n\nvarying vec4 fragColor;\n\nvec4 computePosition_1_0(vec2 position, vec2 offset, mat3 view, vec2 scale) {\n  vec3 xposition = view * vec3(position, 1.0);\n  return vec4(\n    xposition.xy + scale * offset * xposition.z,\n    0,\n    xposition.z);\n}\n\n\n\n\nvoid main() {\n  vec4 fragId = id + pickOffset;\n\n  fragId.y += floor(fragId.x / 256.0);\n  fragId.x -= floor(fragId.x / 256.0) * 256.0;\n\n  fragId.z += floor(fragId.y / 256.0);\n  fragId.y -= floor(fragId.y / 256.0) * 256.0;\n\n  fragId.w += floor(fragId.z / 256.0);\n  fragId.z -= floor(fragId.z / 256.0) * 256.0;\n\n  fragColor = fragId / 255.0;\n\n  gl_Position = computePosition_1_0(\n    position,\n    offset,\n    viewTransform,\n    pixelScale);\n}\n",pickFragment:"precision lowp float;\n#define GLSLIFY 1\nvarying vec4 fragColor;\nvoid main() {\n  gl_FragColor = fragColor;\n}\n"}},{}],196:[function(t,e,r){"use strict";function n(t){if(t in f)return f[t];var e=c(t,{polygons:!0,font:"sans-serif",textAlign:"left",textBaseline:"alphabetic"}),r=[],n=[];e.forEach(function(t){t.forEach(function(t){for(var e=0;e<t.length;++e){var i=t[(e+t.length-1)%t.length],o=t[e],a=t[(e+1)%t.length],s=t[(e+2)%t.length],l=o[0]-i[0],u=o[1]-i[1],c=Math.sqrt(l*l+u*u);l/=c,u/=c,r.push(i[0],i[1]+1.4),n.push(u,-l),r.push(i[0],i[1]+1.4),n.push(-u,l),r.push(o[0],o[1]+1.4),n.push(-u,l),r.push(o[0],o[1]+1.4),n.push(-u,l),r.push(i[0],i[1]+1.4),n.push(u,-l),r.push(o[0],o[1]+1.4),n.push(u,-l);var h=s[0]-a[0],f=s[1]-a[1],p=Math.sqrt(h*h+f*f);h/=p,f/=p,r.push(o[0],o[1]+1.4),n.push(u,-l),r.push(o[0],o[1]+1.4),n.push(-u,l),r.push(a[0],a[1]+1.4),n.push(-f,h),r.push(a[0],a[1]+1.4),n.push(-f,h),r.push(o[0],o[1]+1.4),n.push(f,-h),r.push(a[0],a[1]+1.4),n.push(f,-h)}})});for(var i=[1/0,1/0,-(1/0),-(1/0)],o=0;o<r.length;o+=2)for(var a=0;2>a;++a)i[a]=Math.min(i[a],r[o+a]),i[2+a]=Math.max(i[2+a],r[o+a]);return f[t]={coords:r,normals:n,bounds:i}}function i(t,e,r,n,i,o,a){this.plot=t,this.shader=e,this.pickShader=r,this.positionBuffer=n,this.offsetBuffer=i,this.colorBuffer=o,this.idBuffer=a,this.bounds=[1/0,1/0,-(1/0),-(1/0)],this.numPoints=0,this.numVertices=0,this.pickOffset=0,this.points=null}function o(t,e){var r=t.gl,n=a(r,h.vertex,h.fragment),o=a(r,h.pickVertex,h.pickFragment),l=s(r),u=s(r),c=s(r),f=s(r),p=new i(t,n,o,l,u,c,f);return p.update(e),t.addObject(p),p}e.exports=o;var a=t("gl-shader"),s=t("gl-buffer"),l=t("text-cache"),u=t("typedarray-pool"),c=t("vectorize-text"),h=t("./lib/shaders"),f={},p=i.prototype;!function(){function t(){var t=this.plot,n=this.bounds,i=t.viewBox,o=t.dataBox,a=t.pixelRatio,s=n[2]-n[0],l=n[3]-n[1],u=o[2]-o[0],c=o[3]-o[1];e[0]=2*s/u,e[4]=2*l/c,e[6]=2*(n[0]-o[0])/u-1,e[7]=2*(n[1]-o[1])/c-1;var h=i[2]-i[0],f=i[3]-i[1];r[0]=2*a/h,r[1]=2*a/f}var e=[1,0,0,0,1,0,0,0,1],r=[1,1];p.draw=function(){var n=this.plot,i=this.shader,o=this.numVertices;if(o){var a=n.gl;t.call(this),i.bind(),i.uniforms.pixelScale=r,i.uniforms.viewTransform=e,this.positionBuffer.bind(),i.attributes.position.pointer(),this.offsetBuffer.bind(),i.attributes.offset.pointer(),this.colorBuffer.bind(),i.attributes.color.pointer(a.UNSIGNED_BYTE,!0),a.drawArrays(a.TRIANGLES,0,o)}};var n=[0,0,0,0];p.drawPick=function(i){var o=this.plot,a=this.pickShader,s=this.numVertices,l=o.gl;if(this.pickOffset=i,!s)return i;for(var u=0;4>u;++u)n[u]=i>>8*u&255;return t.call(this),a.bind(),a.uniforms.pixelScale=r,a.uniforms.viewTransform=e,a.uniforms.pickOffset=n,this.positionBuffer.bind(),a.attributes.position.pointer(),this.offsetBuffer.bind(),a.attributes.offset.pointer(),this.idBuffer.bind(),a.attributes.id.pointer(l.UNSIGNED_BYTE,!1),l.drawArrays(l.TRIANGLES,0,s),i+this.numPoints}}(),p.pick=function(t,e,r){var n=this.pickOffset,i=this.numPoints;if(n>r||r>=n+i)return null;var o=r-n,a=this.points;return{object:this,pointId:o,dataCoord:[a[2*o],a[2*o+1]]}},p.update=function(t){t=t||{};var e=t.positions||[],r=t.colors||[],i=t.glyphs||[],o=t.sizes||[],a=t.borderWidths||[],s=t.borderColors||[];this.points=e;for(var c=this.bounds=[1/0,1/0,-(1/0),-(1/0)],h=0,f=0;f<i.length;++f){h+=l("sans-serif",i[f]).data.length+n(i[f]).coords.length>>1;for(var p=0;2>p;++p)c[p]=Math.min(c[p],e[2*f+p]),c[2+p]=Math.max(c[2+p],e[2*f+p])}c[0]===c[2]&&(c[2]+=1),c[3]===c[1]&&(c[3]+=1);for(var d=1/(c[2]-c[0]),m=1/(c[3]-c[1]),g=c[0],v=c[1],y=u.mallocFloat32(2*h),b=u.mallocFloat32(2*h),x=u.mallocUint8(4*h),_=u.mallocUint32(h),w=0,f=0;f<i.length;++f){for(var M=l("sans-serif",i[f]),k=n(i[f]),A=d*(e[2*f]-g),T=m*(e[2*f+1]-v),E=o[f],S=255*r[4*f],L=255*r[4*f+1],z=255*r[4*f+2],I=255*r[4*f+3],P=.5*(k.bounds[0]+k.bounds[2]),C=.5*(k.bounds[1]+k.bounds[3]),p=0;p<M.data.length;p+=2)y[2*w]=A,y[2*w+1]=T,b[2*w]=-E*(M.data[p]-P),b[2*w+1]=-E*(M.data[p+1]-C),x[4*w]=S,x[4*w+1]=L,x[4*w+2]=z,x[4*w+3]=I,_[w]=f,w+=1;var R=a[f];S=255*s[4*f],L=255*s[4*f+1],z=255*s[4*f+2],I=255*s[4*f+3];
for(var p=0;p<k.coords.length;p+=2)y[2*w]=A,y[2*w+1]=T,b[2*w]=-(E*(k.coords[p]-P)+R*k.normals[p]),b[2*w+1]=-(E*(k.coords[p+1]-C)+R*k.normals[p+1]),x[4*w]=S,x[4*w+1]=L,x[4*w+2]=z,x[4*w+3]=I,_[w]=f,w+=1}this.numPoints=i.length,this.numVertices=h,this.positionBuffer.update(y),this.offsetBuffer.update(b),this.colorBuffer.update(x),this.idBuffer.update(_),u.free(y),u.free(b),u.free(x),u.free(_)},p.dispose=function(){this.shader.dispose(),this.pickShader.dispose(),this.positionBuffer.dispose(),this.offsetBuffer.dispose(),this.colorBuffer.dispose(),this.idBuffer.dispose(),this.plot.removeObject(this)}},{"./lib/shaders":195,"gl-buffer":129,"gl-shader":208,"text-cache":476,"typedarray-pool":481,"vectorize-text":483}],197:[function(t,e,r){r.pointVertex="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 position;\nattribute float weight;\n\nuniform mat3 matrix;\nuniform float pointSize, useWeight;\n\nvarying float fragWeight;\n\nvoid main() {\n  vec3 hgPosition = matrix * vec3(position, 1);\n  gl_Position  = vec4(hgPosition.xy, 0, hgPosition.z);\n  gl_PointSize = pointSize;\n  fragWeight = mix(1.0, weight, useWeight);\n}\n",r.pointFragment="precision mediump float;\n#define GLSLIFY 1\n\nuniform vec4 color, borderColor;\nuniform float centerFraction;\n\nvarying float fragWeight;\n\nfloat smoothStep(float x, float y) {\n  return 1.0 / (1.0 + exp(50.0*(x - y)));\n}\n\nvoid main() {\n  float radius = length(2.0*gl_PointCoord.xy-1.0);\n  if(radius > 1.0) {\n    discard;\n  }\n  vec4 baseColor = mix(borderColor, color, smoothStep(radius, centerFraction));\n  float alpha = 1.0 - pow(1.0 - baseColor.a, fragWeight);\n  gl_FragColor = vec4(baseColor.rgb * alpha, alpha);\n}\n",r.pickVertex="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 position;\nattribute vec4 pickId;\n\nuniform mat3 matrix;\nuniform float pointSize;\nuniform vec4 pickOffset;\n\nvarying vec4 fragId;\n\nvoid main() {\n  vec3 hgPosition = matrix * vec3(position, 1);\n  gl_Position  = vec4(hgPosition.xy, 0, hgPosition.z);\n  gl_PointSize = pointSize;\n\n  vec4 id = pickId + pickOffset;\n  id.y += floor(id.x / 256.0);\n  id.x -= floor(id.x / 256.0) * 256.0;\n\n  id.z += floor(id.y / 256.0);\n  id.y -= floor(id.y / 256.0) * 256.0;\n\n  id.w += floor(id.z / 256.0);\n  id.z -= floor(id.z / 256.0) * 256.0;\n\n  fragId = id;\n}\n",r.pickFragment="precision mediump float;\n#define GLSLIFY 1\n\nvarying vec4 fragId;\n\nvoid main() {\n  float radius = length(2.0*gl_PointCoord.xy-1.0);\n  if(radius > 1.0) {\n    discard;\n  }\n  gl_FragColor = fragId / 255.0;\n}\n"},{}],198:[function(t,e,r){arguments[4][73][0].apply(r,arguments)},{dup:73}],199:[function(t,e,r){"use strict";function n(t,e,r,n,o){4*f>=o?i(0,o-1,t,e,r,n):h(0,o-1,t,e,r,n)}function i(t,e,r,n,i,o){for(var a=t+1;e>=a;++a){for(var s=r[a],l=n[2*a],u=n[2*a+1],c=i[a],h=o[a],f=a;f>t;){var p=r[f-1],d=n[2*(f-1)];if((p-s||l-d)>=0)break;r[f]=p,n[2*f]=d,n[2*f+1]=n[2*f-1],i[f]=i[f-1],o[f]=o[f-1],f-=1}r[f]=s,n[2*f]=l,n[2*f+1]=u,i[f]=c,o[f]=h}}function o(t,e,r,n,i,o){var a=r[t],s=n[2*t],l=n[2*t+1],u=i[t],c=o[t];r[t]=r[e],n[2*t]=n[2*e],n[2*t+1]=n[2*e+1],i[t]=i[e],o[t]=o[e],r[e]=a,n[2*e]=s,n[2*e+1]=l,i[e]=u,o[e]=c}function a(t,e,r,n,i,o){r[t]=r[e],n[2*t]=n[2*e],n[2*t+1]=n[2*e+1],i[t]=i[e],o[t]=o[e]}function s(t,e,r,n,i,o,a){var s=n[t],l=i[2*t],u=i[2*t+1],c=o[t],h=a[t];n[t]=n[e],i[2*t]=i[2*e],i[2*t+1]=i[2*e+1],o[t]=o[e],a[t]=a[e],n[e]=n[r],i[2*e]=i[2*r],i[2*e+1]=i[2*r+1],o[e]=o[r],a[e]=a[r],n[r]=s,i[2*r]=l,i[2*r+1]=u,o[r]=c,a[r]=h}function l(t,e,r,n,i,o,a,s,l,u,c){s[t]=s[e],l[2*t]=l[2*e],l[2*t+1]=l[2*e+1],u[t]=u[e],c[t]=c[e],s[e]=r,l[2*e]=n,l[2*e+1]=i,u[e]=o,c[e]=a}function u(t,e,r,n,i){return(r[t]-r[e]||n[2*e]-n[2*t]||i[t]-i[e])<0}function c(t,e,r,n,i,o,a,s){return(e-o[t]||a[2*t]-r||i-s[t])<0}function h(t,e,r,n,p,d){var 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if(!c(it,R,j,D,O,r,n,p))for(;;){if(c(E,R,j,D,O,r,n,p)){c(E,L,z,I,P,r,n,p)?(s(it,T,E,r,n,p,d),++T,--E):(o(it,E,r,n,p,d),--E);break}if(--E<it)break}l(t,T-1,L,z,I,P,C,r,n,p,d),l(e,E+1,R,j,D,O,F,r,n,p,d),f>=T-2-t?i(t,T-2,r,n,p,d):h(t,T-2,r,n,p,d),f>=e-(E+2)?i(E+2,e,r,n,p,d):h(E+2,e,r,n,p,d),f>=E-T?i(T,E,r,n,p,d):h(T,E,r,n,p,d)}e.exports=n;var f=32},{}],200:[function(t,e,r){"use strict";function n(t,e,r,n,i,o,a,s){for(var l=r,u=r;n>u;++u){var c=t[2*u],h=t[2*u+1],f=e[u];c>=i&&a>=c&&h>=o&&s>=h&&(u===l?l+=1:(t[2*u]=t[2*l],t[2*u+1]=t[2*l+1],e[u]=e[l],t[2*l]=c,t[2*l+1]=h,e[l]=f,l+=1))}return l}function i(t,e,r){this.pixelSize=t,this.offset=e,this.count=r}function o(t,e,r,o){function l(i,o,a,s,u,c){var h=.5*a,f=s+1,p=u-s;r[_]=p,x[_++]=c;for(var d=0;2>d;++d)for(var m=0;2>m;++m){var g=i+d*h,v=o+m*h,y=n(t,e,f,u,g,v,g+h,v+h);if(y!==f){if(y-f>=Math.max(.9*p,32)){var b=u+s>>>1;l(g,v,h,f,b,c+1),f=b}l(g,v,h,f,y,c+1),f=y}}}var u=t.length>>>1;if(1>u)return[];for(var c=1/0,h=1/0,f=-(1/0),p=-(1/0),d=0;u>d;++d){var m=t[2*d],g=t[2*d+1];c=Math.min(c,m),f=Math.max(f,m),h=Math.min(h,g),p=Math.max(p,g),e[d]=d}c===f&&(f+=1+Math.abs(f)),h===p&&(p+=1+Math.abs(f));var v=1/(f-c),y=1/(p-h),b=Math.max(f-c,p-h);o=o||[0,0,0,0],o[0]=c,o[1]=h,o[2]=f,o[3]=p;var x=a.mallocInt32(u),_=0;l(c,h,b,0,u,0),s(x,t,e,r,u);for(var w=[],M=0,k=u,_=u-1;_>=0;--_){t[2*_]=(t[2*_]-c)*v,t[2*_+1]=(t[2*_+1]-h)*y;var A=x[_];A!==M&&(w.push(new i(b*Math.pow(.5,A),_+1,k-(_+1))),k=_+1,M=A)}return w.push(new i(b*Math.pow(.5,A+1),0,k)),a.free(x),w}var a=t("typedarray-pool"),s=t("./lib/sort");e.exports=o},{"./lib/sort":199,"typedarray-pool":481}],201:[function(t,e,r){"use strict";function n(t,e,r,n,i,o){this.plot=t,this.offsetBuffer=e,this.pickBuffer=r,this.weightBuffer=n,this.shader=i,this.pickShader=o,this.scales=[],this.size=12,this.borderSize=1,this.pointCount=0,this.color=[1,0,0,1],this.borderColor=[0,0,0,1],this.bounds=[1/0,1/0,-(1/0),-(1/0)],this.pickOffset=0,this.points=null,this.xCoords=null}function i(t,e){var r=t.gl,i=a(r),s=a(r),l=a(r),u=o(r,c.pointVertex,c.pointFragment),h=o(r,c.pickVertex,c.pickFragment),f=new n(t,i,s,l,u,h);return f.update(e),t.addObject(f),f}var o=t("gl-shader"),a=t("gl-buffer"),s=t("binary-search-bounds"),l=t("snap-points-2d"),u=t("typedarray-pool"),c=t("./lib/shader");e.exports=i;var h=n.prototype;h.dispose=function(){this.shader.dispose(),this.pickShader.dispose(),this.offsetBuffer.dispose(),this.pickBuffer.dispose(),this.xCoords&&u.free(this.xCoords),this.plot.removeObject(this)},h.update=function(t){function e(e,r){return e in t?t[e]:r}t=t||{},this.size=e("size",12),this.color=e("color",[1,0,0,1]).slice(),this.borderSize=e("borderSize",1),this.borderColor=e("borderColor",[0,0,0,1]).slice(),this.xCoords&&u.free(this.xCoords);var r=t.positions,n=u.mallocFloat32(r.length),i=u.mallocInt32(r.length>>>1);n.set(r);var o=u.mallocFloat32(r.length);this.points=r,this.scales=l(n,i,o,this.bounds),this.offsetBuffer.update(n),this.pickBuffer.update(i),this.weightBuffer.update(o);for(var a=u.mallocFloat32(r.length>>>1),s=0,c=0;s<r.length;s+=2,++c)a[c]=n[s];u.free(i),u.free(n),u.free(o),this.xCoords=a,this.pointCount=r.length>>>1,this.pickOffset=0},h.drawPick=function(){var t=[1,0,0,0,1,0,0,0,1],e=[0,0,0,0];return function(r){var n=this.plot,i=this.pickShader,o=this.scales,a=this.offsetBuffer,l=this.pickBuffer,u=this.bounds,c=this.size,h=this.borderSize,f=n.gl,p=n.pickPixelRatio,d=n.viewBox,m=n.dataBox;if(0===this.pointCount)return r;var g=u[2]-u[0],v=u[3]-u[1],y=m[2]-m[0],b=m[3]-m[1],x=(d[2]-d[0])*p/n.pixelRatio,_=(d[3]-d[1])*p/n.pixelRatio,w=Math.min(y/x,b/_);t[0]=2*g/y,t[4]=2*v/b,t[6]=2*(u[0]-m[0])/y-1,t[7]=2*(u[1]-m[1])/b-1,this.pickOffset=r,e[0]=255&r,e[1]=r>>8&255,e[2]=r>>16&255,e[3]=r>>24&255,i.bind(),i.uniforms.matrix=t,i.uniforms.color=this.color,i.uniforms.borderColor=this.borderColor,i.uniforms.pointSize=p*(c+h),i.uniforms.pickOffset=e,0===this.borderSize?i.uniforms.centerFraction=2:i.uniforms.centerFraction=c/(c+h+1.25),a.bind(),i.attributes.position.pointer(),l.bind(),i.attributes.pickId.pointer(f.UNSIGNED_BYTE);for(var M=this.xCoords,k=(m[0]-u[0]-w*c*p)/g,A=(m[2]-u[0]+w*c*p)/g,T=o.length-1;T>=0;--T){var E=o[T];if(!(E.pixelSize<w&&T>1)){var S=E.offset,L=E.count+S,z=s.ge(M,k,S,L-1),I=s.lt(M,A,z,L-1)+1;I>z&&f.drawArrays(f.POINTS,z,I-z)}}return r+this.pointCount}}(),h.draw=function(){var t=[1,0,0,0,1,0,0,0,1];return function(){var e=this.plot,r=this.shader,n=this.scales,i=this.offsetBuffer,o=this.bounds,a=this.size,l=this.borderSize,u=e.gl,c=e.pixelRatio,h=e.viewBox,f=e.dataBox;if(0!==this.pointCount){var p=o[2]-o[0],d=o[3]-o[1],m=f[2]-f[0],g=f[3]-f[1],v=h[2]-h[0],y=h[3]-h[1],b=Math.min(m/v,g/y);t[0]=2*p/m,t[4]=2*d/g,t[6]=2*(o[0]-f[0])/m-1,t[7]=2*(o[1]-f[1])/g-1,r.bind(),r.uniforms.matrix=t,r.uniforms.color=this.color,r.uniforms.borderColor=this.borderColor,r.uniforms.pointSize=c*(a+l),r.uniforms.useWeight=1,0===this.borderSize?r.uniforms.centerFraction=2:r.uniforms.centerFraction=a/(a+l+1.25),i.bind(),r.attributes.position.pointer(),this.weightBuffer.bind(),r.attributes.weight.pointer();for(var x=this.xCoords,_=(f[0]-o[0]-b*a*c)/p,w=(f[2]-o[0]+b*a*c)/p,M=!0,k=n.length-1;k>=0;--k){var A=n[k];if(!(A.pixelSize<b&&k>1)){var T=A.offset,E=A.count+T,S=s.ge(x,_,T,E-1),L=s.lt(x,w,S,E-1)+1;L>S&&u.drawArrays(u.POINTS,S,L-S),M&&(M=!1,r.uniforms.useWeight=0)}}}}}(),h.pick=function(t,e,r){var n=this.pickOffset,i=this.pointCount;if(n>r||r>=n+i)return null;var o=r-n,a=this.points;return{object:this,pointId:o,dataCoord:[a[2*o],a[2*o+1]]}}},{"./lib/shader":197,"binary-search-bounds":198,"gl-buffer":129,"gl-shader":208,"snap-points-2d":200,"typedarray-pool":481}],202:[function(t,e,r){"use strict";function n(t,e){var r=o[e];if(r||(r=o[e]={}),t in r)return r[t];for(var n=i(t,{textAlign:"center",textBaseline:"middle",lineHeight:1,font:e}),a=i(t,{triangles:!0,textAlign:"center",textBaseline:"middle",lineHeight:1,font:e}),s=[[1/0,1/0],[-(1/0),-(1/0)]],l=0;l<n.positions.length;++l)for(var u=n.positions[l],c=0;2>c;++c)s[0][c]=Math.min(s[0][c],u[c]),s[1][c]=Math.max(s[1][c],u[c]);return r[t]=[a,n,s]}var i=t("vectorize-text");e.exports=n;var o={}},{"vectorize-text":483}],203:[function(t,e,r){function n(t,e){var r=i(t,e),n=r.attributes;return n.position.location=0,n.color.location=1,n.glyph.location=2,n.id.location=3,r}var i=t("gl-shader"),o="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\nattribute vec4 color;\nattribute vec2 glyph;\nattribute vec4 id;\n\n\nuniform vec4 highlightId;\nuniform float highlightScale;\nuniform mat4 model, view, projection;\nuniform vec3 clipBounds[2];\n\nvarying vec4 interpColor;\nvarying vec4 pickId;\nvarying vec3 dataCoordinate;\n\nvoid main() {\n  if(any(lessThan(position, clipBounds[0]))   || \n     any(greaterThan(position, clipBounds[1])) ) {\n    gl_Position = vec4(0,0,0,0);\n  } else {\n    float scale = 1.0;\n    if(distance(highlightId, id) < 0.0001) {\n      scale = highlightScale;\n    }\n\n    vec4 worldPosition = model * vec4(position, 1);\n    vec4 viewPosition = view * worldPosition;\n    viewPosition = viewPosition / viewPosition.w;\n    vec4 clipPosition = projection * (viewPosition + scale * vec4(glyph.x, -glyph.y, 0, 0));\n    \n    gl_Position = clipPosition;\n    interpColor = color;\n    pickId = id;\n    dataCoordinate = position;\n  }\n}",a="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\nattribute vec4 color;\nattribute vec2 glyph;\nattribute vec4 id;\n\nuniform mat4 model, view, projection;\nuniform vec2 screenSize;\nuniform vec3 clipBounds[2];\nuniform float highlightScale, pixelRatio;\nuniform vec4 highlightId;\n\nvarying vec4 interpColor;\nvarying vec4 pickId;\nvarying vec3 dataCoordinate;\n\nvoid main() {\n  if(any(lessThan(position, clipBounds[0])) || any(greaterThan(position, clipBounds[1]))) {\n    gl_Position = vec4(0,0,0,0);\n  } else {\n    float scale = pixelRatio;\n    if(distance(highlightId.bgr, id.bgr) < 0.001) {\n      scale *= highlightScale;\n    }\n\n    vec4 worldPosition = model * vec4(position, 1.0);\n    vec4 viewPosition = view * worldPosition;\n    vec4 clipPosition = projection * viewPosition;\n    clipPosition /= clipPosition.w;\n    \n    gl_Position = clipPosition + vec4(screenSize * scale * vec2(glyph.x, -glyph.y), 0.0, 0.0);\n    interpColor = color;\n    pickId = id;\n    dataCoordinate = position;\n  }\n}",s="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec3 position;\nattribute vec4 color;\nattribute vec2 glyph;\nattribute vec4 id;\n\nuniform float highlightScale;\nuniform vec4 highlightId;\nuniform vec3 axes[2];\nuniform mat4 model, view, projection;\nuniform vec2 screenSize;\nuniform vec3 clipBounds[2];\nuniform float scale, pixelRatio;\n\nvarying vec4 interpColor;\nvarying vec4 pickId;\nvarying vec3 dataCoordinate;\n\nvoid main() {\n  if(any(lessThan(position, clipBounds[0]))   ||\n     any(greaterThan(position, clipBounds[1])) ) {\n    gl_Position = vec4(0,0,0,0);\n  } else {\n    float lscale = pixelRatio * scale;\n    if(distance(highlightId, id) < 0.0001) {\n      lscale *= highlightScale;\n    }\n\n    vec4 clipCenter   = projection * view * model * vec4(position, 1);\n    vec3 dataPosition = position + 0.5*lscale*(axes[0] * glyph.x + axes[1] * glyph.y) * clipCenter.w * screenSize.y;\n    vec4 clipPosition = projection * view * model * vec4(dataPosition, 1);\n\n    gl_Position = clipPosition;\n    interpColor = color;\n    pickId = id;\n    dataCoordinate = dataPosition;\n  }\n}\n",l="precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3 fragClipBounds[2];\nuniform float opacity;\n\nvarying vec4 interpColor;\nvarying vec4 pickId;\nvarying vec3 dataCoordinate;\n\nvoid main() {\n  if(any(lessThan(dataCoordinate, fragClipBounds[0]))   ||\n     any(greaterThan(dataCoordinate, fragClipBounds[1])) ) {\n    discard;\n  } else {\n    gl_FragColor = interpColor * opacity;\n  }\n}\n",u="precision mediump float;\n#define GLSLIFY 1\n\nuniform vec3 fragClipBounds[2];\nuniform float pickGroup;\n\nvarying vec4 pickId;\nvarying vec3 dataCoordinate;\n\nvoid main() {\n  if(any(lessThan(dataCoordinate, fragClipBounds[0]))   || \n     any(greaterThan(dataCoordinate, fragClipBounds[1])) ) {\n    discard;\n  } else {\n    gl_FragColor = vec4(pickGroup, pickId.bgr);\n  }\n}",c=[{name:"position",type:"vec3"},{name:"color",type:"vec4"},{name:"glyph",type:"vec2"},{name:"id",type:"vec4"}],h={vertex:o,fragment:l,attributes:c},f={vertex:a,fragment:l,attributes:c},p={vertex:s,fragment:l,attributes:c},d={vertex:o,fragment:u,attributes:c},m={vertex:a,fragment:u,attributes:c},g={vertex:s,fragment:u,attributes:c};r.createPerspective=function(t){return n(t,h)},r.createOrtho=function(t){return n(t,f)},r.createProject=function(t){return n(t,p)},r.createPickPerspective=function(t){return n(t,d)},r.createPickOrtho=function(t){return n(t,m)},r.createPickProject=function(t){return n(t,g)}},{"gl-shader":208}],204:[function(t,e,r){"use strict";function n(t,e){var r=t[0],n=t[1],i=t[2],o=t[3];return t[0]=e[0]*r+e[4]*n+e[8]*i+e[12]*o,t[1]=e[1]*r+e[5]*n+e[9]*i+e[13]*o,t[2]=e[2]*r+e[6]*n+e[10]*i+e[14]*o,t[3]=e[3]*r+e[7]*n+e[11]*i+e[15]*o,t}function i(t,e,r,i){return n(i,i,r),n(i,i,e),n(i,i,t)}function o(t,e){this.index=t,this.dataCoordinate=this.position=e}function a(t,e,r,n,i,a,s,l,u,c,h,f){this.gl=t,this.pixelRatio=1,this.shader=e,this.orthoShader=r,this.projectShader=n,this.pointBuffer=i,this.colorBuffer=a,this.glyphBuffer=s,this.idBuffer=l,this.vao=u,this.vertexCount=0,this.lineVertexCount=0,this.opacity=1,this.lineWidth=0,this.projectScale=[2/3,2/3,2/3],this.projectOpacity=[1,1,1],this.pickId=0,this.pickPerspectiveShader=c,this.pickOrthoShader=h,this.pickProjectShader=f,this.points=[],this._selectResult=new o(0,[0,0,0]),this.useOrtho=!0,this.bounds=[[1/0,1/0,1/0],[-(1/0),-(1/0),-(1/0)]],this.axesProject=[!0,!0,!0],this.axesBounds=[[-(1/0),-(1/0),-(1/0)],[1/0,1/0,1/0]],this.highlightId=[1,1,1,1],this.highlightScale=2,this.clipBounds=[[-(1/0),-(1/0),-(1/0)],[1/0,1/0,1/0]],this.dirty=!0}function s(t){return t[0]=t[1]=t[2]=0,t}function l(t,e){return t[0]=e[0],t[1]=e[1],t[2]=e[2],t[3]=1,t}function u(t,e,r,n){return t[0]=e[0],t[1]=e[1],t[2]=e[2],t[r]=n,t}function c(t){for(var e=L,r=0;2>r;++r)for(var n=0;3>n;++n)e[r][n]=Math.max(Math.min(t[r][n],1e8),-1e8);return e}function h(t,e,r,n,o){var a,h=e.axesProject,f=e.gl,p=t.uniforms,d=r.model||x,m=r.view||x,g=r.projection||x,y=e.axesBounds,b=c(e.clipBounds);a=e.axes?e.axes.lastCubeProps.axis:[1,1,1],w[0]=2/f.drawingBufferWidth,w[1]=2/f.drawingBufferHeight,t.bind(),p.view=m,p.projection=g,p.screenSize=w,p.highlightId=e.highlightId,p.highlightScale=e.highlightScale,p.clipBounds=b,p.pickGroup=e.pickId/255,p.pixelRatio=e.pixelRatio;for(var _=0;3>_;++_)if(h[_]&&e.projectOpacity[_]<1===n){p.scale=e.projectScale[_],p.opacity=e.projectOpacity[_];for(var L=E,z=0;16>z;++z)L[z]=0;for(var z=0;4>z;++z)L[5*z]=1;L[5*_]=0,a[_]<0?L[12+_]=y[0][_]:L[12+_]=y[1][_],v(L,d,L),p.model=L;var I=(_+1)%3,P=(_+2)%3,C=s(M),R=s(k);C[I]=1,R[P]=1;var j=i(g,m,d,l(A,C)),D=i(g,m,d,l(T,R));if(Math.abs(j[1])>Math.abs(D[1])){var O=j;j=D,D=O,O=C,C=R,R=O;var F=I;I=P,P=F}j[0]<0&&(C[I]=-1),D[1]>0&&(R[P]=-1);for(var N=0,B=0,z=0;4>z;++z)N+=Math.pow(d[4*I+z],2),B+=Math.pow(d[4*P+z],2);C[I]/=Math.sqrt(N),R[P]/=Math.sqrt(B),p.axes[0]=C,p.axes[1]=R,p.fragClipBounds[0]=u(S,b[0],_,-1e8),p.fragClipBounds[1]=u(S,b[1],_,1e8),e.vao.draw(f.TRIANGLES,e.vertexCount),e.lineWidth>0&&(f.lineWidth(e.lineWidth),e.vao.draw(f.LINES,e.lineVertexCount,e.vertexCount))}}function f(t,e,r,n,i,o){var a=r.gl;if(r.vao.bind(),i===r.opacity<1||o){t.bind();var s=t.uniforms;s.model=n.model||x,s.view=n.view||x,s.projection=n.projection||x,w[0]=2/a.drawingBufferWidth,w[1]=2/a.drawingBufferHeight,s.screenSize=w,s.highlightId=r.highlightId,s.highlightScale=r.highlightScale,s.fragClipBounds=P,s.clipBounds=r.axes.bounds,s.opacity=r.opacity,s.pickGroup=r.pickId/255,s.pixelRatio=r.pixelRatio,r.vao.draw(a.TRIANGLES,r.vertexCount),r.lineWidth>0&&(a.lineWidth(r.lineWidth),r.vao.draw(a.LINES,r.lineVertexCount,r.vertexCount))}h(e,r,n,i,o),r.vao.unbind()}function p(t){var e=t.gl,r=y.createPerspective(e),n=y.createOrtho(e),i=y.createProject(e),o=y.createPickPerspective(e),s=y.createPickOrtho(e),l=y.createPickProject(e),u=d(e),c=d(e),h=d(e),f=d(e),p=m(e,[{buffer:u,size:3,type:e.FLOAT},{buffer:c,size:4,type:e.FLOAT},{buffer:h,size:2,type:e.FLOAT},{buffer:f,size:4,type:e.UNSIGNED_BYTE,normalized:!0}]),g=new a(e,r,n,i,u,c,h,f,p,o,s,l);return g.update(t),g}var d=t("gl-buffer"),m=t("gl-vao"),g=t("typedarray-pool"),v=t("gl-mat4/multiply"),y=t("./lib/shaders"),b=t("./lib/glyphs"),x=[1,0,0,0,0,1,0,0,0,0,1,0,0,0,0,1];e.exports=p;var _=a.prototype;_.pickSlots=1,_.setPickBase=function(t){this.pickId=t},_.isTransparent=function(){if(this.opacity<1)return!0;for(var t=0;3>t;++t)if(this.axesProject[t]&&this.projectOpacity[t]<1)return!0;return!1},_.isOpaque=function(){if(this.opacity>=1)return!0;for(var t=0;3>t;++t)if(this.axesProject[t]&&this.projectOpacity[t]>=1)return!0;return!1};var w=[0,0],M=[0,0,0],k=[0,0,0],A=[0,0,0,1],T=[0,0,0,1],E=x.slice(),S=[0,0,0],L=[[0,0,0],[0,0,0]],z=[-1e8,-1e8,-1e8],I=[1e8,1e8,1e8],P=[z,I];_.draw=function(t){var e=this.useOrtho?this.orthoShader:this.shader;f(e,this.projectShader,this,t,!1,!1)},_.drawTransparent=function(t){var e=this.useOrtho?this.orthoShader:this.shader;f(e,this.projectShader,this,t,!0,!1)},_.drawPick=function(t){var e=this.useOrtho?this.pickOrthoShader:this.pickPerspectiveShader;f(e,this.pickProjectShader,this,t,!1,!0)},_.pick=function(t){if(!t)return null;if(t.id!==this.pickId)return null;var e=t.value[2]+(t.value[1]<<8)+(t.value[0]<<16);if(e>=this.pointCount||0>e)return null;var r=this.points[e],n=this._selectResult;n.index=e;for(var i=0;3>i;++i)n.position[i]=n.dataCoordinate[i]=r[i];return n},_.highlight=function(t){if(t){var e=t.index,r=255&e,n=e>>8&255,i=e>>16&255;this.highlightId=[r/255,n/255,i/255,0]}else this.highlightId=[1,1,1,1]},_.update=function(t){if(t=t||{},"perspective"in t&&(this.useOrtho=!t.perspective),"orthographic"in t&&(this.useOrtho=!!t.orthographic),"lineWidth"in t&&(this.lineWidth=t.lineWidth),"project"in t)if(Array.isArray(t.project))this.axesProject=t.project;else{var e=!!t.project;this.axesProject=[e,e,e]}if("projectScale"in t)if(Array.isArray(t.projectScale))this.projectScale=t.projectScale.slice();else{var r=+t.projectScale;this.projectScale=[r,r,r]}if("projectOpacity"in t)if(Array.isArray(t.projectOpacity))this.projectOpacity=t.projectOpacity.slice();else{var r=+t.projectOpacity;this.projectOpacity=[r,r,r]}"opacity"in t&&(this.opacity=t.opacity),this.dirty=!0;var n=t.position;if(n){var i=t.font||"normal",o=t.alignment||[0,0],a=[1/0,1/0,1/0],s=[-(1/0),-(1/0),-(1/0)],l=t.glyph,u=t.color,c=t.size,h=t.angle,f=t.lineColor,p=0,d=0,m=0,v=n.length;t:for(var y=0;v>y;++y){for(var x=n[y],_=0;3>_;++_)if(isNaN(x[_])||!isFinite(x[_]))continue t;var w;w=Array.isArray(l)?b(l[y],i):l?b(l,i):b("\u25cf",i);var M=w[0],k=w[1],A=w[2];d+=3*M.cells.length,m+=2*k.edges.length}var T=d+m,E=g.mallocFloat(3*T),S=g.mallocFloat(4*T),L=g.mallocFloat(2*T),z=g.mallocUint32(T),I=[0,o[1]],P=0,C=d,R=[0,0,0,1],j=[0,0,0,1],D=Array.isArray(u)&&Array.isArray(u[0]),O=Array.isArray(f)&&Array.isArray(f[0]);t:for(var y=0;v>y;++y){for(var x=n[y],_=0;3>_;++_){if(isNaN(x[_])||!isFinite(x[_])){p+=1;continue t}s[_]=Math.max(s[_],x[_]),a[_]=Math.min(a[_],x[_])}var w;w=Array.isArray(l)?b(l[y],i):l?b(l,i):b("\u25cf",i);var M=w[0],k=w[1],A=w[2];if(Array.isArray(u)){var F;if(F=D?u[y]:u,3===F.length){for(var _=0;3>_;++_)R[_]=F[_];R[3]=1}else if(4===F.length)for(var _=0;4>_;++_)R[_]=F[_]}else R[0]=R[1]=R[2]=0,R[3]=1;if(Array.isArray(f)){var F;if(F=O?f[y]:f,3===F.length){for(var _=0;3>_;++_)j[_]=F[_];j[_]=1}else if(4===F.length)for(var _=0;4>_;++_)j[_]=F[_]}else j[0]=j[1]=j[2]=0,j[3]=1;var N=.5;Array.isArray(c)?N=+c[y]:c?N=+c:this.useOrtho&&(N=12);var B=0;Array.isArray(h)?B=+h[y]:h&&(B=+h);for(var U=Math.cos(B),V=Math.sin(B),x=n[y],_=0;3>_;++_)s[_]=Math.max(s[_],x[_]),a[_]=Math.min(a[_],x[_]);o[0]<0?I[0]=o[0]*(1+A[1][0]):o[0]>0&&(I[0]=-o[0]*(1+A[0][0]));for(var q=M.cells,G=M.positions,_=0;_<q.length;++_)for(var H=q[_],X=0;3>X;++X){for(var Y=0;3>Y;++Y)E[3*P+Y]=x[Y];for(var Y=0;4>Y;++Y)S[4*P+Y]=R[Y];z[P]=p;var W=G[H[X]];L[2*P]=N*(U*W[0]-V*W[1]+I[0]),L[2*P+1]=N*(V*W[0]+U*W[1]+I[1]),P+=1}for(var q=k.edges,G=k.positions,_=0;_<q.length;++_)for(var H=q[_],X=0;2>X;++X){for(var Y=0;3>Y;++Y)E[3*C+Y]=x[Y];for(var Y=0;4>Y;++Y)S[4*C+Y]=j[Y];z[C]=p;var W=G[H[X]];L[2*C]=N*(U*W[0]-V*W[1]+I[0]),L[2*C+1]=N*(V*W[0]+U*W[1]+I[1]),C+=1}p+=1}this.vertexCount=d,this.lineVertexCount=m,this.pointBuffer.update(E),this.colorBuffer.update(S),this.glyphBuffer.update(L),this.idBuffer.update(new Uint32Array(z)),g.free(E),g.free(S),g.free(L),g.free(z),this.bounds=[a,s],this.points=n,this.pointCount=n.length}},_.dispose=function(){this.shader.dispose(),this.orthoShader.dispose(),this.pickPerspectiveShader.dispose(),this.pickOrthoShader.dispose(),this.vao.dispose(),this.pointBuffer.dispose(),this.colorBuffer.dispose(),this.glyphBuffer.dispose(),this.idBuffer.dispose()}},{"./lib/glyphs":202,"./lib/shaders":203,"gl-buffer":129,"gl-mat4/multiply":150,"gl-vao":237,"typedarray-pool":481}],205:[function(t,e,r){"use strict";r.boxVertex="precision mediump float;\n#define GLSLIFY 1\n\nattribute vec2 vertex;\n\nuniform vec2 cornerA, cornerB;\n\nvoid main() {\n  gl_Position = vec4(mix(cornerA, cornerB, vertex), 0, 1);\n}\n",r.boxFragment="precision mediump float;\n#define GLSLIFY 1\n\nuniform vec4 color;\n\nvoid main() {\n  gl_FragColor = color;\n}\n"},{}],206:[function(t,e,r){"use strict";function n(t,e,r){this.plot=t,this.boxBuffer=e,this.boxShader=r,this.enabled=!0,this.selectBox=[1/0,1/0,-(1/0),-(1/0)],this.borderColor=[0,0,0,1],this.innerFill=!1,this.innerColor=[0,0,0,.25],this.outerFill=!0,this.outerColor=[0,0,0,.5],this.borderWidth=10}function i(t,e){var r=t.gl,i=a(r,[0,0,0,1,1,0,1,1]),l=o(r,s.boxVertex,s.boxFragment),u=new n(t,i,l);return u.update(e),t.addOverlay(u),u}var o=t("gl-shader"),a=t("gl-buffer"),s=t("./lib/shaders");e.exports=i;var l=n.prototype;l.draw=function(){if(this.enabled){var t=this.plot,e=this.selectBox,r=this.borderWidth,n=(this.innerFill,this.innerColor),i=(this.outerFill,this.outerColor),o=this.borderColor,a=t.box,s=t.screenBox,l=t.dataBox,u=t.viewBox,c=t.pixelRatio,h=(e[0]-l[0])*(u[2]-u[0])/(l[2]-l[0])+u[0],f=(e[1]-l[1])*(u[3]-u[1])/(l[3]-l[1])+u[1],p=(e[2]-l[0])*(u[2]-u[0])/(l[2]-l[0])+u[0],d=(e[3]-l[1])*(u[3]-u[1])/(l[3]-l[1])+u[1];if(h=Math.max(h,u[0]),f=Math.max(f,u[1]),p=Math.min(p,u[2]),d=Math.min(d,u[3]),!(h>p||f>d)){a.bind();var m=s[2]-s[0],g=s[3]-s[1];if(this.outerFill&&(a.drawBox(0,0,m,f,i),a.drawBox(0,f,h,d,i),a.drawBox(0,d,m,g,i),a.drawBox(p,f,m,d,i)),this.innerFill&&a.drawBox(h,f,p,d,n),r>0){var v=r*c;a.drawBox(h-v,f-v,p+v,f+v,o),a.drawBox(h-v,d-v,p+v,d+v,o),a.drawBox(h-v,f-v,h+v,d+v,o),a.drawBox(p-v,f-v,p+v,d+v,o)}}}},l.update=function(t){t=t||{},this.innerFill=!!t.innerFill,this.outerFill=!!t.outerFill,this.innerColor=(t.innerColor||[0,0,0,.5]).slice(),this.outerColor=(t.outerColor||[0,0,0,.5]).slice(),this.borderColor=(t.borderColor||[0,0,0,1]).slice(),this.borderWidth=t.borderWidth||0,this.selectBox=(t.selectBox||this.selectBox).slice()},l.dispose=function(){this.boxBuffer.dispose(),this.boxShader.dispose(),this.plot.removeOverlay(this)}},{"./lib/shaders":205,"gl-buffer":129,"gl-shader":208}],207:[function(t,e,r){"use strict";function n(t,e,r,n,i){this.coord=[t,e],this.id=r,this.value=n,this.distance=i}function i(t,e,r){this.gl=t,this.fbo=e,this.buffer=r,this._readTimeout=null;var n=this;this._readCallback=function(){n.gl&&(e.bind(),t.readPixels(0,0,e.shape[0],e.shape[1],t.RGBA,t.UNSIGNED_BYTE,n.buffer),n._readTimeout=null)}}function o(t,e){var r=a(t,e),n=s.mallocUint8(e[0]*e[1]*4);return new i(t,r,n)}e.exports=o;var a=t("gl-fbo"),s=t("typedarray-pool"),l=t("ndarray"),u=t("bit-twiddle").nextPow2,c=t("cwise/lib/wrapper")({args:["array",{offset:[0,0,1],array:0},{offset:[0,0,2],array:0},{offset:[0,0,3],array:0},"scalar","scalar","index"],pre:{body:"{this_closestD2=1e8,this_closestX=-1,this_closestY=-1}",args:[],thisVars:["this_closestD2","this_closestX","this_closestY"],localVars:[]},body:{body:"{if(255>_inline_46_arg0_||255>_inline_46_arg1_||255>_inline_46_arg2_||255>_inline_46_arg3_){var _inline_46_l=_inline_46_arg4_-_inline_46_arg6_[0],_inline_46_a=_inline_46_arg5_-_inline_46_arg6_[1],_inline_46_f=_inline_46_l*_inline_46_l+_inline_46_a*_inline_46_a;_inline_46_f<this_closestD2&&(this_closestD2=_inline_46_f,this_closestX=_inline_46_arg6_[0],this_closestY=_inline_46_arg6_[1])}}",args:[{name:"_inline_46_arg0_",lvalue:!1,rvalue:!0,count:1},{name:"_inline_46_arg1_",lvalue:!1,rvalue:!0,count:1},{name:"_inline_46_arg2_",lvalue:!1,rvalue:!0,count:1},{name:"_inline_46_arg3_",lvalue:!1,rvalue:!0,count:1},{name:"_inline_46_arg4_",lvalue:!1,rvalue:!0,count:1},{name:"_inline_46_arg5_",lvalue:!1,rvalue:!0,count:1},{name:"_inline_46_arg6_",lvalue:!1,rvalue:!0,count:4}],thisVars:["this_closestD2","this_closestX","this_closestY"],localVars:["_inline_46_a","_inline_46_f","_inline_46_l"]},post:{body:"{return[this_closestX,this_closestY,this_closestD2]}",args:[],thisVars:["this_closestD2","this_closestX","this_closestY"],localVars:[]},debug:!1,funcName:"cwise",blockSize:64}),h=i.prototype;Object.defineProperty(h,"shape",{get:function(){return this.gl?this.fbo.shape.slice():[0,0]},set:function(t){if(this.gl){this.fbo.shape=t;var e=this.fbo.shape[0],r=this.fbo.shape[1];if(r*e*4>this.buffer.length){s.free(this.buffer);for(var n=this.buffer=s.mallocUint8(u(r*e*4)),i=0;r*e*4>i;++i)n[i]=255}return t}}}),h.begin=function(){var t=this.gl;this.shape;t&&(this.fbo.bind(),t.clearColor(1,1,1,1),t.clear(t.COLOR_BUFFER_BIT|t.DEPTH_BUFFER_BIT))},h.end=function(){var t=this.gl;t&&(t.bindFramebuffer(t.FRAMEBUFFER,null),this._readTimeout||clearTimeout(this._readTimeout),this._readTimeout=setTimeout(this._readCallback,1))},h.query=function(t,e,r){if(!this.gl)return null;var i=this.fbo.shape.slice();t=0|t,e=0|e,"number"!=typeof r&&(r=1);var o=0|Math.min(Math.max(t-r,0),i[0]),a=0|Math.min(Math.max(t+r,0),i[0]),s=0|Math.min(Math.max(e-r,0),i[1]),u=0|Math.min(Math.max(e+r,0),i[1]);if(o>=a||s>=u)return null;var h=[a-o,u-s],f=l(this.buffer,[h[0],h[1],4],[4,4*i[0],1],4*(o+i[0]*s)),p=c(f.hi(h[0],h[1],1),r,r),d=p[0],m=p[1];if(0>d||Math.pow(this.radius,2)<p[2])return null;var g=f.get(d,m,0),v=f.get(d,m,1),y=f.get(d,m,2),b=f.get(d,m,3);return new n(d+o|0,m+s|0,g,[v,y,b],Math.sqrt(p[2]))},h.dispose=function(){this.gl&&(this.fbo.dispose(),s.free(this.buffer),this.gl=null,this._readTimeout&&clearTimeout(this._readTimeout))}},{"bit-twiddle":51,"cwise/lib/wrapper":123,"gl-fbo":134,ndarray:456,"typedarray-pool":481}],208:[function(t,e,r){"use strict";function n(t){this.gl=t,this._vref=this._fref=this._relink=this.vertShader=this.fragShader=this.program=this.attributes=this.uniforms=this.types=null}function i(t,e){return t.name<e.name?-1:1}function o(t,e,r,i,o){var a=new n(t);return a.update(e,r,i,o),a}var a=t("./lib/create-uniforms"),s=t("./lib/create-attributes"),l=t("./lib/reflect"),u=t("./lib/shader-cache"),c=t("./lib/runtime-reflect"),h=t("./lib/GLError"),f=n.prototype;f.bind=function(){this.program||this._relink(),this.gl.useProgram(this.program)},f.dispose=function(){this._fref&&this._fref.dispose(),this._vref&&this._vref.dispose(),this.attributes=this.types=this.vertShader=this.fragShader=this.program=this._relink=this._fref=this._vref=null},f.update=function(t,e,r,n){function o(){p.program=u.program(d,p._vref,p._fref,x,_);for(var t=0;t<r.length;++t)S[t]=d.getUniformLocation(p.program,r[t].name)}if(!e||1===arguments.length){var f=t;t=f.vertex,e=f.fragment,r=f.uniforms,n=f.attributes}var p=this,d=p.gl,m=p._vref;p._vref=u.shader(d,d.VERTEX_SHADER,t),m&&m.dispose(),p.vertShader=p._vref.shader;var g=this._fref;if(p._fref=u.shader(d,d.FRAGMENT_SHADER,e),g&&g.dispose(),p.fragShader=p._fref.shader,!r||!n){var 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a=t("dup"),s=t("cwise-compiler"),l={},u={},c={body:"",args:[],thisVars:[],localVars:[]},h=s({args:["array","array","array"],pre:c,post:c,body:{args:[{name:"out",lvalue:!0,rvalue:!1,count:1},{name:"left",lvalue:!1,rvalue:!0,count:1},{name:"right",lvalue:!1,rvalue:!0,count:1}],body:"out=0.5*(left-right)",thisVars:[],localVars:[]},funcName:"cdiff"}),f=s({args:["array"],pre:c,post:c,body:{args:[{name:"out",lvalue:!0,rvalue:!1,count:1}],body:"out=0",thisVars:[],localVars:[]},funcName:"zero"})},{"cwise-compiler":120,dup:126}],230:[function(t,e,r){"use strict";var n=t("ndarray"),i=t("./doConvert.js");e.exports=function(t,e){for(var r=[],o=t,a=1;o instanceof Array;)r.push(o.length),a*=o.length,o=o[0];return 0===r.length?n():(e||(e=n(new Float64Array(a),r)),i(e,t),e)}},{"./doConvert.js":231,ndarray:456}],231:[function(t,e,r){e.exports=t("cwise-compiler")({args:["array","scalar","index"],pre:{body:"{}",args:[],thisVars:[],localVars:[]},body:{body:"{\nvar 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}],232:[function(t,e,r){"use strict";function n(t,e,r,n,i){this.position=t,this.index=e,this.uv=r,this.level=n,this.dataCoordinate=i}function i(t){var e=x([y({colormap:t,nshades:D,format:"rgba"}).map(function(t){return[t[0],t[1],t[2],255*t[3]]})]);return b.divseq(e,255),e}function o(t,e,r,i,o,a,s,l,u,c,h,f,p,d){this.gl=t,this.shape=e,this.bounds=r,this.intensityBounds=[],this._shader=i,this._pickShader=o,this._coordinateBuffer=a,this._vao=s,this._colorMap=l,this._contourShader=u,this._contourPickShader=c,this._contourBuffer=h,this._contourVAO=f,this._contourOffsets=[[],[],[]],this._contourCounts=[[],[],[]],this._vertexCount=0,this._pickResult=new n([0,0,0],[0,0],[0,0],[0,0,0],[0,0,0]),this._dynamicBuffer=p,this._dynamicVAO=d,this._dynamicOffsets=[0,0,0],this._dynamicCounts=[0,0,0],this.contourWidth=[1,1,1],this.contourLevels=[[1],[1],[1]],this.contourTint=[0,0,0],this.contourColor=[[.5,.5,.5,1],[.5,.5,.5,1],[.5,.5,.5,1]],this.showContour=!0,this.showSurface=!0,this.enableHighlight=[!0,!0,!0],this.highlightColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.highlightTint=[1,1,1],this.highlightLevel=[-1,-1,-1],this.enableDynamic=[!0,!0,!0],this.dynamicLevel=[NaN,NaN,NaN],this.dynamicColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.dynamicTint=[1,1,1],this.dynamicWidth=[1,1,1],this.axesBounds=[[1/0,1/0,1/0],[-(1/0),-(1/0),-(1/0)]],this.surfaceProject=[!1,!1,!1],this.contourProject=[[!1,!1,!1],[!1,!1,!1],[!1,!1,!1]],this.colorBounds=[!1,!1],this._field=[_(v.mallocFloat(1024),[0,0]),_(v.mallocFloat(1024),[0,0]),_(v.mallocFloat(1024),[0,0])],this.pickId=1,this.clipBounds=[[-(1/0),-(1/0),-(1/0)],[1/0,1/0,1/0]],this.snapToData=!1,this.opacity=1,this.lightPosition=[10,1e4,0],this.ambientLight=.8,this.diffuseLight=.8,this.specularLight=2,this.roughness=.5,this.fresnel=1.5,this.dirty=!0}function a(t,e){var r,n,i,o=e.axes&&e.axes.lastCubeProps.axis||F,a=e.showSurface,s=e.showContour;for(r=0;3>r;++r)for(a=a||e.surfaceProject[r],n=0;3>n;++n)s=s||e.contourProject[r][n];for(r=0;3>r;++r){var l=N.projections[r];for(n=0;16>n;++n)l[n]=0;for(n=0;4>n;++n)l[5*n]=1;l[5*r]=0,l[12+r]=e.axesBounds[+(o[r]>0)][r],M(l,t.model,l);var u=N.clipBounds[r];for(i=0;2>i;++i)for(n=0;3>n;++n)u[i][n]=t.clipBounds[i][n];u[0][r]=-1e8,u[1][r]=1e8}return N.showSurface=a,N.showContour=s,N}function s(t,e){t=t||{};var r=this.gl;r.disable(r.CULL_FACE),this._colorMap.bind(0);var n=B;n.model=t.model||C,n.view=t.view||C,n.projection=t.projection||C,n.lowerBound=[this.bounds[0][0],this.bounds[0][1],this.colorBounds[0]||this.bounds[0][2]],n.upperBound=[this.bounds[1][0],this.bounds[1][1],this.colorBounds[1]||this.bounds[1][2]],n.contourColor=this.contourColor[0],n.inverseModel=k(n.inverseModel,n.model);for(var i=0;2>i;++i)for(var o=n.clipBounds[i],s=0;3>s;++s)o[s]=Math.min(Math.max(this.clipBounds[i][s],-1e8),1e8);n.kambient=this.ambientLight,n.kdiffuse=this.diffuseLight,n.kspecular=this.specularLight,n.roughness=this.roughness,n.fresnel=this.fresnel,n.opacity=this.opacity,n.height=0,n.permutation=V;var l=U;for(M(l,n.view,n.model),M(l,n.projection,l),k(l,l),i=0;3>i;++i)n.eyePosition[i]=l[12+i]/l[15];var u=l[15];for(i=0;3>i;++i)u+=this.lightPosition[i]*l[4*i+3];for(i=0;3>i;++i){var c=l[12+i];for(s=0;3>s;++s)c+=l[4*s+i]*this.lightPosition[s];n.lightPosition[i]=c/u}var h=a(n,this);if(h.showSurface&&e===this.opacity<1){for(this._shader.bind(),this._shader.uniforms=n,this._vao.bind(),this.showSurface&&this._vertexCount&&this._vao.draw(r.TRIANGLES,this._vertexCount),i=0;3>i;++i)this.surfaceProject[i]&&this.vertexCount&&(this._shader.uniforms.model=h.projections[i],this._shader.uniforms.clipBounds=h.clipBounds[i],this._vao.draw(r.TRIANGLES,this._vertexCount));this._vao.unbind()}if(h.showContour&&!e){var f=this._contourShader;n.kambient=1,n.kdiffuse=0,n.kspecular=0,n.opacity=1,f.bind(),f.uniforms=n;var p=this._contourVAO;for(p.bind(),i=0;3>i;++i)for(f.uniforms.permutation=j[i],r.lineWidth(this.contourWidth[i]),s=0;s<this.contourLevels[i].length;++s)this._contourCounts[i][s]&&(s===this.highlightLevel[i]?(f.uniforms.contourColor=this.highlightColor[i],f.uniforms.contourTint=this.highlightTint[i]):0!==s&&s-1!==this.highlightLevel[i]||(f.uniforms.contourColor=this.contourColor[i],f.uniforms.contourTint=this.contourTint[i]),f.uniforms.height=this.contourLevels[i][s],p.draw(r.LINES,this._contourCounts[i][s],this._contourOffsets[i][s]));for(i=0;3>i;++i)for(f.uniforms.model=h.projections[i],f.uniforms.clipBounds=h.clipBounds[i],s=0;3>s;++s)if(this.contourProject[i][s]){f.uniforms.permutation=j[s],r.lineWidth(this.contourWidth[s]);for(var d=0;d<this.contourLevels[s].length;++d)d===this.highlightLevel[s]?(f.uniforms.contourColor=this.highlightColor[s],f.uniforms.contourTint=this.highlightTint[s]):0!==d&&d-1!==this.highlightLevel[s]||(f.uniforms.contourColor=this.contourColor[s],f.uniforms.contourTint=this.contourTint[s]),f.uniforms.height=this.contourLevels[s][d],p.draw(r.LINES,this._contourCounts[s][d],this._contourOffsets[s][d])}for(p=this._dynamicVAO,p.bind(),i=0;3>i;++i)if(0!==this._dynamicCounts[i])for(f.uniforms.model=n.model,f.uniforms.clipBounds=n.clipBounds,f.uniforms.permutation=j[i],r.lineWidth(this.dynamicWidth[i]),f.uniforms.contourColor=this.dynamicColor[i],f.uniforms.contourTint=this.dynamicTint[i],f.uniforms.height=this.dynamicLevel[i],p.draw(r.LINES,this._dynamicCounts[i],this._dynamicOffsets[i]),s=0;3>s;++s)this.contourProject[s][i]&&(f.uniforms.model=h.projections[s],f.uniforms.clipBounds=h.clipBounds[s],p.draw(r.LINES,this._dynamicCounts[i],this._dynamicOffsets[i]));p.unbind()}}function l(t,e){var r=e.shape.slice(),n=t.shape.slice();b.assign(t.lo(1,1).hi(r[0],r[1]),e),b.assign(t.lo(1).hi(r[0],1),e.hi(r[0],1)),b.assign(t.lo(1,n[1]-1).hi(r[0],1),e.lo(0,r[1]-1).hi(r[0],1)),b.assign(t.lo(0,1).hi(1,r[1]),e.hi(1)),b.assign(t.lo(n[0]-1,1).hi(1,r[1]),e.lo(r[0]-1)),t.set(0,0,e.get(0,0)),t.set(0,n[1]-1,e.get(0,r[1]-1)),t.set(n[0]-1,0,e.get(r[0]-1,0)),t.set(n[0]-1,n[1]-1,e.get(r[0]-1,r[1]-1))}function u(t,e){return Array.isArray(t)?[e(t[0]),e(t[1]),e(t[2])]:[e(t),e(t),e(t)]}function c(t){return Array.isArray(t)?3===t.length?[t[0],t[1],t[2],1]:[t[0],t[1],t[2],t[3]]:[0,0,0,1]}function h(t){if(Array.isArray(t)){if(Array.isArray(t))return[c(t[0]),c(t[1]),c(t[2])];var e=c(t);return[e.slice(),e.slice(),e.slice()]}}function f(t){var e=t.gl,r=S(e),n=z(e),i=L(e),a=I(e),s=d(e),l=m(e,[{buffer:s,size:4,stride:P,offset:0},{buffer:s,size:3,stride:P,offset:16},{buffer:s,size:3,stride:P,offset:28}]),u=d(e),c=m(e,[{buffer:u,size:4,stride:20,offset:0},{buffer:u,size:1,stride:20,offset:16}]),h=d(e),f=m(e,[{buffer:h,size:2,type:e.FLOAT}]),p=g(e,1,D,e.RGBA,e.UNSIGNED_BYTE);p.minFilter=e.LINEAR,p.magFilter=e.LINEAR;var v=new o(e,[0,0],[[0,0,0],[0,0,0]],r,n,s,l,p,i,a,u,c,h,f),y={levels:[[],[],[]]};for(var b in t)y[b]=t[b];return y.colormap=y.colormap||"jet",v.update(y),v}e.exports=f;var p=t("bit-twiddle"),d=t("gl-buffer"),m=t("gl-vao"),g=t("gl-texture2d"),v=t("typedarray-pool"),y=t("colormap"),b=t("ndarray-ops"),x=t("ndarray-pack"),_=t("ndarray"),w=t("surface-nets"),M=t("gl-mat4/multiply"),k=t("gl-mat4/invert"),A=t("binary-search-bounds"),T=t("ndarray-gradient"),E=t("./lib/shaders"),S=E.createShader,L=E.createContourShader,z=E.createPickShader,I=E.createPickContourShader,P=40,C=[1,0,0,0,0,1,0,0,0,0,1,0,0,0,0,1],R=[[0,0],[0,1],[1,0],[1,1],[1,0],[0,1]],j=[[0,0,0,0,0,0,0,0,0],[0,0,0,0,0,0,0,0,0],[0,0,0,0,0,0,0,0,0]];!function(){for(var t=0;3>t;++t){var e=j[t],r=(t+1)%3,n=(t+2)%3;e[r+0]=1,e[n+3]=1,e[t+6]=1}}();var D=265,O=o.prototype;O.isTransparent=function(){return this.opacity<1},O.isOpaque=function(){if(this.opacity>=1)return!0;for(var t=0;3>t;++t)if(this._contourCounts[t].length>0||this._dynamicCounts[t]>0)return!0;return!1},O.pickSlots=1,O.setPickBase=function(t){this.pickId=t};var F=[0,0,0],N={showSurface:!1,showContour:!1,projections:[C.slice(),C.slice(),C.slice()],clipBounds:[[[0,0,0],[0,0,0]],[[0,0,0],[0,0,0]],[[0,0,0],[0,0,0]]]},B={model:C,view:C,projection:C,inverseModel:C.slice(),lowerBound:[0,0,0],upperBound:[0,0,0],colorMap:0,clipBounds:[[0,0,0],[0,0,0]],height:0,contourTint:0,contourColor:[0,0,0,1],permutation:[1,0,0,0,1,0,0,0,1],zOffset:-1e-4,kambient:1,kdiffuse:1,kspecular:1,lightPosition:[1e3,1e3,1e3],eyePosition:[0,0,0],roughness:1,fresnel:1,opacity:1},U=C.slice(),V=[1,0,0,0,1,0,0,0,1];O.draw=function(t){return s.call(this,t,!1)},O.drawTransparent=function(t){return s.call(this,t,!0)};var q={model:C,view:C,projection:C,inverseModel:C,clipBounds:[[0,0,0],[0,0,0]],height:0,shape:[0,0],pickId:0,lowerBound:[0,0,0],upperBound:[0,0,0],zOffset:0,permutation:[1,0,0,0,1,0,0,0,1],lightPosition:[0,0,0],eyePosition:[0,0,0]};O.drawPick=function(t){t=t||{};var e=this.gl;e.disable(e.CULL_FACE);var r=q;r.model=t.model||C,r.view=t.view||C,r.projection=t.projection||C,r.shape=this._field[2].shape,r.pickId=this.pickId/255,r.lowerBound=this.bounds[0],r.upperBound=this.bounds[1],r.permutation=V;for(var n=0;2>n;++n)for(var i=r.clipBounds[n],o=0;3>o;++o)i[o]=Math.min(Math.max(this.clipBounds[n][o],-1e8),1e8);var s=a(r,this);if(s.showSurface){for(this._pickShader.bind(),this._pickShader.uniforms=r,this._vao.bind(),this._vao.draw(e.TRIANGLES,this._vertexCount),n=0;3>n;++n)this.surfaceProject[n]&&(this._pickShader.uniforms.model=s.projections[n],this._pickShader.uniforms.clipBounds=s.clipBounds[n],this._vao.draw(e.TRIANGLES,this._vertexCount));this._vao.unbind()}if(s.showContour){var l=this._contourPickShader;l.bind(),l.uniforms=r;var u=this._contourVAO;for(u.bind(),o=0;3>o;++o)for(e.lineWidth(this.contourWidth[o]),l.uniforms.permutation=j[o],n=0;n<this.contourLevels[o].length;++n)this._contourCounts[o][n]&&(l.uniforms.height=this.contourLevels[o][n],u.draw(e.LINES,this._contourCounts[o][n],this._contourOffsets[o][n]));for(n=0;3>n;++n)for(l.uniforms.model=s.projections[n],l.uniforms.clipBounds=s.clipBounds[n],o=0;3>o;++o)if(this.contourProject[n][o]){l.uniforms.permutation=j[o],e.lineWidth(this.contourWidth[o]);for(var c=0;c<this.contourLevels[o].length;++c)this._contourCounts[o][c]&&(l.uniforms.height=this.contourLevels[o][c],u.draw(e.LINES,this._contourCounts[o][c],this._contourOffsets[o][c]))}u.unbind()}},O.pick=function(t){if(!t)return null;if(t.id!==this.pickId)return null;var e=this._field[2].shape,r=this._pickResult,n=e[0]*(t.value[0]+(t.value[2]>>4)/16)/255,i=Math.floor(n),o=n-i,a=e[1]*(t.value[1]+(15&t.value[2])/16)/255,s=Math.floor(a),l=a-s;i+=1,s+=1;var u=r.position;u[0]=u[1]=u[2]=0;for(var c=0;2>c;++c)for(var h=c?o:1-o,f=0;2>f;++f)for(var p=f?l:1-l,d=i+c,m=s+f,g=h*p,v=0;3>v;++v)u[v]+=this._field[v].get(d,m)*g;for(var y=this._pickResult.level,b=0;3>b;++b)if(y[b]=A.le(this.contourLevels[b],u[b]),y[b]<0)this.contourLevels[b].length>0&&(y[b]=0);else if(y[b]<this.contourLevels[b].length-1){var x=this.contourLevels[b][y[b]],_=this.contourLevels[b][y[b]+1];Math.abs(x-u[b])>Math.abs(_-u[b])&&(y[b]+=1)}for(r.index[0]=.5>o?i:i+1,r.index[1]=.5>l?s:s+1,r.uv[0]=n/e[0],r.uv[1]=a/e[1],v=0;3>v;++v)r.dataCoordinate[v]=this._field[v].get(r.index[0],r.index[1]);return r},O.update=function(t){t=t||{},this.dirty=!0,"contourWidth"in t&&(this.contourWidth=u(t.contourWidth,Number)),"showContour"in t&&(this.showContour=u(t.showContour,Boolean)),"showSurface"in t&&(this.showSurface=!!t.showSurface),"contourTint"in t&&(this.contourTint=u(t.contourTint,Boolean)),"contourColor"in t&&(this.contourColor=h(t.contourColor)),"contourProject"in t&&(this.contourProject=u(t.contourProject,function(t){return u(t,Boolean)})),"surfaceProject"in t&&(this.surfaceProject=t.surfaceProject),"dynamicColor"in t&&(this.dynamicColor=h(t.dynamicColor)),"dynamicTint"in t&&(this.dynamicTint=u(t.dynamicTint,Number)),"dynamicWidth"in t&&(this.dynamicWidth=u(t.dynamicWidth,Number)),"opacity"in t&&(this.opacity=t.opacity),"colorBounds"in t&&(this.colorBounds=t.colorBounds);var e=t.field||t.coords&&t.coords[2]||null,r=!1;if(e||(e=this._field[2].shape[0]||this._field[2].shape[2]?this._field[2].lo(1,1).hi(this._field[2].shape[0]-2,this._field[2].shape[1]-2):this._field[2].hi(0,0)),"field"in t||"coords"in t){var n=(e.shape[0]+2)*(e.shape[1]+2);n>this._field[2].data.length&&(v.freeFloat(this._field[2].data),this._field[2].data=v.mallocFloat(p.nextPow2(n))),this._field[2]=_(this._field[2].data,[e.shape[0]+2,e.shape[1]+2]),l(this._field[2],e),this.shape=e.shape.slice();for(var o=this.shape,a=0;2>a;++a)this._field[2].size>this._field[a].data.length&&(v.freeFloat(this._field[a].data),this._field[a].data=v.mallocFloat(this._field[2].size)),this._field[a]=_(this._field[a].data,[o[0]+2,o[1]+2]);if(t.coords){var s=t.coords;if(!Array.isArray(s)||3!==s.length)throw new Error("gl-surface: invalid coordinates for x/y");for(a=0;2>a;++a){var c=s[a];for(y=0;2>y;++y)if(c.shape[y]!==o[y])throw new Error("gl-surface: coords have incorrect shape");l(this._field[a],c)}}else if(t.ticks){var f=t.ticks;if(!Array.isArray(f)||2!==f.length)throw new Error("gl-surface: invalid ticks");for(a=0;2>a;++a){var d=f[a];if((Array.isArray(d)||d.length)&&(d=_(d)),d.shape[0]!==o[a])throw new Error("gl-surface: invalid tick length");var m=_(d.data,o);m.stride[a]=d.stride[0],m.stride[1^a]=0,l(this._field[a],m)}}else{for(a=0;2>a;++a){var g=[0,0];g[a]=1,this._field[a]=_(this._field[a].data,[o[0]+2,o[1]+2],g,0)}this._field[0].set(0,0,0);for(var y=0;y<o[0];++y)this._field[0].set(y+1,0,y);for(this._field[0].set(o[0]+1,0,o[0]-1),this._field[1].set(0,0,0),y=0;y<o[1];++y)this._field[1].set(0,y+1,y);this._field[1].set(0,o[1]+1,o[1]-1)}var b=this._field,x=_(v.mallocFloat(3*b[2].size*2),[3,o[0]+2,o[1]+2,2]);for(a=0;3>a;++a)T(x.pick(a),b[a],"mirror");var M=_(v.mallocFloat(3*b[2].size),[o[0]+2,o[1]+2,3]);for(a=0;a<o[0]+2;++a)for(y=0;y<o[1]+2;++y){var k=x.get(0,a,y,0),A=x.get(0,a,y,1),E=x.get(1,a,y,0),S=x.get(1,a,y,1),L=x.get(2,a,y,0),z=x.get(2,a,y,1),I=E*z-S*L,P=L*A-z*k,C=k*S-A*E,j=Math.sqrt(I*I+P*P+C*C);1e-8>j?(j=Math.max(Math.abs(I),Math.abs(P),Math.abs(C)),1e-8>j?(C=1,P=I=0,j=1):j=1/j):j=1/Math.sqrt(j),M.set(a,y,0,I*j),M.set(a,y,1,P*j),M.set(a,y,2,C*j)}v.free(x.data);var D=[1/0,1/0,1/0],O=[-(1/0),-(1/0),-(1/0)],F=1/0,N=-(1/0),B=(o[0]-1)*(o[1]-1)*6,U=v.mallocFloat(p.nextPow2(10*B)),V=0,q=0;for(a=0;a<o[0]-1;++a)t:for(y=0;y<o[1]-1;++y){for(var G=0;2>G;++G)for(var H=0;2>H;++H)for(var X=0;3>X;++X){var Y=this._field[X].get(1+a+G,1+y+H);if(isNaN(Y)||!isFinite(Y))continue t}for(X=0;6>X;++X){var W=a+R[X][0],Z=y+R[X][1],Q=this._field[0].get(W+1,Z+1),K=this._field[1].get(W+1,Z+1);Y=this._field[2].get(W+1,Z+1);var J=Y;I=M.get(W+1,Z+1,0),P=M.get(W+1,Z+1,1),C=M.get(W+1,Z+1,2),t.intensity&&(J=t.intensity.get(W,Z)),U[V++]=W,U[V++]=Z,U[V++]=Q,U[V++]=K,U[V++]=Y,U[V++]=0,U[V++]=J,U[V++]=I,U[V++]=P,U[V++]=C,D[0]=Math.min(D[0],Q),D[1]=Math.min(D[1],K),D[2]=Math.min(D[2],Y),F=Math.min(F,J),O[0]=Math.max(O[0],Q),O[1]=Math.max(O[1],K),O[2]=Math.max(O[2],Y),N=Math.max(N,J),q+=1}}for(t.intensityBounds&&(F=+t.intensityBounds[0],N=+t.intensityBounds[1]),a=6;V>a;a+=10)U[a]=(U[a]-F)/(N-F);this._vertexCount=q,this._coordinateBuffer.update(U.subarray(0,V)),v.freeFloat(U),v.free(M.data),this.bounds=[D,O],this.intensity=t.intensity||this._field[2],this.intensityBounds[0]===F&&this.intensityBounds[1]===N||(r=!0),this.intensityBounds=[F,N]}if("levels"in t){var $=t.levels;for($=Array.isArray($[0])?$.slice():[[],[],$],a=0;3>a;++a)$[a]=$[a].slice(),$.sort(function(t,e){return t-e});t:for(a=0;3>a;++a){if($[a].length!==this.contourLevels[a].length){r=!0;break}for(y=0;y<$[a].length;++y)if($[a][y]!==this.contourLevels[a][y]){r=!0;break t}}this.contourLevels=$}if(r){b=this._field,o=this.shape;for(var tt=[],et=0;3>et;++et){$=this.contourLevels[et];var rt=[],nt=[],it=[0,0,0];for(a=0;a<$.length;++a){var ot=w(this._field[et],$[a]);rt.push(tt.length/5|0),q=0;t:for(y=0;y<ot.cells.length;++y){var at=ot.cells[y];for(X=0;2>X;++X){var st=ot.positions[at[X]],lt=st[0],ut=0|Math.floor(lt),ct=lt-ut,ht=st[1],ft=0|Math.floor(ht),pt=ht-ft,dt=!1;e:for(var mt=0;3>mt;++mt){it[mt]=0;var gt=(et+mt+1)%3;for(G=0;2>G;++G){var vt=G?ct:1-ct;for(W=0|Math.min(Math.max(ut+G,0),o[0]),H=0;2>H;++H){var yt=H?pt:1-pt;if(Z=0|Math.min(Math.max(ft+H,0),o[1]),Y=2>mt?this._field[gt].get(W,Z):(this.intensity.get(W,Z)-this.intensityBounds[0])/(this.intensityBounds[1]-this.intensityBounds[0]),!isFinite(Y)||isNaN(Y)){dt=!0;break e}var bt=vt*yt;it[mt]+=bt*Y}}}if(dt){if(X>0){for(var xt=0;5>xt;++xt)tt.pop();q-=1}continue t}tt.push(it[0],it[1],st[0],st[1],it[2]),q+=1}}nt.push(q)}this._contourOffsets[et]=rt,this._contourCounts[et]=nt}var _t=v.mallocFloat(tt.length);for(a=0;a<tt.length;++a)_t[a]=tt[a];this._contourBuffer.update(_t),v.freeFloat(_t)}t.colormap&&this._colorMap.setPixels(i(t.colormap))},O.dispose=function(){this._shader.dispose(),this._vao.dispose(),this._coordinateBuffer.dispose(),this._colorMap.dispose(),this._contourBuffer.dispose(),this._contourVAO.dispose(),this._contourShader.dispose(),this._contourPickShader.dispose(),this._dynamicBuffer.dispose(),this._dynamicVAO.dispose();for(var t=0;3>t;++t)v.freeFloat(this._field[t].data)},O.highlight=function(t){if(!t)return this._dynamicCounts=[0,0,0],this.dyanamicLevel=[NaN,NaN,NaN],void(this.highlightLevel=[-1,-1,-1]);for(var e=0;3>e;++e)this.enableHighlight[e]?this.highlightLevel[e]=t.level[e]:this.highlightLevel[e]=-1;var r;if(r=this.snapToData?t.dataCoordinate:t.position,this.enableDynamic[0]&&r[0]!==this.dynamicLevel[0]||this.enableDynamic[1]&&r[1]!==this.dynamicLevel[1]||this.enableDynamic[2]&&r[2]!==this.dynamicLevel[2]){for(var n=0,i=this.shape,o=v.mallocFloat(12*i[0]*i[1]),a=0;3>a;++a)if(this.enableDynamic[a]){this.dynamicLevel[a]=r[a];var s=(a+1)%3,l=(a+2)%3,u=this._field[a],c=this._field[s],h=this._field[l],f=(this.intensity,w(u,r[a])),p=f.cells,d=f.positions;for(this._dynamicOffsets[a]=n,e=0;e<p.length;++e)for(var m=p[e],g=0;2>g;++g){var y=d[m[g]],b=+y[0],x=0|b,_=0|Math.min(x+1,i[0]),M=b-x,k=1-M,A=+y[1],T=0|A,E=0|Math.min(T+1,i[1]),S=A-T,L=1-S,z=k*L,I=k*S,P=M*L,C=M*S,R=z*c.get(x,T)+I*c.get(x,E)+P*c.get(_,T)+C*c.get(_,E),j=z*h.get(x,T)+I*h.get(x,E)+P*h.get(_,T)+C*h.get(_,E);if(isNaN(R)||isNaN(j)){g&&(n-=1);break}o[2*n+0]=R,o[2*n+1]=j,n+=1}this._dynamicCounts[a]=n-this._dynamicOffsets[a]}else this.dynamicLevel[a]=NaN,this._dynamicCounts[a]=0;this._dynamicBuffer.update(o.subarray(0,2*n)),v.freeFloat(o)}}},{"./lib/shaders":227,"binary-search-bounds":228,"bit-twiddle":51,colormap:111,"gl-buffer":129,"gl-mat4/invert":148,"gl-mat4/multiply":150,"gl-texture2d":233,"gl-vao":237,ndarray:456,"ndarray-gradient":229,"ndarray-ops":455,"ndarray-pack":230,"surface-nets":475,"typedarray-pool":481}],233:[function(t,e,r){"use strict";function n(t){g=[t.LINEAR,t.NEAREST_MIPMAP_LINEAR,t.LINEAR_MIPMAP_NEAREST,t.LINEAR_MIPMAP_NEAREST],v=[t.NEAREST,t.LINEAR,t.NEAREST_MIPMAP_NEAREST,t.NEAREST_MIPMAP_LINEAR,t.LINEAR_MIPMAP_NEAREST,t.LINEAR_MIPMAP_LINEAR],y=[t.REPEAT,t.CLAMP_TO_EDGE,t.MIRRORED_REPEAT]}function i(t,e,r){var n=t.gl,i=n.getParameter(n.MAX_TEXTURE_SIZE);if(0>e||e>i||0>r||r>i)throw new Error("gl-texture2d: Invalid texture size");return t._shape=[e,r],t.bind(),n.texImage2D(n.TEXTURE_2D,0,t.format,e,r,0,t.format,t.type,null),t._mipLevels=[0],t}function o(t,e,r,n,i,o){this.gl=t,this.handle=e,this.format=i,this.type=o,this._shape=[r,n],this._mipLevels=[0],this._magFilter=t.NEAREST,this._minFilter=t.NEAREST,this._wrapS=t.CLAMP_TO_EDGE,this._wrapT=t.CLAMP_TO_EDGE,this._anisoSamples=1;var a=this,s=[this._wrapS,this._wrapT];Object.defineProperties(s,[{get:function(){return a._wrapS},set:function(t){return a.wrapS=t}},{get:function(){return a._wrapT},set:function(t){return a.wrapT=t}}]),this._wrapVector=s;var l=[this._shape[0],this._shape[1]];Object.defineProperties(l,[{get:function(){return a._shape[0]},set:function(t){return a.width=t}},{get:function(){return a._shape[1]},set:function(t){return a.height=t}}]),this._shapeVector=l}function a(t,e){return 3===t.length?1===e[2]&&e[1]===t[0]*t[2]&&e[0]===t[2]:1===e[0]&&e[1]===t[0]}function s(t,e,r,n,i,o,s,l){var u=l.dtype,c=l.shape.slice();if(c.length<2||c.length>3)throw new Error("gl-texture2d: Invalid ndarray, must be 2d or 3d");var h=0,f=0,g=a(c,l.stride.slice());"float32"===u?h=t.FLOAT:"float64"===u?(h=t.FLOAT,g=!1,u="float32"):"uint8"===u?h=t.UNSIGNED_BYTE:(h=t.UNSIGNED_BYTE,g=!1,u="uint8");var v=1;if(2===c.length)f=t.LUMINANCE,c=[c[0],c[1],1],l=p(l.data,c,[l.stride[0],l.stride[1],1],l.offset);else{if(3!==c.length)throw new Error("gl-texture2d: Invalid shape for texture");if(1===c[2])f=t.ALPHA;else if(2===c[2])f=t.LUMINANCE_ALPHA;else if(3===c[2])f=t.RGB;else{if(4!==c[2])throw new Error("gl-texture2d: Invalid shape for pixel coords");f=t.RGBA}v=c[2]}if(f!==t.LUMINANCE&&f!==t.ALPHA||i!==t.LUMINANCE&&i!==t.ALPHA||(f=i),f!==i)throw new Error("gl-texture2d: Incompatible texture format for setPixels");var y=l.size,x=s.indexOf(n)<0;if(x&&s.push(n),h===o&&g)0===l.offset&&l.data.length===y?x?t.texImage2D(t.TEXTURE_2D,n,i,c[0],c[1],0,i,o,l.data):t.texSubImage2D(t.TEXTURE_2D,n,e,r,c[0],c[1],i,o,l.data):x?t.texImage2D(t.TEXTURE_2D,n,i,c[0],c[1],0,i,o,l.data.subarray(l.offset,l.offset+y)):t.texSubImage2D(t.TEXTURE_2D,n,e,r,c[0],c[1],i,o,l.data.subarray(l.offset,l.offset+y));else{var _;_=o===t.FLOAT?m.mallocFloat32(y):m.mallocUint8(y);var w=p(_,c,[c[2],c[2]*c[0],1]);h===t.FLOAT&&o===t.UNSIGNED_BYTE?b(w,l):d.assign(w,l),x?t.texImage2D(t.TEXTURE_2D,n,i,c[0],c[1],0,i,o,_.subarray(0,y)):t.texSubImage2D(t.TEXTURE_2D,n,e,r,c[0],c[1],i,o,_.subarray(0,y)),o===t.FLOAT?m.freeFloat32(_):m.freeUint8(_)}}function l(t){var e=t.createTexture();return t.bindTexture(t.TEXTURE_2D,e),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_MIN_FILTER,t.NEAREST),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_MAG_FILTER,t.NEAREST),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_WRAP_S,t.CLAMP_TO_EDGE),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_WRAP_T,t.CLAMP_TO_EDGE),e}function u(t,e,r,n,i){var a=t.getParameter(t.MAX_TEXTURE_SIZE);if(0>e||e>a||0>r||r>a)throw new Error("gl-texture2d: Invalid texture shape");if(i===t.FLOAT&&!t.getExtension("OES_texture_float"))throw new Error("gl-texture2d: Floating point textures not supported on this platform");var s=l(t);return t.texImage2D(t.TEXTURE_2D,0,n,e,r,0,n,i,null),new o(t,s,e,r,n,i)}function c(t,e,r,n){var i=l(t);return t.texImage2D(t.TEXTURE_2D,0,r,r,n,e),new o(t,i,0|e.width,0|e.height,r,n)}function h(t,e){var r=e.dtype,n=e.shape.slice(),i=t.getParameter(t.MAX_TEXTURE_SIZE);if(n[0]<0||n[0]>i||n[1]<0||n[1]>i)throw new Error("gl-texture2d: Invalid texture size");var s=a(n,e.stride.slice()),u=0;"float32"===r?u=t.FLOAT:"float64"===r?(u=t.FLOAT,s=!1,r="float32"):"uint8"===r?u=t.UNSIGNED_BYTE:(u=t.UNSIGNED_BYTE,s=!1,r="uint8");var c=0;if(2===n.length)c=t.LUMINANCE,n=[n[0],n[1],1],e=p(e.data,n,[e.stride[0],e.stride[1],1],e.offset);else{if(3!==n.length)throw new Error("gl-texture2d: Invalid shape for texture");if(1===n[2])c=t.ALPHA;else if(2===n[2])c=t.LUMINANCE_ALPHA;else if(3===n[2])c=t.RGB;else{if(4!==n[2])throw new Error("gl-texture2d: Invalid shape for pixel coords");c=t.RGBA}}u!==t.FLOAT||t.getExtension("OES_texture_float")||(u=t.UNSIGNED_BYTE,s=!1);var h,f,g=e.size;if(s)h=0===e.offset&&e.data.length===g?e.data:e.data.subarray(e.offset,e.offset+g);else{var v=[n[2],n[2]*n[0],1];f=m.malloc(g,r);var y=p(f,n,v,0);"float32"!==r&&"float64"!==r||u!==t.UNSIGNED_BYTE?d.assign(y,e):b(y,e),h=f.subarray(0,g)}var x=l(t);return t.texImage2D(t.TEXTURE_2D,0,c,n[0],n[1],0,c,u,h),s||m.free(f),new o(t,x,n[0],n[1],c,u)}function f(t){if(arguments.length<=1)throw new 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t.serialize()})}),childLayerIds:this.childLayers.map(function(t){return t.id})}},n.prototype.createFilter=function(){this.filter||(this.filter=s(this.layer.filter))};var f={lastIntegerZoom:1/0,lastIntegerZoomTime:0,lastZoom:0};n.prototype.recalculateStyleLayers=function(){for(var t=0;t<this.childLayers.length;t++)this.childLayers[t].recalculate(this.zoom,f)},n.prototype.populatePaintArrays=function(t,e,r,n,i){for(var o=0;o<this.childLayers.length;o++)for(var a=this.childLayers[o],s=this.arrayGroups[t],l=n.index;l<s.length;l++){var u=s[l],c=u.layoutVertexArray.length,h=u.paintVertexArrays[a.id];h.resize(c);for(var f=this.paintAttributes[t][a.id].attributes,p=0;p<f.length;p++)for(var d=f[p],m=d.getValue(a,e,r),g=d.multiplier||1,v=d.components||1,y=l===n.index?i:0,b=y;c>b;b++)for(var x=h.get(b),_=0;v>_;_++){var w=v>1?d.name+_:d.name;x[w]=m[_]*g}}},n.VertexArrayType=function(t){return new h({members:t,alignment:4})},n.ElementArrayType=function(t){return new h({members:[{type:"Uint16",name:"vertices",components:t||3}]})}},{"../util/struct_array":364,"../util/util":366,"./array_group":252,"./bucket/circle_bucket":254,"./bucket/fill_bucket":255,"./bucket/line_bucket":256,"./bucket/symbol_bucket":257,"./buffer_group":259,"feature-filter":370}],254:[function(t,e,r){"use strict";function n(){i.apply(this,arguments)}var i=t("../bucket"),o=t("../../util/util"),a=t("../load_geometry"),s=i.EXTENT;e.exports=n,n.prototype=o.inherit(i,{}),n.prototype.addCircleVertex=function(t,e,r,n,i){return t.emplaceBack(2*e+(n+1)/2,2*r+(i+1)/2)},n.prototype.programInterfaces={circle:{layoutVertexArrayType:new i.VertexArrayType([{name:"a_pos",components:2,type:"Int16"}]),elementArrayType:new i.ElementArrayType,paintAttributes:[{name:"a_color",components:4,type:"Uint8",getValue:function(t,e,r){return t.getPaintValue("circle-color",e,r)},multiplier:255,paintProperty:"circle-color"},{name:"a_radius",components:1,type:"Uint16",isLayerConstant:!1,getValue:function(t,e,r){return[t.getPaintValue("circle-radius",e,r)]},multiplier:10,paintProperty:"circle-radius"},{name:"a_blur",components:1,type:"Uint16",isLayerConstant:!1,getValue:function(t,e,r){return[t.getPaintValue("circle-blur",e,r)]},multiplier:10,paintProperty:"circle-blur"},{name:"a_opacity",components:1,type:"Uint16",isLayerConstant:!1,getValue:function(t,e,r){return[t.getPaintValue("circle-opacity",e,r)]},multiplier:255,paintProperty:"circle-opacity"}]}},n.prototype.addFeature=function(t){for(var e={zoom:this.zoom},r=a(t),n=this.prepareArrayGroup("circle",0),i=n.layoutVertexArray.length,o=0;o<r.length;o++)for(var l=0;l<r[o].length;l++){var u=r[o][l].x,c=r[o][l].y;if(!(0>u||u>=s||0>c||c>=s)){var h=this.prepareArrayGroup("circle",4),f=h.layoutVertexArray,p=this.addCircleVertex(f,u,c,-1,-1);this.addCircleVertex(f,u,c,1,-1),this.addCircleVertex(f,u,c,1,1),this.addCircleVertex(f,u,c,-1,1),h.elementArray.emplaceBack(p,p+1,p+2),h.elementArray.emplaceBack(p,p+3,p+2)}}this.populatePaintArrays("circle",e,t.properties,n,i)}},{"../../util/util":366,"../bucket":253,"../load_geometry":261}],255:[function(t,e,r){"use strict";function n(){i.apply(this,arguments)}var i=t("../bucket"),o=t("../../util/util"),a=t("../load_geometry"),s=t("earcut"),l=t("../../util/classify_rings"),u=500;e.exports=n,n.prototype=o.inherit(i,{}),n.prototype.programInterfaces={fill:{layoutVertexArrayType:new i.VertexArrayType([{name:"a_pos",components:2,type:"Int16"}]),elementArrayType:new i.ElementArrayType(1),elementArrayType2:new i.ElementArrayType(2),paintAttributes:[{name:"a_color",components:4,type:"Uint8",getValue:function(t,e,r){return t.getPaintValue("fill-color",e,r)},multiplier:255,paintProperty:"fill-color"},{name:"a_outline_color",components:4,type:"Uint8",getValue:function(t,e,r){return t.getPaintValue("fill-outline-color",e,r)},multiplier:255,paintProperty:"fill-outline-color"},{name:"a_opacity",components:1,type:"Uint8",getValue:function(t,e,r){return[t.getPaintValue("fill-opacity",e,r)]},multiplier:255,paintProperty:"fill-opacity"}]}},n.prototype.addFeature=function(t){for(var e=a(t),r=l(e,u),n=this.prepareArrayGroup("fill",0),i=n.layoutVertexArray.length,o=0;o<r.length;o++)this.addPolygon(r[o]);this.populatePaintArrays("fill",{zoom:this.zoom},t.properties,n,i)},n.prototype.addPolygon=function(t){for(var e=0,r=0;r<t.length;r++)e+=t[r].length;for(var n=this.prepareArrayGroup("fill",e),i=[],o=[],a=n.layoutVertexArray.length,l=0;l<t.length;l++){var u=t[l];l>0&&o.push(i.length/2);for(var c=0;c<u.length;c++){var h=u[c],f=n.layoutVertexArray.emplaceBack(h.x,h.y);c>=1&&n.elementArray2.emplaceBack(f-1,f),i.push(h.x),i.push(h.y)}}for(var p=s(i,o),d=0;d<p.length;d++)n.elementArray.emplaceBack(p[d]+a)}},{"../../util/classify_rings":354,"../../util/util":366,"../bucket":253,"../load_geometry":261,earcut:369}],256:[function(t,e,r){"use strict";function n(){i.apply(this,arguments)}var i=t("../bucket"),o=t("../../util/util"),a=t("../load_geometry"),s=i.EXTENT,l=63,u=Math.cos(37.5*(Math.PI/180)),c=15,h=15,f=.5,p=Math.pow(2,h-1)/f;e.exports=n,n.prototype=o.inherit(i,{}),n.prototype.addLineVertex=function(t,e,r,n,i,o,a){return t.emplaceBack(e.x<<1|n,e.y<<1|i,Math.round(l*r.x)+128,Math.round(l*r.y)+128,(0===o?0:0>o?-1:1)+1|(a*f&63)<<2,a*f>>6)},n.prototype.programInterfaces={line:{layoutVertexArrayType:new i.VertexArrayType([{name:"a_pos",components:2,type:"Int16"},{name:"a_data",components:4,type:"Uint8"}]),elementArrayType:new i.ElementArrayType}},n.prototype.addFeature=function(t){for(var e=a(t,h),r=0;r<e.length;r++)this.addLine(e[r],this.layer.layout["line-join"],this.layer.layout["line-cap"],this.layer.layout["line-miter-limit"],this.layer.layout["line-round-limit"])},n.prototype.addLine=function(t,e,r,n,i){for(var o=t.length;o>2&&t[o-1].equals(t[o-2]);)o--;if(!(t.length<2)){"bevel"===e&&(n=1.05);var a=c*(s/(512*this.overscaling)),l=t[0],h=t[o-1],f=l.equals(h);if(this.prepareArrayGroup("line",10*o),2!==o||!f){this.distance=0;var p,d,m,g,v,y,b,x=r,_=f?"butt":r,w=!0;this.e1=this.e2=this.e3=-1,f&&(p=t[o-2],v=l.sub(p)._unit()._perp());for(var M=0;o>M;M++)if(m=f&&M===o-1?t[1]:t[M+1],!m||!t[M].equals(m)){v&&(g=v),p&&(d=p),p=t[M],v=m?m.sub(p)._unit()._perp():g,g=g||v;var k=g.add(v)._unit(),A=k.x*v.x+k.y*v.y,T=1/A,E=u>A&&d&&m;if(E&&M>0){var S=p.dist(d);if(S>2*a){var L=p.sub(p.sub(d)._mult(a/S)._round());this.distance+=L.dist(d),this.addCurrentVertex(L,this.distance,g.mult(1),0,0,!1),d=L}}var z=d&&m,I=z?e:m?x:_;if(z&&"round"===I&&(i>T?I="miter":2>=T&&(I="fakeround")),"miter"===I&&T>n&&(I="bevel"),"bevel"===I&&(T>2&&(I="flipbevel"),n>T&&(I="miter")),d&&(this.distance+=p.dist(d)),"miter"===I)k._mult(T),this.addCurrentVertex(p,this.distance,k,0,0,!1);else if("flipbevel"===I){if(T>100)k=v.clone();else{var P=g.x*v.y-g.y*v.x>0?-1:1,C=T*g.add(v).mag()/g.sub(v).mag();k._perp()._mult(C*P)}this.addCurrentVertex(p,this.distance,k,0,0,!1),this.addCurrentVertex(p,this.distance,k.mult(-1),0,0,!1)}else if("bevel"===I||"fakeround"===I){var R=g.x*v.y-g.y*v.x>0,j=-Math.sqrt(T*T-1);if(R?(b=0,y=j):(y=0,b=j),w||this.addCurrentVertex(p,this.distance,g,y,b,!1),"fakeround"===I){for(var D,O=Math.floor(8*(.5-(A-.5))),F=0;O>F;F++)D=v.mult((F+1)/(O+1))._add(g)._unit(),this.addPieSliceVertex(p,this.distance,D,R);this.addPieSliceVertex(p,this.distance,k,R);for(var N=O-1;N>=0;N--)D=g.mult((N+1)/(O+1))._add(v)._unit(),this.addPieSliceVertex(p,this.distance,D,R)}m&&this.addCurrentVertex(p,this.distance,v,-y,-b,!1)}else"butt"===I?(w||this.addCurrentVertex(p,this.distance,g,0,0,!1),m&&this.addCurrentVertex(p,this.distance,v,0,0,!1)):"square"===I?(w||(this.addCurrentVertex(p,this.distance,g,1,1,!1),this.e1=this.e2=-1),m&&this.addCurrentVertex(p,this.distance,v,-1,-1,!1)):"round"===I&&(w||(this.addCurrentVertex(p,this.distance,g,0,0,!1),this.addCurrentVertex(p,this.distance,g,1,1,!0),this.e1=this.e2=-1),m&&(this.addCurrentVertex(p,this.distance,v,-1,-1,!0),this.addCurrentVertex(p,this.distance,v,0,0,!1)));if(E&&o-1>M){var B=p.dist(m);if(B>2*a){var U=p.add(m.sub(p)._mult(a/B)._round());this.distance+=U.dist(p),this.addCurrentVertex(U,this.distance,v.mult(1),0,0,!1),p=U}}w=!1}}}},n.prototype.addCurrentVertex=function(t,e,r,n,i,o){var a,s=o?1:0,l=this.arrayGroups.line[this.arrayGroups.line.length-1],u=l.layoutVertexArray,c=l.elementArray;a=r.clone(),n&&a._sub(r.perp()._mult(n)),this.e3=this.addLineVertex(u,t,a,s,0,n,e),this.e1>=0&&this.e2>=0&&c.emplaceBack(this.e1,this.e2,this.e3),this.e1=this.e2,this.e2=this.e3,a=r.mult(-1),i&&a._sub(r.perp()._mult(i)),this.e3=this.addLineVertex(u,t,a,s,1,-i,e),this.e1>=0&&this.e2>=0&&c.emplaceBack(this.e1,this.e2,this.e3),this.e1=this.e2,this.e2=this.e3,e>p/2&&(this.distance=0,this.addCurrentVertex(t,this.distance,r,n,i,o))},n.prototype.addPieSliceVertex=function(t,e,r,n){var i=n?1:0;r=r.mult(n?-1:1);var o=this.arrayGroups.line[this.arrayGroups.line.length-1],a=o.layoutVertexArray,s=o.elementArray;
this.e3=this.addLineVertex(a,t,r,0,i,0,e),this.e1>=0&&this.e2>=0&&s.emplaceBack(this.e1,this.e2,this.e3),n?this.e2=this.e3:this.e1=this.e3}},{"../../util/util":366,"../bucket":253,"../load_geometry":261}],257:[function(t,e,r){"use strict";function n(t){a.apply(this,arguments),this.showCollisionBoxes=t.showCollisionBoxes,this.overscaling=t.overscaling,this.collisionBoxArray=t.collisionBoxArray,this.symbolQuadsArray=t.symbolQuadsArray,this.symbolInstancesArray=t.symbolInstancesArray,this.sdfIcons=t.sdfIcons,this.iconsNeedLinear=t.iconsNeedLinear,this.adjustedTextSize=t.adjustedTextSize,this.adjustedIconSize=t.adjustedIconSize,this.fontstack=t.fontstack}function i(t,e,r,n,i,o,a,s,l,u,c){return t.emplaceBack(e,r,Math.round(64*n),Math.round(64*i),o/4,a/4,10*(u||0),c,10*(s||0),10*Math.min(l||25,25))}var o=t("point-geometry"),a=t("../bucket"),s=t("../../symbol/anchor"),l=t("../../symbol/get_anchors"),u=t("../../util/token"),c=t("../../symbol/quads"),h=t("../../symbol/shaping"),f=t("../../symbol/resolve_text"),p=t("../../symbol/mergelines"),d=t("../../symbol/clip_line"),m=t("../../util/util"),g=t("../load_geometry"),v=t("../../symbol/collision_feature"),y=h.shapeText,b=h.shapeIcon,x=c.getGlyphQuads,_=c.getIconQuads,w=a.EXTENT;e.exports=n,n.prototype=m.inherit(a,{}),n.prototype.serialize=function(){var t=a.prototype.serialize.apply(this);return t.sdfIcons=this.sdfIcons,t.iconsNeedLinear=this.iconsNeedLinear,t.adjustedTextSize=this.adjustedTextSize,t.adjustedIconSize=this.adjustedIconSize,t.fontstack=this.fontstack,t};var M=new a.VertexArrayType([{name:"a_pos",components:2,type:"Int16"},{name:"a_offset",components:2,type:"Int16"},{name:"a_texture_pos",components:2,type:"Uint16"},{name:"a_data",components:4,type:"Uint8"}]),k=new a.ElementArrayType;n.prototype.addCollisionBoxVertex=function(t,e,r,n,i){return t.emplaceBack(e.x,e.y,Math.round(r.x),Math.round(r.y),10*n,10*i)},n.prototype.programInterfaces={glyph:{layoutVertexArrayType:M,elementArrayType:k},icon:{layoutVertexArrayType:M,elementArrayType:k},collisionBox:{layoutVertexArrayType:new a.VertexArrayType([{name:"a_pos",components:2,type:"Int16"},{name:"a_extrude",components:2,type:"Int16"},{name:"a_data",components:2,type:"Uint8"}])}},n.prototype.populateArrays=function(t,e,r){var n={lastIntegerZoom:1/0,lastIntegerZoomTime:0,lastZoom:0};this.adjustedTextMaxSize=this.layer.getLayoutValue("text-size",{zoom:18,zoomHistory:n}),this.adjustedTextSize=this.layer.getLayoutValue("text-size",{zoom:this.zoom+1,zoomHistory:n}),this.adjustedIconMaxSize=this.layer.getLayoutValue("icon-size",{zoom:18,zoomHistory:n}),this.adjustedIconSize=this.layer.getLayoutValue("icon-size",{zoom:this.zoom+1,zoomHistory:n});var i=512*this.overscaling;this.tilePixelRatio=w/i,this.compareText={},this.iconsNeedLinear=!1,this.symbolInstancesStartIndex=this.symbolInstancesArray.length;var o=this.layer.layout,a=this.features,s=this.textFeatures,l=.5,c=.5;switch(o["text-anchor"]){case"right":case"top-right":case"bottom-right":l=1;break;case"left":case"top-left":case"bottom-left":l=0}switch(o["text-anchor"]){case"bottom":case"bottom-right":case"bottom-left":c=1;break;case"top":case"top-right":case"top-left":c=0}for(var h="right"===o["text-justify"]?1:"left"===o["text-justify"]?0:.5,f=24,d=o["text-line-height"]*f,v="line"!==o["symbol-placement"]?o["text-max-width"]*f:0,x=o["text-letter-spacing"]*f,_=[o["text-offset"][0]*f,o["text-offset"][1]*f],M=this.fontstack=o["text-font"].join(","),k=[],A=0;A<a.length;A++)k.push(g(a[A]));if("line"===o["symbol-placement"]){var T=p(a,s,k);k=T.geometries,a=T.features,s=T.textFeatures}for(var E,S,L=0;L<a.length;L++)if(k[L]){if(E=s[L]?y(s[L],e[M],v,d,l,c,h,x,_):null,o["icon-image"]){var z=u(a[L].properties,o["icon-image"]),I=r[z];S=b(I,o),I&&(void 0===this.sdfIcons?this.sdfIcons=I.sdf:this.sdfIcons!==I.sdf&&m.warnOnce("Style sheet warning: Cannot mix SDF and non-SDF icons in one buffer"),1!==I.pixelRatio?this.iconsNeedLinear=!0:0===o["icon-rotate"]&&this.layer.isLayoutValueFeatureConstant("icon-rotate")||(this.iconsNeedLinear=!0))}else S=null;(E||S)&&this.addFeature(k[L],E,S,a[L])}this.symbolInstancesEndIndex=this.symbolInstancesArray.length,this.placeFeatures(t,this.showCollisionBoxes),this.trimArrays()},n.prototype.addFeature=function(t,e,r,n){var i=this.layer.layout,o=24,a=this.adjustedTextSize/o,u=void 0!==this.adjustedTextMaxSize?this.adjustedTextMaxSize:this.adjustedTextSize,c=this.tilePixelRatio*a,h=this.tilePixelRatio*u/o,f=this.tilePixelRatio*this.adjustedIconSize,p=this.tilePixelRatio*i["symbol-spacing"],m=i["symbol-avoid-edges"],g=i["text-padding"]*this.tilePixelRatio,v=i["icon-padding"]*this.tilePixelRatio,y=i["text-max-angle"]/180*Math.PI,b="map"===i["text-rotation-alignment"]&&"line"===i["symbol-placement"],x="map"===i["icon-rotation-alignment"]&&"line"===i["symbol-placement"],_=i["text-allow-overlap"]||i["icon-allow-overlap"]||i["text-ignore-placement"]||i["icon-ignore-placement"],M="line"===i["symbol-placement"],k=p/2;M&&(t=d(t,0,0,w,w));for(var A=0;A<t.length;A++){var T,E=t[A];T=M?l(E,p,y,e,r,o,h,this.overscaling,w):[new s(E[0].x,E[0].y,0)];for(var S=0,L=T.length;L>S;S++){var z=T[S];if(!(e&&M&&this.anchorIsTooClose(e.text,k,z))){var I=!(z.x<0||z.x>w||z.y<0||z.y>w);if(!m||I){var P=I||_;this.addSymbolInstance(z,E,e,r,this.layer,P,this.symbolInstancesArray.length,this.collisionBoxArray,n.index,this.sourceLayerIndex,this.index,c,g,b,f,v,x,{zoom:this.zoom},n.properties)}}}}},n.prototype.anchorIsTooClose=function(t,e,r){var n=this.compareText;if(t in n){for(var i=n[t],o=i.length-1;o>=0;o--)if(r.dist(i[o])<e)return!0}else n[t]=[];return n[t].push(r),!1},n.prototype.placeFeatures=function(t,e){this.recalculateStyleLayers(),this.createArrays();var r=this.layer.layout,n=t.maxScale,i="map"===r["text-rotation-alignment"]&&"line"===r["symbol-placement"],o="map"===r["icon-rotation-alignment"]&&"line"===r["symbol-placement"],a=r["text-allow-overlap"]||r["icon-allow-overlap"]||r["text-ignore-placement"]||r["icon-ignore-placement"];if(a){var s=this.symbolInstancesArray.toArray(this.symbolInstancesStartIndex,this.symbolInstancesEndIndex),l=t.angle,u=Math.sin(l),c=Math.cos(l);this.sortedSymbolInstances=s.sort(function(t,e){var r=u*t.anchorPointX+c*t.anchorPointY|0,n=u*e.anchorPointX+c*e.anchorPointY|0;return r-n||e.index-t.index})}for(var h=this.symbolInstancesStartIndex;h<this.symbolInstancesEndIndex;h++){var f=this.sortedSymbolInstances?this.sortedSymbolInstances[h-this.symbolInstancesStartIndex]:this.symbolInstancesArray.get(h),p={boxStartIndex:f.textBoxStartIndex,boxEndIndex:f.textBoxEndIndex},d={boxStartIndex:f.iconBoxStartIndex,boxEndIndex:f.iconBoxEndIndex},m=!(f.textBoxStartIndex===f.textBoxEndIndex),g=!(f.iconBoxStartIndex===f.iconBoxEndIndex),v=r["text-optional"]||!m,y=r["icon-optional"]||!g,b=m?t.placeCollisionFeature(p,r["text-allow-overlap"],r["symbol-avoid-edges"]):t.minScale,x=g?t.placeCollisionFeature(d,r["icon-allow-overlap"],r["symbol-avoid-edges"]):t.minScale;v||y?!y&&b?b=Math.max(x,b):!v&&x&&(x=Math.max(x,b)):x=b=Math.max(x,b),m&&(t.insertCollisionFeature(p,b,r["text-ignore-placement"]),n>=b&&this.addSymbols("glyph",f.glyphQuadStartIndex,f.glyphQuadEndIndex,b,r["text-keep-upright"],i,t.angle)),g&&(t.insertCollisionFeature(d,x,r["icon-ignore-placement"]),n>=x&&this.addSymbols("icon",f.iconQuadStartIndex,f.iconQuadEndIndex,x,r["icon-keep-upright"],o,t.angle))}e&&this.addToDebugBuffers(t)},n.prototype.addSymbols=function(t,e,r,n,o,a,s){for(var l=this.prepareArrayGroup(t,4*(r-e)),u=l.elementArray,c=l.layoutVertexArray,h=this.zoom,f=Math.max(Math.log(n)/Math.LN2+h,0),p=e;r>p;p++){var d=this.symbolQuadsArray.get(p).SymbolQuad,m=(d.anchorAngle+s+Math.PI)%(2*Math.PI);if(!(o&&a&&(m<=Math.PI/2||m>3*Math.PI/2))){var g=d.tl,v=d.tr,y=d.bl,b=d.br,x=d.tex,_=d.anchorPoint,w=Math.max(h+Math.log(d.minScale)/Math.LN2,f),M=Math.min(h+Math.log(d.maxScale)/Math.LN2,25);if(!(w>=M)){w===f&&(w=0);var k=Math.round(d.glyphAngle/(2*Math.PI)*256),A=i(c,_.x,_.y,g.x,g.y,x.x,x.y,w,M,f,k);i(c,_.x,_.y,v.x,v.y,x.x+x.w,x.y,w,M,f,k),i(c,_.x,_.y,y.x,y.y,x.x,x.y+x.h,w,M,f,k),i(c,_.x,_.y,b.x,b.y,x.x+x.w,x.y+x.h,w,M,f,k),u.emplaceBack(A,A+1,A+2),u.emplaceBack(A+1,A+2,A+3)}}}},n.prototype.updateIcons=function(t){this.recalculateStyleLayers();var e=this.layer.layout["icon-image"];if(e)for(var r=0;r<this.features.length;r++){var n=u(this.features[r].properties,e);n&&(t[n]=!0)}},n.prototype.updateFont=function(t){this.recalculateStyleLayers();var e=this.layer.layout["text-font"],r=t[e]=t[e]||{};this.textFeatures=f(this.features,this.layer.layout,r)},n.prototype.addToDebugBuffers=function(t){for(var e=this.prepareArrayGroup("collisionBox",0),r=e.layoutVertexArray,n=-t.angle,i=t.yStretch,a=this.symbolInstancesStartIndex;a<this.symbolInstancesEndIndex;a++){var s=this.symbolInstancesArray.get(a);s.textCollisionFeature={boxStartIndex:s.textBoxStartIndex,boxEndIndex:s.textBoxEndIndex},s.iconCollisionFeature={boxStartIndex:s.iconBoxStartIndex,boxEndIndex:s.iconBoxEndIndex};for(var l=0;2>l;l++){var u=s[0===l?"textCollisionFeature":"iconCollisionFeature"];if(u)for(var c=u.boxStartIndex;c<u.boxEndIndex;c++){var h=this.collisionBoxArray.get(c),f=h.anchorPoint,p=new o(h.x1,h.y1*i)._rotate(n),d=new o(h.x2,h.y1*i)._rotate(n),m=new o(h.x1,h.y2*i)._rotate(n),g=new o(h.x2,h.y2*i)._rotate(n),v=Math.max(0,Math.min(25,this.zoom+Math.log(h.maxScale)/Math.LN2)),y=Math.max(0,Math.min(25,this.zoom+Math.log(h.placementScale)/Math.LN2));this.addCollisionBoxVertex(r,f,p,v,y),this.addCollisionBoxVertex(r,f,d,v,y),this.addCollisionBoxVertex(r,f,d,v,y),this.addCollisionBoxVertex(r,f,g,v,y),this.addCollisionBoxVertex(r,f,g,v,y),this.addCollisionBoxVertex(r,f,m,v,y),this.addCollisionBoxVertex(r,f,m,v,y),this.addCollisionBoxVertex(r,f,p,v,y)}}}},n.prototype.addSymbolInstance=function(t,e,r,n,i,o,a,s,l,u,c,h,f,p,d,m,g,y,b){var w,M,k,A,T,E,S,L;if(r&&(S=o?x(t,r,h,e,i,p):[],T=new v(s,e,t,l,u,c,r,h,f,p,!1)),w=this.symbolQuadsArray.length,S&&S.length)for(var z=0;z<S.length;z++)this.addSymbolQuad(S[z]);M=this.symbolQuadsArray.length;var I=T?T.boxStartIndex:this.collisionBoxArray.length,P=T?T.boxEndIndex:this.collisionBoxArray.length;n&&(L=o?_(t,n,d,e,i,g,r,y,b):[],E=new v(s,e,t,l,u,c,n,d,m,g,!0)),k=this.symbolQuadsArray.length,L&&1===L.length&&this.addSymbolQuad(L[0]),A=this.symbolQuadsArray.length;var C=E?E.boxStartIndex:this.collisionBoxArray.length,R=E?E.boxEndIndex:this.collisionBoxArray.length;return this.symbolInstancesArray.emplaceBack(I,P,C,R,w,M,k,A,t.x,t.y,a)},n.prototype.addSymbolQuad=function(t){return this.symbolQuadsArray.emplaceBack(t.anchorPoint.x,t.anchorPoint.y,t.tl.x,t.tl.y,t.tr.x,t.tr.y,t.bl.x,t.bl.y,t.br.x,t.br.y,t.tex.h,t.tex.w,t.tex.x,t.tex.y,t.anchorAngle,t.glyphAngle,t.maxScale,t.minScale)}},{"../../symbol/anchor":315,"../../symbol/clip_line":317,"../../symbol/collision_feature":319,"../../symbol/get_anchors":321,"../../symbol/mergelines":324,"../../symbol/quads":325,"../../symbol/resolve_text":326,"../../symbol/shaping":327,"../../util/token":365,"../../util/util":366,"../bucket":253,"../load_geometry":261,"point-geometry":424}],258:[function(t,e,r){"use strict";function n(t,e,r){this.arrayBuffer=t.arrayBuffer,this.length=t.length,this.attributes=e.members,this.itemSize=e.bytesPerElement,this.type=r,this.arrayType=e}e.exports=n,n.prototype.bind=function(t){var e=t[this.type];this.buffer?t.bindBuffer(e,this.buffer):(this.buffer=t.createBuffer(),t.bindBuffer(e,this.buffer),t.bufferData(e,this.arrayBuffer,t.STATIC_DRAW),this.arrayBuffer=null)};var i={Int8:"BYTE",Uint8:"UNSIGNED_BYTE",Int16:"SHORT",Uint16:"UNSIGNED_SHORT"};n.prototype.setVertexAttribPointers=function(t,e){for(var r=0;r<this.attributes.length;r++){var n=this.attributes[r],o=e[n.name];void 0!==o&&t.vertexAttribPointer(o,n.components,t[i[n.type]],!1,this.arrayType.bytesPerElement,n.offset)}},n.prototype.destroy=function(t){this.buffer&&t.deleteBuffer(this.buffer)},n.BufferType={VERTEX:"ARRAY_BUFFER",ELEMENT:"ELEMENT_ARRAY_BUFFER"}},{}],259:[function(t,e,r){"use strict";function n(t,e){this.layoutVertexBuffer=new o(t.layoutVertexArray,e.layoutVertexArrayType,o.BufferType.VERTEX),t.elementArray&&(this.elementBuffer=new o(t.elementArray,e.elementArrayType,o.BufferType.ELEMENT));var r,n=this.vaos={};t.elementArray2&&(this.elementBuffer2=new o(t.elementArray2,e.elementArrayType2,o.BufferType.ELEMENT),r=this.secondVaos={}),this.paintVertexBuffers=i.mapObject(t.paintVertexArrays,function(i,s){return n[s]=new a,t.elementArray2&&(r[s]=new a),new o(i,e.paintVertexArrayTypes[s],o.BufferType.VERTEX)})}var i=t("../util/util"),o=t("./buffer"),a=t("../render/vertex_array_object");e.exports=n,n.prototype.destroy=function(t){this.layoutVertexBuffer.destroy(t),this.elementBuffer&&this.elementBuffer.destroy(t),this.elementBuffer2&&this.elementBuffer2.destroy(t);for(var e in this.paintVertexBuffers)this.paintVertexBuffers[e].destroy(t);for(var r in this.vaos)this.vaos[r].destroy(t);for(var n in this.secondVaos)this.secondVaos[n].destroy(t)}},{"../render/vertex_array_object":281,"../util/util":366,"./buffer":258}],260:[function(t,e,r){"use strict";function n(t,e,r){if(t.grid){var n=t,i=e;t=n.coord,e=n.overscaling,this.grid=new d(n.grid),this.featureIndexArray=new k(n.featureIndexArray),this.rawTileData=i,this.bucketLayerIDs=n.bucketLayerIDs}else this.grid=new d(h,16,0),this.featureIndexArray=new k;this.coord=t,this.overscaling=e,this.x=t.x,this.y=t.y,this.z=t.z-Math.log(e)/Math.LN2,this.setCollisionTile(r)}function i(t){return Math.sqrt(t[0]*t[0]+t[1]*t[1])}function o(t,e){return e-t}function a(t){return t["line-gap-width"]>0?t["line-gap-width"]+2*t["line-width"]:t["line-width"]}function s(t,e,r,n,i){if(!e[0]&&!e[1])return t;e=u.convert(e),"viewport"===r&&e._rotate(-n);for(var o=[],a=0;a<t.length;a++){for(var s=t[a],l=[],c=0;c<s.length;c++)l.push(s[c].sub(e._mult(i)));o.push(l)}return o}function l(t,e){for(var r=[],n=new u(0,0),i=0;i<t.length;i++){for(var o=t[i],a=[],s=0;s<o.length;s++){var l=o[s-1],c=o[s],h=o[s+1],f=0===s?n:c.sub(l)._unit()._perp(),p=s===o.length-1?n:h.sub(c)._unit()._perp(),d=f._add(p)._unit(),m=d.x*p.x+d.y*p.y;d._mult(1/m),a.push(d._mult(e)._add(c))}r.push(a)}return r}var u=t("point-geometry"),c=t("./load_geometry"),h=t("./bucket").EXTENT,f=t("feature-filter"),p=t("../util/struct_array"),d=t("grid-index"),m=t("../util/dictionary_coder"),g=t("vector-tile"),v=t("pbf"),y=t("../util/vectortile_to_geojson"),b=t("../util/util").arraysIntersect,x=t("../util/intersection_tests"),_=x.multiPolygonIntersectsBufferedMultiPoint,w=x.multiPolygonIntersectsMultiPolygon,M=x.multiPolygonIntersectsBufferedMultiLine,k=new p({members:[{type:"Uint32",name:"featureIndex"},{type:"Uint16",name:"sourceLayerIndex"},{type:"Uint16",name:"bucketIndex"}]});e.exports=n,n.prototype.insert=function(t,e,r,n){var i=this.featureIndexArray.length;this.featureIndexArray.emplaceBack(e,r,n);for(var o=c(t),a=0;a<o.length;a++){for(var s=o[a],l=[1/0,1/0,-(1/0),-(1/0)],u=0;u<s.length;u++){var h=s[u];l[0]=Math.min(l[0],h.x),l[1]=Math.min(l[1],h.y),l[2]=Math.max(l[2],h.x),l[3]=Math.max(l[3],h.y)}this.grid.insert(i,l[0],l[1],l[2],l[3])}},n.prototype.setCollisionTile=function(t){this.collisionTile=t},n.prototype.serialize=function(){var t={coord:this.coord,overscaling:this.overscaling,grid:this.grid.toArrayBuffer(),featureIndexArray:this.featureIndexArray.serialize(),bucketLayerIDs:this.bucketLayerIDs};return{data:t,transferables:[t.grid,t.featureIndexArray.arrayBuffer]}},n.prototype.query=function(t,e){this.vtLayers||(this.vtLayers=new g.VectorTile(new v(new Uint8Array(this.rawTileData))).layers,this.sourceLayerCoder=new m(this.vtLayers?Object.keys(this.vtLayers).sort():["_geojsonTileLayer"]));var r={},n=t.params||{},s=h/t.tileSize/t.scale,l=f(n.filter),c=0;for(var p in e){var d=e[p],y=d.paint,b=0;"line"===d.type?b=a(y)/2+Math.abs(y["line-offset"])+i(y["line-translate"]):"fill"===d.type?b=i(y["fill-translate"]):"circle"===d.type&&(b=y["circle-radius"]+i(y["circle-translate"])),c=Math.max(c,b*s)}for(var x=t.queryGeometry.map(function(t){return t.map(function(t){return new u(t.x,t.y)})}),_=1/0,w=1/0,M=-(1/0),k=-(1/0),A=0;A<x.length;A++)for(var T=x[A],E=0;E<T.length;E++){var S=T[E];_=Math.min(_,S.x),w=Math.min(w,S.y),M=Math.max(M,S.x),k=Math.max(k,S.y)}var L=this.grid.query(_-c,w-c,M+c,k+c);L.sort(o),this.filterMatching(r,L,this.featureIndexArray,x,l,n.layers,e,t.bearing,s);var z=this.collisionTile.queryRenderedSymbols(_,w,M,k,t.scale);return z.sort(),this.filterMatching(r,z,this.collisionTile.collisionBoxArray,x,l,n.layers,e,t.bearing,s),r},n.prototype.filterMatching=function(t,e,r,n,i,o,u,h,f){for(var p,d=0;d<e.length;d++){var m=e[d];if(m!==p){p=m;var g=r.get(m),v=this.bucketLayerIDs[g.bucketIndex];if(!o||b(o,v)){var x=this.sourceLayerCoder.decode(g.sourceLayerIndex),k=this.vtLayers[x],A=k.feature(g.featureIndex);if(i(A))for(var T=null,E=0;E<v.length;E++){var S=v[E];if(!(o&&o.indexOf(S)<0)){var L=u[S];if(L){var z;if("symbol"!==L.type){T||(T=c(A));var I=L.paint;if("line"===L.type){z=s(n,I["line-translate"],I["line-translate-anchor"],h,f);var P=a(I)/2*f;if(I["line-offset"]&&(T=l(T,I["line-offset"]*f)),!M(z,T,P))continue}else if("fill"===L.type){if(z=s(n,I["fill-translate"],I["fill-translate-anchor"],h,f),!w(z,T))continue}else if("circle"===L.type){z=s(n,I["circle-translate"],I["circle-translate-anchor"],h,f);var C=I["circle-radius"]*f;if(!_(z,T,C))continue}}var R=new y(A,this.z,this.x,this.y);R.layer=L.serialize({includeRefProperties:!0});var j=t[S];void 0===j&&(j=t[S]=[]),j.push(R)}}}}}}}},{"../util/dictionary_coder":356,"../util/intersection_tests":361,"../util/struct_array":364,"../util/util":366,"../util/vectortile_to_geojson":367,"./bucket":253,"./load_geometry":261,"feature-filter":370,"grid-index":392,pbf:422,"point-geometry":424,"vector-tile":434}],261:[function(t,e,r){"use strict";function n(t){return{min:-1*Math.pow(2,t-1),max:Math.pow(2,t-1)-1}}var i=t("../util/util"),o=t("./bucket").EXTENT,a={15:n(15),16:n(16)};e.exports=function(t,e){for(var r=a[e||16],n=o/t.extent,s=t.loadGeometry(),l=0;l<s.length;l++)for(var u=s[l],c=0;c<u.length;c++){var h=u[c];h.x=Math.round(h.x*n),h.y=Math.round(h.y*n),(h.x<r.min||h.x>r.max||h.y<r.min||h.y>r.max)&&i.warnOnce("Geometry exceeds allowed extent, reduce your vector tile buffer size")}return s}},{"../util/util":366,"./bucket":253}],262:[function(t,e,r){"use strict";function n(t,e,r){this.column=t,this.row=e,this.zoom=r}e.exports=n,n.prototype={clone:function(){return new n(this.column,this.row,this.zoom)},zoomTo:function(t){return this.clone()._zoomTo(t)},sub:function(t){return this.clone()._sub(t)},_zoomTo:function(t){var e=Math.pow(2,t-this.zoom);return this.column*=e,this.row*=e,this.zoom=t,this},_sub:function(t){return t=t.zoomTo(this.zoom),this.column-=t.column,this.row-=t.row,this}}},{}],263:[function(t,e,r){"use strict";function n(t,e){if(isNaN(t)||isNaN(e))throw new Error("Invalid LngLat object: ("+t+", "+e+")");if(this.lng=+t,this.lat=+e,this.lat>90||this.lat<-90)throw new Error("Invalid LngLat latitude value: must be between -90 and 90")}e.exports=n;var i=t("../util/util").wrap;n.prototype.wrap=function(){return new n(i(this.lng,-180,180),this.lat)},n.prototype.toArray=function(){return[this.lng,this.lat]},n.prototype.toString=function(){return"LngLat("+this.lng+", "+this.lat+")"},n.convert=function(t){return t instanceof n?t:Array.isArray(t)?new n(t[0],t[1]):t}},{"../util/util":366}],264:[function(t,e,r){"use strict";function n(t,e){t&&(e?this.extend(t).extend(e):4===t.length?this.extend([t[0],t[1]]).extend([t[2],t[3]]):this.extend(t[0]).extend(t[1]))}e.exports=n;var i=t("./lng_lat");n.prototype={extend:function(t){var e,r,o=this._sw,a=this._ne;if(t instanceof i)e=t,r=t;else{if(!(t instanceof n))return t?this.extend(i.convert(t)||n.convert(t)):this;if(e=t._sw,r=t._ne,!e||!r)return this}return o||a?(o.lng=Math.min(e.lng,o.lng),o.lat=Math.min(e.lat,o.lat),a.lng=Math.max(r.lng,a.lng),a.lat=Math.max(r.lat,a.lat)):(this._sw=new i(e.lng,e.lat),this._ne=new i(r.lng,r.lat)),this},getCenter:function(){return new i((this._sw.lng+this._ne.lng)/2,(this._sw.lat+this._ne.lat)/2)},getSouthWest:function(){return this._sw},getNorthEast:function(){return this._ne},getNorthWest:function(){return new i(this.getWest(),this.getNorth())},getSouthEast:function(){return new i(this.getEast(),this.getSouth())},getWest:function(){return this._sw.lng},getSouth:function(){return this._sw.lat},getEast:function(){return this._ne.lng},getNorth:function(){return this._ne.lat},toArray:function(){return[this._sw.toArray(),this._ne.toArray()]},toString:function(){return"LngLatBounds("+this._sw.toString()+", "+this._ne.toString()+")"}},n.convert=function(t){return!t||t instanceof n?t:new n(t)}},{"./lng_lat":263}],265:[function(t,e,r){"use strict";function n(t,e){this.tileSize=512,this._minZoom=t||0,this._maxZoom=e||22,this.latRange=[-85.05113,85.05113],this.width=0,this.height=0,this._center=new i(0,0),this.zoom=0,this.angle=0,this._altitude=1.5,this._pitch=0,this._unmodified=!0}var i=t("./lng_lat"),o=t("point-geometry"),a=t("./coordinate"),s=t("../util/util").wrap,l=t("../util/interpolate"),u=t("../source/tile_coord"),c=t("../data/bucket").EXTENT,h=t("gl-matrix"),f=h.vec4,p=h.mat4,d=h.mat2;e.exports=n,n.prototype={get minZoom(){return this._minZoom},set minZoom(t){this._minZoom!==t&&(this._minZoom=t,this.zoom=Math.max(this.zoom,t))},get maxZoom(){return this._maxZoom},set maxZoom(t){this._maxZoom!==t&&(this._maxZoom=t,this.zoom=Math.min(this.zoom,t))},get worldSize(){return this.tileSize*this.scale},get centerPoint(){return this.size._div(2)},get size(){return new o(this.width,this.height)},get bearing(){return-this.angle/Math.PI*180},set bearing(t){var e=-s(t,-180,180)*Math.PI/180;this.angle!==e&&(this._unmodified=!1,this.angle=e,this._calcMatrices(),this.rotationMatrix=d.create(),d.rotate(this.rotationMatrix,this.rotationMatrix,this.angle))},get pitch(){return this._pitch/Math.PI*180},set pitch(t){var e=Math.min(60,t)/180*Math.PI;this._pitch!==e&&(this._unmodified=!1,this._pitch=e,this._calcMatrices())},get altitude(){return this._altitude},set altitude(t){var e=Math.max(.75,t);this._altitude!==e&&(this._unmodified=!1,this._altitude=e,this._calcMatrices())},get zoom(){return this._zoom},set zoom(t){var e=Math.min(Math.max(t,this.minZoom),this.maxZoom);this._zoom!==e&&(this._unmodified=!1,this._zoom=e,this.scale=this.zoomScale(e),this.tileZoom=Math.floor(e),this.zoomFraction=e-this.tileZoom,this._calcMatrices(),this._constrain())},get center(){return this._center},set center(t){t.lat===this._center.lat&&t.lng===this._center.lng||(this._unmodified=!1,this._center=t,this._calcMatrices(),this._constrain())},coveringZoomLevel:function(t){return(t.roundZoom?Math.round:Math.floor)(this.zoom+this.scaleZoom(this.tileSize/t.tileSize))},coveringTiles:function(t){var e=this.coveringZoomLevel(t),r=e;if(e<t.minzoom)return[];e>t.maxzoom&&(e=t.maxzoom);var n=this,i=n.locationCoordinate(n.center)._zoomTo(e),a=new o(i.column-.5,i.row-.5);return u.cover(e,[n.pointCoordinate(new o(0,0))._zoomTo(e),n.pointCoordinate(new o(n.width,0))._zoomTo(e),n.pointCoordinate(new o(n.width,n.height))._zoomTo(e),n.pointCoordinate(new o(0,n.height))._zoomTo(e)],t.reparseOverscaled?r:e).sort(function(t,e){return a.dist(t)-a.dist(e)})},resize:function(t,e){this.width=t,this.height=e,this.pixelsToGLUnits=[2/t,-2/e],this._calcMatrices(),this._constrain()},get unmodified(){return this._unmodified},zoomScale:function(t){return Math.pow(2,t)},scaleZoom:function(t){return Math.log(t)/Math.LN2},project:function(t,e){return new o(this.lngX(t.lng,e),this.latY(t.lat,e))},unproject:function(t,e){return new i(this.xLng(t.x,e),this.yLat(t.y,e))},get x(){return this.lngX(this.center.lng)},get y(){return this.latY(this.center.lat)},get point(){return new o(this.x,this.y)},lngX:function(t,e){return(180+t)*(e||this.worldSize)/360},latY:function(t,e){var r=180/Math.PI*Math.log(Math.tan(Math.PI/4+t*Math.PI/360));return(180-r)*(e||this.worldSize)/360},xLng:function(t,e){return 360*t/(e||this.worldSize)-180},yLat:function(t,e){var r=180-360*t/(e||this.worldSize);return 360/Math.PI*Math.atan(Math.exp(r*Math.PI/180))-90},panBy:function(t){var e=this.centerPoint._add(t);this.center=this.pointLocation(e)},setLocationAtPoint:function(t,e){var r=this.locationCoordinate(t),n=this.pointCoordinate(e),i=this.pointCoordinate(this.centerPoint),o=n._sub(r);this._unmodified=!1,this.center=this.coordinateLocation(i._sub(o))},locationPoint:function(t){return this.coordinatePoint(this.locationCoordinate(t))},pointLocation:function(t){return this.coordinateLocation(this.pointCoordinate(t))},locationCoordinate:function(t){var e=this.zoomScale(this.tileZoom)/this.worldSize,r=i.convert(t);return new a(this.lngX(r.lng)*e,this.latY(r.lat)*e,this.tileZoom)},coordinateLocation:function(t){var e=this.zoomScale(t.zoom);return new i(this.xLng(t.column,e),this.yLat(t.row,e))},pointCoordinate:function(t){var e=0,r=[t.x,t.y,0,1],n=[t.x,t.y,1,1];f.transformMat4(r,r,this.pixelMatrixInverse),f.transformMat4(n,n,this.pixelMatrixInverse);var i=r[3],o=n[3],s=r[0]/i,u=n[0]/o,c=r[1]/i,h=n[1]/o,p=r[2]/i,d=n[2]/o,m=p===d?0:(e-p)/(d-p),g=this.worldSize/this.zoomScale(this.tileZoom);return new a(l(s,u,m)/g,l(c,h,m)/g,this.tileZoom)},coordinatePoint:function(t){var e=this.worldSize/this.zoomScale(t.zoom),r=[t.column*e,t.row*e,0,1];return f.transformMat4(r,r,this.pixelMatrix),new o(r[0]/r[3],r[1]/r[3])},calculatePosMatrix:function(t,e){void 0===e&&(e=1/0),t instanceof u&&(t=t.toCoordinate(e));var r=Math.min(t.zoom,e),n=this.worldSize/Math.pow(2,r),i=new Float64Array(16);return p.identity(i),p.translate(i,i,[t.column*n,t.row*n,0]),p.scale(i,i,[n/c,n/c,1]),p.multiply(i,this.projMatrix,i),new Float32Array(i)},_constrain:function(){if(this.center&&this.width&&this.height&&!this._constraining){this._constraining=!0;var 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o,a,s,l,u,c,h,f,p=[];for(o=0,a=t.length;a>o;o++)if(u=n[t[o]]){for(f=null,s=0,l=u[1].length;l>s;s+=2)-1===u[1][s]&&-1===u[1][s+1]?f=null:(c=e+u[1][s]*i,h=r-u[1][s+1]*i,f&&p.push(f.x,f.y,c,h),f={x:c,y:h});e+=u[0]*i}return p}},{}],267:[function(t,e,r){"use strict";var n=e.exports={};n.version=t("../package.json").version,n.Map=t("./ui/map"),n.Control=t("./ui/control/control"),n.Navigation=t("./ui/control/navigation"),n.Geolocate=t("./ui/control/geolocate"),n.Attribution=t("./ui/control/attribution"),n.Popup=t("./ui/popup"),n.Marker=t("./ui/marker"),n.Style=t("./style/style"),n.LngLat=t("./geo/lng_lat"),n.LngLatBounds=t("./geo/lng_lat_bounds"),n.Point=t("point-geometry"),n.Evented=t("./util/evented"),n.util=t("./util/util"),n.supported=t("./util/browser").supported;var i=t("./util/ajax");n.util.getJSON=i.getJSON,n.util.getArrayBuffer=i.getArrayBuffer;var o=t("./util/config");n.config=o,Object.defineProperty(n,"accessToken",{get:function(){return o.ACCESS_TOKEN},set:function(t){o.ACCESS_TOKEN=t}})},{"../package.json":443,"./geo/lng_lat":263,"./geo/lng_lat_bounds":264,"./style/style":302,"./ui/control/attribution":333,"./ui/control/control":334,"./ui/control/geolocate":335,"./ui/control/navigation":336,"./ui/map":345,"./ui/marker":346,"./ui/popup":347,"./util/ajax":349,"./util/browser":350,"./util/config":355,"./util/evented":358,"./util/util":366,"point-geometry":424}],268:[function(t,e,r){"use strict";e.exports=function(t){for(var e={define:{},initialize:{}},r=0;r<t.length;r++){var n=t[r],i="{precision} "+(1===n.components?"float":"vec"+n.components);e.define[n.name.slice(2)]="uniform "+i+" "+n.name+";\n",e.initialize[n.name.slice(2)]=i+" "+n.name.slice(2)+" = "+n.name+";\n"}return e}},{}],269:[function(t,e,r){"use strict";function n(t,e,r){var n,s=t.gl,l=t.transform,u=r.paint["background-color"],c=r.paint["background-pattern"],h=r.paint["background-opacity"],f=c?t.spriteAtlas.getPosition(c.from,!0):null,p=c?t.spriteAtlas.getPosition(c.to,!0):null;if(t.setDepthSublayer(0),f&&p){if(t.isOpaquePass)return;n=t.useProgram("pattern"),s.uniform1i(n.u_image,0),s.uniform2fv(n.u_pattern_tl_a,f.tl),s.uniform2fv(n.u_pattern_br_a,f.br),s.uniform2fv(n.u_pattern_tl_b,p.tl),s.uniform2fv(n.u_pattern_br_b,p.br),s.uniform1f(n.u_opacity,h),s.uniform1f(n.u_mix,c.t),s.uniform2fv(n.u_pattern_size_a,f.size),s.uniform2fv(n.u_pattern_size_b,p.size),s.uniform1f(n.u_scale_a,c.fromScale),s.uniform1f(n.u_scale_b,c.toScale),s.activeTexture(s.TEXTURE0),t.spriteAtlas.bind(s,!0),t.tileExtentPatternVAO.bind(s,n,t.tileExtentBuffer)}else{if(t.isOpaquePass!==(1===u[3]))return;var d=o([{name:"u_color",components:4},{name:"u_opacity",components:1}]);n=t.useProgram("fill",[],d,d),s.uniform4fv(n.u_color,u),s.uniform1f(n.u_opacity,h),t.tileExtentVAO.bind(s,n,t.tileExtentBuffer)}s.disable(s.STENCIL_TEST);for(var m=l.coveringTiles({tileSize:a}),g=0;g<m.length;g++){var v=m[g];if(f&&p){var y={coord:v,tileSize:a};s.uniform1f(n.u_tile_units_to_pixels,1/i(y,1,t.transform.tileZoom));var b=y.tileSize*Math.pow(2,t.transform.tileZoom-y.coord.z),x=b*(y.coord.x+v.w*Math.pow(2,y.coord.z)),_=b*y.coord.y;s.uniform2f(n.u_pixel_coord_upper,x>>16,_>>16),s.uniform2f(n.u_pixel_coord_lower,65535&x,65535&_)}s.uniformMatrix4fv(n.u_matrix,!1,t.transform.calculatePosMatrix(v)),s.drawArrays(s.TRIANGLE_STRIP,0,t.tileExtentBuffer.length)}s.stencilMask(0),s.stencilFunc(s.EQUAL,128,128)}var i=t("../source/pixels_to_tile_units"),o=t("./create_uniform_pragmas"),a=512;e.exports=n},{"../source/pixels_to_tile_units":287,"./create_uniform_pragmas":268}],270:[function(t,e,r){"use strict";function n(t,e,r,n){if(!t.isOpaquePass){var o=t.gl;t.setDepthSublayer(0),t.depthMask(!1),o.disable(o.STENCIL_TEST);for(var a=0;a<n.length;a++){var s=n[a],l=e.getTile(s),u=l.getBucket(r);if(u){var c=u.bufferGroups.circle;if(c){var h=u.paintAttributes.circle[r.id],f=t.useProgram("circle",h.defines,h.vertexPragmas,h.fragmentPragmas);"map"===r.paint["circle-pitch-scale"]?(o.uniform1i(f.u_scale_with_map,!0),o.uniform2f(f.u_extrude_scale,t.transform.pixelsToGLUnits[0]*t.transform.altitude,t.transform.pixelsToGLUnits[1]*t.transform.altitude)):(o.uniform1i(f.u_scale_with_map,!1),o.uniform2fv(f.u_extrude_scale,t.transform.pixelsToGLUnits)),o.uniform1f(f.u_devicepixelratio,i.devicePixelRatio),o.uniformMatrix4fv(f.u_matrix,!1,t.translatePosMatrix(s.posMatrix,l,r.paint["circle-translate"],r.paint["circle-translate-anchor"])),u.setUniforms(o,"circle",f,r,{zoom:t.transform.zoom});for(var p=0;p<c.length;p++){var d=c[p];d.vaos[r.id].bind(o,f,d.layoutVertexBuffer,d.elementBuffer,d.paintVertexBuffers[r.id]),o.drawElements(o.TRIANGLES,3*d.elementBuffer.length,o.UNSIGNED_SHORT,0)}}}}}}var i=t("../util/browser");e.exports=n},{"../util/browser":350}],271:[function(t,e,r){"use strict";function n(t,e,r,n){var i=t.gl;i.enable(i.STENCIL_TEST);for(var o=t.useProgram("collisionbox"),a=0;a<n.length;a++){var s=n[a],l=e.getTile(s),u=l.getBucket(r);if(u){var c=u.bufferGroups.collisionBox;if(c&&c.length){var h=c[0];0!==h.layoutVertexBuffer.length&&(i.uniformMatrix4fv(o.u_matrix,!1,s.posMatrix),t.enableTileClippingMask(s),t.lineWidth(1),i.uniform1f(o.u_scale,Math.pow(2,t.transform.zoom-l.coord.z)),i.uniform1f(o.u_zoom,10*t.transform.zoom),i.uniform1f(o.u_maxzoom,10*(l.coord.z+1)),h.vaos[r.id].bind(i,o,h.layoutVertexBuffer),i.drawArrays(i.LINES,0,h.layoutVertexBuffer.length))}}}}e.exports=n},{}],272:[function(t,e,r){"use strict";function n(t,e,r){if(!t.isOpaquePass&&t.options.debug)for(var n=0;n<r.length;n++)i(t,e,r[n])}function i(t,e,r){var n=t.gl;n.disable(n.STENCIL_TEST),t.lineWidth(1*a.devicePixelRatio);var i=r.posMatrix,h=t.useProgram("debug");n.uniformMatrix4fv(h.u_matrix,!1,i),n.uniform4f(h.u_color,1,0,0,1),t.debugVAO.bind(n,h,t.debugBuffer),n.drawArrays(n.LINE_STRIP,0,t.debugBuffer.length);for(var f=o(r.toString(),50,200,5),p=new t.PosArray,d=0;d<f.length;d+=2)p.emplaceBack(f[d],f[d+1]);var m=new u(p.serialize(),t.PosArray.serialize(),u.BufferType.VERTEX),g=new c;g.bind(n,h,m),n.uniform4f(h.u_color,1,1,1,1);for(var v=e.getTile(r).tileSize,y=l/(Math.pow(2,t.transform.zoom-r.z)*v),b=[[-1,-1],[-1,1],[1,-1],[1,1]],x=0;x<b.length;x++){var _=b[x];n.uniformMatrix4fv(h.u_matrix,!1,s.translate([],i,[y*_[0],y*_[1],0])),n.drawArrays(n.LINES,0,m.length)}n.uniform4f(h.u_color,0,0,0,1),n.uniformMatrix4fv(h.u_matrix,!1,i),n.drawArrays(n.LINES,0,m.length)}var o=t("../lib/debugtext"),a=t("../util/browser"),s=t("gl-matrix").mat4,l=t("../data/bucket").EXTENT,u=t("../data/buffer"),c=t("./vertex_array_object");e.exports=n},{"../data/bucket":253,"../data/buffer":258,"../lib/debugtext":266,"../util/browser":350,"./vertex_array_object":281,"gl-matrix":382}],273:[function(t,e,r){"use strict";function n(t,e,r,n){var a=t.gl;a.enable(a.STENCIL_TEST);var s;if(s=r.paint["fill-pattern"]?!1:r.isPaintValueFeatureConstant("fill-color")&&r.isPaintValueFeatureConstant("fill-opacity")&&1===r.paint["fill-color"][3]&&1===r.paint["fill-opacity"],t.isOpaquePass===s){t.setDepthSublayer(1);for(var l=0;l<n.length;l++)i(t,e,r,n[l])}if(!t.isOpaquePass&&r.paint["fill-antialias"]){t.lineWidth(2),t.depthMask(!1);var u=r.getPaintProperty("fill-outline-color");(u||!r.paint["fill-pattern"])&&u?t.setDepthSublayer(2):t.setDepthSublayer(0);for(var c=0;c<n.length;c++)o(t,e,r,n[c])}}function i(t,e,r,n){var i=e.getTile(n),o=i.getBucket(r);if(o){var s=o.bufferGroups.fill;if(s){var l,u=t.gl,c=r.paint["fill-pattern"];if(c)l=t.useProgram("pattern"),a(c,r.paint["fill-opacity"],i,n,t,l),u.activeTexture(u.TEXTURE0),t.spriteAtlas.bind(u,!0);else{var h=o.paintAttributes.fill[r.id];l=t.useProgram("fill",h.defines,h.vertexPragmas,h.fragmentPragmas),o.setUniforms(u,"fill",l,r,{zoom:t.transform.zoom})}u.uniformMatrix4fv(l.u_matrix,!1,t.translatePosMatrix(n.posMatrix,i,r.paint["fill-translate"],r.paint["fill-translate-anchor"])),t.enableTileClippingMask(n);for(var f=0;f<s.length;f++){var p=s[f];p.vaos[r.id].bind(u,l,p.layoutVertexBuffer,p.elementBuffer,p.paintVertexBuffers[r.id]),u.drawElements(u.TRIANGLES,p.elementBuffer.length,u.UNSIGNED_SHORT,0)}}}}function o(t,e,r,n){var i=e.getTile(n),o=i.getBucket(r);if(o){var s,l=t.gl,u=o.bufferGroups.fill,c=r.paint["fill-pattern"],h=r.paint["fill-opacity"],f=r.getPaintProperty("fill-outline-color");if(c&&!f)s=t.useProgram("outlinepattern"),l.uniform2f(s.u_world,l.drawingBufferWidth,l.drawingBufferHeight);else{var p=o.paintAttributes.fill[r.id];s=t.useProgram("outline",p.defines,p.vertexPragmas,p.fragmentPragmas),l.uniform2f(s.u_world,l.drawingBufferWidth,l.drawingBufferHeight),l.uniform1f(s.u_opacity,h),o.setUniforms(l,"fill",s,r,{zoom:t.transform.zoom})}l.uniformMatrix4fv(s.u_matrix,!1,t.translatePosMatrix(n.posMatrix,i,r.paint["fill-translate"],r.paint["fill-translate-anchor"])),c&&a(c,h,i,n,t,s),t.enableTileClippingMask(n);for(var d=0;d<u.length;d++){var m=u[d];m.secondVaos[r.id].bind(l,s,m.layoutVertexBuffer,m.elementBuffer2,m.paintVertexBuffers[r.id]),l.drawElements(l.LINES,2*m.elementBuffer2.length,l.UNSIGNED_SHORT,0)}}}function a(t,e,r,n,i,o){var a=i.gl,l=i.spriteAtlas.getPosition(t.from,!0),u=i.spriteAtlas.getPosition(t.to,!0);if(l&&u){a.uniform1i(o.u_image,0),a.uniform2fv(o.u_pattern_tl_a,l.tl),a.uniform2fv(o.u_pattern_br_a,l.br),a.uniform2fv(o.u_pattern_tl_b,u.tl),a.uniform2fv(o.u_pattern_br_b,u.br),a.uniform1f(o.u_opacity,e),a.uniform1f(o.u_mix,t.t),a.uniform1f(o.u_tile_units_to_pixels,1/s(r,1,i.transform.tileZoom)),a.uniform2fv(o.u_pattern_size_a,l.size),a.uniform2fv(o.u_pattern_size_b,u.size),a.uniform1f(o.u_scale_a,t.fromScale),a.uniform1f(o.u_scale_b,t.toScale);var c=r.tileSize*Math.pow(2,i.transform.tileZoom-r.coord.z),h=c*(r.coord.x+n.w*Math.pow(2,r.coord.z)),f=c*r.coord.y;a.uniform2f(o.u_pixel_coord_upper,h>>16,f>>16),a.uniform2f(o.u_pixel_coord_lower,65535&h,65535&f),a.activeTexture(a.TEXTURE0),i.spriteAtlas.bind(a,!0)}}var s=t("../source/pixels_to_tile_units");e.exports=n},{"../source/pixels_to_tile_units":287}],274:[function(t,e,r){"use strict";var n=t("../util/browser"),i=t("gl-matrix").mat2,o=t("../source/pixels_to_tile_units");e.exports=function(t,e,r,a){if(!t.isOpaquePass){t.setDepthSublayer(0),t.depthMask(!1);var s=t.gl;if(s.enable(s.STENCIL_TEST),!(r.paint["line-width"]<=0)){var l=1/n.devicePixelRatio,u=r.paint["line-blur"]+l,c=r.paint["line-color"],h=t.transform,f=i.create();i.scale(f,f,[1,Math.cos(h._pitch)]),i.rotate(f,f,t.transform.angle);var p,d,m,g,v,y=Math.sqrt(h.height*h.height/4*(1+h.altitude*h.altitude)),b=h.height/2*Math.tan(h._pitch),x=(y+b)/y-1,_=r.paint["line-dasharray"],w=r.paint["line-pattern"];if(_)p=t.useProgram("linesdfpattern"),s.uniform1f(p.u_linewidth,r.paint["line-width"]/2),s.uniform1f(p.u_gapwidth,r.paint["line-gap-width"]/2),s.uniform1f(p.u_antialiasing,l/2),s.uniform1f(p.u_blur,u),s.uniform4fv(p.u_color,c),s.uniform1f(p.u_opacity,r.paint["line-opacity"]),d=t.lineAtlas.getDash(_.from,"round"===r.layout["line-cap"]),m=t.lineAtlas.getDash(_.to,"round"===r.layout["line-cap"]),s.uniform1i(p.u_image,0),s.activeTexture(s.TEXTURE0),t.lineAtlas.bind(s),s.uniform1f(p.u_tex_y_a,d.y),s.uniform1f(p.u_tex_y_b,m.y),s.uniform1f(p.u_mix,_.t),s.uniform1f(p.u_extra,x),s.uniform1f(p.u_offset,-r.paint["line-offset"]),s.uniformMatrix2fv(p.u_antialiasingmatrix,!1,f);else if(w){if(g=t.spriteAtlas.getPosition(w.from,!0),v=t.spriteAtlas.getPosition(w.to,!0),!g||!v)return;p=t.useProgram("linepattern"),s.uniform1i(p.u_image,0),s.activeTexture(s.TEXTURE0),t.spriteAtlas.bind(s,!0),s.uniform1f(p.u_linewidth,r.paint["line-width"]/2),s.uniform1f(p.u_gapwidth,r.paint["line-gap-width"]/2),s.uniform1f(p.u_antialiasing,l/2),s.uniform1f(p.u_blur,u),s.uniform2fv(p.u_pattern_tl_a,g.tl),s.uniform2fv(p.u_pattern_br_a,g.br),s.uniform2fv(p.u_pattern_tl_b,v.tl),s.uniform2fv(p.u_pattern_br_b,v.br),s.uniform1f(p.u_fade,w.t),s.uniform1f(p.u_opacity,r.paint["line-opacity"]),s.uniform1f(p.u_extra,x),s.uniform1f(p.u_offset,-r.paint["line-offset"]),s.uniformMatrix2fv(p.u_antialiasingmatrix,!1,f)}else p=t.useProgram("line"),s.uniform1f(p.u_linewidth,r.paint["line-width"]/2),s.uniform1f(p.u_gapwidth,r.paint["line-gap-width"]/2),s.uniform1f(p.u_antialiasing,l/2),s.uniform1f(p.u_blur,u),s.uniform1f(p.u_extra,x),s.uniform1f(p.u_offset,-r.paint["line-offset"]),s.uniformMatrix2fv(p.u_antialiasingmatrix,!1,f),s.uniform4fv(p.u_color,c),s.uniform1f(p.u_opacity,r.paint["line-opacity"]);for(var M=0;M<a.length;M++){var k=a[M],A=e.getTile(k),T=A.getBucket(r);if(T){var E=T.bufferGroups.line;if(E){t.enableTileClippingMask(k);var S=t.translatePosMatrix(k.posMatrix,A,r.paint["line-translate"],r.paint["line-translate-anchor"]);s.uniformMatrix4fv(p.u_matrix,!1,S);var L=1/o(A,1,t.transform.zoom);if(_){var z=d.width*_.fromScale,I=m.width*_.toScale,P=[1/o(A,z,t.transform.tileZoom),-d.height/2],C=[1/o(A,I,t.transform.tileZoom),-m.height/2],R=t.lineAtlas.width/(256*Math.min(z,I)*n.devicePixelRatio)/2;s.uniform1f(p.u_ratio,L),s.uniform2fv(p.u_patternscale_a,P),s.uniform2fv(p.u_patternscale_b,C),s.uniform1f(p.u_sdfgamma,R)}else w?(s.uniform1f(p.u_ratio,L),s.uniform2fv(p.u_pattern_size_a,[o(A,g.size[0]*w.fromScale,t.transform.tileZoom),v.size[1]]),s.uniform2fv(p.u_pattern_size_b,[o(A,v.size[0]*w.toScale,t.transform.tileZoom),v.size[1]])):s.uniform1f(p.u_ratio,L);for(var j=0;j<E.length;j++){var D=E[j];D.vaos[r.id].bind(s,p,D.layoutVertexBuffer,D.elementBuffer),s.drawElements(s.TRIANGLES,3*D.elementBuffer.length,s.UNSIGNED_SHORT,0)}}}}}}}},{"../source/pixels_to_tile_units":287,"../util/browser":350,"gl-matrix":382}],275:[function(t,e,r){"use strict";function n(t,e,r,n){if(!t.isOpaquePass){var o=t.gl;o.enable(o.DEPTH_TEST),t.depthMask(!0),o.depthFunc(o.LESS);for(var a=n.length&&n[0].z,s=0;s<n.length;s++){var l=n[s];t.setDepthSublayer(l.z-a),i(t,e,r,l)}o.depthFunc(o.LEQUAL)}}function i(t,e,r,n){var i=t.gl;i.disable(i.STENCIL_TEST);var u=e.getTile(n),c=t.transform.calculatePosMatrix(n,e.maxzoom),h=t.useProgram("raster");i.uniformMatrix4fv(h.u_matrix,!1,c),i.uniform1f(h.u_brightness_low,r.paint["raster-brightness-min"]),i.uniform1f(h.u_brightness_high,r.paint["raster-brightness-max"]),i.uniform1f(h.u_saturation_factor,s(r.paint["raster-saturation"])),i.uniform1f(h.u_contrast_factor,a(r.paint["raster-contrast"])),i.uniform3fv(h.u_spin_weights,o(r.paint["raster-hue-rotate"]));var f,p,d=u.source&&u.source.findLoadedParent(n,0,{}),m=l(u,d,r,t.transform);i.activeTexture(i.TEXTURE0),i.bindTexture(i.TEXTURE_2D,u.texture),i.activeTexture(i.TEXTURE1),d?(i.bindTexture(i.TEXTURE_2D,d.texture),f=Math.pow(2,d.coord.z-u.coord.z),p=[u.coord.x*f%1,u.coord.y*f%1]):(i.bindTexture(i.TEXTURE_2D,u.texture),m[1]=0),i.uniform2fv(h.u_tl_parent,p||[0,0]),i.uniform1f(h.u_scale_parent,f||1),i.uniform1f(h.u_buffer_scale,1),i.uniform1f(h.u_opacity0,m[0]),i.uniform1f(h.u_opacity1,m[1]),i.uniform1i(h.u_image0,0),i.uniform1i(h.u_image1,1);var g=u.boundsBuffer||t.rasterBoundsBuffer,v=u.boundsVAO||t.rasterBoundsVAO;v.bind(i,h,g),i.drawArrays(i.TRIANGLE_STRIP,0,g.length)}function o(t){t*=Math.PI/180;var e=Math.sin(t),r=Math.cos(t);return[(2*r+1)/3,(-Math.sqrt(3)*e-r+1)/3,(Math.sqrt(3)*e-r+1)/3]}function a(t){return t>0?1/(1-t):1+t}function s(t){return t>0?1-1/(1.001-t):-t}function l(t,e,r,n){var i=[1,0],o=r.paint["raster-fade-duration"];if(t.source&&o>0){var a=(new Date).getTime(),s=(a-t.timeAdded)/o,l=e?(a-e.timeAdded)/o:-1,c=n.coveringZoomLevel(t.source),h=e?Math.abs(e.coord.z-c)>Math.abs(t.coord.z-c):!1;!e||h?(i[0]=u.clamp(s,0,1),i[1]=1-i[0]):(i[0]=u.clamp(1-l,0,1),i[1]=1-i[0])}var f=r.paint["raster-opacity"];return i[0]*=f,i[1]*=f,i}var u=t("../util/util"),c=t("../util/struct_array");e.exports=n,n.RasterBoundsArray=new c({members:[{name:"a_pos",type:"Int16",components:2},{name:"a_texture_pos",type:"Int16",components:2}]})},{"../util/struct_array":364,"../util/util":366}],276:[function(t,e,r){"use strict";function n(t,e,r,n){if(!t.isOpaquePass){var o=!(r.layout["text-allow-overlap"]||r.layout["icon-allow-overlap"]||r.layout["text-ignore-placement"]||r.layout["icon-ignore-placement"]),a=t.gl;o?a.disable(a.STENCIL_TEST):a.enable(a.STENCIL_TEST),t.setDepthSublayer(0),t.depthMask(!1),a.disable(a.DEPTH_TEST),i(t,e,r,n,!1,r.paint["icon-translate"],r.paint["icon-translate-anchor"],r.layout["icon-rotation-alignment"],r.layout["icon-rotation-alignment"],r.layout["icon-size"],r.paint["icon-halo-width"],r.paint["icon-halo-color"],r.paint["icon-halo-blur"],r.paint["icon-opacity"],r.paint["icon-color"]),i(t,e,r,n,!0,r.paint["text-translate"],r.paint["text-translate-anchor"],r.layout["text-rotation-alignment"],r.layout["text-pitch-alignment"],r.layout["text-size"],r.paint["text-halo-width"],r.paint["text-halo-color"],r.paint["text-halo-blur"],r.paint["text-opacity"],r.paint["text-color"]),a.enable(a.DEPTH_TEST),e.map.showCollisionBoxes&&s(t,e,r,n)}}function i(t,e,r,n,i,a,s,l,u,c,h,f,p,d,m){for(var g=0;g<n.length;g++){var v=e.getTile(n[g]),y=v.getBucket(r);if(y){var b=y.bufferGroups,x=i?b.glyph:b.icon;x.length&&(t.enableTileClippingMask(n[g]),o(t,r,n[g].posMatrix,v,y,x,i,i||y.sdfIcons,!i&&y.iconsNeedLinear,i?y.adjustedTextSize:y.adjustedIconSize,y.fontstack,a,s,l,u,c,h,f,p,d,m))}}}function o(t,e,r,n,i,o,s,u,c,h,f,p,d,m,g,v,y,b,x,_,w){var M,k,A,T=t.gl,E=t.transform,S="map"===m,L="map"===g,z=s?24:1,I=v/z;if(L?(k=l(n,1,t.transform.zoom)*I,A=1/Math.cos(E._pitch),M=[k,k]):(k=t.transform.altitude*I,A=1,M=[E.pixelsToGLUnits[0]*k,E.pixelsToGLUnits[1]*k]),s||t.style.sprite.loaded()){var P=t.useProgram(u?"sdf":"icon");if(T.uniformMatrix4fv(P.u_matrix,!1,t.translatePosMatrix(r,n,p,d)),T.uniform1i(P.u_rotate_with_map,S),T.uniform1i(P.u_pitch_with_map,L),T.uniform2fv(P.u_extrude_scale,M),T.activeTexture(T.TEXTURE0),T.uniform1i(P.u_texture,0),s){var C=f&&t.glyphSource.getGlyphAtlas(f);if(!C)return;C.updateTexture(T),T.uniform2f(P.u_texsize,C.width/4,C.height/4)}else{var R=t.options.rotating||t.options.zooming,j=1!==I||a.devicePixelRatio!==t.spriteAtlas.pixelRatio||c,D=L||t.transform.pitch;t.spriteAtlas.bind(T,u||R||j||D),T.uniform2f(P.u_texsize,t.spriteAtlas.width/4,t.spriteAtlas.height/4)}var O=Math.log(v/h)/Math.LN2||0;T.uniform1f(P.u_zoom,10*(t.transform.zoom-O)),T.activeTexture(T.TEXTURE1),t.frameHistory.bind(T),T.uniform1i(P.u_fadetexture,1);var F;if(u){var N=8,B=1.19,U=6,V=.105*z/v/a.devicePixelRatio;if(y){T.uniform1f(P.u_gamma,(x*B/I/N+V)*A),T.uniform4fv(P.u_color,b),T.uniform1f(P.u_opacity,_),T.uniform1f(P.u_buffer,(U-y/I)/N);for(var q=0;q<o.length;q++)F=o[q],F.vaos[e.id].bind(T,P,F.layoutVertexBuffer,F.elementBuffer),T.drawElements(T.TRIANGLES,3*F.elementBuffer.length,T.UNSIGNED_SHORT,0)}T.uniform1f(P.u_gamma,V*A),T.uniform4fv(P.u_color,w),T.uniform1f(P.u_opacity,_),T.uniform1f(P.u_buffer,.75),T.uniform1f(P.u_pitch,E.pitch/360*2*Math.PI),T.uniform1f(P.u_bearing,E.bearing/360*2*Math.PI),T.uniform1f(P.u_aspect_ratio,E.width/E.height);for(var G=0;G<o.length;G++)F=o[G],F.vaos[e.id].bind(T,P,F.layoutVertexBuffer,F.elementBuffer),T.drawElements(T.TRIANGLES,3*F.elementBuffer.length,T.UNSIGNED_SHORT,0)}else{T.uniform1f(P.u_opacity,_);for(var H=0;H<o.length;H++)F=o[H],F.vaos[e.id].bind(T,P,F.layoutVertexBuffer,F.elementBuffer),T.drawElements(T.TRIANGLES,3*F.elementBuffer.length,T.UNSIGNED_SHORT,0)}}}var a=t("../util/browser"),s=t("./draw_collision_debug"),l=t("../source/pixels_to_tile_units");e.exports=n},{"../source/pixels_to_tile_units":287,"../util/browser":350,"./draw_collision_debug":271}],277:[function(t,e,r){"use strict";function n(){this.changeTimes=new Float64Array(256),this.changeOpacities=new Uint8Array(256),this.opacities=new Uint8ClampedArray(256),this.array=new Uint8Array(this.opacities.buffer),this.fadeDuration=300,this.previousZoom=0,this.firstFrame=!0}e.exports=n,n.prototype.record=function(t){var e=Date.now();this.firstFrame&&(e=0,this.firstFrame=!1),t=Math.floor(10*t);var r;if(t<this.previousZoom)for(r=t+1;r<=this.previousZoom;r++)this.changeTimes[r]=e,this.changeOpacities[r]=this.opacities[r];else for(r=t;r>this.previousZoom;r--)this.changeTimes[r]=e,this.changeOpacities[r]=this.opacities[r];for(r=0;256>r;r++){var n=e-this.changeTimes[r],i=n/this.fadeDuration*255;t>=r?this.opacities[r]=this.changeOpacities[r]+i:this.opacities[r]=this.changeOpacities[r]-i}this.changed=!0,this.previousZoom=t},n.prototype.bind=function(t){this.texture?(t.bindTexture(t.TEXTURE_2D,this.texture),this.changed&&(t.texSubImage2D(t.TEXTURE_2D,0,0,0,256,1,t.ALPHA,t.UNSIGNED_BYTE,this.array),this.changed=!1)):(this.texture=t.createTexture(),t.bindTexture(t.TEXTURE_2D,this.texture),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_WRAP_S,t.CLAMP_TO_EDGE),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_WRAP_T,t.CLAMP_TO_EDGE),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_MIN_FILTER,t.NEAREST),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_MAG_FILTER,t.NEAREST),t.texImage2D(t.TEXTURE_2D,0,t.ALPHA,256,1,0,t.ALPHA,t.UNSIGNED_BYTE,this.array))}},{}],278:[function(t,e,r){"use strict";function n(t,e){this.width=t,this.height=e,this.nextRow=0,this.bytes=4,this.data=new Uint8Array(this.width*this.height*this.bytes),this.positions={}}var i=t("../util/util");e.exports=n,n.prototype.setSprite=function(t){this.sprite=t},n.prototype.getDash=function(t,e){var r=t.join(",")+e;return this.positions[r]||(this.positions[r]=this.addDash(t,e)),this.positions[r]},n.prototype.addDash=function(t,e){var r=e?7:0,n=2*r+1,o=128;if(this.nextRow+n>this.height)return i.warnOnce("LineAtlas out of space"),null;for(var a=0,s=0;s<t.length;s++)a+=t[s];for(var l=this.width/a,u=l/2,c=t.length%2===1,h=-r;r>=h;h++)for(var f=this.nextRow+r+h,p=this.width*f,d=c?-t[t.length-1]:0,m=t[0],g=1,v=0;v<this.width;v++){for(;v/l>m;)d=m,m+=t[g],c&&g===t.length-1&&(m+=t[0]),g++;var y,b=Math.abs(v-d*l),x=Math.abs(v-m*l),_=Math.min(b,x),w=g%2===1;if(e){var M=r?h/r*(u+1):0;if(w){var k=u-Math.abs(M);y=Math.sqrt(_*_+k*k)}else y=u-Math.sqrt(_*_+M*M)}else y=(w?1:-1)*_;this.data[3+4*(p+v)]=Math.max(0,Math.min(255,y+o))}var A={y:(this.nextRow+r+.5)/this.height,height:2*r/this.height,width:a};return this.nextRow+=n,this.dirty=!0,A},n.prototype.bind=function(t){this.texture?(t.bindTexture(t.TEXTURE_2D,this.texture),this.dirty&&(this.dirty=!1,t.texSubImage2D(t.TEXTURE_2D,0,0,0,this.width,this.height,t.RGBA,t.UNSIGNED_BYTE,this.data))):(this.texture=t.createTexture(),t.bindTexture(t.TEXTURE_2D,this.texture),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_WRAP_S,t.REPEAT),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_WRAP_T,t.REPEAT),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_MIN_FILTER,t.LINEAR),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_MAG_FILTER,t.LINEAR),t.texImage2D(t.TEXTURE_2D,0,t.RGBA,this.width,this.height,0,t.RGBA,t.UNSIGNED_BYTE,this.data))}},{"../util/util":366}],279:[function(t,e,r){"use strict";function n(t,e){this.gl=t,this.transform=e,this.reusableTextures={},this.preFbos={},this.frameHistory=new a,this.setup(),this.numSublayers=s.maxUnderzooming+s.maxOverzooming+1,this.depthEpsilon=1/Math.pow(2,16),this.lineWidthRange=t.getParameter(t.ALIASED_LINE_WIDTH_RANGE)}var i=t("../util/browser"),o=t("gl-matrix").mat4,a=t("./frame_history"),s=t("../source/source_cache"),l=t("../data/bucket").EXTENT,u=t("../source/pixels_to_tile_units"),c=t("../util/util"),h=t("../util/struct_array"),f=t("../data/buffer"),p=t("./vertex_array_object"),d=t("./draw_raster").RasterBoundsArray,m=t("./create_uniform_pragmas");e.exports=n,c.extend(n.prototype,t("./painter/use_program")),n.prototype.resize=function(t,e){var r=this.gl;this.width=t*i.devicePixelRatio,this.height=e*i.devicePixelRatio,r.viewport(0,0,this.width,this.height)},n.prototype.setup=function(){var t=this.gl;t.verbose=!0,t.enable(t.BLEND),t.blendFunc(t.ONE,t.ONE_MINUS_SRC_ALPHA),t.enable(t.STENCIL_TEST),t.enable(t.DEPTH_TEST),t.depthFunc(t.LEQUAL),this._depthMask=!1,t.depthMask(!1);var e=this.PosArray=new h({members:[{name:"a_pos",type:"Int16",components:2}]}),r=new e;r.emplaceBack(0,0),r.emplaceBack(l,0),r.emplaceBack(0,l),r.emplaceBack(l,l),this.tileExtentBuffer=new f(r.serialize(),e.serialize(),f.BufferType.VERTEX),this.tileExtentVAO=new p,this.tileExtentPatternVAO=new p;var n=new e;n.emplaceBack(0,0),n.emplaceBack(l,0),n.emplaceBack(l,l),n.emplaceBack(0,l),n.emplaceBack(0,0),this.debugBuffer=new f(n.serialize(),e.serialize(),f.BufferType.VERTEX),this.debugVAO=new p;var i=new d;i.emplaceBack(0,0,0,0),i.emplaceBack(l,0,32767,0),i.emplaceBack(0,l,0,32767),i.emplaceBack(l,l,32767,32767),this.rasterBoundsBuffer=new f(i.serialize(),d.serialize(),f.BufferType.VERTEX),this.rasterBoundsVAO=new p},n.prototype.clearColor=function(){var t=this.gl;t.clearColor(0,0,0,0),t.clear(t.COLOR_BUFFER_BIT)},n.prototype.clearStencil=function(){var t=this.gl;t.clearStencil(0),t.stencilMask(255),t.clear(t.STENCIL_BUFFER_BIT)},n.prototype.clearDepth=function(){var t=this.gl;t.clearDepth(1),this.depthMask(!0),t.clear(t.DEPTH_BUFFER_BIT)},n.prototype._renderTileClippingMasks=function(t){var e=this.gl;e.colorMask(!1,!1,!1,!1),this.depthMask(!1),e.disable(e.DEPTH_TEST),e.enable(e.STENCIL_TEST),e.stencilMask(248),e.stencilOp(e.KEEP,e.KEEP,e.REPLACE);var r=1;this._tileClippingMaskIDs={};for(var n=0;n<t.length;n++){var i=t[n],o=this._tileClippingMaskIDs[i.id]=r++<<3;e.stencilFunc(e.ALWAYS,o,248);var a=m([{name:"u_color",components:4},{name:"u_opacity",components:1}]),s=this.useProgram("fill",[],a,a);e.uniformMatrix4fv(s.u_matrix,!1,i.posMatrix),this.tileExtentVAO.bind(e,s,this.tileExtentBuffer),e.drawArrays(e.TRIANGLE_STRIP,0,this.tileExtentBuffer.length)}e.stencilMask(0),e.colorMask(!0,!0,!0,!0),this.depthMask(!0),e.enable(e.DEPTH_TEST)},n.prototype.enableTileClippingMask=function(t){var e=this.gl;e.stencilFunc(e.EQUAL,this._tileClippingMaskIDs[t.id],248)},n.prototype.prepareBuffers=function(){},n.prototype.bindDefaultFramebuffer=function(){var t=this.gl;t.bindFramebuffer(t.FRAMEBUFFER,null)};var g={symbol:t("./draw_symbol"),circle:t("./draw_circle"),line:t("./draw_line"),fill:t("./draw_fill"),raster:t("./draw_raster"),background:t("./draw_background"),debug:t("./draw_debug")};n.prototype.render=function(t,e){this.style=t,this.options=e,this.lineAtlas=t.lineAtlas,this.spriteAtlas=t.spriteAtlas,this.spriteAtlas.setSprite(t.sprite),this.glyphSource=t.glyphSource,this.frameHistory.record(this.transform.zoom),this.prepareBuffers(),this.clearColor(),this.clearDepth(),this.showOverdrawInspector(e.showOverdrawInspector),this.depthRange=(t._order.length+2)*this.numSublayers*this.depthEpsilon,this.renderPass({isOpaquePass:!0}),this.renderPass({isOpaquePass:!1})},n.prototype.renderPass=function(t){var e=this.style._groups,r=t.isOpaquePass;this.currentLayer=r?this.style._order.length:-1;for(var n=0;n<e.length;n++){var i,o=e[r?e.length-1-n:n],a=this.style.sources[o.source],s=[];if(a){for(s=a.getVisibleCoordinates(),i=0;i<s.length;i++)s[i].posMatrix=this.transform.calculatePosMatrix(s[i],a.maxzoom);this.clearStencil(),a.prepare&&a.prepare(),a.isTileClipped&&this._renderTileClippingMasks(s)}for(r?(this._showOverdrawInspector||this.gl.disable(this.gl.BLEND),this.isOpaquePass=!0):(this.gl.enable(this.gl.BLEND),this.isOpaquePass=!1,s.reverse()),i=0;i<o.length;i++){var l=o[r?o.length-1-i:i];this.currentLayer+=r?-1:1,this.renderLayer(this,a,l,s)}a&&g.debug(this,a,s)}},n.prototype.depthMask=function(t){t!==this._depthMask&&(this._depthMask=t,this.gl.depthMask(t))},n.prototype.renderLayer=function(t,e,r,n){r.isHidden(this.transform.zoom)||("background"===r.type||n.length)&&(this.id=r.id,g[r.type](t,e,r,n))},n.prototype.setDepthSublayer=function(t){var e=1-((1+this.currentLayer)*this.numSublayers+t)*this.depthEpsilon,r=e-1+this.depthRange;this.gl.depthRange(r,e)},n.prototype.translatePosMatrix=function(t,e,r,n){if(!r[0]&&!r[1])return t;if("viewport"===n){var i=Math.sin(-this.transform.angle),a=Math.cos(-this.transform.angle);r=[r[0]*a-r[1]*i,r[0]*i+r[1]*a]}var s=[u(e,r[0],this.transform.zoom),u(e,r[1],this.transform.zoom),0],l=new Float32Array(16);return o.translate(l,t,s),l},n.prototype.saveTexture=function(t){var e=this.reusableTextures[t.size];e?e.push(t):this.reusableTextures[t.size]=[t]},n.prototype.getTexture=function(t){var e=this.reusableTextures[t];return e&&e.length>0?e.pop():null},n.prototype.lineWidth=function(t){this.gl.lineWidth(c.clamp(t,this.lineWidthRange[0],this.lineWidthRange[1]))},n.prototype.showOverdrawInspector=function(t){if(t||this._showOverdrawInspector){this._showOverdrawInspector=t;var e=this.gl;if(t){e.blendFunc(e.CONSTANT_COLOR,e.ONE);var r=8,n=1/r;e.blendColor(n,n,n,0),e.clearColor(0,0,0,1),e.clear(e.COLOR_BUFFER_BIT)}else e.blendFunc(e.ONE,e.ONE_MINUS_SRC_ALPHA)}}},{"../data/bucket":253,"../data/buffer":258,"../source/pixels_to_tile_units":287,"../source/source_cache":291,"../util/browser":350,"../util/struct_array":364,"../util/util":366,"./create_uniform_pragmas":268,"./draw_background":269,"./draw_circle":270,"./draw_debug":272,"./draw_fill":273,"./draw_line":274,"./draw_raster":275,"./draw_symbol":276,"./frame_history":277,"./painter/use_program":280,"./vertex_array_object":281,"gl-matrix":382}],280:[function(t,e,r){"use strict";function n(t,e){return t.replace(/#pragma mapbox: ([\w]+) ([\w]+) ([\w]+) ([\w]+)/g,function(t,r,n,i,o){return e[r][o].replace(/{type}/g,i).replace(/{precision}/g,n)})}var i=t("../../util/util"),o=t("mapbox-gl-shaders"),a=o.util;e.exports._createProgram=function(t,e,r,s){for(var l=this.gl,u=l.createProgram(),c=o[t],h="#define MAPBOX_GL_JS;\n",f=0;f<e.length;f++)h+="#define "+e[f]+";\n";var p=l.createShader(l.FRAGMENT_SHADER);l.shaderSource(p,n(h+c.fragmentSource,s)),l.compileShader(p),l.attachShader(u,p);var d=l.createShader(l.VERTEX_SHADER);l.shaderSource(d,n(h+a+c.vertexSource,r)),l.compileShader(d),l.attachShader(u,d),l.linkProgram(u);for(var m={},g=l.getProgramParameter(u,l.ACTIVE_ATTRIBUTES),v=0;g>v;v++){var y=l.getActiveAttrib(u,v);m[y.name]=l.getAttribLocation(u,y.name)}for(var b={},x=l.getProgramParameter(u,l.ACTIVE_UNIFORMS),_=0;x>_;_++){
var w=l.getActiveUniform(u,_);b[w.name]=l.getUniformLocation(u,w.name)}return i.extend({program:u,definition:c,attributes:m,numAttributes:g},m,b)},e.exports._createProgramCached=function(t,e,r,n){this.cache=this.cache||{};var i=JSON.stringify({name:t,defines:e,vertexPragmas:r,fragmentPragmas:n});return this.cache[i]||(this.cache[i]=this._createProgram(t,e,r,n)),this.cache[i]},e.exports.useProgram=function(t,e,r,n){var i=this.gl;e=e||[],this._showOverdrawInspector&&(e=e.concat("OVERDRAW_INSPECTOR"));var o=this._createProgramCached(t,e,r,n),a=this.currentProgram;return a!==o&&(i.useProgram(o.program),this.currentProgram=o),o}},{"../../util/util":366,"mapbox-gl-shaders":394}],281:[function(t,e,r){"use strict";function n(){this.boundProgram=null,this.boundVertexBuffer=null,this.boundVertexBuffer2=null,this.boundElementBuffer=null,this.vao=null}e.exports=n,n.prototype.bind=function(t,e,r,n,i){void 0===t.extVertexArrayObject&&(t.extVertexArrayObject=t.getExtension("OES_vertex_array_object"));var o=!this.vao||this.boundProgram!==e||this.boundVertexBuffer!==r||this.boundVertexBuffer2!==i||this.boundElementBuffer!==n;!t.extVertexArrayObject||o?this.freshBind(t,e,r,n,i):t.extVertexArrayObject.bindVertexArrayOES(this.vao)},n.prototype.freshBind=function(t,e,r,n,i){var o,a=e.numAttributes;if(t.extVertexArrayObject)this.vao&&this.destroy(t),this.vao=t.extVertexArrayObject.createVertexArrayOES(),t.extVertexArrayObject.bindVertexArrayOES(this.vao),o=0,this.boundProgram=e,this.boundVertexBuffer=r,this.boundVertexBuffer2=i,this.boundElementBuffer=n;else{o=t.currentNumAttributes||0;for(var s=a;o>s;s++)t.disableVertexAttribArray(s)}for(var l=o;a>l;l++)t.enableVertexAttribArray(l);r.bind(t),r.setVertexAttribPointers(t,e),i&&(i.bind(t),i.setVertexAttribPointers(t,e)),n&&n.bind(t),t.currentNumAttributes=a},n.prototype.unbind=function(t){var e=t.extVertexArrayObject;e&&e.bindVertexArrayOES(null)},n.prototype.destroy=function(t){var e=t.extVertexArrayObject;e&&this.vao&&(e.deleteVertexArrayOES(this.vao),this.vao=null)}},{}],282:[function(t,e,r){"use strict";function n(t,e,r){e=e||{},this.id=t,this.dispatcher=r,this._data=e.data,void 0!==e.maxzoom&&(this.maxzoom=e.maxzoom),e.type&&(this.type=e.type);var n=s/this.tileSize;this.workerOptions=o.extend({source:this.id,cluster:e.cluster||!1,geojsonVtOptions:{buffer:(void 0!==e.buffer?e.buffer:128)*n,tolerance:(void 0!==e.tolerance?e.tolerance:.375)*n,extent:s,maxZoom:this.maxzoom},superclusterOptions:{maxZoom:Math.min(e.clusterMaxZoom,this.maxzoom-1)||this.maxzoom-1,extent:s,radius:(e.clusterRadius||50)*n,log:!1}},e.workerOptions),this._updateWorkerData(function(t){return t?void this.fire("error",{error:t}):void this.fire("load")}.bind(this))}var i=t("../util/evented"),o=t("../util/util"),a=t("resolve-url"),s=t("../data/bucket").EXTENT;e.exports=n,n.prototype=o.inherit(i,{type:"geojson",minzoom:0,maxzoom:18,tileSize:512,isTileClipped:!0,reparseOverscaled:!0,onAdd:function(t){this.map=t},setData:function(t){return this._data=t,this._updateWorkerData(function(t){return t?this.fire("error",{error:t}):void this.fire("change")}.bind(this)),this},_updateWorkerData:function(t){var e=o.extend({},this.workerOptions),r=this._data;"string"==typeof r?e.url="undefined"!=typeof window?a(window.location.href,r):r:e.data=JSON.stringify(r),this.workerID=this.dispatcher.send(this.type+".loadData",e,function(e){this._loaded=!0,t(e)}.bind(this))},loadTile:function(t,e){var r=t.coord.z>this.maxzoom?Math.pow(2,t.coord.z-this.maxzoom):1,n={type:this.type,uid:t.uid,coord:t.coord,zoom:t.coord.z,maxZoom:this.maxzoom,tileSize:this.tileSize,source:this.id,overscaling:r,angle:this.map.transform.angle,pitch:this.map.transform.pitch,showCollisionBoxes:this.map.showCollisionBoxes};t.workerID=this.dispatcher.send("load tile",n,function(r,n){return t.unloadVectorData(this.map.painter),t.aborted?void 0:r?e(r):(t.loadVectorData(n,this.map.style),t.redoWhenDone&&(t.redoWhenDone=!1,t.redoPlacement(this)),e(null))}.bind(this),this.workerID)},abortTile:function(t){t.aborted=!0},unloadTile:function(t){t.unloadVectorData(this.map.painter),this.dispatcher.send("remove tile",{uid:t.uid,source:this.id},function(){},t.workerID)},serialize:function(){return{type:this.type,data:this._data}}})},{"../data/bucket":253,"../util/evented":358,"../util/util":366,"resolve-url":426}],283:[function(t,e,r){"use strict";function n(t,e,r){r&&(this.loadGeoJSON=r),h.call(this,t,e)}var i=t("../util/util"),o=t("../util/ajax"),a=t("geojson-rewind"),s=t("./geojson_wrapper"),l=t("vt-pbf"),u=t("supercluster"),c=t("geojson-vt"),h=t("./vector_tile_worker_source");e.exports=n,n.prototype=i.inherit(h,{_geoJSONIndexes:{},loadVectorData:function(t,e){var r=t.source,n=t.coord;if(!this._geoJSONIndexes[r])return e(null,null);var i=this._geoJSONIndexes[r].getTile(Math.min(n.z,t.maxZoom),n.x,n.y);if(!i)return e(null,null);var o=new s(i.features);o.name="_geojsonTileLayer";var a=l({layers:{_geojsonTileLayer:o}});0===a.byteOffset&&a.byteLength===a.buffer.byteLength||(a=new Uint8Array(a)),e(null,{tile:o,rawTileData:a.buffer})},loadData:function(t,e){var r=function(r,n){return r?e(r):"object"!=typeof n?e(new Error("Input data is not a valid GeoJSON object.")):(a(n,!0),void this._indexData(n,t,function(r,n){return r?e(r):(this._geoJSONIndexes[t.source]=n,void e(null))}.bind(this)))}.bind(this);this.loadGeoJSON(t,r)},loadGeoJSON:function(t,e){if(t.url)o.getJSON(t.url,e);else{if("string"!=typeof t.data)return e(new Error("Input data is not a valid GeoJSON object."));try{return e(null,JSON.parse(t.data))}catch(r){return e(new Error("Input data is not a valid GeoJSON object."))}}},_indexData:function(t,e,r){try{e.cluster?r(null,u(e.superclusterOptions).load(t.features)):r(null,c(t,e.geojsonVtOptions))}catch(n){return r(n)}}})},{"../util/ajax":349,"../util/util":366,"./geojson_wrapper":284,"./vector_tile_worker_source":295,"geojson-rewind":371,"geojson-vt":377,supercluster:428,"vt-pbf":438}],284:[function(t,e,r){"use strict";function n(t){this.features=t,this.length=t.length,this.extent=s}function i(t){if(this.type=t.type,1===t.type){this.rawGeometry=[];for(var e=0;e<t.geometry.length;e++)this.rawGeometry.push([t.geometry[e]])}else this.rawGeometry=t.geometry;this.properties=t.tags,this.extent=s}var o=t("point-geometry"),a=t("vector-tile").VectorTileFeature,s=t("../data/bucket").EXTENT;e.exports=n,n.prototype.feature=function(t){return new i(this.features[t])},i.prototype.loadGeometry=function(){var t=this.rawGeometry;this.geometry=[];for(var e=0;e<t.length;e++){for(var r=t[e],n=[],i=0;i<r.length;i++)n.push(new o(r[i][0],r[i][1]));this.geometry.push(n)}return this.geometry},i.prototype.bbox=function(){this.geometry||this.loadGeometry();for(var t=this.geometry,e=1/0,r=-(1/0),n=1/0,i=-(1/0),o=0;o<t.length;o++)for(var a=t[o],s=0;s<a.length;s++){var l=a[s];e=Math.min(e,l.x),r=Math.max(r,l.x),n=Math.min(n,l.y),i=Math.max(i,l.y)}return[e,n,r,i]},i.prototype.toGeoJSON=a.prototype.toGeoJSON},{"../data/bucket":253,"point-geometry":424,"vector-tile":434}],285:[function(t,e,r){"use strict";function n(t,e,r){this.id=t,this.dispatcher=r,this.url=e.url,this.coordinates=e.coordinates,u.getImage(e.url,function(t,r){return t?this.fire("error",{error:t}):(this.image=r,this.image.addEventListener("load",function(){this.map._rerender()}.bind(this)),this._loaded=!0,this.fire("load"),void(this.map&&this.setCoordinates(e.coordinates)))}.bind(this))}var i=t("../util/util"),o=t("./tile_coord"),a=t("../geo/lng_lat"),s=t("point-geometry"),l=t("../util/evented"),u=t("../util/ajax"),c=t("../data/bucket").EXTENT,h=t("../render/draw_raster").RasterBoundsArray,f=t("../data/buffer"),p=t("../render/vertex_array_object");e.exports=n,n.prototype=i.inherit(l,{minzoom:0,maxzoom:22,tileSize:512,onAdd:function(t){this.map=t,this.image&&this.setCoordinates(this.coordinates)},setCoordinates:function(t){this.coordinates=t;var e=this.map,r=t.map(function(t){return e.transform.locationCoordinate(a.convert(t)).zoomTo(0)}),n=this.centerCoord=i.getCoordinatesCenter(r);return n.column=Math.round(n.column),n.row=Math.round(n.row),this.minzoom=this.maxzoom=n.zoom,this._coord=new o(n.zoom,n.column,n.row),this._tileCoords=r.map(function(t){var e=t.zoomTo(n.zoom);return new s(Math.round((e.column-n.column)*c),Math.round((e.row-n.row)*c))}),this.fire("change"),this},_setTile:function(t){this._prepared=!1,this.tile=t;var e=32767,r=new h;r.emplaceBack(this._tileCoords[0].x,this._tileCoords[0].y,0,0),r.emplaceBack(this._tileCoords[1].x,this._tileCoords[1].y,e,0),r.emplaceBack(this._tileCoords[3].x,this._tileCoords[3].y,0,e),r.emplaceBack(this._tileCoords[2].x,this._tileCoords[2].y,e,e),this.tile.buckets={},this.tile.boundsBuffer=new f(r.serialize(),h.serialize(),f.BufferType.VERTEX),this.tile.boundsVAO=new p,this.tile.state="loaded"},prepare:function(){if(this._loaded&&this.image&&this.image.complete&&this.tile){var t=this.map.painter,e=t.gl;this._prepared?(e.bindTexture(e.TEXTURE_2D,this.tile.texture),e.texSubImage2D(e.TEXTURE_2D,0,0,0,e.RGBA,e.UNSIGNED_BYTE,this.image)):(this.tile.texture=e.createTexture(),e.bindTexture(e.TEXTURE_2D,this.tile.texture),e.texParameteri(e.TEXTURE_2D,e.TEXTURE_WRAP_S,e.CLAMP_TO_EDGE),e.texParameteri(e.TEXTURE_2D,e.TEXTURE_WRAP_T,e.CLAMP_TO_EDGE),e.texParameteri(e.TEXTURE_2D,e.TEXTURE_MIN_FILTER,e.LINEAR),e.texParameteri(e.TEXTURE_2D,e.TEXTURE_MAG_FILTER,e.LINEAR),e.texImage2D(e.TEXTURE_2D,0,e.RGBA,e.RGBA,e.UNSIGNED_BYTE,this.image))}},loadTile:function(t,e){this._coord&&this._coord.toString()===t.coord.toString()?(this._setTile(t),e(null)):(t.state="errored",e(null))},serialize:function(){return{type:"image",urls:this.url,coordinates:this.coordinates}}})},{"../data/bucket":253,"../data/buffer":258,"../geo/lng_lat":263,"../render/draw_raster":275,"../render/vertex_array_object":281,"../util/ajax":349,"../util/evented":358,"../util/util":366,"./tile_coord":293,"point-geometry":424}],286:[function(t,e,r){"use strict";var n=t("../util/util"),i=t("../util/ajax"),o=t("../util/browser"),a=t("../util/mapbox").normalizeSourceURL;e.exports=function(t,e){var r=function(t,r){if(t)return e(t);var i=n.pick(r,["tiles","minzoom","maxzoom","attribution"]);r.vector_layers&&(i.vectorLayers=r.vector_layers,i.vectorLayerIds=i.vectorLayers.map(function(t){return t.id})),e(null,i)};t.url?i.getJSON(a(t.url),r):o.frame(r.bind(null,null,t))}},{"../util/ajax":349,"../util/browser":350,"../util/mapbox":363,"../util/util":366}],287:[function(t,e,r){"use strict";var n=t("../data/bucket");e.exports=function(t,e,r){return e*(n.EXTENT/(t.tileSize*Math.pow(2,r-t.coord.z)))}},{"../data/bucket":253}],288:[function(t,e,r){"use strict";function n(t,e){var r=t.coord,n=e.coord;return r.z-n.z||r.y-n.y||r.w-n.w||r.x-n.x}function i(t){for(var e=t[0]||{},r=1;r<t.length;r++){var n=t[r];for(var i in n){var o=n[i],a=e[i];if(void 0===a)a=e[i]=o;else for(var s=0;s<o.length;s++)a.push(o[s])}}return e}var o=t("./tile_coord");r.rendered=function(t,e,r,o,a,s){var l=t.tilesIn(r);l.sort(n);for(var u=[],c=0;c<l.length;c++){var h=l[c];h.tile.featureIndex&&u.push(h.tile.featureIndex.query({queryGeometry:h.queryGeometry,scale:h.scale,tileSize:h.tile.tileSize,bearing:s,params:o},e))}return i(u)},r.source=function(t,e){for(var r=t.renderedIDs().map(function(e){return t.getTileByID(e)}),n=[],i={},a=0;a<r.length;a++){var s=r[a],l=new o(Math.min(s.sourceMaxZoom,s.coord.z),s.coord.x,s.coord.y,0).id;i[l]||(i[l]=!0,s.querySourceFeatures(n,e))}return n}},{"./tile_coord":293}],289:[function(t,e,r){"use strict";function n(t,e,r){this.id=t,this.dispatcher=r,i.extend(this,i.pick(e,["url","scheme","tileSize"])),s(e,function(t,e){return t?this.fire("error",t):(i.extend(this,e),void this.fire("load"))}.bind(this))}var i=t("../util/util"),o=t("../util/ajax"),a=t("../util/evented"),s=t("./load_tilejson"),l=t("../util/mapbox").normalizeTileURL;e.exports=n,n.prototype=i.inherit(a,{minzoom:0,maxzoom:22,roundZoom:!0,scheme:"xyz",tileSize:512,_loaded:!1,onAdd:function(t){this.map=t},serialize:function(){return{type:"raster",url:this.url,tileSize:this.tileSize}},loadTile:function(t,e){function r(r,n){if(delete t.request,!t.aborted){if(r)return e(r);var i=this.map.painter.gl;t.texture=this.map.painter.getTexture(n.width),t.texture?(i.bindTexture(i.TEXTURE_2D,t.texture),i.texSubImage2D(i.TEXTURE_2D,0,0,0,i.RGBA,i.UNSIGNED_BYTE,n)):(t.texture=i.createTexture(),i.bindTexture(i.TEXTURE_2D,t.texture),i.texParameteri(i.TEXTURE_2D,i.TEXTURE_MIN_FILTER,i.LINEAR_MIPMAP_NEAREST),i.texParameteri(i.TEXTURE_2D,i.TEXTURE_MAG_FILTER,i.LINEAR),i.texParameteri(i.TEXTURE_2D,i.TEXTURE_WRAP_S,i.CLAMP_TO_EDGE),i.texParameteri(i.TEXTURE_2D,i.TEXTURE_WRAP_T,i.CLAMP_TO_EDGE),i.pixelStorei(i.UNPACK_PREMULTIPLY_ALPHA_WEBGL,!0),i.texImage2D(i.TEXTURE_2D,0,i.RGBA,i.RGBA,i.UNSIGNED_BYTE,n),t.texture.size=n.width),i.generateMipmap(i.TEXTURE_2D),this.map.animationLoop.set(this.map.style.rasterFadeDuration),t.state="loaded",e(null)}}var n=l(t.coord.url(this.tiles,null,this.scheme),this.url,this.tileSize);t.request=o.getImage(n,r.bind(this))},abortTile:function(t){t.request&&(t.request.abort(),delete t.request)},unloadTile:function(t){t.texture&&this.map.painter.saveTexture(t.texture)}})},{"../util/ajax":349,"../util/evented":358,"../util/mapbox":363,"../util/util":366,"./load_tilejson":286}],290:[function(t,e,r){"use strict";var n=t("../util/util"),i={vector:t("../source/vector_tile_source"),raster:t("../source/raster_tile_source"),geojson:t("../source/geojson_source"),video:t("../source/video_source"),image:t("../source/image_source")};r.create=function(t,e,r){if(e=new i[e.type](t,e,r),e.id!==t)throw new Error("Expected Source id to be "+t+" instead of "+e.id);return n.bindAll(["load","abort","unload","serialize","prepare"],e),e},r.getType=function(t){return i[t]},r.setType=function(t,e){i[t]=e}},{"../source/geojson_source":282,"../source/image_source":285,"../source/raster_tile_source":289,"../source/vector_tile_source":294,"../source/video_source":296,"../util/util":366}],291:[function(t,e,r){"use strict";function n(t,e,r){this.id=t,this.dispatcher=r;var n=this._source=a.create(t,e,r).on("load",function(){this.map&&this._source.onAdd&&this._source.onAdd(this.map),this._sourceLoaded=!0,this.tileSize=n.tileSize,this.minzoom=n.minzoom,this.maxzoom=n.maxzoom,this.roundZoom=n.roundZoom,this.reparseOverscaled=n.reparseOverscaled,this.isTileClipped=n.isTileClipped,this.attribution=n.attribution,this.vectorLayerIds=n.vectorLayerIds,this.fire("load")}.bind(this)).on("error",function(t){this._sourceErrored=!0,this.fire("error",t)}.bind(this)).on("change",function(){this.reload(),this.transform&&this.update(this.transform,this.map&&this.map.style.rasterFadeDuration),this.fire("change")}.bind(this));this._tiles={},this._cache=new c(0,this.unloadTile.bind(this)),this._isIdRenderable=this._isIdRenderable.bind(this)}function i(t,e,r){var n=r.zoomTo(Math.min(t.z,e));return{x:(n.column-(t.x+t.w*Math.pow(2,t.z)))*p,y:(n.row-t.y)*p}}function o(t,e){return t%32-e%32}var a=t("./source"),s=t("./tile"),l=t("../util/evented"),u=t("./tile_coord"),c=t("../util/lru_cache"),h=t("../geo/coordinate"),f=t("../util/util"),p=t("../data/bucket").EXTENT;e.exports=n,n.maxOverzooming=10,n.maxUnderzooming=3,n.prototype=f.inherit(l,{onAdd:function(t){this.map=t,this._source&&this._source.onAdd&&this._source.onAdd(t)},loaded:function(){if(this._sourceErrored)return!0;if(!this._sourceLoaded)return!1;for(var t in this._tiles){var e=this._tiles[t];if("loaded"!==e.state&&"errored"!==e.state)return!1}return!0},getSource:function(){return this._source},loadTile:function(t,e){return this._source.loadTile(t,e)},unloadTile:function(t){return this._source.unloadTile?this._source.unloadTile(t):void 0},abortTile:function(t){return this._source.abortTile?this._source.abortTile(t):void 0},serialize:function(){return this._source.serialize()},prepare:function(){return this._sourceLoaded&&this._source.prepare?this._source.prepare():void 0},getIds:function(){return Object.keys(this._tiles).map(Number).sort(o)},getRenderableIds:function(){return this.getIds().filter(this._isIdRenderable)},_isIdRenderable:function(t){return this._tiles[t].isRenderable()&&!this._coveredTiles[t]},reload:function(){this._cache.reset();for(var t in this._tiles){var e=this._tiles[t];"loading"!==e.state&&(e.state="reloading"),this.loadTile(this._tiles[t],this._tileLoaded.bind(this,this._tiles[t]))}},_tileLoaded:function(t,e){return e?(t.state="errored",this.fire("tile.error",{tile:t,error:e}),void this._source.fire("tile.error",{tile:t,error:e})):(t.source=this,t.timeAdded=(new Date).getTime(),this.fire("tile.load",{tile:t}),void this._source.fire("tile.load",{tile:t}))},getTile:function(t){return this.getTileByID(t.id)},getTileByID:function(t){return this._tiles[t]},getZoom:function(t){return t.zoom+t.scaleZoom(t.tileSize/this.tileSize)},findLoadedChildren:function(t,e,r){var n=!1;for(var i in this._tiles){var o=this._tiles[i];if(!(r[i]||!o.isRenderable()||o.coord.z<=t.z||o.coord.z>e)){var a=Math.pow(2,Math.min(o.coord.z,this.maxzoom)-Math.min(t.z,this.maxzoom));if(Math.floor(o.coord.x/a)===t.x&&Math.floor(o.coord.y/a)===t.y)for(r[i]=!0,n=!0;o&&o.coord.z-1>t.z;){var s=o.coord.parent(this.maxzoom).id;o=this._tiles[s],o&&o.isRenderable()&&(delete r[i],r[s]=!0)}}}return n},findLoadedParent:function(t,e,r){for(var n=t.z-1;n>=e;n--){t=t.parent(this.maxzoom);var i=this._tiles[t.id];if(i&&i.isRenderable())return r[t.id]=!0,i;if(this._cache.has(t.id))return this.addTile(t),r[t.id]=!0,this._tiles[t.id]}},updateCacheSize:function(t){var e=Math.ceil(t.width/t.tileSize)+1,r=Math.ceil(t.height/t.tileSize)+1,n=e*r,i=5;this._cache.setMaxSize(Math.floor(n*i))},update:function(t,e){if(this._sourceLoaded){var r,i,o;this.updateCacheSize(t);var a=(this.roundZoom?Math.round:Math.floor)(this.getZoom(t)),s=Math.max(a-n.maxOverzooming,this.minzoom),l=Math.max(a+n.maxUnderzooming,this.minzoom),c={},h=(new Date).getTime();this._coveredTiles={};var p=this.used?t.coveringTiles(this._source):[];for(r=0;r<p.length;r++)i=p[r],o=this.addTile(i),c[i.id]=!0,o.isRenderable()||this.findLoadedChildren(i,l,c)||this.findLoadedParent(i,s,c);for(var d={},m=Object.keys(c),g=0;g<m.length;g++){var v=m[g];i=u.fromID(v),o=this._tiles[v],o&&o.timeAdded>h-(e||0)&&(this.findLoadedChildren(i,l,c)&&(c[v]=!0),this.findLoadedParent(i,s,d))}var y;for(y in d)c[y]||(this._coveredTiles[y]=!0);for(y in d)c[y]=!0;var b=f.keysDifference(this._tiles,c);for(r=0;r<b.length;r++)this.removeTile(+b[r]);this.transform=t}},addTile:function(t){var e=this._tiles[t.id];if(e)return e;var r=t.wrapped();if(e=this._tiles[r.id],e||(e=this._cache.get(r.id),e&&this._redoPlacement&&this._redoPlacement(e)),!e){var n=t.z,i=n>this.maxzoom?Math.pow(2,n-this.maxzoom):1;e=new s(r,this.tileSize*i,this.maxzoom),this.loadTile(e,this._tileLoaded.bind(this,e))}return e.uses++,this._tiles[t.id]=e,this.fire("tile.add",{tile:e}),this._source.fire("tile.add",{tile:e}),e},removeTile:function(t){var e=this._tiles[t];e&&(e.uses--,delete this._tiles[t],this.fire("tile.remove",{tile:e}),this._source.fire("tile.remove",{tile:e}),e.uses>0||(e.isRenderable()?this._cache.add(e.coord.wrapped().id,e):(e.aborted=!0,this.abortTile(e),this.unloadTile(e))))},clearTiles:function(){for(var t in this._tiles)this.removeTile(t);this._cache.reset()},tilesIn:function(t){for(var e={},r=this.getIds(),n=1/0,o=1/0,a=-(1/0),s=-(1/0),l=t[0].zoom,c=0;c<t.length;c++){var f=t[c];n=Math.min(n,f.column),o=Math.min(o,f.row),a=Math.max(a,f.column),s=Math.max(s,f.row)}for(var d=0;d<r.length;d++){var m=this._tiles[r[d]],g=u.fromID(r[d]),v=[i(g,m.sourceMaxZoom,new h(n,o,l)),i(g,m.sourceMaxZoom,new h(a,s,l))];if(v[0].x<p&&v[0].y<p&&v[1].x>=0&&v[1].y>=0){for(var y=[],b=0;b<t.length;b++)y.push(i(g,m.sourceMaxZoom,t[b]));var x=e[m.coord.id];void 0===x&&(x=e[m.coord.id]={tile:m,coord:g,queryGeometry:[],scale:Math.pow(2,this.transform.zoom-m.coord.z)}),x.queryGeometry.push(y)}}var _=[];for(var w in e)_.push(e[w]);return _},redoPlacement:function(){for(var t=this.getIds(),e=0;e<t.length;e++){var r=this.getTileByID(t[e]);r.redoPlacement(this)}},getVisibleCoordinates:function(){return this.getRenderableIds().map(u.fromID)}})},{"../data/bucket":253,"../geo/coordinate":262,"../util/evented":358,"../util/lru_cache":362,"../util/util":366,"./source":290,"./tile":292,"./tile_coord":293}],292:[function(t,e,r){"use strict";function n(t,e,r){this.coord=t,this.uid=o.uniqueId(),this.uses=0,this.tileSize=e,this.sourceMaxZoom=r,this.buckets={},this.state="loading"}function i(t,e){if(e){for(var r={},n=0;n<t.length;n++){var i=e.getLayer(t[n].layerId);if(i){var s=a.create(o.extend({layer:i,childLayers:t[n].childLayerIds.map(e.getLayer.bind(e)).filter(function(t){return t})},t[n]));r[s.id]=s}}return r}}var o=t("../util/util"),a=t("../data/bucket"),s=t("../data/feature_index"),l=t("vector-tile"),u=t("pbf"),c=t("../util/vectortile_to_geojson"),h=t("feature-filter"),f=t("../symbol/collision_tile"),p=t("../symbol/collision_box"),d=t("../symbol/symbol_instances"),m=t("../symbol/symbol_quads");e.exports=n,n.prototype={loadVectorData:function(t,e){this.state="loaded",t&&(this.collisionBoxArray=new p(t.collisionBoxArray),this.collisionTile=new f(t.collisionTile,this.collisionBoxArray),this.symbolInstancesArray=new d(t.symbolInstancesArray),this.symbolQuadsArray=new m(t.symbolQuadsArray),this.featureIndex=new s(t.featureIndex,t.rawTileData,this.collisionTile),this.rawTileData=t.rawTileData,this.buckets=i(t.buckets,e))},reloadSymbolData:function(t,e,r){if("unloaded"!==this.state){this.collisionTile=new f(t.collisionTile,this.collisionBoxArray),this.featureIndex.setCollisionTile(this.collisionTile);for(var n in this.buckets){var a=this.buckets[n];"symbol"===a.type&&(a.destroy(e.gl),delete this.buckets[n])}o.extend(this.buckets,i(t.buckets,r))}},unloadVectorData:function(t){for(var e in this.buckets){var r=this.buckets[e];r.destroy(t.gl)}this.collisionBoxArray=null,this.symbolQuadsArray=null,this.symbolInstancesArray=null,this.collisionTile=null,this.featureIndex=null,this.rawTileData=null,this.buckets=null,this.state="unloaded"},redoPlacement:function(t){function e(e,r){this.reloadSymbolData(r,t.map.painter,t.map.style),t.fire("tile.load",{tile:this}),this.state="loaded",this.redoWhenDone&&(this.redoPlacement(t),this.redoWhenDone=!1)}return"loaded"!==this.state||"reloading"===this.state?void(this.redoWhenDone=!0):(this.state="reloading",void t.dispatcher.send("redo placement",{uid:this.uid,source:t.id,angle:t.map.transform.angle,pitch:t.map.transform.pitch,showCollisionBoxes:t.map.showCollisionBoxes},e.bind(this),this.workerID))},getBucket:function(t){return this.buckets&&this.buckets[t.ref||t.id]},querySourceFeatures:function(t,e){if(this.rawTileData){this.vtLayers||(this.vtLayers=new l.VectorTile(new u(new Uint8Array(this.rawTileData))).layers);var r=this.vtLayers._geojsonTileLayer||this.vtLayers[e.sourceLayer];if(r)for(var n=h(e.filter),i={z:this.coord.z,x:this.coord.x,y:this.coord.y},o=0;o<r.length;o++){var a=r.feature(o);if(n(a)){var s=new c(a,this.coord.z,this.coord.x,this.coord.y);s.tile=i,t.push(s)}}}},isRenderable:function(){return"loaded"===this.state||"reloading"===this.state}}},{"../data/bucket":253,"../data/feature_index":260,"../symbol/collision_box":318,"../symbol/collision_tile":320,"../symbol/symbol_instances":329,"../symbol/symbol_quads":330,"../util/util":366,"../util/vectortile_to_geojson":367,"feature-filter":370,pbf:422,"vector-tile":434}],293:[function(t,e,r){"use strict";function n(t,e,r,n){isNaN(n)&&(n=0),this.z=+t,this.x=+e,this.y=+r,this.w=+n,n*=2,0>n&&(n=-1*n-1);var i=1<<this.z;this.id=32*(i*i*n+i*this.y+this.x)+this.z,this.posMatrix=null}function i(t,e,r){for(var n,i="",o=t;o>0;o--)n=1<<o-1,i+=(e&n?1:0)+(r&n?2:0);return i}function o(t,e){if(t.row>e.row){var r=t;t=e,e=r}return{x0:t.column,y0:t.row,x1:e.column,y1:e.row,dx:e.column-t.column,dy:e.row-t.row}}function a(t,e,r,n,i){var o=Math.max(r,Math.floor(e.y0)),a=Math.min(n,Math.ceil(e.y1));if(t.x0===e.x0&&t.y0===e.y0?t.x0+e.dy/t.dy*t.dx<e.x1:t.x1-e.dy/t.dy*t.dx<e.x0){var s=t;t=e,e=s}for(var l=t.dx/t.dy,u=e.dx/e.dy,c=t.dx>0,h=e.dx<0,f=o;a>f;f++){var p=l*Math.max(0,Math.min(t.dy,f+c-t.y0))+t.x0,d=u*Math.max(0,Math.min(e.dy,f+h-e.y0))+e.x0;i(Math.floor(d),Math.ceil(p),f)}}function s(t,e,r,n,i,s){var l,u=o(t,e),c=o(e,r),h=o(r,t);u.dy>c.dy&&(l=u,u=c,c=l),u.dy>h.dy&&(l=u,u=h,h=l),c.dy>h.dy&&(l=c,c=h,h=l),u.dy&&a(h,u,n,i,s),c.dy&&a(h,c,n,i,s)}var l=t("whoots-js"),u=t("../geo/coordinate");e.exports=n,n.prototype.toString=function(){return this.z+"/"+this.x+"/"+this.y},n.prototype.toCoordinate=function(t){var e=Math.min(this.z,t),r=Math.pow(2,e),n=this.y,i=this.x+r*this.w;return new u(i,n,e)},n.fromID=function(t){var e=t%32,r=1<<e,i=(t-e)/32,o=i%r,a=(i-o)/r%r,s=Math.floor(i/(r*r));return s%2!==0&&(s=-1*s-1),s/=2,new n(e,o,a,s)},n.prototype.url=function(t,e,r){var n=l.getTileBBox(this.x,this.y,this.z),o=i(this.z,this.x,this.y);return t[(this.x+this.y)%t.length].replace("{prefix}",(this.x%16).toString(16)+(this.y%16).toString(16)).replace("{z}",Math.min(this.z,e||this.z)).replace("{x}",this.x).replace("{y}","tms"===r?Math.pow(2,this.z)-this.y-1:this.y).replace("{quadkey}",o).replace("{bbox-epsg-3857}",n)},n.prototype.parent=function(t){return 0===this.z?null:this.z>t?new n(this.z-1,this.x,this.y,this.w):new n(this.z-1,Math.floor(this.x/2),Math.floor(this.y/2),this.w)},n.prototype.wrapped=function(){return new n(this.z,this.x,this.y,0)},n.prototype.children=function(t){if(this.z>=t)return[new n(this.z+1,this.x,this.y,this.w)];var e=this.z+1,r=2*this.x,i=2*this.y;return[new n(e,r,i,this.w),new n(e,r+1,i,this.w),new n(e,r,i+1,this.w),new n(e,r+1,i+1,this.w)]},n.cover=function(t,e,r){function i(t,e,i){var s,l,u;if(i>=0&&o>=i)for(s=t;e>s;s++)l=(s%o+o)%o,u=new n(r,l,i,Math.floor(s/o)),a[u.id]=u}var o=1<<t,a={};return s(e[0],e[1],e[2],0,o,i),s(e[2],e[3],e[0],0,o,i),Object.keys(a).map(function(t){return a[t]})}},{"../geo/coordinate":262,"whoots-js":442}],294:[function(t,e,r){"use strict";function n(t,e,r){if(this.id=t,this.dispatcher=r,o.extend(this,o.pick(e,["url","scheme","tileSize"])),this._options=o.extend({type:"vector"},e),512!==this.tileSize)throw new Error("vector tile sources must have a tileSize of 512");a(e,function(t,e){return t?void this.fire("error",t):(o.extend(this,e),void this.fire("load"))}.bind(this))}var i=t("../util/evented"),o=t("../util/util"),a=t("./load_tilejson"),s=t("../util/mapbox").normalizeTileURL;e.exports=n,n.prototype=o.inherit(i,{minzoom:0,maxzoom:22,scheme:"xyz",tileSize:512,reparseOverscaled:!0,isTileClipped:!0,onAdd:function(t){this.map=t},serialize:function(){return o.extend({},this._options)},loadTile:function(t,e){function r(r,n){if(!t.aborted){if(r)return e(r);t.loadVectorData(n,this.map.style),t.redoWhenDone&&(t.redoWhenDone=!1,t.redoPlacement(this)),e(null),t.reloadCallback&&(this.loadTile(t,t.reloadCallback),t.reloadCallback=null)}}var n=t.coord.z>this.maxzoom?Math.pow(2,t.coord.z-this.maxzoom):1,i={url:s(t.coord.url(this.tiles,this.maxzoom,this.scheme),this.url),uid:t.uid,coord:t.coord,zoom:t.coord.z,tileSize:this.tileSize*n,source:this.id,overscaling:n,angle:this.map.transform.angle,pitch:this.map.transform.pitch,showCollisionBoxes:this.map.showCollisionBoxes};t.workerID?"loading"===t.state?t.reloadCallback=e:(i.rawTileData=t.rawTileData,this.dispatcher.send("reload tile",i,r.bind(this),t.workerID)):t.workerID=this.dispatcher.send("load tile",i,r.bind(this))},abortTile:function(t){this.dispatcher.send("abort tile",{uid:t.uid,source:this.id},null,t.workerID)},unloadTile:function(t){t.unloadVectorData(this.map.painter),this.dispatcher.send("remove tile",{uid:t.uid,source:this.id},null,t.workerID)}})},{"../util/evented":358,"../util/mapbox":363,"../util/util":366,"./load_tilejson":286}],295:[function(t,e,r){"use strict";function n(t,e,r){this.actor=t,this.styleLayers=e,r&&(this.loadVectorData=r),this.loading={},this.loaded={}}var i=t("../util/ajax"),o=t("vector-tile"),a=t("pbf"),s=t("./worker_tile");e.exports=n,n.prototype={loadTile:function(t,e){function r(t,r){return delete this.loading[n][i],t?e(t):r?(o.data=r.tile,o.parse(o.data,this.styleLayers.getLayerFamilies(),this.actor,r.rawTileData,e),this.loaded[n]=this.loaded[n]||{},void(this.loaded[n][i]=o)):e(null,null)}var n=t.source,i=t.uid;this.loading[n]||(this.loading[n]={});var o=this.loading[n][i]=new s(t);o.abort=this.loadVectorData(t,r.bind(this))},reloadTile:function(t,e){var r=this.loaded[t.source],n=t.uid;if(r&&r[n]){var i=r[n];i.parse(i.data,this.styleLayers.getLayerFamilies(),this.actor,t.rawTileData,e)}},abortTile:function(t){var e=this.loading[t.source],r=t.uid;e&&e[r]&&e[r].abort&&(e[r].abort(),delete e[r])},removeTile:function(t){var e=this.loaded[t.source],r=t.uid;e&&e[r]&&delete e[r]},loadVectorData:function(t,e){function r(t,r){if(t)return e(t);var n=new o.VectorTile(new a(new Uint8Array(r)));e(t,{tile:n,rawTileData:r})}var n=i.getArrayBuffer(t.url,r.bind(this));return function(){n.abort()}},redoPlacement:function(t,e){var r=this.loaded[t.source],n=this.loading[t.source],i=t.uid;if(r&&r[i]){var o=r[i],a=o.redoPlacement(t.angle,t.pitch,t.showCollisionBoxes);a.result&&e(null,a.result,a.transferables)}else n&&n[i]&&(n[i].angle=t.angle)}}},{"../util/ajax":349,"./worker_tile":298,pbf:422,"vector-tile":434}],296:[function(t,e,r){"use strict";function n(t,e){this.id=t,this.urls=e.urls,this.coordinates=e.coordinates,u.getVideo(e.urls,function(t,r){if(t)return this.fire("error",{error:t});this.video=r,this.video.loop=!0;var n;this.video.addEventListener("playing",function(){n=this.map.style.animationLoop.set(1/0),this.map._rerender()}.bind(this)),this.video.addEventListener("pause",function(){this.map.style.animationLoop.cancel(n)}.bind(this)),this.map&&(this.video.play(),this.setCoordinates(e.coordinates)),this.fire("load")}.bind(this))}var i=t("../util/util"),o=t("./tile_coord"),a=t("../geo/lng_lat"),s=t("point-geometry"),l=t("../util/evented"),u=t("../util/ajax"),c=t("../data/bucket").EXTENT,h=t("../render/draw_raster").RasterBoundsArray,f=t("../data/buffer"),p=t("../render/vertex_array_object");e.exports=n,n.prototype=i.inherit(l,{minzoom:0,maxzoom:22,tileSize:512,roundZoom:!0,getVideo:function(){return this.video},onAdd:function(t){this.map||(this.map=t,this.video&&(this.video.play(),this.setCoordinates(this.coordinates)))},setCoordinates:function(t){this.coordinates=t;var e=this.map,r=t.map(function(t){return e.transform.locationCoordinate(a.convert(t)).zoomTo(0)}),n=this.centerCoord=i.getCoordinatesCenter(r);return n.column=Math.round(n.column),n.row=Math.round(n.row),this.minzoom=this.maxzoom=n.zoom,this._coord=new o(n.zoom,n.column,n.row),this._tileCoords=r.map(function(t){var e=t.zoomTo(n.zoom);return new s(Math.round((e.column-n.column)*c),Math.round((e.row-n.row)*c))}),this.fire("change"),this},_setTile:function(t){this._prepared=!1,this.tile=t;var e=32767,r=new h;r.emplaceBack(this._tileCoords[0].x,this._tileCoords[0].y,0,0),r.emplaceBack(this._tileCoords[1].x,this._tileCoords[1].y,e,0),r.emplaceBack(this._tileCoords[3].x,this._tileCoords[3].y,0,e),r.emplaceBack(this._tileCoords[2].x,this._tileCoords[2].y,e,e),this.tile.buckets={},this.tile.boundsBuffer=new f(r.serialize(),h.serialize(),f.BufferType.VERTEX),this.tile.boundsVAO=new p,this.tile.state="loaded"},prepare:function(){if(!(this.video.readyState<2)&&this.tile){var t=this.map.painter.gl;this._prepared?(t.bindTexture(t.TEXTURE_2D,this.tile.texture),t.texSubImage2D(t.TEXTURE_2D,0,0,0,t.RGBA,t.UNSIGNED_BYTE,this.video)):(this._prepared=!0,this.tile.texture=t.createTexture(),t.bindTexture(t.TEXTURE_2D,this.tile.texture),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_WRAP_S,t.CLAMP_TO_EDGE),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_WRAP_T,t.CLAMP_TO_EDGE),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_MIN_FILTER,t.LINEAR),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_MAG_FILTER,t.LINEAR),t.texImage2D(t.TEXTURE_2D,0,t.RGBA,t.RGBA,t.UNSIGNED_BYTE,this.video)),this._currentTime=this.video.currentTime}},loadTile:function(t,e){this._coord&&this._coord.toString()===t.coord.toString()?(this._setTile(t),e(null)):(t.state="errored",e(null));
},serialize:function(){return{type:"video",urls:this.urls,coordinates:this.coordinates}}})},{"../data/bucket":253,"../data/buffer":258,"../geo/lng_lat":263,"../render/draw_raster":275,"../render/vertex_array_object":281,"../util/ajax":349,"../util/evented":358,"../util/util":366,"./tile_coord":293,"point-geometry":424}],297:[function(t,e,r){"use strict";function n(t){this.self=t,this.actor=new o(t,this);var e={getLayers:function(){return this.layers}.bind(this),getLayerFamilies:function(){return this.layerFamilies}.bind(this)};this.workerSources={vector:new l(this.actor,e),geojson:new u(this.actor,e)},this.self.registerWorkerSource=function(t,r){if(this.workerSources[t])throw new Error('Worker source with name "'+t+'" already registered.');this.workerSources[t]=new r(this.actor,e)}.bind(this)}function i(t){var e={};for(var r in t){var n=t[r],i=n.ref||n.id,o=t[i];o.layout&&"none"===o.layout.visibility||(e[i]=e[i]||[],r===i?e[i].unshift(n):e[i].push(n))}return e}var o=t("../util/actor"),a=t("../style/style_layer"),s=t("../util/util"),l=t("./vector_tile_worker_source"),u=t("./geojson_worker_source");e.exports=function(t){return new n(t)},s.extend(n.prototype,{"set layers":function(t){function e(t){var e=a.create(t,t.ref&&r.layers[t.ref]);e.updatePaintTransitions({},{transition:!1}),r.layers[e.id]=e}this.layers={};for(var r=this,n=[],o=0;o<t.length;o++){var s=t[o];"fill"!==s.type&&"line"!==s.type&&"circle"!==s.type&&"symbol"!==s.type||(s.ref?n.push(o):e(s))}for(var l=0;l<n.length;l++)e(t[n[l]]);this.layerFamilies=i(this.layers)},"update layers":function(t){function e(t){var e=o.layers[t.ref];o.layers[t.id]?o.layers[t.id].set(t,e):o.layers[t.id]=a.create(t,e),o.layers[t.id].updatePaintTransitions({},{transition:!1})}var r,n,o=this;for(r in t)n=t[r],n.ref&&e(n);for(r in t)n=t[r],n.ref||e(n);this.layerFamilies=i(this.layers)},"load tile":function(t,e){var r=t.type||"vector";this.workerSources[r].loadTile(t,e)},"reload tile":function(t,e){var r=t.type||"vector";this.workerSources[r].reloadTile(t,e)},"abort tile":function(t){var e=t.type||"vector";this.workerSources[e].abortTile(t)},"remove tile":function(t){var e=t.type||"vector";this.workerSources[e].removeTile(t)},"redo placement":function(t,e){var r=t.type||"vector";this.workerSources[r].redoPlacement(t,e)},"load worker source":function(t,e){try{this.self.importScripts(t.url),e()}catch(r){e(r)}}})},{"../style/style_layer":305,"../util/actor":348,"../util/util":366,"./geojson_worker_source":283,"./vector_tile_worker_source":295}],298:[function(t,e,r){"use strict";function n(t){this.coord=t.coord,this.uid=t.uid,this.zoom=t.zoom,this.tileSize=t.tileSize,this.source=t.source,this.overscaling=t.overscaling,this.angle=t.angle,this.pitch=t.pitch,this.showCollisionBoxes=t.showCollisionBoxes}function i(t){return!t.isEmpty()}function o(t){return t.serialize()}function a(t){var e=[];for(var r in t)t[r].getTransferables(e);return e}function s(t){return t.id}var l=t("../data/feature_index"),u=t("../symbol/collision_tile"),c=t("../data/bucket"),h=t("../symbol/collision_box"),f=t("../util/dictionary_coder"),p=t("../util/util"),d=t("../symbol/symbol_instances"),m=t("../symbol/symbol_quads");e.exports=n,n.prototype.parse=function(t,e,r,n,g){function v(t,e){for(var r=0;r<t.length;r++){var n=t.feature(r);n.index=r;for(var i in e)e[i].filter(n)&&e[i].features.push(n)}}function y(t){if(t)return g(t);if(N++,2===N){for(var e=R.length-1;e>=0;e--)b(S,R[e]);x()}}function b(t,e){if(e.populateArrays(A,F,O),"symbol"!==e.type)for(var r=0;r<e.features.length;r++){var n=e.features[r];T.insert(n,n.index,e.sourceLayerIndex,e.index)}e.features=null}function x(){S.status="done",S.redoPlacementAfterDone&&(S.redoPlacement(S.angle,S.pitch,null),S.redoPlacementAfterDone=!1);var t=T.serialize(),e=A.serialize(),r=S.collisionBoxArray.serialize(),s=S.symbolInstancesArray.serialize(),l=S.symbolQuadsArray.serialize(),u=[n].concat(t.transferables).concat(e.transferables),c=C.filter(i);g(null,{buckets:c.map(o),featureIndex:t.data,collisionTile:e.data,collisionBoxArray:r,symbolInstancesArray:s,symbolQuadsArray:l,rawTileData:n},a(c).concat(u))}this.status="parsing",this.data=t,this.collisionBoxArray=new h,this.symbolInstancesArray=new d,this.symbolQuadsArray=new m;var _,w,M,k,A=new u(this.angle,this.pitch,this.collisionBoxArray),T=new l(this.coord,this.overscaling,A,t.layers),E=new f(t.layers?Object.keys(t.layers).sort():["_geojsonTileLayer"]),S=this,L={},z={},I=0;for(var P in e)w=e[P][0],w.source===this.source&&(w.ref||w.minzoom&&this.zoom<w.minzoom||w.maxzoom&&this.zoom>=w.maxzoom||w.layout&&"none"===w.layout.visibility||t.layers&&!t.layers[w.sourceLayer]||(k=c.create({layer:w,index:I++,childLayers:e[P],zoom:this.zoom,overscaling:this.overscaling,showCollisionBoxes:this.showCollisionBoxes,collisionBoxArray:this.collisionBoxArray,symbolQuadsArray:this.symbolQuadsArray,symbolInstancesArray:this.symbolInstancesArray,sourceLayerIndex:E.encode(w.sourceLayer||"_geojsonTileLayer")}),k.createFilter(),L[w.id]=k,t.layers&&(M=w.sourceLayer,z[M]=z[M]||{},z[M][w.id]=k)));if(t.layers)for(M in z)1===w.version&&p.warnOnce('Vector tile source "'+this.source+'" layer "'+M+'" does not use vector tile spec v2 and therefore may have some rendering errors.'),w=t.layers[M],w&&v(w,z[M]);else v(t,L);var C=[],R=this.symbolBuckets=[],j=[];T.bucketLayerIDs={};for(var D in L)k=L[D],0!==k.features.length&&(T.bucketLayerIDs[k.index]=k.childLayers.map(s),C.push(k),"symbol"===k.type?R.push(k):j.push(k));var O={},F={},N=0;if(R.length>0){for(_=R.length-1;_>=0;_--)R[_].updateIcons(O),R[_].updateFont(F);for(var B in F)F[B]=Object.keys(F[B]).map(Number);O=Object.keys(O),r.send("get glyphs",{uid:this.uid,stacks:F},function(t,e){F=e,y(t)}),O.length?r.send("get icons",{icons:O},function(t,e){O=e,y(t)}):y()}for(_=j.length-1;_>=0;_--)b(this,j[_]);return 0===R.length?x():void 0},n.prototype.redoPlacement=function(t,e,r){if("done"!==this.status)return this.redoPlacementAfterDone=!0,this.angle=t,{};for(var n=new u(t,e,this.collisionBoxArray),s=this.symbolBuckets,l=s.length-1;l>=0;l--)s[l].placeFeatures(n,r);var c=n.serialize(),h=s.filter(i);return{result:{buckets:h.map(o),collisionTile:c.data},transferables:a(h).concat(c.transferables)}}},{"../data/bucket":253,"../data/feature_index":260,"../symbol/collision_box":318,"../symbol/collision_tile":320,"../symbol/symbol_instances":329,"../symbol/symbol_quads":330,"../util/dictionary_coder":356,"../util/util":366}],299:[function(t,e,r){"use strict";function n(){this.n=0,this.times=[]}e.exports=n,n.prototype.stopped=function(){return this.times=this.times.filter(function(t){return t.time>=(new Date).getTime()}),!this.times.length},n.prototype.set=function(t){return this.times.push({id:this.n,time:t+(new Date).getTime()}),this.n++},n.prototype.cancel=function(t){this.times=this.times.filter(function(e){return e.id!==t})}},{}],300:[function(t,e,r){"use strict";function n(t){this.base=t,this.retina=s.devicePixelRatio>1;var e=this.retina?"@2x":"";a.getJSON(l(t,e,".json"),function(t,e){return t?void this.fire("error",{error:t}):(this.data=e,void(this.img&&this.fire("load")))}.bind(this)),a.getImage(l(t,e,".png"),function(t,e){if(t)return void this.fire("error",{error:t});for(var r=e.getData(),n=e.data=new Uint8Array(r.length),i=0;i<r.length;i+=4){var o=r[i+3]/255;n[i+0]=r[i+0]*o,n[i+1]=r[i+1]*o,n[i+2]=r[i+2]*o,n[i+3]=r[i+3]}this.img=e,this.data&&this.fire("load")}.bind(this))}function i(){}var o=t("../util/evented"),a=t("../util/ajax"),s=t("../util/browser"),l=t("../util/mapbox").normalizeSpriteURL;e.exports=n,n.prototype=Object.create(o),n.prototype.toJSON=function(){return this.base},n.prototype.loaded=function(){return!(!this.data||!this.img)},n.prototype.resize=function(){if(s.devicePixelRatio>1!==this.retina){var t=new n(this.base);t.on("load",function(){this.img=t.img,this.data=t.data,this.retina=t.retina}.bind(this))}},i.prototype={x:0,y:0,width:0,height:0,pixelRatio:1,sdf:!1},n.prototype.getSpritePosition=function(t){if(!this.loaded())return new i;var e=this.data&&this.data[t];return e&&this.img?e:new i}},{"../util/ajax":349,"../util/browser":350,"../util/evented":358,"../util/mapbox":363}],301:[function(t,e,r){"use strict";var n=t("csscolorparser").parseCSSColor,i=t("../util/util"),o=t("./style_function"),a={};e.exports=function s(t){if(o.isFunctionDefinition(t))return i.extend({},t,{stops:t.stops.map(function(t){return[t[0],s(t[1])]})});if("string"==typeof t){if(!a[t]){var e=n(t);if(!e)throw new Error("Invalid color "+t);a[t]=[e[0]/255*e[3],e[1]/255*e[3],e[2]/255*e[3],e[3]]}return a[t]}throw new Error("Invalid color "+t)}},{"../util/util":366,"./style_function":304,csscolorparser:368}],302:[function(t,e,r){"use strict";function n(t,e,r){this.animationLoop=e||new m,this.dispatcher=new d(r||1,this),this.spriteAtlas=new l(1024,1024),this.lineAtlas=new u(256,512),this._layers={},this._order=[],this._groups=[],this.sources={},this.zoomHistory={},c.bindAll(["_forwardSourceEvent","_forwardTileEvent","_forwardLayerEvent","_redoPlacement"],this),this._resetUpdates();var n=function(t,e){if(t)return void this.fire("error",{error:t});if(!g.emitErrors(this,g(e))){this._loaded=!0,this.stylesheet=e,this.updateClasses();var r=e.sources;for(var n in r)this.addSource(n,r[n]);e.sprite&&(this.sprite=new a(e.sprite),this.sprite.on("load",this.fire.bind(this,"change"))),this.glyphSource=new s(e.glyphs),this._resolve(),this.fire("load")}}.bind(this);"string"==typeof t?h.getJSON(f(t),n):p.frame(n.bind(this,null,t)),this.on("source.load",function(t){var e=t.source;if(e&&e.vectorLayerIds)for(var r in this._layers){var n=this._layers[r];n.source===e.id&&this._validateLayer(n)}})}var i=t("../util/evented"),o=t("./style_layer"),a=t("./image_sprite"),s=t("../symbol/glyph_source"),l=t("../symbol/sprite_atlas"),u=t("../render/line_atlas"),c=t("../util/util"),h=t("../util/ajax"),f=t("../util/mapbox").normalizeStyleURL,p=t("../util/browser"),d=t("../util/dispatcher"),m=t("./animation_loop"),g=t("./validate_style"),v=t("../source/source"),y=t("../source/query_features"),b=t("../source/source_cache"),x=t("./style_spec"),_=t("./style_function");e.exports=n,n.prototype=c.inherit(i,{_loaded:!1,_validateLayer:function(t){var e=this.sources[t.source];t.sourceLayer&&e&&e.vectorLayerIds&&-1===e.vectorLayerIds.indexOf(t.sourceLayer)&&this.fire("error",{error:new Error('Source layer "'+t.sourceLayer+'" does not exist on source "'+e.id+'" as specified by style layer "'+t.id+'"')})},loaded:function(){if(!this._loaded)return!1;if(Object.keys(this._updates.sources).length)return!1;for(var t in this.sources)if(!this.sources[t].loaded())return!1;return!this.sprite||this.sprite.loaded()},_resolve:function(){var t,e;this._layers={},this._order=this.stylesheet.layers.map(function(t){return t.id});for(var r=0;r<this.stylesheet.layers.length;r++)e=this.stylesheet.layers[r],e.ref||(t=o.create(e),this._layers[t.id]=t,t.on("error",this._forwardLayerEvent));for(var n=0;n<this.stylesheet.layers.length;n++)if(e=this.stylesheet.layers[n],e.ref){var i=this.getLayer(e.ref);t=o.create(e,i),this._layers[t.id]=t,t.on("error",this._forwardLayerEvent)}this._groupLayers(),this._updateWorkerLayers()},_groupLayers:function(){var t;this._groups=[];for(var e=0;e<this._order.length;++e){var r=this._layers[this._order[e]];t&&r.source===t.source||(t=[],t.source=r.source,this._groups.push(t)),t.push(r)}},_updateWorkerLayers:function(t){this.dispatcher.broadcast(t?"update layers":"set layers",this._serializeLayers(t))},_serializeLayers:function(t){t=t||this._order;for(var e=[],r={includeRefProperties:!0},n=0;n<t.length;n++)e.push(this._layers[t[n]].serialize(r));return e},_applyClasses:function(t,e){if(this._loaded){t=t||[],e=e||{transition:!0};var r=this.stylesheet.transition||{},n=this._updates.allPaintProps?this._layers:this._updates.paintProps;for(var i in n){var o=this._layers[i],a=this._updates.paintProps[i];if(this._updates.allPaintProps||a.all)o.updatePaintTransitions(t,e,r,this.animationLoop);else for(var s in a)this._layers[i].updatePaintTransition(s,t,e,r,this.animationLoop)}}},_recalculate:function(t){for(var e in this.sources)this.sources[e].used=!1;this._updateZoomHistory(t),this.rasterFadeDuration=300;for(var r in this._layers){var n=this._layers[r];n.recalculate(t,this.zoomHistory),!n.isHidden(t)&&n.source&&(this.sources[n.source].used=!0)}var i=300;Math.floor(this.z)!==Math.floor(t)&&this.animationLoop.set(i),this.z=t,this.fire("zoom")},_updateZoomHistory:function(t){var e=this.zoomHistory;void 0===e.lastIntegerZoom&&(e.lastIntegerZoom=Math.floor(t),e.lastIntegerZoomTime=0,e.lastZoom=t),Math.floor(e.lastZoom)<Math.floor(t)?(e.lastIntegerZoom=Math.floor(t),e.lastIntegerZoomTime=Date.now()):Math.floor(e.lastZoom)>Math.floor(t)&&(e.lastIntegerZoom=Math.floor(t+1),e.lastIntegerZoomTime=Date.now()),e.lastZoom=t},_checkLoaded:function(){if(!this._loaded)throw new Error("Style is not done loading")},update:function(t,e){if(!this._updates.changed)return this;if(this._updates.allLayers)this._groupLayers(),this._updateWorkerLayers();else{var r=Object.keys(this._updates.layers);r.length&&this._updateWorkerLayers(r)}var n,i=Object.keys(this._updates.sources);for(n=0;n<i.length;n++)this._reloadSource(i[n]);for(n=0;n<this._updates.events.length;n++){var o=this._updates.events[n];this.fire(o[0],o[1])}return this._applyClasses(t,e),this._updates.changed&&this.fire("change"),this._resetUpdates(),this},_resetUpdates:function(){this._updates={events:[],layers:{},sources:{},paintProps:{}}},addSource:function(t,e){if(this._checkLoaded(),void 0!==this.sources[t])throw new Error("There is already a source with this ID");if(!e.type)throw new Error("The type property must be defined, but the only the following properties were given: "+Object.keys(e)+".");var r=["vector","raster","geojson","video","image"],n=r.indexOf(e.type)>=0;return n&&this._handleErrors(g.source,"sources."+t,e)?this:(e=new b(t,e,this.dispatcher),this.sources[t]=e,e.style=this,e.on("load",this._forwardSourceEvent).on("error",this._forwardSourceEvent).on("change",this._forwardSourceEvent).on("tile.add",this._forwardTileEvent).on("tile.load",this._forwardTileEvent).on("tile.error",this._forwardTileEvent).on("tile.remove",this._forwardTileEvent).on("tile.stats",this._forwardTileEvent),this._updates.events.push(["source.add",{source:e}]),this._updates.changed=!0,this)},removeSource:function(t){if(this._checkLoaded(),void 0===this.sources[t])throw new Error("There is no source with this ID");var e=this.sources[t];return delete this.sources[t],delete this._updates.sources[t],e.off("load",this._forwardSourceEvent).off("error",this._forwardSourceEvent).off("change",this._forwardSourceEvent).off("tile.add",this._forwardTileEvent).off("tile.load",this._forwardTileEvent).off("tile.error",this._forwardTileEvent).off("tile.remove",this._forwardTileEvent).off("tile.stats",this._forwardTileEvent),this._updates.events.push(["source.remove",{source:e}]),this._updates.changed=!0,this},getSource:function(t){return this.sources[t]&&this.sources[t].getSource()},addLayer:function(t,e){if(this._checkLoaded(),!(t instanceof o)){if(this._handleErrors(g.layer,"layers."+t.id,t,!1,{arrayIndex:-1}))return this;var r=t.ref&&this.getLayer(t.ref);t=o.create(t,r)}return this._validateLayer(t),t.on("error",this._forwardLayerEvent),this._layers[t.id]=t,this._order.splice(e?this._order.indexOf(e):1/0,0,t.id),this._updates.allLayers=!0,t.source&&(this._updates.sources[t.source]=!0),this._updates.events.push(["layer.add",{layer:t}]),this.updateClasses(t.id)},removeLayer:function(t){this._checkLoaded();var e=this._layers[t];if(void 0===e)throw new Error("There is no layer with this ID");for(var r in this._layers)this._layers[r].ref===t&&this.removeLayer(r);return e.off("error",this._forwardLayerEvent),delete this._layers[t],delete this._updates.layers[t],delete this._updates.paintProps[t],this._order.splice(this._order.indexOf(t),1),this._updates.allLayers=!0,this._updates.events.push(["layer.remove",{layer:e}]),this._updates.changed=!0,this},getLayer:function(t){return this._layers[t]},getReferentLayer:function(t){var e=this.getLayer(t);return e.ref&&(e=this.getLayer(e.ref)),e},setLayerZoomRange:function(t,e,r){this._checkLoaded();var n=this.getReferentLayer(t);return n.minzoom===e&&n.maxzoom===r?this:(null!=e&&(n.minzoom=e),null!=r&&(n.maxzoom=r),this._updateLayer(n))},setFilter:function(t,e){this._checkLoaded();var r=this.getReferentLayer(t);return null!==e&&this._handleErrors(g.filter,"layers."+r.id+".filter",e)?this:c.deepEqual(r.filter,e)?this:(r.filter=c.clone(e),this._updateLayer(r))},getFilter:function(t){return this.getReferentLayer(t).filter},setLayoutProperty:function(t,e,r){this._checkLoaded();var n=this.getReferentLayer(t);return c.deepEqual(n.getLayoutProperty(e),r)?this:(n.setLayoutProperty(e,r),this._updateLayer(n))},getLayoutProperty:function(t,e){return this.getReferentLayer(t).getLayoutProperty(e)},setPaintProperty:function(t,e,r,n){this._checkLoaded();var i=this.getLayer(t);if(c.deepEqual(i.getPaintProperty(e,n),r))return this;var o=i.isPaintValueFeatureConstant(e);i.setPaintProperty(e,r,n);var a=!(r&&_.isFunctionDefinition(r)&&"$zoom"!==r.property&&void 0!==r.property);return a&&o||(this._updates.layers[t]=!0,i.source&&(this._updates.sources[i.source]=!0)),this.updateClasses(t,e)},getPaintProperty:function(t,e,r){return this.getLayer(t).getPaintProperty(e,r)},updateClasses:function(t,e){if(this._updates.changed=!0,t){var r=this._updates.paintProps;r[t]||(r[t]={}),r[t][e||"all"]=!0}else this._updates.allPaintProps=!0;return this},serialize:function(){return c.filterObject({version:this.stylesheet.version,name:this.stylesheet.name,metadata:this.stylesheet.metadata,center:this.stylesheet.center,zoom:this.stylesheet.zoom,bearing:this.stylesheet.bearing,pitch:this.stylesheet.pitch,sprite:this.stylesheet.sprite,glyphs:this.stylesheet.glyphs,transition:this.stylesheet.transition,sources:c.mapObject(this.sources,function(t){return t.serialize()}),layers:this._order.map(function(t){return this._layers[t].serialize()},this)},function(t){return void 0!==t})},_updateLayer:function(t){return this._updates.layers[t.id]=!0,t.source&&(this._updates.sources[t.source]=!0),this._updates.changed=!0,this},_flattenRenderedFeatures:function(t){for(var e=[],r=this._order.length-1;r>=0;r--)for(var n=this._order[r],i=0;i<t.length;i++){var o=t[i][n];if(o)for(var a=0;a<o.length;a++)e.push(o[a])}return e},queryRenderedFeatures:function(t,e,r,n){e&&e.filter&&this._handleErrors(g.filter,"queryRenderedFeatures.filter",e.filter,!0);var i={};if(e&&e.layers)for(var o=0;o<e.layers.length;o++){var a=e.layers[o];i[this._layers[a].source]=!0}var s=[];for(var l in this.sources)if(!e.layers||i[l]){var u=this.sources[l],c=y.rendered(u,this._layers,t,e,r,n);s.push(c)}return this._flattenRenderedFeatures(s)},querySourceFeatures:function(t,e){e&&e.filter&&this._handleErrors(g.filter,"querySourceFeatures.filter",e.filter,!0);var r=this.sources[t];return r?y.source(r,e):[]},addSourceType:function(t,e,r){return v.getType(t)?r(new Error('A source type called "'+t+'" already 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r=this.sprite;r.loaded()?e(null,{sprite:r.data,retina:r.retina}):r.on("load",function(){e(null,{sprite:r.data,retina:r.retina})})},"get icons":function(t,e){var r=this.sprite,n=this.spriteAtlas;r.loaded()?(n.setSprite(r),n.addIcons(t.icons,e)):r.on("load",function(){n.setSprite(r),n.addIcons(t.icons,e)})},"get glyphs":function(t,e){function r(t,r,n){t&&console.error(t),o[n]=r,i--,0===i&&e(null,o)}var n=t.stacks,i=Object.keys(n).length,o={};for(var a in n)this.glyphSource.getSimpleGlyphs(a,n[a],t.uid,r)}})},{"../render/line_atlas":278,"../source/query_features":288,"../source/source":290,"../source/source_cache":291,"../symbol/glyph_source":323,"../symbol/sprite_atlas":328,"../util/ajax":349,"../util/browser":350,"../util/dispatcher":357,"../util/evented":358,"../util/mapbox":363,"../util/util":366,"./animation_loop":299,"./image_sprite":300,"./style_function":304,"./style_layer":305,"./style_spec":312,"./validate_style":314}],303:[function(t,e,r){"use strict";function n(t,e){this.value=s.clone(e),this.isFunction=o.isFunctionDefinition(e),this.json=JSON.stringify(this.value);var r="color"===t.type&&this.value?a(this.value):e;if(this.calculate=o[t.function||"piecewise-constant"](r),this.isFeatureConstant=this.calculate.isFeatureConstant,this.isZoomConstant=this.calculate.isZoomConstant,"piecewise-constant"===t.function&&t.transition&&(this.calculate=i(this.calculate)),!this.isFeatureConstant&&!this.isZoomConstant){this.stopZoomLevels=[];for(var n=[],l=this.value.stops,u=0;u<this.value.stops.length;u++){var c=l[u][0].zoom;this.stopZoomLevels.indexOf(c)<0&&(this.stopZoomLevels.push(c),n.push([c,n.length]))}this.calculateInterpolationT=o.interpolated({stops:n,base:e.base})}}function i(t){return function(e,r){var n,i,o,a=e.zoom,s=e.zoomHistory,l=e.duration,u=a%1,c=Math.min((Date.now()-s.lastIntegerZoomTime)/l,1),h=1,f=1;return a>s.lastIntegerZoom?(n=u+(1-u)*c,h*=2,i=t({zoom:a-1},r),o=t({zoom:a},r)):(n=1-(1-c)*u,o=t({zoom:a},r),i=t({zoom:a+1},r),h/=2),void 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f="-transition";n.create=function(e,r){var n={background:t("./style_layer/background_style_layer"),circle:t("./style_layer/circle_style_layer"),fill:t("./style_layer/fill_style_layer"),line:t("./style_layer/line_style_layer"),raster:t("./style_layer/raster_style_layer"),symbol:t("./style_layer/symbol_style_layer")};return new n[(r||e).type](e,r)},n.prototype=o.inherit(h,{set:function(t,e){this.id=t.id,this.ref=t.ref,this.metadata=t.metadata,this.type=(e||t).type,this.source=(e||t).source,this.sourceLayer=(e||t)["source-layer"],this.minzoom=(e||t).minzoom,this.maxzoom=(e||t).maxzoom,this.filter=(e||t).filter,this.paint={},this.layout={},this._paintSpecifications=l["paint_"+this.type],this._layoutSpecifications=l["layout_"+this.type],this._paintTransitions={},this._paintTransitionOptions={},this._paintDeclarations={},this._layoutDeclarations={},this._layoutFunctions={};var r,n;for(var i in t){var o=i.match(/^paint(?:\.(.*))?$/);if(o){var a=o[1]||"";for(r in 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n="layers."+this.id+(r?'["paint.'+r+'"].':".paint.")+t;if(o.endsWith(t,f))if(this._paintTransitionOptions[r||""]||(this._paintTransitionOptions[r||""]={}),null===e||void 0===e)delete this._paintTransitionOptions[r||""][t];else{if(this._handleErrors(u.paintProperty,n,t,e))return;this._paintTransitionOptions[r||""][t]=e}else if(this._paintDeclarations[r||""]||(this._paintDeclarations[r||""]={}),null===e||void 0===e)delete this._paintDeclarations[r||""][t];else{if(this._handleErrors(u.paintProperty,n,t,e))return;this._paintDeclarations[r||""][t]=new s(this._paintSpecifications[t],e)}},getPaintProperty:function(t,e){return e=e||"",o.endsWith(t,f)?this._paintTransitionOptions[e]&&this._paintTransitionOptions[e][t]:this._paintDeclarations[e]&&this._paintDeclarations[e][t]&&this._paintDeclarations[e][t].value},getPaintValue:function(t,e,r){var n=this._paintSpecifications[t],i=this._paintTransitions[t];return 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n=""===r?"paint":"paint."+r;e[n]=o.mapObject(this._paintDeclarations[r],i)}return(!this.ref||t&&t.includeRefProperties)&&o.extend(e,{type:this.type,source:this.source,"source-layer":this.sourceLayer,filter:this.filter,layout:o.mapObject(this._layoutDeclarations,i)}),o.filterObject(e,function(t,e){return void 0!==t&&!("layout"===e&&!Object.keys(t).length)})},_applyPaintDeclaration:function(t,e,r,n,i){var l=r.transition?this._paintTransitions[t]:void 0,u=this._paintSpecifications[t];if(null!==e&&void 0!==e||(e=new s(u,u.default)),!l||l.declaration.json!==e.json){var c=o.extend({duration:300,delay:0},n,this.getPaintProperty(t+f)),h=this._paintTransitions[t]=new a(u,e,l,c);h.instant()||(h.loopID=i.set(h.endTime-Date.now())),l&&i.cancel(l.loopID)}},_updateLayoutValue:function(t){var e=this._layoutDeclarations[t];e&&e.isFunction?this._layoutFunctions[t]=!0:(delete this._layoutFunctions[t],this.layout[t]=this.getLayoutValue(t))},_handleErrors:function(t,e,r,n){return u.emitErrors(this,t.call(u,{key:e,layerType:this.type,objectKey:r,value:n,styleSpec:l,style:{glyphs:!0,sprite:!0}}))}})},{"../util/evented":358,"../util/util":366,"./parse_color":301,"./style_declaration":303,"./style_layer/background_style_layer":306,"./style_layer/circle_style_layer":307,"./style_layer/fill_style_layer":308,"./style_layer/line_style_layer":309,"./style_layer/raster_style_layer":310,"./style_layer/symbol_style_layer":311,"./style_spec":312,"./style_transition":313,"./validate_style":314}],306:[function(t,e,r){"use strict";function n(){o.apply(this,arguments)}var i=t("../../util/util"),o=t("../style_layer");e.exports=n,n.prototype=i.inherit(o,{})},{"../../util/util":366,"../style_layer":305}],307:[function(t,e,r){"use strict";function n(){o.apply(this,arguments)}var i=t("../../util/util"),o=t("../style_layer");e.exports=n,n.prototype=i.inherit(o,{})},{"../../util/util":366,"../style_layer":305}],308:[function(t,e,r){"use strict";function n(){o.apply(this,arguments)}var i=t("../../util/util"),o=t("../style_layer");n.prototype=i.inherit(o,{getPaintValue:function(t,e,r){return"fill-outline-color"===t&&void 0===this.getPaintProperty("fill-outline-color")?o.prototype.getPaintValue.call(this,"fill-color",e,r):o.prototype.getPaintValue.call(this,t,e,r)},getPaintValueStopZoomLevels:function(t){return"fill-outline-color"===t&&void 0===this.getPaintProperty("fill-outline-color")?o.prototype.getPaintValueStopZoomLevels.call(this,"fill-color"):o.prototype.getPaintValueStopZoomLevels.call(this,arguments)},getPaintInterpolationT:function(t,e){return"fill-outline-color"===t&&void 0===this.getPaintProperty("fill-outline-color")?o.prototype.getPaintInterpolationT.call(this,"fill-color",e):o.prototype.getPaintInterpolationT.call(this,t,e)},isPaintValueFeatureConstant:function(t){return"fill-outline-color"===t&&void 0===this.getPaintProperty("fill-outline-color")?o.prototype.isPaintValueFeatureConstant.call(this,"fill-color"):o.prototype.isPaintValueFeatureConstant.call(this,t)},isPaintValueZoomConstant:function(t){return"fill-outline-color"===t&&void 0===this.getPaintProperty("fill-outline-color")?o.prototype.isPaintValueZoomConstant.call(this,"fill-color"):o.prototype.isPaintValueZoomConstant.call(this,t)}}),e.exports=n},{"../../util/util":366,"../style_layer":305}],309:[function(t,e,r){"use strict";function n(){o.apply(this,arguments)}var i=t("../../util/util"),o=t("../style_layer");e.exports=n,n.prototype=i.inherit(o,{getPaintValue:function(t,e,r){var n=o.prototype.getPaintValue.apply(this,arguments);if(n&&"line-dasharray"===t){var i=Math.floor(e.zoom);this._flooredZoom!==i&&(this._flooredZoom=i,this._flooredLineWidth=this.getPaintValue("line-width",e,r)),n.fromScale*=this._flooredLineWidth,n.toScale*=this._flooredLineWidth}return n}})},{"../../util/util":366,"../style_layer":305}],310:[function(t,e,r){"use strict";function n(){o.apply(this,arguments)}var i=t("../../util/util"),o=t("../style_layer");e.exports=n,n.prototype=i.inherit(o,{})},{"../../util/util":366,"../style_layer":305}],311:[function(t,e,r){"use strict";function n(){o.apply(this,arguments)}var i=t("../../util/util"),o=t("../style_layer");e.exports=n,n.prototype=i.inherit(o,{isHidden:function(){if(o.prototype.isHidden.apply(this,arguments))return!0;var t=0===this.paint["text-opacity"]||!this.layout["text-field"],e=0===this.paint["icon-opacity"]||!this.layout["icon-image"];return!(!t||!e)},getLayoutValue:function(t,e,r){return("text-rotation-alignment"!==t||"line"!==this.getLayoutValue("symbol-placement",e,r)||this.getLayoutProperty("text-rotation-alignment"))&&("icon-rotation-alignment"!==t||"line"!==this.getLayoutValue("symbol-placement",e,r)||this.getLayoutProperty("icon-rotation-alignment"))?"text-pitch-alignment"!==t||this.getLayoutProperty("text-pitch-alignment")?o.prototype.getLayoutValue.apply(this,arguments):this.getLayoutValue("text-rotation-alignment"):"map";
}})},{"../../util/util":366,"../style_layer":305}],312:[function(t,e,r){"use strict";e.exports=t("mapbox-gl-style-spec/reference/latest")},{"mapbox-gl-style-spec/reference/latest":416}],313:[function(t,e,r){"use strict";function n(t,e,r,n){this.declaration=e,this.startTime=this.endTime=(new Date).getTime(),"piecewise-constant"===t.function&&t.transition?this.interp=i:this.interp=a[t.type],this.oldTransition=r,this.duration=n.duration||0,this.delay=n.delay||0,this.instant()||(this.endTime=this.startTime+this.duration+this.delay,this.ease=o.easeCubicInOut),r&&r.endTime<=this.startTime&&delete r.oldTransition}function i(t,e,r){return void 0===(t&&t.to)||void 0===(e&&e.to)?void 0:{from:t.to,fromScale:t.toScale,to:e.to,toScale:e.toScale,t:r}}var o=t("../util/util"),a=t("../util/interpolate");e.exports=n,n.prototype.instant=function(){return!this.oldTransition||!this.interp||0===this.duration&&0===this.delay},n.prototype.calculate=function(t,e){var r=this.declaration.calculate(o.extend({},t,{duration:this.duration}),e);if(this.instant())return r;var n=t.time||Date.now();if(n<this.endTime){var i=this.oldTransition.calculate(o.extend({},t,{time:this.startTime}),e),a=this.ease((n-this.startTime-this.delay)/this.duration);r=this.interp(i,r,a)}return r}},{"../util/interpolate":360,"../util/util":366}],314:[function(t,e,r){"use strict";e.exports=t("mapbox-gl-style-spec/lib/validate_style.min"),e.exports.emitErrors=function(t,e){if(e&&e.length){for(var r=0;r<e.length;r++)t.fire("error",{error:new Error(e[r].message)});return!0}return!1},e.exports.throwErrors=function(t,e){if(e)for(var r=0;r<e.length;r++)throw new Error(e[r].message)}},{"mapbox-gl-style-spec/lib/validate_style.min":415}],315:[function(t,e,r){"use strict";function n(t,e,r,n){this.x=t,this.y=e,this.angle=r,void 0!==n&&(this.segment=n)}var i=t("point-geometry");e.exports=n,n.prototype=Object.create(i.prototype),n.prototype.clone=function(){return new n(this.x,this.y,this.angle,this.segment)}},{"point-geometry":424}],316:[function(t,e,r){"use strict";function n(t,e,r,n,i){if(void 0===e.segment)return!0;for(var o=e,a=e.segment+1,s=0;s>-r/2;){if(a--,0>a)return!1;s-=t[a].dist(o),o=t[a]}s+=t[a].dist(t[a+1]),a++;for(var l=[],u=0;r/2>s;){var c=t[a-1],h=t[a],f=t[a+1];if(!f)return!1;var p=c.angleTo(h)-h.angleTo(f);for(p=Math.abs((p+3*Math.PI)%(2*Math.PI)-Math.PI),l.push({distance:s,angleDelta:p}),u+=p;s-l[0].distance>n;)u-=l.shift().angleDelta;if(u>i)return!1;a++,s+=h.dist(f)}return!0}e.exports=n},{}],317:[function(t,e,r){"use strict";function n(t,e,r,n,o){for(var a=[],s=0;s<t.length;s++)for(var l,u=t[s],c=0;c<u.length-1;c++){var h=u[c],f=u[c+1];h.x<e&&f.x<e||(h.x<e?h=new i(e,h.y+(f.y-h.y)*((e-h.x)/(f.x-h.x)))._round():f.x<e&&(f=new i(e,h.y+(f.y-h.y)*((e-h.x)/(f.x-h.x)))._round()),h.y<r&&f.y<r||(h.y<r?h=new i(h.x+(f.x-h.x)*((r-h.y)/(f.y-h.y)),r)._round():f.y<r&&(f=new i(h.x+(f.x-h.x)*((r-h.y)/(f.y-h.y)),r)._round()),h.x>=n&&f.x>=n||(h.x>=n?h=new i(n,h.y+(f.y-h.y)*((n-h.x)/(f.x-h.x)))._round():f.x>=n&&(f=new i(n,h.y+(f.y-h.y)*((n-h.x)/(f.x-h.x)))._round()),h.y>=o&&f.y>=o||(h.y>=o?h=new i(h.x+(f.x-h.x)*((o-h.y)/(f.y-h.y)),o)._round():f.y>=o&&(f=new i(h.x+(f.x-h.x)*((o-h.y)/(f.y-h.y)),o)._round()),l&&h.equals(l[l.length-1])||(l=[h],a.push(l)),l.push(f)))))}return a}var i=t("point-geometry");e.exports=n},{"point-geometry":424}],318:[function(t,e,r){"use strict";var n=t("../util/struct_array"),i=t("../util/util"),o=t("point-geometry"),a=e.exports=new n({members:[{type:"Int16",name:"anchorPointX"},{type:"Int16",name:"anchorPointY"},{type:"Int16",name:"x1"},{type:"Int16",name:"y1"},{type:"Int16",name:"x2"},{type:"Int16",name:"y2"},{type:"Float32",name:"maxScale"},{type:"Uint32",name:"featureIndex"},{type:"Uint16",name:"sourceLayerIndex"},{type:"Uint16",name:"bucketIndex"},{type:"Int16",name:"bbox0"},{type:"Int16",name:"bbox1"},{type:"Int16",name:"bbox2"},{type:"Int16",name:"bbox3"},{type:"Float32",name:"placementScale"}]});i.extendAll(a.prototype.StructType.prototype,{get anchorPoint(){return new o(this.anchorPointX,this.anchorPointY)}})},{"../util/struct_array":364,"../util/util":366,"point-geometry":424}],319:[function(t,e,r){"use strict";function n(t,e,r,n,i,o,a,s,l,u,c){var h=a.top*s-l,f=a.bottom*s+l,p=a.left*s-l,d=a.right*s+l;if(this.boxStartIndex=t.length,u){var m=f-h,g=d-p;if(m>0)if(m=Math.max(10*s,m),c){var v=e[r.segment+1].sub(e[r.segment])._unit()._mult(g),y=[r.sub(v),r.add(v)];this._addLineCollisionBoxes(t,y,r,0,g,m,n,i,o)}else this._addLineCollisionBoxes(t,e,r,r.segment,g,m,n,i,o)}else t.emplaceBack(r.x,r.y,p,h,d,f,1/0,n,i,o,0,0,0,0,0);this.boxEndIndex=t.length}e.exports=n,n.prototype._addLineCollisionBoxes=function(t,e,r,n,i,o,a,s,l){var u=o/2,c=Math.floor(i/u),h=-o/2,f=this.boxes,p=r,d=n+1,m=h;do{if(d--,0>d)return f;m-=e[d].dist(p),p=e[d]}while(m>-i/2);for(var g=e[d].dist(e[d+1]),v=0;c>v;v++){for(var y=-i/2+v*u;y>m+g;){if(m+=g,d++,d+1>=e.length)return f;g=e[d].dist(e[d+1])}var b=y-m,x=e[d],_=e[d+1],w=_.sub(x)._unit()._mult(b)._add(x)._round(),M=Math.max(Math.abs(y-h)-u/2,0),k=i/2/M;t.emplaceBack(w.x,w.y,-o/2,-o/2,o/2,o/2,k,a,s,l,0,0,0,0,0)}return f}},{}],320:[function(t,e,r){"use strict";function n(t,e,r){if("object"==typeof t){var n=t;r=e,t=n.angle,e=n.pitch,this.grid=new a(n.grid),this.ignoredGrid=new a(n.ignoredGrid)}else this.grid=new a(o,12,6),this.ignoredGrid=new a(o,12,0);this.angle=t,this.pitch=e;var i=Math.sin(t),s=Math.cos(t);if(this.rotationMatrix=[s,-i,i,s],this.reverseRotationMatrix=[s,i,-i,s],this.yStretch=1/Math.cos(e/180*Math.PI),this.yStretch=Math.pow(this.yStretch,1.3),this.collisionBoxArray=r,0===r.length){r.emplaceBack();var l=32767;r.emplaceBack(0,0,0,-l,0,l,l,0,0,0,0,0,0,0,0,0),r.emplaceBack(o,0,0,-l,0,l,l,0,0,0,0,0,0,0,0,0),r.emplaceBack(0,0,-l,0,l,0,l,0,0,0,0,0,0,0,0,0),r.emplaceBack(0,o,-l,0,l,0,l,0,0,0,0,0,0,0,0,0)}this.tempCollisionBox=r.get(0),this.edges=[r.get(1),r.get(2),r.get(3),r.get(4)]}var i=t("point-geometry"),o=t("../data/bucket").EXTENT,a=t("grid-index");e.exports=n,n.prototype.serialize=function(){var t={angle:this.angle,pitch:this.pitch,grid:this.grid.toArrayBuffer(),ignoredGrid:this.ignoredGrid.toArrayBuffer()};return{data:t,transferables:[t.grid,t.ignoredGrid]}},n.prototype.minScale=.25,n.prototype.maxScale=2,n.prototype.placeCollisionFeature=function(t,e,r){for(var n=this.collisionBoxArray,o=this.minScale,a=this.rotationMatrix,s=this.yStretch,l=t.boxStartIndex;l<t.boxEndIndex;l++){var u=n.get(l),c=u.anchorPoint._matMult(a),h=c.x,f=c.y,p=h+u.x1,d=f+u.y1*s,m=h+u.x2,g=f+u.y2*s;if(u.bbox0=p,u.bbox1=d,u.bbox2=m,u.bbox3=g,!e)for(var v=this.grid.query(p,d,m,g),y=0;y<v.length;y++){var b=n.get(v[y]),x=b.anchorPoint._matMult(a);if(o=this.getPlacementScale(o,c,u,x,b),o>=this.maxScale)return o}if(r){var _;if(this.angle){var w=this.reverseRotationMatrix,M=new i(u.x1,u.y1).matMult(w),k=new i(u.x2,u.y1).matMult(w),A=new i(u.x1,u.y2).matMult(w),T=new i(u.x2,u.y2).matMult(w);_=this.tempCollisionBox,_.anchorPointX=u.anchorPoint.x,_.anchorPointY=u.anchorPoint.y,_.x1=Math.min(M.x,k.x,A.x,T.x),_.y1=Math.min(M.y,k.x,A.x,T.x),_.x2=Math.max(M.x,k.x,A.x,T.x),_.y2=Math.max(M.y,k.x,A.x,T.x),_.maxScale=u.maxScale}else _=u;for(var E=0;E<this.edges.length;E++){var S=this.edges[E];if(o=this.getPlacementScale(o,u.anchorPoint,_,S.anchorPoint,S),o>=this.maxScale)return o}}}return o},n.prototype.queryRenderedSymbols=function(t,e,r,n,o){var a={},s=[],l=this.collisionBoxArray,u=this.rotationMatrix,c=new i(t,e)._matMult(u),h=this.tempCollisionBox;h.anchorX=c.x,h.anchorY=c.y,h.x1=0,h.y1=0,h.x2=r-t,h.y2=n-e,h.maxScale=o,o=h.maxScale;for(var f=[c.x+h.x1/o,c.y+h.y1/o*this.yStretch,c.x+h.x2/o,c.y+h.y2/o*this.yStretch],p=this.grid.query(f[0],f[1],f[2],f[3]),d=this.ignoredGrid.query(f[0],f[1],f[2],f[3]),m=0;m<d.length;m++)p.push(d[m]);for(var g=0;g<p.length;g++){var v=l.get(p[g]),y=v.sourceLayerIndex,b=v.featureIndex;if(void 0===a[y]&&(a[y]={}),!a[y][b]){var x=v.anchorPoint.matMult(u),_=this.getPlacementScale(this.minScale,c,h,x,v);_>=o&&(a[y][b]=!0,s.push(p[g]))}}return s},n.prototype.getPlacementScale=function(t,e,r,n,i){var o=e.x-n.x,a=e.y-n.y,s=(i.x1-r.x2)/o,l=(i.x2-r.x1)/o,u=(i.y1-r.y2)*this.yStretch/a,c=(i.y2-r.y1)*this.yStretch/a;(isNaN(s)||isNaN(l))&&(s=l=1),(isNaN(u)||isNaN(c))&&(u=c=1);var h=Math.min(Math.max(s,l),Math.max(u,c)),f=i.maxScale,p=r.maxScale;return h>f&&(h=f),h>p&&(h=p),h>t&&h>=i.placementScale&&(t=h),t},n.prototype.insertCollisionFeature=function(t,e,r){for(var n=r?this.ignoredGrid:this.grid,i=this.collisionBoxArray,o=t.boxStartIndex;o<t.boxEndIndex;o++){var a=i.get(o);a.placementScale=e,e<this.maxScale&&n.insert(o,a.bbox0,a.bbox1,a.bbox2,a.bbox3)}}},{"../data/bucket":253,"grid-index":392,"point-geometry":424}],321:[function(t,e,r){"use strict";function n(t,e,r,n,o,a,s,l,u){var c=n?.6*a*s:0,h=Math.max(n?n.right-n.left:0,o?o.right-o.left:0),f=0===t[0].x||t[0].x===u||0===t[0].y||t[0].y===u;e/4>e-h*s&&(e=h*s+e/4);var p=2*a,d=f?e/2*l%e:(h/2+p)*s*l%e;return i(t,d,e,c,r,h*s,f,!1,u)}function i(t,e,r,n,l,u,c,h,f){for(var p=u/2,d=0,m=0;m<t.length-1;m++)d+=t[m].dist(t[m+1]);for(var g=0,v=e-r,y=[],b=0;b<t.length-1;b++){for(var x=t[b],_=t[b+1],w=x.dist(_),M=_.angleTo(x);g+w>v+r;){v+=r;var k=(v-g)/w,A=o(x.x,_.x,k),T=o(x.y,_.y,k);if(A>=0&&f>A&&T>=0&&f>T&&v-p>=0&&d>=v+p){var E=new a(A,T,M,b)._round();n&&!s(t,E,u,n,l)||y.push(E)}}g+=w}return h||y.length||c||(y=i(t,g/2,r,n,l,u,c,!0,f)),y}var o=t("../util/interpolate"),a=t("../symbol/anchor"),s=t("./check_max_angle");e.exports=n},{"../symbol/anchor":315,"../util/interpolate":360,"./check_max_angle":316}],322:[function(t,e,r){"use strict";function n(){this.width=s,this.height=s,this.bin=new i(this.width,this.height),this.index={},this.ids={},this.data=new Uint8Array(this.width*this.height)}var i=t("shelf-pack"),o=t("../util/util"),a=4,s=128,l=2048;e.exports=n,n.prototype.getGlyphs=function(){var t,e,r,n={};for(var i in this.ids)t=i.split("#"),e=t[0],r=t[1],n[e]||(n[e]=[]),n[e].push(r);return n},n.prototype.getRects=function(){var t,e,r,n={};for(var i in this.ids)t=i.split("#"),e=t[0],r=t[1],n[e]||(n[e]={}),n[e][r]=this.index[i];return n},n.prototype.addGlyph=function(t,e,r,n){if(!r)return null;var i=e+"#"+r.id;if(this.index[i])return this.ids[i].indexOf(t)<0&&this.ids[i].push(t),this.index[i];if(!r.bitmap)return null;var a=r.width+2*n,s=r.height+2*n,l=1,u=a+2*l,c=s+2*l;u+=4-u%4,c+=4-c%4;var h=this.bin.packOne(u,c);if(h||(this.resize(),h=this.bin.packOne(u,c)),!h)return o.warnOnce("glyph bitmap overflow"),null;this.index[i]=h,this.ids[i]=[t];for(var f=this.data,p=r.bitmap,d=0;s>d;d++)for(var m=this.width*(h.y+d+l)+h.x+l,g=a*d,v=0;a>v;v++)f[m+v]=p[g+v];return this.dirty=!0,h},n.prototype.resize=function(){var t=this.width,e=this.height;if(!(t>=l||e>=l)){this.texture&&(this.gl&&this.gl.deleteTexture(this.texture),this.texture=null),this.width*=a,this.height*=a,this.bin.resize(this.width,this.height);for(var r=new ArrayBuffer(this.width*this.height),n=0;e>n;n++){var i=new Uint8Array(this.data.buffer,e*n,t),o=new Uint8Array(r,e*n*a,t);o.set(i)}this.data=new Uint8Array(r)}},n.prototype.bind=function(t){this.gl=t,this.texture?t.bindTexture(t.TEXTURE_2D,this.texture):(this.texture=t.createTexture(),t.bindTexture(t.TEXTURE_2D,this.texture),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_MAG_FILTER,t.LINEAR),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_MIN_FILTER,t.LINEAR),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_WRAP_S,t.CLAMP_TO_EDGE),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_WRAP_T,t.CLAMP_TO_EDGE),t.texImage2D(t.TEXTURE_2D,0,t.ALPHA,this.width,this.height,0,t.ALPHA,t.UNSIGNED_BYTE,null))},n.prototype.updateTexture=function(t){this.bind(t),this.dirty&&(t.texSubImage2D(t.TEXTURE_2D,0,0,0,this.width,this.height,t.ALPHA,t.UNSIGNED_BYTE,this.data),this.dirty=!1)}},{"../util/util":366,"shelf-pack":427}],323:[function(t,e,r){"use strict";function n(t){this.url=t&&a(t),this.atlases={},this.stacks={},this.loading={}}function i(t,e,r){var n=1;this.advance=t.advance,this.left=t.left-r-n,this.top=t.top+r+n,this.rect=e}function o(t,e,r,n){return n=n||"abc",r.replace("{s}",n[t.length%n.length]).replace("{fontstack}",t).replace("{range}",e)}var a=t("../util/mapbox").normalizeGlyphsURL,s=t("../util/ajax").getArrayBuffer,l=t("../util/glyphs"),u=t("../symbol/glyph_atlas"),c=t("pbf");e.exports=n,n.prototype.getSimpleGlyphs=function(t,e,r,n){void 0===this.stacks[t]&&(this.stacks[t]={}),void 0===this.atlases[t]&&(this.atlases[t]=new u);for(var o,a={},s=this.stacks[t],l=this.atlases[t],c=3,h={},f=0,p=0;p<e.length;p++){var d=e[p];if(o=Math.floor(d/256),s[o]){var m=s[o].glyphs[d],g=l.addGlyph(r,t,m,c);m&&(a[d]=new i(m,g,c))}else void 0===h[o]&&(h[o]=[],f++),h[o].push(d)}f||n(void 0,a,t);var v=function(e,o,s){if(!e)for(var u=this.stacks[t][o]=s.stacks[0],p=0;p<h[o].length;p++){var d=h[o][p],m=u.glyphs[d],g=l.addGlyph(r,t,m,c);m&&(a[d]=new i(m,g,c))}f--,f||n(void 0,a,t)}.bind(this);for(var y in h)this.loadRange(t,y,v)},n.prototype.loadRange=function(t,e,r){if(256*e>65535)return r("glyphs > 65535 not supported");void 0===this.loading[t]&&(this.loading[t]={});var n=this.loading[t];if(n[e])n[e].push(r);else{n[e]=[r];var i=256*e+"-"+(256*e+255),a=o(t,i,this.url);s(a,function(t,r){for(var i=!t&&new l(new c(new Uint8Array(r))),o=0;o<n[e].length;o++)n[e][o](t,e,i);delete n[e]})}},n.prototype.getGlyphAtlas=function(t){return this.atlases[t]}},{"../symbol/glyph_atlas":322,"../util/ajax":349,"../util/glyphs":359,"../util/mapbox":363,pbf:422}],324:[function(t,e,r){"use strict";e.exports=function(t,e,r){function n(n){c.push(t[n]),h.push(r[n]),f.push(e[n]),p++}function i(t,e,r){var n=u[t];return delete u[t],u[e]=n,h[n][0].pop(),h[n][0]=h[n][0].concat(r[0]),n}function o(t,e,r){var n=l[e];return delete l[e],l[t]=n,h[n][0].shift(),h[n][0]=r[0].concat(h[n][0]),n}function a(t,e,r){var n=r?e[0][e[0].length-1]:e[0][0];return t+":"+n.x+":"+n.y}var s,l={},u={},c=[],h=[],f=[],p=0;for(s=0;s<t.length;s++){var d=r[s],m=e[s];if(m){var g=a(m,d),v=a(m,d,!0);if(g in u&&v in l&&u[g]!==l[v]){var y=o(g,v,d),b=i(g,v,h[y]);delete l[g],delete u[v],u[a(m,h[b],!0)]=b,h[y]=null}else g in u?i(g,v,d):v in l?o(g,v,d):(n(s),l[g]=p-1,u[v]=p-1)}else n(s)}return{features:c,textFeatures:f,geometries:h}}},{}],325:[function(t,e,r){"use strict";function n(t,e,r,n,i,o,a,s,l,u){this.anchorPoint=t,this.tl=e,this.tr=r,this.bl=n,this.br=i,this.tex=o,this.anchorAngle=a,this.glyphAngle=s,this.minScale=l,this.maxScale=u}function i(t,e,r,i,o,a,u,c,h){var f,p,d,m,g=e.image.rect,v=o.layout,y=1,b=e.left-y,x=b+g.w/e.image.pixelRatio,_=e.top-y,w=_+g.h/e.image.pixelRatio;if("none"!==v["icon-text-fit"]&&u){var M=x-b,k=w-_,A=v["text-size"]/24,T=u.left*A,E=u.right*A,S=u.top*A,L=u.bottom*A,z=E-T,I=L-S,P=v["icon-text-fit-padding"][0],C=v["icon-text-fit-padding"][1],R=v["icon-text-fit-padding"][2],j=v["icon-text-fit-padding"][3],D="width"===v["icon-text-fit"]?.5*(I-k):0,O="height"===v["icon-text-fit"]?.5*(z-M):0,F="width"===v["icon-text-fit"]||"both"===v["icon-text-fit"]?z:M,N="height"===v["icon-text-fit"]||"both"===v["icon-text-fit"]?I:k;f=new s(T+O-j,S+D-P),p=new s(T+O+C+F,S+D-P),d=new s(T+O+C+F,S+D+R+N),m=new s(T+O-j,S+D+R+N)}else f=new s(b,_),p=new s(x,_),d=new s(x,w),m=new s(b,w);var B=o.getLayoutValue("icon-rotate",c,h)*Math.PI/180;if(a){var U=i[t.segment];if(t.y===U.y&&t.x===U.x&&t.segment+1<i.length){var V=i[t.segment+1];B+=Math.atan2(t.y-V.y,t.x-V.x)+Math.PI}else B+=Math.atan2(t.y-U.y,t.x-U.x)}if(B){var q=Math.sin(B),G=Math.cos(B),H=[G,-q,q,G];f=f.matMult(H),p=p.matMult(H),m=m.matMult(H),d=d.matMult(H)}return[new n(new s(t.x,t.y),f,p,m,d,e.image.rect,0,0,l,1/0)]}function o(t,e,r,i,o,u){for(var c=o.layout["text-rotate"]*Math.PI/180,h=o.layout["text-keep-upright"],f=e.positionedGlyphs,p=[],d=0;d<f.length;d++){var m=f[d],g=m.glyph,v=g.rect;if(v){var y,b=(m.x+g.advance/2)*r,x=l;u?(y=[],x=a(y,t,b,i,t.segment,!0),h&&(x=Math.min(x,a(y,t,b,i,t.segment,!1)))):y=[{anchorPoint:new s(t.x,t.y),offset:0,angle:0,maxScale:1/0,minScale:l}];for(var _=m.x+g.left,w=m.y-g.top,M=_+v.w,k=w+v.h,A=new s(_,w),T=new s(M,w),E=new s(_,k),S=new s(M,k),L=0;L<y.length;L++){var z=y[L],I=A,P=T,C=E,R=S;if(c){var j=Math.sin(c),D=Math.cos(c),O=[D,-j,j,D];I=I.matMult(O),P=P.matMult(O),C=C.matMult(O),R=R.matMult(O)}var F=Math.max(z.minScale,x),N=(t.angle+z.offset+2*Math.PI)%(2*Math.PI),B=(z.angle+z.offset+2*Math.PI)%(2*Math.PI);p.push(new n(z.anchorPoint,I,P,C,R,v,N,B,F,z.maxScale))}}}return p}function a(t,e,r,n,i,o){var a=!o;0>r&&(o=!o),o&&i++;var u=new s(e.x,e.y),c=n[i],h=1/0;r=Math.abs(r);for(var f=l;;){var p=u.dist(c),d=r/p,m=Math.atan2(c.y-u.y,c.x-u.x);if(o||(m+=Math.PI),t.push({anchorPoint:u,offset:a?Math.PI:0,minScale:d,maxScale:h,angle:(m+2*Math.PI)%(2*Math.PI)}),f>=d)break;for(u=c;u.equals(c);)if(i+=o?1:-1,c=n[i],!c)return d;var g=c.sub(u)._unit();u=u.sub(g._mult(p)),h=d}return f}var s=t("point-geometry");e.exports={getIconQuads:i,getGlyphQuads:o,SymbolQuad:n};var l=.5},{"point-geometry":424}],326:[function(t,e,r){"use strict";function n(t,e,r){for(var n=[],o=0,a=t.length;a>o;o++){var s=i(t[o].properties,e["text-field"]);if(s){s=s.toString();var l=e["text-transform"];"uppercase"===l?s=s.toLocaleUpperCase():"lowercase"===l&&(s=s.toLocaleLowerCase());for(var u=0;u<s.length;u++)r[s.charCodeAt(u)]=!0;n[o]=s}else n[o]=null}return n}var i=t("../util/token");e.exports=n},{"../util/token":365}],327:[function(t,e,r){"use strict";function n(t,e,r,n){this.codePoint=t,this.x=e,this.y=r,this.glyph=n}function i(t,e,r,n,i,o){this.positionedGlyphs=t,this.text=e,this.top=r,this.bottom=n,this.left=i,this.right=o}function o(t,e,r,o,s,l,u,c,h){for(var f=[],p=new i(f,t,h[1],h[1],h[0],h[0]),d=-17,m=0,g=d,v=0;v<t.length;v++){var y=t.charCodeAt(v),b=e[y];b&&(f.push(new n(y,m,g,b)),m+=b.advance+c)}return f.length?(a(p,e,o,r,s,l,u,h),p):!1}function a(t,e,r,n,i,o,a,u){var c=null,p=0,d=0,m=0,g=0,v=t.positionedGlyphs;if(n)for(var y=0;y<v.length;y++){var b=v[y];if(b.x-=p,b.y+=r*m,b.x>n&&null!==c){var x=v[c+1].x;g=Math.max(x,g);for(var _=c+1;y>=_;_++)v[_].y+=r,v[_].x-=x;if(a){var w=c;h[v[c].codePoint]&&w--,s(v,e,d,w,a)}d=c+1,c=null,p+=x,m++}f[b.codePoint]&&(c=y)}var M=v[v.length-1],k=M.x+e[M.codePoint].advance;g=Math.max(g,k);var A=(m+1)*r;s(v,e,d,v.length-1,a),l(v,a,i,o,g,r,m,u),t.top+=-o*A,t.bottom=t.top+A,t.left+=-i*g,t.right=t.left+g}function s(t,e,r,n,i){for(var o=e[t[n].codePoint].advance,a=(t[n].x+o)*i,s=r;n>=s;s++)t[s].x-=a}function l(t,e,r,n,i,o,a,s){for(var l=(e-r)*i+s[0],u=(-n*(a+1)+.5)*o+s[1],c=0;c<t.length;c++)t[c].x+=l,t[c].y+=u}function u(t,e){if(!t||!t.rect)return null;var r=e["icon-offset"][0],n=e["icon-offset"][1],i=r-t.width/2,o=i+t.width,a=n-t.height/2,s=a+t.height;return new c(t,a,s,i,o)}function c(t,e,r,n,i){this.image=t,this.top=e,this.bottom=r,this.left=n,this.right=i}e.exports={shapeText:o,shapeIcon:u};var h={32:!0,8203:!0},f={32:!0,38:!0,43:!0,45:!0,47:!0,173:!0,183:!0,8203:!0,8208:!0,8211:!0}},{}],328:[function(t,e,r){"use strict";function n(t,e){this.width=t,this.height=e,this.bin=new a(t,e),this.images={},this.data=!1,this.texture=0,this.filter=0,this.pixelRatio=1,this.dirty=!0}function i(t,e,r,n,i,o,a,s,l,u,c){var h,f,p=n*e+r,d=s*o+a;if(c)for(d-=o,f=-1;u>=f;f++,p=((f+u)%u+n)*e+r,d+=o)for(h=-1;l>=h;h++)i[d+h]=t[p+(h+l)%l];else for(f=0;u>f;f++,p+=e,d+=o)for(h=0;l>h;h++)i[d+h]=t[p+h]}function o(t,e,r,n,i){this.rect=t,this.width=e,this.height=r,this.sdf=n,this.pixelRatio=i}var a=t("shelf-pack"),s=t("../util/browser"),l=t("../util/util");e.exports=n,n.prototype.allocateImage=function(t,e){t/=this.pixelRatio,e/=this.pixelRatio;var r=2,n=t+r+(4-(t+r)%4),i=e+r+(4-(e+r)%4),o=this.bin.packOne(n,i);return o?o:(l.warnOnce("SpriteAtlas out of space."),null)},n.prototype.getImage=function(t,e){if(this.images[t])return this.images[t];if(!this.sprite)return null;var r=this.sprite.getSpritePosition(t);if(!r.width||!r.height)return null;var n=this.allocateImage(r.width,r.height);if(!n)return null;var i=new o(n,r.width/r.pixelRatio,r.height/r.pixelRatio,r.sdf,r.pixelRatio/this.pixelRatio);return this.images[t]=i,this.copy(n,r,e),i},n.prototype.getPosition=function(t,e){var r=this.getImage(t,e),n=r&&r.rect;if(!n)return null;var i=r.width*r.pixelRatio,o=r.height*r.pixelRatio,a=1;return{size:[r.width,r.height],tl:[(n.x+a)/this.width,(n.y+a)/this.height],br:[(n.x+a+i)/this.width,(n.y+a+o)/this.height]}},n.prototype.allocate=function(){if(!this.data){var t=Math.floor(this.width*this.pixelRatio),e=Math.floor(this.height*this.pixelRatio);this.data=new Uint32Array(t*e);for(var r=0;r<this.data.length;r++)this.data[r]=0}},n.prototype.copy=function(t,e,r){if(this.sprite.img.data){var n=new Uint32Array(this.sprite.img.data.buffer);this.allocate();var o=this.data,a=1;i(n,this.sprite.img.width,e.x,e.y,o,this.width*this.pixelRatio,(t.x+a)*this.pixelRatio,(t.y+a)*this.pixelRatio,e.width,e.height,r),this.dirty=!0}},n.prototype.setSprite=function(t){t&&(this.pixelRatio=s.devicePixelRatio>1?2:1,this.canvas&&(this.canvas.width=this.width*this.pixelRatio,this.canvas.height=this.height*this.pixelRatio)),this.sprite=t},n.prototype.addIcons=function(t,e){for(var r=0;r<t.length;r++)this.getImage(t[r]);e(null,this.images)},n.prototype.bind=function(t,e){var r=!1;this.texture?t.bindTexture(t.TEXTURE_2D,this.texture):(this.texture=t.createTexture(),t.bindTexture(t.TEXTURE_2D,this.texture),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_WRAP_S,t.CLAMP_TO_EDGE),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_WRAP_T,t.CLAMP_TO_EDGE),r=!0);var n=e?t.LINEAR:t.NEAREST;n!==this.filter&&(t.texParameteri(t.TEXTURE_2D,t.TEXTURE_MIN_FILTER,n),t.texParameteri(t.TEXTURE_2D,t.TEXTURE_MAG_FILTER,n),this.filter=n),this.dirty&&(this.allocate(),r?t.texImage2D(t.TEXTURE_2D,0,t.RGBA,this.width*this.pixelRatio,this.height*this.pixelRatio,0,t.RGBA,t.UNSIGNED_BYTE,new Uint8Array(this.data.buffer)):t.texSubImage2D(t.TEXTURE_2D,0,0,0,this.width*this.pixelRatio,this.height*this.pixelRatio,t.RGBA,t.UNSIGNED_BYTE,new Uint8Array(this.data.buffer)),this.dirty=!1)}},{"../util/browser":350,"../util/util":366,"shelf-pack":427}],329:[function(t,e,r){"use strict";var n=t("../util/struct_array"),i=t("../util/util"),o=t("point-geometry"),a=e.exports=new n({members:[{type:"Uint16",name:"textBoxStartIndex"},{type:"Uint16",name:"textBoxEndIndex"},{type:"Uint16",name:"iconBoxStartIndex"},{type:"Uint16",name:"iconBoxEndIndex"},{type:"Uint16",name:"glyphQuadStartIndex"},{type:"Uint16",name:"glyphQuadEndIndex"},{type:"Uint16",name:"iconQuadStartIndex"},{type:"Uint16",name:"iconQuadEndIndex"},{type:"Int16",name:"anchorPointX"},{type:"Int16",name:"anchorPointY"},{type:"Int8",name:"index"}]});i.extendAll(a.prototype.StructType.prototype,{get anchorPoint(){return new o(this.anchorPointX,this.anchorPointY)}})},{"../util/struct_array":364,"../util/util":366,"point-geometry":424}],330:[function(t,e,r){"use strict";var n=t("../util/struct_array"),i=t("../util/util"),o=t("point-geometry"),a=t("./quads").SymbolQuad,s=e.exports=new n({members:[{type:"Int16",name:"anchorPointX"},{type:"Int16",name:"anchorPointY"},{type:"Float32",name:"tlX"},{type:"Float32",name:"tlY"},{type:"Float32",name:"trX"},{type:"Float32",name:"trY"},{type:"Float32",name:"blX"},{type:"Float32",name:"blY"},{type:"Float32",name:"brX"},{type:"Float32",name:"brY"},{type:"Int16",name:"texH"},{type:"Int16",name:"texW"},{type:"Int16",name:"texX"},{type:"Int16",name:"texY"},{type:"Float32",name:"anchorAngle"},{type:"Float32",name:"glyphAngle"},{type:"Float32",name:"maxScale"},{type:"Float32",name:"minScale"}]});i.extendAll(s.prototype.StructType.prototype,{get anchorPoint(){return new o(this.anchorPointX,this.anchorPointY)},get SymbolQuad(){return new a(this.anchorPoint,new o(this.tlX,this.tlY),new o(this.trX,this.trY),new o(this.blX,this.blY),new o(this.brX,this.brY),{x:this.texX,y:this.texY,h:this.texH,w:this.texW,height:this.texH,width:this.texW},this.anchorAngle,this.glyphAngle,this.minScale,this.maxScale)}})},{"../util/struct_array":364,"../util/util":366,"./quads":325,"point-geometry":424}],331:[function(t,e,r){"use strict";var n=t("../util/dom"),i=t("point-geometry"),o={scrollZoom:t("./handler/scroll_zoom"),boxZoom:t("./handler/box_zoom"),dragRotate:t("./handler/drag_rotate"),dragPan:t("./handler/drag_pan"),keyboard:t("./handler/keyboard"),doubleClickZoom:t("./handler/dblclick_zoom"),touchZoomRotate:t("./handler/touch_zoom_rotate")};e.exports=function(t,e){function r(t){v("mouseout",t)}function a(e){t.stop(),_=n.mousePos(b,e),v("mousedown",e)}function s(e){var r=t.dragRotate&&t.dragRotate.isActive();x&&!r&&v("contextmenu",x),x=null,v("mouseup",e)}function l(e){if(!(t.dragPan&&t.dragPan.isActive()||t.dragRotate&&t.dragRotate.isActive())){for(var r=e.toElement||e.target;r&&r!==b;)r=r.parentNode;r===b&&v("mousemove",e)}}function u(e){t.stop(),y("touchstart",e),!e.touches||e.touches.length>1||(w?(clearTimeout(w),w=null,v("dblclick",e)):w=setTimeout(p,300))}function c(t){y("touchmove",t)}function h(t){y("touchend",t)}function f(t){y("touchcancel",t)}function p(){w=null}function d(t){var e=n.mousePos(b,t);e.equals(_)&&v("click",t)}function m(t){v("dblclick",t),t.preventDefault()}function g(t){x=t,t.preventDefault()}function v(e,r){var i=n.mousePos(b,r);return t.fire(e,{lngLat:t.unproject(i),point:i,originalEvent:r})}function y(e,r){var o=n.touchPos(b,r),a=o.reduce(function(t,e,r,n){return t.add(e.div(n.length))},new i(0,0));return t.fire(e,{lngLat:t.unproject(a),point:a,lngLats:o.map(function(e){return t.unproject(e)},this),points:o,originalEvent:r})}var b=t.getCanvasContainer(),x=null,_=null,w=null;for(var M in o)t[M]=new o[M](t,e),e.interactive&&e[M]&&t[M].enable();b.addEventListener("mouseout",r,!1),b.addEventListener("mousedown",a,!1),b.addEventListener("mouseup",s,!1),b.addEventListener("mousemove",l,!1),b.addEventListener("touchstart",u,!1),b.addEventListener("touchend",h,!1),b.addEventListener("touchmove",c,!1),b.addEventListener("touchcancel",f,!1),b.addEventListener("click",d,!1),b.addEventListener("dblclick",m,!1),b.addEventListener("contextmenu",g,!1)}},{"../util/dom":352,"./handler/box_zoom":337,"./handler/dblclick_zoom":338,"./handler/drag_pan":339,"./handler/drag_rotate":340,"./handler/keyboard":341,"./handler/scroll_zoom":342,"./handler/touch_zoom_rotate":343,"point-geometry":424}],332:[function(t,e,r){"use strict";var n=t("../util/util"),i=t("../util/interpolate"),o=t("../util/browser"),a=t("../geo/lng_lat"),s=t("../geo/lng_lat_bounds"),l=t("point-geometry"),u=e.exports=function(){};n.extend(u.prototype,{getCenter:function(){return this.transform.center},setCenter:function(t,e){return this.jumpTo({center:t},e),this},panBy:function(t,e,r){return this.panTo(this.transform.center,n.extend({offset:l.convert(t).mult(-1)},e),r),this},panTo:function(t,e,r){return this.easeTo(n.extend({center:t},e),r)},getZoom:function(){return this.transform.zoom},setZoom:function(t,e){return this.jumpTo({zoom:t},e),this},zoomTo:function(t,e,r){return this.easeTo(n.extend({zoom:t},e),r)},zoomIn:function(t,e){return this.zoomTo(this.getZoom()+1,t,e),this},zoomOut:function(t,e){return this.zoomTo(this.getZoom()-1,t,e),this},getBearing:function(){return this.transform.bearing},setBearing:function(t,e){return this.jumpTo({bearing:t},e),this},rotateTo:function(t,e,r){return this.easeTo(n.extend({bearing:t},e),r)},resetNorth:function(t,e){return this.rotateTo(0,n.extend({duration:1e3},t),e),this},snapToNorth:function(t,e){return Math.abs(this.getBearing())<this._bearingSnap?this.resetNorth(t,e):this},getPitch:function(){return this.transform.pitch},setPitch:function(t,e){return this.jumpTo({pitch:t},e),this},fitBounds:function(t,e,r){e=n.extend({padding:0,offset:[0,0],maxZoom:1/0},e),t=s.convert(t);var i=l.convert(e.offset),o=this.transform,a=o.project(t.getNorthWest()),u=o.project(t.getSouthEast()),c=u.sub(a),h=(o.width-2*e.padding-2*Math.abs(i.x))/c.x,f=(o.height-2*e.padding-2*Math.abs(i.y))/c.y;return e.center=o.unproject(a.add(u).div(2)),e.zoom=Math.min(o.scaleZoom(o.scale*Math.min(h,f)),e.maxZoom),e.bearing=0,e.linear?this.easeTo(e,r):this.flyTo(e,r)},jumpTo:function(t,e){this.stop();var r=this.transform,n=!1,i=!1,o=!1;return"zoom"in t&&r.zoom!==+t.zoom&&(n=!0,r.zoom=+t.zoom),"center"in t&&(r.center=a.convert(t.center)),"bearing"in t&&r.bearing!==+t.bearing&&(i=!0,r.bearing=+t.bearing),"pitch"in t&&r.pitch!==+t.pitch&&(o=!0,r.pitch=+t.pitch),this.fire("movestart",e).fire("move",e),n&&this.fire("zoomstart",e).fire("zoom",e).fire("zoomend",e),i&&this.fire("rotate",e),o&&this.fire("pitch",e),this.fire("moveend",e)},easeTo:function(t,e){this.stop(),t=n.extend({offset:[0,0],duration:500,easing:n.ease},t);var r,o,s=this.transform,u=l.convert(t.offset),c=this.getZoom(),h=this.getBearing(),f=this.getPitch(),p="zoom"in t?+t.zoom:c,d="bearing"in t?this._normalizeBearing(t.bearing,h):h,m="pitch"in t?+t.pitch:f;"center"in t?(r=a.convert(t.center),o=s.centerPoint.add(u)):"around"in t?(r=a.convert(t.around),o=s.locationPoint(r)):(o=s.centerPoint.add(u),r=s.pointLocation(o));var g=s.locationPoint(r);return t.animate===!1&&(t.duration=0),this.zooming=p!==c,this.rotating=h!==d,this.pitching=m!==f,t.noMoveStart||this.fire("movestart",e),this.zooming&&this.fire("zoomstart",e),clearTimeout(this._onEaseEnd),this._ease(function(t){this.zooming&&(s.zoom=i(c,p,t)),this.rotating&&(s.bearing=i(h,d,t)),this.pitching&&(s.pitch=i(f,m,t)),s.setLocationAtPoint(r,g.add(o.sub(g)._mult(t))),this.fire("move",e),this.zooming&&this.fire("zoom",e),this.rotating&&this.fire("rotate",e),this.pitching&&this.fire("pitch",e)},function(){t.delayEndEvents?this._onEaseEnd=setTimeout(this._easeToEnd.bind(this,e),t.delayEndEvents):this._easeToEnd(e)}.bind(this),t),this},_easeToEnd:function(t){var e=this.zooming;this.zooming=!1,this.rotating=!1,this.pitching=!1,e&&this.fire("zoomend",t),this.fire("moveend",t)},flyTo:function(t,e){function r(t){var e=(A*A-k*k+(t?-1:1)*L*L*T*T)/(2*(t?A:k)*L*T);return Math.log(Math.sqrt(e*e+1)-e)}function o(t){return(Math.exp(t)-Math.exp(-t))/2}function s(t){return(Math.exp(t)+Math.exp(-t))/2}function u(t){return o(t)/s(t)}this.stop(),t=n.extend({offset:[0,0],speed:1.2,curve:1.42,easing:n.ease},t);var c=this.transform,h=l.convert(t.offset),f=this.getZoom(),p=this.getBearing(),d=this.getPitch(),m="center"in t?a.convert(t.center):this.getCenter(),g="zoom"in t?+t.zoom:f,v="bearing"in t?this._normalizeBearing(t.bearing,p):p,y="pitch"in t?+t.pitch:d;Math.abs(c.center.lng)+Math.abs(m.lng)>180&&(c.center.lng>0&&m.lng<0?m.lng+=360:c.center.lng<0&&m.lng>0&&(m.lng-=360));var b=c.zoomScale(g-f),x=c.point,_="center"in t?c.project(m).sub(h.div(b)):x,w=c.worldSize,M=t.curve,k=Math.max(c.width,c.height),A=k/b,T=_.sub(x).mag();if("minZoom"in t){var E=n.clamp(Math.min(t.minZoom,f,g),c.minZoom,c.maxZoom),S=k/c.zoomScale(E-f);M=Math.sqrt(S/T*2)}var L=M*M,z=r(0),I=function(t){return s(z)/s(z+M*t)},P=function(t){return k*((s(z)*u(z+M*t)-o(z))/L)/T},C=(r(1)-z)/M;if(Math.abs(T)<1e-6){if(Math.abs(k-A)<1e-6)return this.easeTo(t);var R=k>A?-1:1;C=Math.abs(Math.log(A/k))/M,P=function(){return 0},I=function(t){return Math.exp(R*M*t)}}if("duration"in t)t.duration=+t.duration;else{var j="screenSpeed"in t?+t.screenSpeed/M:+t.speed;t.duration=1e3*C/j}return this.zooming=!0,p!==v&&(this.rotating=!0),d!==y&&(this.pitching=!0),this.fire("movestart",e),this.fire("zoomstart",e),this._ease(function(t){var r=t*C,n=P(r);c.zoom=f+c.scaleZoom(1/I(r)),c.center=c.unproject(x.add(_.sub(x).mult(n)),w),this.rotating&&(c.bearing=i(p,v,t)),this.pitching&&(c.pitch=i(d,y,t)),this.fire("move",e),this.fire("zoom",e),this.rotating&&this.fire("rotate",e),this.pitching&&this.fire("pitch",e)},function(){this.zooming=!1,this.rotating=!1,this.pitching=!1,this.fire("zoomend",e),this.fire("moveend",e)},t),this},isEasing:function(){return!!this._abortFn},stop:function(){return this._abortFn&&(this._abortFn(),this._finishEase()),this},_ease:function(t,e,r){this._finishFn=e,this._abortFn=o.timed(function(e){t.call(this,r.easing(e)),1===e&&this._finishEase()},r.animate===!1?0:r.duration,this)},_finishEase:function(){delete this._abortFn;var t=this._finishFn;delete this._finishFn,t.call(this)},_normalizeBearing:function(t,e){t=n.wrap(t,-180,180);var r=Math.abs(t-e);return Math.abs(t-360-e)<r&&(t-=360),Math.abs(t+360-e)<r&&(t+=360),t},_updateEasing:function(t,e,r){var i;
if(this.ease){var o=this.ease,a=(Date.now()-o.start)/o.duration,s=o.easing(a+.01)-o.easing(a),l=.27/Math.sqrt(s*s+1e-4)*.01,u=Math.sqrt(.0729-l*l);i=n.bezier(l,u,.25,1)}else i=r?n.bezier.apply(n,r):n.ease;return this.ease={start:(new Date).getTime(),to:Math.pow(2,e),duration:t,easing:i},i}})},{"../geo/lng_lat":263,"../geo/lng_lat_bounds":264,"../util/browser":350,"../util/interpolate":360,"../util/util":366,"point-geometry":424}],333:[function(t,e,r){"use strict";function n(t){a.setOptions(this,t)}var i=t("./control"),o=t("../../util/dom"),a=t("../../util/util");e.exports=n,n.createAttributionString=function(t){var e=[];for(var r in t){var n=t[r];n.attribution&&e.indexOf(n.attribution)<0&&e.push(n.attribution)}return e.sort(function(t,e){return t.length-e.length}),e=e.filter(function(t,r){for(var n=r+1;n<e.length;n++)if(e[n].indexOf(t)>=0)return!1;return!0}),e.join(" | ")},n.prototype=a.inherit(i,{options:{position:"bottom-right"},onAdd:function(t){var e="mapboxgl-ctrl-attrib",r=this._container=o.create("div",e,t.getContainer());return this._update(),t.on("source.load",this._update.bind(this)),t.on("source.change",this._update.bind(this)),t.on("source.remove",this._update.bind(this)),t.on("moveend",this._updateEditLink.bind(this)),r},_update:function(){this._map.style&&(this._container.innerHTML=n.createAttributionString(this._map.style.sources)),this._editLink=this._container.getElementsByClassName("mapbox-improve-map")[0],this._updateEditLink()},_updateEditLink:function(){if(this._editLink){var t=this._map.getCenter();this._editLink.href="https://www.mapbox.com/map-feedback/#/"+t.lng+"/"+t.lat+"/"+Math.round(this._map.getZoom()+1)}}})},{"../../util/dom":352,"../../util/util":366,"./control":334}],334:[function(t,e,r){"use strict";function n(){}var i=t("../../util/util"),o=t("../../util/evented");e.exports=n,n.prototype={addTo:function(t){this._map=t;var e=this._container=this.onAdd(t);if(this.options&&this.options.position){var r=this.options.position,n=t._controlCorners[r];e.className+=" mapboxgl-ctrl",-1!==r.indexOf("bottom")?n.insertBefore(e,n.firstChild):n.appendChild(e)}return this},remove:function(){return this._container.parentNode.removeChild(this._container),this.onRemove&&this.onRemove(this._map),this._map=null,this}},i.extend(n.prototype,o)},{"../../util/evented":358,"../../util/util":366}],335:[function(t,e,r){"use strict";function n(t){s.setOptions(this,t)}var i=t("./control"),o=t("../../util/browser"),a=t("../../util/dom"),s=t("../../util/util");e.exports=n;var l={enableHighAccuracy:!1,timeout:6e3};n.prototype=s.inherit(i,{options:{position:"top-right"},onAdd:function(t){var e="mapboxgl-ctrl",r=this._container=a.create("div",e+"-group",t.getContainer());return o.supportsGeolocation?(this._container.addEventListener("contextmenu",this._onContextMenu.bind(this)),this._geolocateButton=a.create("button",e+"-icon "+e+"-geolocate",this._container),this._geolocateButton.type="button",this._geolocateButton.addEventListener("click",this._onClickGeolocate.bind(this)),r):r},_onContextMenu:function(t){t.preventDefault()},_onClickGeolocate:function(){navigator.geolocation.getCurrentPosition(this._success.bind(this),this._error.bind(this),l),this._timeoutId=setTimeout(this._finish.bind(this),1e4)},_success:function(t){this._map.jumpTo({center:[t.coords.longitude,t.coords.latitude],zoom:17,bearing:0,pitch:0}),this.fire("geolocate",t),this._finish()},_error:function(t){this.fire("error",t),this._finish()},_finish:function(){this._timeoutId&&clearTimeout(this._timeoutId),this._timeoutId=void 0}})},{"../../util/browser":350,"../../util/dom":352,"../../util/util":366,"./control":334}],336:[function(t,e,r){"use strict";function n(t){s.setOptions(this,t)}function i(t){return new MouseEvent(t.type,{button:2,buttons:2,bubbles:!0,cancelable:!0,detail:t.detail,view:t.view,screenX:t.screenX,screenY:t.screenY,clientX:t.clientX,clientY:t.clientY,movementX:t.movementX,movementY:t.movementY,ctrlKey:t.ctrlKey,shiftKey:t.shiftKey,altKey:t.altKey,metaKey:t.metaKey})}var o=t("./control"),a=t("../../util/dom"),s=t("../../util/util");e.exports=n,n.prototype=s.inherit(o,{options:{position:"top-right"},onAdd:function(t){var e="mapboxgl-ctrl",r=this._container=a.create("div",e+"-group",t.getContainer());return this._container.addEventListener("contextmenu",this._onContextMenu.bind(this)),this._zoomInButton=this._createButton(e+"-icon "+e+"-zoom-in",t.zoomIn.bind(t)),this._zoomOutButton=this._createButton(e+"-icon "+e+"-zoom-out",t.zoomOut.bind(t)),this._compass=this._createButton(e+"-icon "+e+"-compass",t.resetNorth.bind(t)),this._compassArrow=a.create("div","arrow",this._compass),this._compass.addEventListener("mousedown",this._onCompassDown.bind(this)),this._onCompassMove=this._onCompassMove.bind(this),this._onCompassUp=this._onCompassUp.bind(this),t.on("rotate",this._rotateCompassArrow.bind(this)),this._rotateCompassArrow(),this._el=t.getCanvasContainer(),r},_onContextMenu:function(t){t.preventDefault()},_onCompassDown:function(t){0===t.button&&(a.disableDrag(),document.addEventListener("mousemove",this._onCompassMove),document.addEventListener("mouseup",this._onCompassUp),this._el.dispatchEvent(i(t)),t.stopPropagation())},_onCompassMove:function(t){0===t.button&&(this._el.dispatchEvent(i(t)),t.stopPropagation())},_onCompassUp:function(t){0===t.button&&(document.removeEventListener("mousemove",this._onCompassMove),document.removeEventListener("mouseup",this._onCompassUp),a.enableDrag(),this._el.dispatchEvent(i(t)),t.stopPropagation())},_createButton:function(t,e){var r=a.create("button",t,this._container);return r.type="button",r.addEventListener("click",function(){e()}),r},_rotateCompassArrow:function(){var t="rotate("+this._map.transform.angle*(180/Math.PI)+"deg)";this._compassArrow.style.transform=t}})},{"../../util/dom":352,"../../util/util":366,"./control":334}],337:[function(t,e,r){"use strict";function n(t){this._map=t,this._el=t.getCanvasContainer(),this._container=t.getContainer(),a.bindHandlers(this)}var i=t("../../util/dom"),o=t("../../geo/lng_lat_bounds"),a=t("../../util/util");e.exports=n,n.prototype={_enabled:!1,_active:!1,isEnabled:function(){return this._enabled},isActive:function(){return this._active},enable:function(){this.isEnabled()||(this._el.addEventListener("mousedown",this._onMouseDown,!1),this._enabled=!0)},disable:function(){this.isEnabled()&&(this._el.removeEventListener("mousedown",this._onMouseDown),this._enabled=!1)},_onMouseDown:function(t){t.shiftKey&&0===t.button&&(document.addEventListener("mousemove",this._onMouseMove,!1),document.addEventListener("keydown",this._onKeyDown,!1),document.addEventListener("mouseup",this._onMouseUp,!1),i.disableDrag(),this._startPos=i.mousePos(this._el,t),this._active=!0)},_onMouseMove:function(t){var e=this._startPos,r=i.mousePos(this._el,t);this._box||(this._box=i.create("div","mapboxgl-boxzoom",this._container),this._container.classList.add("mapboxgl-crosshair"),this._fireEvent("boxzoomstart",t));var n=Math.min(e.x,r.x),o=Math.max(e.x,r.x),a=Math.min(e.y,r.y),s=Math.max(e.y,r.y);i.setTransform(this._box,"translate("+n+"px,"+a+"px)"),this._box.style.width=o-n+"px",this._box.style.height=s-a+"px"},_onMouseUp:function(t){if(0===t.button){var e=this._startPos,r=i.mousePos(this._el,t),n=new o(this._map.unproject(e),this._map.unproject(r));this._finish(),e.x===r.x&&e.y===r.y?this._fireEvent("boxzoomcancel",t):this._map.fitBounds(n,{linear:!0}).fire("boxzoomend",{originalEvent:t,boxZoomBounds:n})}},_onKeyDown:function(t){27===t.keyCode&&(this._finish(),this._fireEvent("boxzoomcancel",t))},_finish:function(){this._active=!1,document.removeEventListener("mousemove",this._onMouseMove,!1),document.removeEventListener("keydown",this._onKeyDown,!1),document.removeEventListener("mouseup",this._onMouseUp,!1),this._container.classList.remove("mapboxgl-crosshair"),this._box&&(this._box.parentNode.removeChild(this._box),this._box=null),i.enableDrag()},_fireEvent:function(t,e){return this._map.fire(t,{originalEvent:e})}}},{"../../geo/lng_lat_bounds":264,"../../util/dom":352,"../../util/util":366}],338:[function(t,e,r){"use strict";function n(t){this._map=t,this._onDblClick=this._onDblClick.bind(this)}e.exports=n,n.prototype={_enabled:!1,isEnabled:function(){return this._enabled},enable:function(){this.isEnabled()||(this._map.on("dblclick",this._onDblClick),this._enabled=!0)},disable:function(){this.isEnabled()&&(this._map.off("dblclick",this._onDblClick),this._enabled=!1)},_onDblClick:function(t){this._map.zoomTo(this._map.getZoom()+(t.originalEvent.shiftKey?-1:1),{around:t.lngLat},t)}}},{}],339:[function(t,e,r){"use strict";function n(t){this._map=t,this._el=t.getCanvasContainer(),o.bindHandlers(this)}var i=t("../../util/dom"),o=t("../../util/util");e.exports=n;var a=.3,s=o.bezier(0,0,a,1),l=1400,u=2500;n.prototype={_enabled:!1,_active:!1,isEnabled:function(){return this._enabled},isActive:function(){return this._active},enable:function(){this.isEnabled()||(this._el.addEventListener("mousedown",this._onDown),this._el.addEventListener("touchstart",this._onDown),this._enabled=!0)},disable:function(){this.isEnabled()&&(this._el.removeEventListener("mousedown",this._onDown),this._el.removeEventListener("touchstart",this._onDown),this._enabled=!1)},_onDown:function(t){this._ignoreEvent(t)||this.isActive()||(t.touches?(document.addEventListener("touchmove",this._onMove),document.addEventListener("touchend",this._onTouchEnd)):(document.addEventListener("mousemove",this._onMove),document.addEventListener("mouseup",this._onMouseUp)),this._active=!1,this._startPos=this._pos=i.mousePos(this._el,t),this._inertia=[[Date.now(),this._pos]])},_onMove:function(t){if(!this._ignoreEvent(t)){this.isActive()||(this._active=!0,this._fireEvent("dragstart",t),this._fireEvent("movestart",t));var e=i.mousePos(this._el,t),r=this._map;r.stop(),this._drainInertiaBuffer(),this._inertia.push([Date.now(),e]),r.transform.setLocationAtPoint(r.transform.pointLocation(this._pos),e),this._fireEvent("drag",t),this._fireEvent("move",t),this._pos=e,t.preventDefault()}},_onUp:function(t){if(this.isActive()){this._active=!1,this._fireEvent("dragend",t),this._drainInertiaBuffer();var e=function(){this._fireEvent("moveend",t)}.bind(this),r=this._inertia;if(r.length<2)return void e();var n=r[r.length-1],i=r[0],o=n[1].sub(i[1]),c=(n[0]-i[0])/1e3;if(0===c||n[1].equals(i[1]))return void e();var h=o.mult(a/c),f=h.mag();f>l&&(f=l,h._unit()._mult(f));var p=f/(u*a),d=h.mult(-p/2);this._map.panBy(d,{duration:1e3*p,easing:s,noMoveStart:!0},{originalEvent:t})}},_onMouseUp:function(t){this._ignoreEvent(t)||(this._onUp(t),document.removeEventListener("mousemove",this._onMove),document.removeEventListener("mouseup",this._onMouseUp))},_onTouchEnd:function(t){this._ignoreEvent(t)||(this._onUp(t),document.removeEventListener("touchmove",this._onMove),document.removeEventListener("touchend",this._onTouchEnd))},_fireEvent:function(t,e){return this._map.fire(t,{originalEvent:e})},_ignoreEvent:function(t){var e=this._map;if(e.boxZoom&&e.boxZoom.isActive())return!0;if(e.dragRotate&&e.dragRotate.isActive())return!0;if(t.touches)return t.touches.length>1;if(t.ctrlKey)return!0;var r=1,n=0;return"mousemove"===t.type?t.buttons&0===r:t.button!==n},_drainInertiaBuffer:function(){for(var t=this._inertia,e=Date.now(),r=160;t.length>0&&e-t[0][0]>r;)t.shift()}}},{"../../util/dom":352,"../../util/util":366}],340:[function(t,e,r){"use strict";function n(t,e){this._map=t,this._el=t.getCanvasContainer(),this._bearingSnap=e.bearingSnap,a.bindHandlers(this)}var i=t("../../util/dom"),o=t("point-geometry"),a=t("../../util/util");e.exports=n;var s=.25,l=a.bezier(0,0,s,1),u=180,c=720;n.prototype={_enabled:!1,_active:!1,isEnabled:function(){return this._enabled},isActive:function(){return this._active},enable:function(){this.isEnabled()||(this._el.addEventListener("mousedown",this._onDown),this._enabled=!0)},disable:function(){this.isEnabled()&&(this._el.removeEventListener("mousedown",this._onDown),this._enabled=!1)},_onDown:function(t){if(!this._ignoreEvent(t)&&!this.isActive()){document.addEventListener("mousemove",this._onMove),document.addEventListener("mouseup",this._onUp),this._active=!1,this._inertia=[[Date.now(),this._map.getBearing()]],this._startPos=this._pos=i.mousePos(this._el,t),this._center=this._map.transform.centerPoint;var e=this._startPos.sub(this._center),r=e.mag();200>r&&(this._center=this._startPos.add(new o(-200,0)._rotate(e.angle()))),t.preventDefault()}},_onMove:function(t){if(!this._ignoreEvent(t)){this.isActive()||(this._active=!0,this._fireEvent("rotatestart",t),this._fireEvent("movestart",t));var e=this._map;e.stop();var r=this._pos,n=i.mousePos(this._el,t),o=this._center,a=r.sub(o).angleWith(n.sub(o))/Math.PI*180,s=e.getBearing()-a,l=this._inertia,u=l[l.length-1];this._drainInertiaBuffer(),l.push([Date.now(),e._normalizeBearing(s,u[1])]),e.transform.bearing=s,this._fireEvent("rotate",t),this._fireEvent("move",t),this._pos=n}},_onUp:function(t){if(!this._ignoreEvent(t)&&(document.removeEventListener("mousemove",this._onMove),document.removeEventListener("mouseup",this._onUp),this.isActive())){this._active=!1,this._fireEvent("rotateend",t),this._drainInertiaBuffer();var e=this._map,r=e.getBearing(),n=this._inertia,i=function(){Math.abs(r)<this._bearingSnap?e.resetNorth({noMoveStart:!0},{originalEvent:t}):this._fireEvent("moveend",t)}.bind(this);if(n.length<2)return void i();var o=n[0],a=n[n.length-1],h=n[n.length-2],f=e._normalizeBearing(r,h[1]),p=a[1]-o[1],d=0>p?-1:1,m=(a[0]-o[0])/1e3;if(0===p||0===m)return void i();var g=Math.abs(p*(s/m));g>u&&(g=u);var v=g/(c*s),y=d*g*(v/2);f+=y,Math.abs(e._normalizeBearing(f,0))<this._bearingSnap&&(f=e._normalizeBearing(0,f)),e.rotateTo(f,{duration:1e3*v,easing:l,noMoveStart:!0},{originalEvent:t})}},_fireEvent:function(t,e){return this._map.fire(t,{originalEvent:e})},_ignoreEvent:function(t){var e=this._map;if(e.boxZoom&&e.boxZoom.isActive())return!0;if(e.dragPan&&e.dragPan.isActive())return!0;if(t.touches)return t.touches.length>1;var r=t.ctrlKey?1:2,n=t.ctrlKey?0:2;return"mousemove"===t.type?t.buttons&0===r:t.button!==n},_drainInertiaBuffer:function(){for(var t=this._inertia,e=Date.now(),r=160;t.length>0&&e-t[0][0]>r;)t.shift()}}},{"../../util/dom":352,"../../util/util":366,"point-geometry":424}],341:[function(t,e,r){"use strict";function n(t){this._map=t,this._el=t.getCanvasContainer(),this._onKeyDown=this._onKeyDown.bind(this)}e.exports=n;var i=80,o=2,a=5;n.prototype={_enabled:!1,isEnabled:function(){return this._enabled},enable:function(){this.isEnabled()||(this._el.addEventListener("keydown",this._onKeyDown,!1),this._enabled=!0)},disable:function(){this.isEnabled()&&(this._el.removeEventListener("keydown",this._onKeyDown),this._enabled=!1)},_onKeyDown:function(t){if(!(t.altKey||t.ctrlKey||t.metaKey)){var e=this._map,r={originalEvent:t};if(!e.isEasing())switch(t.keyCode){case 61:case 107:case 171:case 187:e.zoomTo(Math.round(e.getZoom())+(t.shiftKey?2:1),r);break;case 189:case 109:case 173:e.zoomTo(Math.round(e.getZoom())-(t.shiftKey?2:1),r);break;case 37:t.shiftKey?e.easeTo({bearing:e.getBearing()-o},r):(t.preventDefault(),e.panBy([-i,0],r));break;case 39:t.shiftKey?e.easeTo({bearing:e.getBearing()+o},r):(t.preventDefault(),e.panBy([i,0],r));break;case 38:t.shiftKey?e.easeTo({pitch:e.getPitch()+a},r):(t.preventDefault(),e.panBy([0,-i],r));break;case 40:t.shiftKey?e.easeTo({pitch:Math.max(e.getPitch()-a,0)},r):(t.preventDefault(),e.panBy([0,i],r))}}}}},{}],342:[function(t,e,r){"use strict";function n(t){this._map=t,this._el=t.getCanvasContainer(),a.bindHandlers(this)}var i=t("../../util/dom"),o=t("../../util/browser"),a=t("../../util/util");e.exports=n;var s="undefined"!=typeof navigator?navigator.userAgent.toLowerCase():"",l=-1!==s.indexOf("firefox"),u=-1!==s.indexOf("safari")&&-1===s.indexOf("chrom");n.prototype={_enabled:!1,isEnabled:function(){return this._enabled},enable:function(){this.isEnabled()||(this._el.addEventListener("wheel",this._onWheel,!1),this._el.addEventListener("mousewheel",this._onWheel,!1),this._enabled=!0)},disable:function(){this.isEnabled()&&(this._el.removeEventListener("wheel",this._onWheel),this._el.removeEventListener("mousewheel",this._onWheel),this._enabled=!1)},_onWheel:function(t){var e;"wheel"===t.type?(e=t.deltaY,l&&t.deltaMode===window.WheelEvent.DOM_DELTA_PIXEL&&(e/=o.devicePixelRatio),t.deltaMode===window.WheelEvent.DOM_DELTA_LINE&&(e*=40)):"mousewheel"===t.type&&(e=-t.wheelDeltaY,u&&(e/=3));var r=o.now(),n=r-(this._time||0);this._pos=i.mousePos(this._el,t),this._time=r,0!==e&&e%4.000244140625===0?(this._type="wheel",e=Math.floor(e/4)):0!==e&&Math.abs(e)<4?this._type="trackpad":n>400?(this._type=null,this._lastValue=e,this._timeout=setTimeout(this._onTimeout,40)):this._type||(this._type=Math.abs(n*e)<200?"trackpad":"wheel",this._timeout&&(clearTimeout(this._timeout),this._timeout=null,e+=this._lastValue)),t.shiftKey&&e&&(e/=4),this._type&&this._zoom(-e,t),t.preventDefault()},_onTimeout:function(){this._type="wheel",this._zoom(-this._lastValue)},_zoom:function(t,e){if(0!==t){var r=this._map,n=2/(1+Math.exp(-Math.abs(t/100)));0>t&&0!==n&&(n=1/n);var i=r.ease?r.ease.to:r.transform.scale,o=r.transform.scaleZoom(i*n);r.zoomTo(o,{duration:0,around:r.unproject(this._pos),delayEndEvents:200},{originalEvent:e})}}}},{"../../util/browser":350,"../../util/dom":352,"../../util/util":366}],343:[function(t,e,r){"use strict";function n(t){this._map=t,this._el=t.getCanvasContainer(),o.bindHandlers(this)}var i=t("../../util/dom"),o=t("../../util/util");e.exports=n;var a=.15,s=o.bezier(0,0,a,1),l=12,u=2.5,c=.15,h=4;n.prototype={_enabled:!1,isEnabled:function(){return this._enabled},enable:function(){this.isEnabled()||(this._el.addEventListener("touchstart",this._onStart,!1),this._enabled=!0)},disable:function(){this.isEnabled()&&(this._el.removeEventListener("touchstart",this._onStart),this._enabled=!1)},disableRotation:function(){this._rotationDisabled=!0},enableRotation:function(){this._rotationDisabled=!1},_onStart:function(t){if(2===t.touches.length){var e=i.mousePos(this._el,t.touches[0]),r=i.mousePos(this._el,t.touches[1]);this._startVec=e.sub(r),this._startScale=this._map.transform.scale,this._startBearing=this._map.transform.bearing,this._gestureIntent=void 0,this._inertia=[],document.addEventListener("touchmove",this._onMove,!1),document.addEventListener("touchend",this._onEnd,!1)}},_onMove:function(t){if(2===t.touches.length){var e=i.mousePos(this._el,t.touches[0]),r=i.mousePos(this._el,t.touches[1]),n=e.add(r).div(2),o=e.sub(r),a=o.mag()/this._startVec.mag(),s=this._rotationDisabled?0:180*o.angleWith(this._startVec)/Math.PI,l=this._map;if(this._gestureIntent){var u={duration:0,around:l.unproject(n)};"rotate"===this._gestureIntent&&(u.bearing=this._startBearing+s),"zoom"!==this._gestureIntent&&"rotate"!==this._gestureIntent||(u.zoom=l.transform.scaleZoom(this._startScale*a)),l.stop(),this._drainInertiaBuffer(),this._inertia.push([Date.now(),a,n]),l.easeTo(u,{originalEvent:t})}else{var f=Math.abs(1-a)>c,p=Math.abs(s)>h;p?this._gestureIntent="rotate":f&&(this._gestureIntent="zoom"),this._gestureIntent&&(this._startVec=o,this._startScale=l.transform.scale,this._startBearing=l.transform.bearing)}t.preventDefault()}},_onEnd:function(t){document.removeEventListener("touchmove",this._onMove),document.removeEventListener("touchend",this._onEnd),this._drainInertiaBuffer();var e=this._inertia,r=this._map;if(e.length<2)return void r.snapToNorth({},{originalEvent:t});var n=e[e.length-1],i=e[0],o=r.transform.scaleZoom(this._startScale*n[1]),c=r.transform.scaleZoom(this._startScale*i[1]),h=o-c,f=(n[0]-i[0])/1e3,p=n[2];if(0===f||o===c)return void r.snapToNorth({},{originalEvent:t});var d=h*a/f;Math.abs(d)>u&&(d=d>0?u:-u);var m=1e3*Math.abs(d/(l*a)),g=o+d*m/2e3;0>g&&(g=0),r.easeTo({zoom:g,duration:m,easing:s,around:r.unproject(p)},{originalEvent:t})},_drainInertiaBuffer:function(){for(var t=this._inertia,e=Date.now(),r=160;t.length>2&&e-t[0][0]>r;)t.shift()}}},{"../../util/dom":352,"../../util/util":366}],344:[function(t,e,r){"use strict";function n(){i.bindAll(["_onHashChange","_updateHash"],this)}e.exports=n;var i=t("../util/util");n.prototype={addTo:function(t){return this._map=t,window.addEventListener("hashchange",this._onHashChange,!1),this._map.on("moveend",this._updateHash),this},remove:function(){return window.removeEventListener("hashchange",this._onHashChange,!1),this._map.off("moveend",this._updateHash),delete this._map,this},_onHashChange:function(){var t=location.hash.replace("#","").split("/");return t.length>=3?(this._map.jumpTo({center:[+t[2],+t[1]],zoom:+t[0],bearing:+(t[3]||0)}),!0):!1},_updateHash:function(){var t=this._map.getCenter(),e=this._map.getZoom(),r=this._map.getBearing(),n=Math.max(0,Math.ceil(Math.log(e)/Math.LN2)),i="#"+Math.round(100*e)/100+"/"+t.lat.toFixed(n)+"/"+t.lng.toFixed(n)+(r?"/"+Math.round(10*r)/10:"");window.history.replaceState("","",i)}}},{"../util/util":366}],345:[function(t,e,r){"use strict";function n(t){t.parentNode&&t.parentNode.removeChild(t)}var i=t("../util/canvas"),o=t("../util/util"),a=t("../util/browser"),s=t("../util/browser").window,l=t("../util/evented"),u=t("../util/dom"),c=t("../style/style"),h=t("../style/animation_loop"),f=t("../render/painter"),p=t("../geo/transform"),d=t("./hash"),m=t("./bind_handlers"),g=t("./camera"),v=t("../geo/lng_lat"),y=t("../geo/lng_lat_bounds"),b=t("point-geometry"),x=t("./control/attribution"),_=0,w=20,M={center:[0,0],zoom:0,bearing:0,pitch:0,minZoom:_,maxZoom:w,interactive:!0,scrollZoom:!0,boxZoom:!0,dragRotate:!0,dragPan:!0,keyboard:!0,doubleClickZoom:!0,touchZoomRotate:!0,bearingSnap:7,hash:!1,attributionControl:!0,failIfMajorPerformanceCaveat:!1,preserveDrawingBuffer:!1,trackResize:!0,workerCount:Math.max(a.hardwareConcurrency-1,1)},k=e.exports=function(t){if(t=o.extend({},M,t),t.workerCount<1)throw new Error("workerCount must an integer greater than or equal to 1.");this._interactive=t.interactive,this._failIfMajorPerformanceCaveat=t.failIfMajorPerformanceCaveat,this._preserveDrawingBuffer=t.preserveDrawingBuffer,this._trackResize=t.trackResize,this._workerCount=t.workerCount,this._bearingSnap=t.bearingSnap,"string"==typeof t.container?this._container=document.getElementById(t.container):this._container=t.container,this.animationLoop=new h,this.transform=new p(t.minZoom,t.maxZoom),t.maxBounds&&this.setMaxBounds(t.maxBounds),o.bindAll(["_forwardStyleEvent","_forwardSourceEvent","_forwardLayerEvent","_forwardTileEvent","_onStyleLoad","_onStyleChange","_onSourceAdd","_onSourceRemove","_onSourceUpdate","_onWindowOnline","_onWindowResize","_update","_render"],this),this._setupContainer(),this._setupPainter(),this.on("move",this._update.bind(this,!1)),this.on("zoom",this._update.bind(this,!0)),this.on("moveend",function(){this.animationLoop.set(300),this._rerender()}.bind(this)),"undefined"!=typeof s&&(s.addEventListener("online",this._onWindowOnline,!1),s.addEventListener("resize",this._onWindowResize,!1)),m(this,t),this._hash=t.hash&&(new d).addTo(this),this._hash&&this._hash._onHashChange()||this.jumpTo({center:t.center,zoom:t.zoom,bearing:t.bearing,pitch:t.pitch}),this.stacks={},this._classes=[],this.resize(),t.classes&&this.setClasses(t.classes),t.style&&this.setStyle(t.style),t.attributionControl&&this.addControl(new x(t.attributionControl));var e=this.fire.bind(this,"error");this.on("style.error",e),this.on("source.error",e),this.on("tile.error",e),this.on("layer.error",e)};o.extend(k.prototype,l),o.extend(k.prototype,g.prototype),o.extend(k.prototype,{addControl:function(t){return t.addTo(this),this},addClass:function(t,e){return this._classes.indexOf(t)>=0||""===t?this:(this._classes.push(t),this._classOptions=e,this.style&&this.style.updateClasses(),this._update(!0))},removeClass:function(t,e){var r=this._classes.indexOf(t);return 0>r||""===t?this:(this._classes.splice(r,1),this._classOptions=e,this.style&&this.style.updateClasses(),this._update(!0))},setClasses:function(t,e){for(var r={},n=0;n<t.length;n++)""!==t[n]&&(r[t[n]]=!0);return this._classes=Object.keys(r),this._classOptions=e,this.style&&this.style.updateClasses(),this._update(!0)},hasClass:function(t){return this._classes.indexOf(t)>=0},getClasses:function(){return this._classes},resize:function(){var t=0,e=0;return this._container&&(t=this._container.offsetWidth||400,e=this._container.offsetHeight||300),this._canvas.resize(t,e),this.transform.resize(t,e),this.painter.resize(t,e),this.fire("movestart").fire("move").fire("resize").fire("moveend")},getBounds:function(){var t=new y(this.transform.pointLocation(new b(0,0)),this.transform.pointLocation(this.transform.size));return(this.transform.angle||this.transform.pitch)&&(t.extend(this.transform.pointLocation(new b(this.transform.size.x,0))),t.extend(this.transform.pointLocation(new b(0,this.transform.size.y)))),t},setMaxBounds:function(t){if(t){var e=y.convert(t);this.transform.lngRange=[e.getWest(),e.getEast()],this.transform.latRange=[e.getSouth(),e.getNorth()],this.transform._constrain(),this._update()}else null!==t&&void 0!==t||(this.transform.lngRange=[],this.transform.latRange=[],this._update());return this},setMinZoom:function(t){if(t=null===t||void 0===t?_:t,t>=_&&t<=this.transform.maxZoom)return this.transform.minZoom=t,this._update(),this.getZoom()<t&&this.setZoom(t),this;throw new Error("minZoom must be between "+_+" and the current maxZoom, inclusive")},setMaxZoom:function(t){if(t=null===t||void 0===t?w:t,t>=this.transform.minZoom&&w>=t)return this.transform.maxZoom=t,this._update(),this.getZoom()>t&&this.setZoom(t),this;throw new Error("maxZoom must be between the current minZoom and "+w+", inclusive")},project:function(t){return this.transform.locationPoint(v.convert(t))},unproject:function(t){return this.transform.pointLocation(b.convert(t))},queryRenderedFeatures:function(){function t(t){return t instanceof b||Array.isArray(t)}var e,r={};return 2===arguments.length?(e=arguments[0],r=arguments[1]):1===arguments.length&&t(arguments[0])?e=arguments[0]:1===arguments.length&&(r=arguments[0]),this.style.queryRenderedFeatures(this._makeQueryGeometry(e),r,this.transform.zoom,this.transform.angle)},_makeQueryGeometry:function(t){void 0===t&&(t=[b.convert([0,0]),b.convert([this.transform.width,this.transform.height])]);var e,r=t instanceof b||"number"==typeof t[0];if(r){var n=b.convert(t);e=[n]}else{var i=[b.convert(t[0]),b.convert(t[1])];e=[i[0],new b(i[1].x,i[0].y),i[1],new b(i[0].x,i[1].y),i[0]]}return e=e.map(function(t){return this.transform.pointCoordinate(t)}.bind(this))},querySourceFeatures:function(t,e){return this.style.querySourceFeatures(t,e)},setStyle:function(t){return this.style&&(this.style.off("load",this._onStyleLoad).off("error",this._forwardStyleEvent).off("change",this._onStyleChange).off("source.add",this._onSourceAdd).off("source.remove",this._onSourceRemove).off("source.load",this._onSourceUpdate).off("source.error",this._forwardSourceEvent).off("source.change",this._onSourceUpdate).off("layer.add",this._forwardLayerEvent).off("layer.remove",this._forwardLayerEvent).off("layer.error",this._forwardLayerEvent).off("tile.add",this._forwardTileEvent).off("tile.remove",this._forwardTileEvent).off("tile.load",this._update).off("tile.error",this._forwardTileEvent).off("tile.stats",this._forwardTileEvent)._remove(),this.off("rotate",this.style._redoPlacement),this.off("pitch",this.style._redoPlacement)),t?(t instanceof c?this.style=t:this.style=new c(t,this.animationLoop,this._workerCount),this.style.on("load",this._onStyleLoad).on("error",this._forwardStyleEvent).on("change",this._onStyleChange).on("source.add",this._onSourceAdd).on("source.remove",this._onSourceRemove).on("source.load",this._onSourceUpdate).on("source.error",this._forwardSourceEvent).on("source.change",this._onSourceUpdate).on("layer.add",this._forwardLayerEvent).on("layer.remove",this._forwardLayerEvent).on("layer.error",this._forwardLayerEvent).on("tile.add",this._forwardTileEvent).on("tile.remove",this._forwardTileEvent).on("tile.load",this._update).on("tile.error",this._forwardTileEvent).on("tile.stats",this._forwardTileEvent),this.on("rotate",this.style._redoPlacement),this.on("pitch",this.style._redoPlacement),this):(this.style=null,this)},getStyle:function(){return this.style?this.style.serialize():void 0},addSource:function(t,e){return this.style.addSource(t,e),this._update(!0),this},addSourceType:function(t,e,r){return this.style.addSourceType(t,e,r)},removeSource:function(t){return this.style.removeSource(t),this._update(!0),this},getSource:function(t){return this.style.getSource(t)},addLayer:function(t,e){return this.style.addLayer(t,e),this._update(!0),this},removeLayer:function(t){return this.style.removeLayer(t),this._update(!0),this},getLayer:function(t){return this.style.getLayer(t)},setFilter:function(t,e){return this.style.setFilter(t,e),this._update(!0),this},setLayerZoomRange:function(t,e,r){return this.style.setLayerZoomRange(t,e,r),this._update(!0),this},getFilter:function(t){return this.style.getFilter(t)},setPaintProperty:function(t,e,r,n){return this.style.setPaintProperty(t,e,r,n),this._update(!0),this},getPaintProperty:function(t,e,r){return this.style.getPaintProperty(t,e,r)},setLayoutProperty:function(t,e,r){return this.style.setLayoutProperty(t,e,r),this._update(!0),this},getLayoutProperty:function(t,e){return this.style.getLayoutProperty(t,e)},getContainer:function(){return 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this._vertices},set vertices(t){this._vertices=t,this._update()}})},{"../geo/lng_lat":263,"../geo/lng_lat_bounds":264,"../geo/transform":265,"../render/painter":279,"../style/animation_loop":299,"../style/style":302,"../util/browser":350,"../util/canvas":351,"../util/dom":352,"../util/evented":358,"../util/util":366,"./bind_handlers":331,"./camera":332,"./control/attribution":333,"./hash":344,"point-geometry":424}],346:[function(t,e,r){"use strict";function n(t,e){t||(t=i.create("div")),t.classList.add("mapboxgl-marker"),this._el=t,this._offset=a.convert(e&&e.offset||[0,0]),this._update=this._update.bind(this)}e.exports=n;var i=t("../util/dom"),o=t("../geo/lng_lat"),a=t("point-geometry");n.prototype={addTo:function(t){return this.remove(),this._map=t,t.getCanvasContainer().appendChild(this._el),t.on("move",this._update),this._update(),this},remove:function(){this._map&&(this._map.off("move",this._update),this._map=null);var t=this._el.parentNode;return 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this._content&&this._content.parentNode&&this._content.parentNode.removeChild(this._content),this._container&&(this._container.parentNode.removeChild(this._container),delete this._container),this._map&&(this._map.off("move",this._update),this._map.off("click",this._onClickClose),delete this._map),this.fire("close"),this},getLngLat:function(){return this._lngLat},setLngLat:function(t){return this._lngLat=s.convert(t),this._update(),this},setText:function(t){return this.setDOMContent(document.createTextNode(t))},setHTML:function(t){var e,r=document.createDocumentFragment(),n=document.createElement("body");for(n.innerHTML=t;;){if(e=n.firstChild,!e)break;r.appendChild(e)}return this.setDOMContent(r)},setDOMContent:function(t){return this._createContent(),this._content.appendChild(t),this._update(),this},_createContent:function(){this._content&&this._content.parentNode&&this._content.parentNode.removeChild(this._content),this._content=a.create("div","mapboxgl-popup-content",this._container),this.options.closeButton&&(this._closeButton=a.create("button","mapboxgl-popup-close-button",this._content),this._closeButton.type="button",this._closeButton.innerHTML="&#215;",this._closeButton.addEventListener("click",this._onClickClose))},_update:function(){if(this._map&&this._lngLat&&this._content){this._container||(this._container=a.create("div","mapboxgl-popup",this._map.getContainer()),this._tip=a.create("div","mapboxgl-popup-tip",this._container),this._container.appendChild(this._content));var t=this._map.project(this._lngLat).round(),e=this.options.anchor;if(!e){var r=this._container.offsetWidth,n=this._container.offsetHeight;e=t.y<n?["top"]:t.y>this._map.transform.height-n?["bottom"]:[],t.x<r/2?e.push("left"):t.x>this._map.transform.width-r/2&&e.push("right"),e=0===e.length?"bottom":e.join("-")}var i={top:"translate(-50%,0)","top-left":"translate(0,0)","top-right":"translate(-100%,0)",bottom:"translate(-50%,-100%)","bottom-left":"translate(0,-100%)","bottom-right":"translate(-100%,-100%)",left:"translate(0,-50%)",right:"translate(-100%,-50%)"},o=this._container.classList;for(var s in i)o.remove("mapboxgl-popup-anchor-"+s);o.add("mapboxgl-popup-anchor-"+e),a.setTransform(this._container,i[e]+" translate("+t.x+"px,"+t.y+"px)")}},_onClickClose:function(){this.remove()}})},{"../geo/lng_lat":263,"../util/dom":352,"../util/evented":358,"../util/util":366}],348:[function(t,e,r){"use strict";function n(t,e){this.target=t,this.parent=e,this.callbacks={},this.callbackID=0,this.receive=this.receive.bind(this),this.target.addEventListener("message",this.receive,!1)}e.exports=n,n.prototype.receive=function(t){function e(t,e,r){this.postMessage({type:"<response>",id:String(i),error:t?String(t):null,data:e},r)}var r,n=t.data,i=n.id;if("<response>"===n.type)r=this.callbacks[n.id],delete this.callbacks[n.id],r&&r(n.error||null,n.data);else if("undefined"!=typeof n.id&&this.parent[n.type])this.parent[n.type](n.data,e.bind(this));else if("undefined"!=typeof n.id&&this.parent.workerSources){var o=n.type.split(".");this.parent.workerSources[o[0]][o[1]](n.data,e.bind(this))}else this.parent[n.type](n.data)},n.prototype.send=function(t,e,r,n){var i=null;r&&(this.callbacks[i=this.callbackID++]=r),this.postMessage({type:t,id:String(i),data:e},n)},n.prototype.postMessage=function(t,e){this.target.postMessage(t,e)}},{}],349:[function(t,e,r){"use strict";function n(t){var e=document.createElement("a");return e.href=t,e.protocol===document.location.protocol&&e.host===document.location.host}r.getJSON=function(t,e){var r=new XMLHttpRequest;return r.open("GET",t,!0),r.setRequestHeader("Accept","application/json"),r.onerror=function(t){e(t)},r.onload=function(){if(r.status>=200&&r.status<300&&r.response){var t;try{t=JSON.parse(r.response)}catch(n){return e(n)}e(null,t)}else e(new Error(r.statusText))},r.send(),r},r.getArrayBuffer=function(t,e){var r=new XMLHttpRequest;return r.open("GET",t,!0),r.responseType="arraybuffer",r.onerror=function(t){e(t)},r.onload=function(){r.status>=200&&r.status<300&&r.response?e(null,r.response):e(new Error(r.statusText))},r.send(),r},r.getImage=function(t,e){return r.getArrayBuffer(t,function(t,r){if(t)return e(t);var n=new Image;n.onload=function(){e(null,n),(window.URL||window.webkitURL).revokeObjectURL(n.src)};var i=new Blob([new Uint8Array(r)],{type:"image/png"});return n.src=(window.URL||window.webkitURL).createObjectURL(i),n.getData=function(){var t=document.createElement("canvas"),e=t.getContext("2d");return t.width=n.width,t.height=n.height,e.drawImage(n,0,0),e.getImageData(0,0,n.width,n.height).data},n})},r.getVideo=function(t,e){var r=document.createElement("video");r.onloadstart=function(){e(null,r)};for(var i=0;i<t.length;i++){var o=document.createElement("source");n(t[i])||(r.crossOrigin="Anonymous"),o.src=t[i],r.appendChild(o)}return r.getData=function(){return r},r}},{}],350:[function(t,e,r){"use strict";r.window=window,e.exports.now=function(){return window.performance&&window.performance.now?window.performance.now.bind(window.performance):Date.now.bind(Date)}();var n=window.requestAnimationFrame||window.mozRequestAnimationFrame||window.webkitRequestAnimationFrame||window.msRequestAnimationFrame;r.frame=function(t){return n(t)};var i=window.cancelAnimationFrame||window.mozCancelAnimationFrame||window.webkitCancelAnimationFrame||window.msCancelAnimationFrame;r.cancelFrame=function(t){i(t)},r.timed=function(t,n,i){function o(l){a||(l=e.exports.now(),l>=s+n?t.call(i,1):(t.call(i,(l-s)/n),r.frame(o)))}if(!n)return t.call(i,1),null;var a=!1,s=e.exports.now();return r.frame(o),function(){a=!0}},r.supported=t("mapbox-gl-supported"),r.hardwareConcurrency=navigator.hardwareConcurrency||4,Object.defineProperty(r,"devicePixelRatio",{get:function(){return window.devicePixelRatio}}),r.supportsWebp=!1;var o=document.createElement("img");o.onload=function(){r.supportsWebp=!0},o.src="data:image/webp;base64,UklGRh4AAABXRUJQVlA4TBEAAAAvAQAAAAfQ//73v/+BiOh/AAA=",r.supportsGeolocation=!!navigator.geolocation},{"mapbox-gl-supported":420}],351:[function(t,e,r){"use strict";function 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t[0]=e[0]+r[0]*n,t[1]=e[1]+r[1]*n,t[2]=e[2]+r[2]*n,t[3]=e[3]+r[3]*n,t},e.exports=i},{"./common.js":383}],385:[function(t,e,r){var n=t("./common.js"),i={};i.create=function(){var t=new n.ARRAY_TYPE(6);return t[0]=1,t[1]=0,t[2]=0,t[3]=1,t[4]=0,t[5]=0,t},i.clone=function(t){var e=new n.ARRAY_TYPE(6);return e[0]=t[0],e[1]=t[1],e[2]=t[2],e[3]=t[3],e[4]=t[4],e[5]=t[5],e},i.copy=function(t,e){return t[0]=e[0],t[1]=e[1],t[2]=e[2],t[3]=e[3],t[4]=e[4],t[5]=e[5],t},i.identity=function(t){return t[0]=1,t[1]=0,t[2]=0,t[3]=1,t[4]=0,t[5]=0,t},i.fromValues=function(t,e,r,i,o,a){var s=new n.ARRAY_TYPE(6);return s[0]=t,s[1]=e,s[2]=r,s[3]=i,s[4]=o,s[5]=a,s},i.set=function(t,e,r,n,i,o,a){return t[0]=e,t[1]=r,t[2]=n,t[3]=i,t[4]=o,t[5]=a,t},i.invert=function(t,e){var r=e[0],n=e[1],i=e[2],o=e[3],a=e[4],s=e[5],l=r*o-n*i;return l?(l=1/l,t[0]=o*l,t[1]=-n*l,t[2]=-i*l,t[3]=r*l,t[4]=(i*s-o*a)*l,t[5]=(n*a-r*s)*l,t):null},i.determinant=function(t){return t[0]*t[3]-t[1]*t[2]},i.multiply=function(t,e,r){var n=e[0],i=e[1],o=e[2],a=e[3],s=e[4],l=e[5],u=r[0],c=r[1],h=r[2],f=r[3],p=r[4],d=r[5];return t[0]=n*u+o*c,t[1]=i*u+a*c,t[2]=n*h+o*f,t[3]=i*h+a*f,t[4]=n*p+o*d+s,t[5]=i*p+a*d+l,t},i.mul=i.multiply,i.rotate=function(t,e,r){var n=e[0],i=e[1],o=e[2],a=e[3],s=e[4],l=e[5],u=Math.sin(r),c=Math.cos(r);return t[0]=n*c+o*u,t[1]=i*c+a*u,t[2]=n*-u+o*c,t[3]=i*-u+a*c,t[4]=s,t[5]=l,t},i.scale=function(t,e,r){var n=e[0],i=e[1],o=e[2],a=e[3],s=e[4],l=e[5],u=r[0],c=r[1];return t[0]=n*u,t[1]=i*u,t[2]=o*c,t[3]=a*c,t[4]=s,t[5]=l,t},i.translate=function(t,e,r){var n=e[0],i=e[1],o=e[2],a=e[3],s=e[4],l=e[5],u=r[0],c=r[1];return t[0]=n,t[1]=i,t[2]=o,t[3]=a,t[4]=n*u+o*c+s,t[5]=i*u+a*c+l,t},i.fromRotation=function(t,e){var r=Math.sin(e),n=Math.cos(e);return t[0]=n,t[1]=r,t[2]=-r,t[3]=n,t[4]=0,t[5]=0,t},i.fromScaling=function(t,e){return t[0]=e[0],t[1]=0,t[2]=0,t[3]=e[1],t[4]=0,t[5]=0,t},i.fromTranslation=function(t,e){return t[0]=1,t[1]=0,t[2]=0,t[3]=1,t[4]=e[0],t[5]=e[1],t},i.str=function(t){return"mat2d("+t[0]+", 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Math.abs(r-u)<=n.EPSILON*Math.max(1,Math.abs(r),Math.abs(u))&&Math.abs(i-c)<=n.EPSILON*Math.max(1,Math.abs(i),Math.abs(c))&&Math.abs(o-h)<=n.EPSILON*Math.max(1,Math.abs(o),Math.abs(h))&&Math.abs(a-f)<=n.EPSILON*Math.max(1,Math.abs(a),Math.abs(f))&&Math.abs(s-p)<=n.EPSILON*Math.max(1,Math.abs(s),Math.abs(p))&&Math.abs(l-d)<=n.EPSILON*Math.max(1,Math.abs(l),Math.abs(d))},e.exports=i},{"./common.js":383}],386:[function(t,e,r){var n=t("./common.js"),i={};i.create=function(){var t=new n.ARRAY_TYPE(9);return t[0]=1,t[1]=0,t[2]=0,t[3]=0,t[4]=1,t[5]=0,t[6]=0,t[7]=0,t[8]=1,t},i.fromMat4=function(t,e){return t[0]=e[0],t[1]=e[1],t[2]=e[2],t[3]=e[4],t[4]=e[5],t[5]=e[6],t[6]=e[8],t[7]=e[9],t[8]=e[10],t},i.clone=function(t){var e=new n.ARRAY_TYPE(9);return e[0]=t[0],e[1]=t[1],e[2]=t[2],e[3]=t[3],e[4]=t[4],e[5]=t[5],e[6]=t[6],e[7]=t[7],e[8]=t[8],e},i.copy=function(t,e){return t[0]=e[0],t[1]=e[1],t[2]=e[2],t[3]=e[3],t[4]=e[4],t[5]=e[5],t[6]=e[6],t[7]=e[7],t[8]=e[8],t},i.fromValues=function(t,e,r,i,o,a,s,l,u){var c=new n.ARRAY_TYPE(9);return c[0]=t,c[1]=e,c[2]=r,c[3]=i,c[4]=o,c[5]=a,c[6]=s,c[7]=l,c[8]=u,c},i.set=function(t,e,r,n,i,o,a,s,l,u){return t[0]=e,t[1]=r,t[2]=n,t[3]=i,t[4]=o,t[5]=a,t[6]=s,t[7]=l,t[8]=u,t},i.identity=function(t){return t[0]=1,t[1]=0,t[2]=0,t[3]=0,t[4]=1,t[5]=0,t[6]=0,t[7]=0,t[8]=1,t},i.transpose=function(t,e){if(t===e){var r=e[1],n=e[2],i=e[5];t[1]=e[3],t[2]=e[6],t[3]=r,t[5]=e[7],t[6]=n,t[7]=i}else t[0]=e[0],t[1]=e[3],t[2]=e[6],t[3]=e[1],t[4]=e[4],t[5]=e[7],t[6]=e[2],t[7]=e[5],t[8]=e[8];return t},i.invert=function(t,e){var r=e[0],n=e[1],i=e[2],o=e[3],a=e[4],s=e[5],l=e[6],u=e[7],c=e[8],h=c*a-s*u,f=-c*o+s*l,p=u*o-a*l,d=r*h+n*f+i*p;return d?(d=1/d,t[0]=h*d,t[1]=(-c*n+i*u)*d,t[2]=(s*n-i*a)*d,t[3]=f*d,t[4]=(c*r-i*l)*d,t[5]=(-s*r+i*o)*d,t[6]=p*d,t[7]=(-u*r+n*l)*d,t[8]=(a*r-n*o)*d,t):null},i.adjoint=function(t,e){var r=e[0],n=e[1],i=e[2],o=e[3],a=e[4],s=e[5],l=e[6],u=e[7],c=e[8];return t[0]=a*c-s*u,t[1]=i*u-n*c,t[2]=n*s-i*a,t[3]=s*l-o*c,t[4]=r*c-i*l,t[5]=i*o-r*s,t[6]=o*u-a*l,t[7]=n*l-r*u,t[8]=r*a-n*o,t},i.determinant=function(t){var e=t[0],r=t[1],n=t[2],i=t[3],o=t[4],a=t[5],s=t[6],l=t[7],u=t[8];return e*(u*o-a*l)+r*(-u*i+a*s)+n*(l*i-o*s)},i.multiply=function(t,e,r){var n=e[0],i=e[1],o=e[2],a=e[3],s=e[4],l=e[5],u=e[6],c=e[7],h=e[8],f=r[0],p=r[1],d=r[2],m=r[3],g=r[4],v=r[5],y=r[6],b=r[7],x=r[8];return t[0]=f*n+p*a+d*u,t[1]=f*i+p*s+d*c,t[2]=f*o+p*l+d*h,t[3]=m*n+g*a+v*u,t[4]=m*i+g*s+v*c,t[5]=m*o+g*l+v*h,t[6]=y*n+b*a+x*u,t[7]=y*i+b*s+x*c,t[8]=y*o+b*l+x*h,t},i.mul=i.multiply,i.translate=function(t,e,r){var n=e[0],i=e[1],o=e[2],a=e[3],s=e[4],l=e[5],u=e[6],c=e[7],h=e[8],f=r[0],p=r[1];return t[0]=n,t[1]=i,t[2]=o,t[3]=a,t[4]=s,t[5]=l,t[6]=f*n+p*a+u,t[7]=f*i+p*s+c,t[8]=f*o+p*l+h,t},i.rotate=function(t,e,r){var n=e[0],i=e[1],o=e[2],a=e[3],s=e[4],l=e[5],u=e[6],c=e[7],h=e[8],f=Math.sin(r),p=Math.cos(r);return t[0]=p*n+f*a,t[1]=p*i+f*s,t[2]=p*o+f*l,t[3]=p*a-f*n,t[4]=p*s-f*i,t[5]=p*l-f*o,t[6]=u,t[7]=c,t[8]=h,t},i.scale=function(t,e,r){var n=r[0],i=r[1];return t[0]=n*e[0],t[1]=n*e[1],t[2]=n*e[2],t[3]=i*e[3],t[4]=i*e[4],t[5]=i*e[5],t[6]=e[6],t[7]=e[7],t[8]=e[8],t},i.fromTranslation=function(t,e){return t[0]=1,t[1]=0,t[2]=0,t[3]=0,t[4]=1,t[5]=0,t[6]=e[0],t[7]=e[1],t[8]=1,t},i.fromRotation=function(t,e){var r=Math.sin(e),n=Math.cos(e);return t[0]=n,t[1]=r,t[2]=0,t[3]=-r,t[4]=n,t[5]=0,t[6]=0,t[7]=0,t[8]=1,t},i.fromScaling=function(t,e){return t[0]=e[0],t[1]=0,t[2]=0,t[3]=0,t[4]=e[1],t[5]=0,t[6]=0,t[7]=0,t[8]=1,t},i.fromMat2d=function(t,e){return t[0]=e[0],t[1]=e[1],t[2]=0,t[3]=e[2],t[4]=e[3],t[5]=0,t[6]=e[4],t[7]=e[5],t[8]=1,t},i.fromQuat=function(t,e){var r=e[0],n=e[1],i=e[2],o=e[3],a=r+r,s=n+n,l=i+i,u=r*a,c=n*a,h=n*s,f=i*a,p=i*s,d=i*l,m=o*a,g=o*s,v=o*l;return t[0]=1-h-d,t[3]=c-v,t[6]=f+g,t[1]=c+v,t[4]=1-u-d,t[7]=p-m,t[2]=f-g,t[5]=p+m,t[8]=1-u-h,t},i.normalFromMat4=function(t,e){var r=e[0],n=e[1],i=e[2],o=e[3],a=e[4],s=e[5],l=e[6],u=e[7],c=e[8],h=e[9],f=e[10],p=e[11],d=e[12],m=e[13],g=e[14],v=e[15],y=r*s-n*a,b=r*l-i*a,x=r*u-o*a,_=n*l-i*s,w=n*u-o*s,M=i*u-o*l,k=c*m-h*d,A=c*g-f*d,T=c*v-p*d,E=h*g-f*m,S=h*v-p*m,L=f*v-p*g,z=y*L-b*S+x*E+_*T-w*A+M*k;return z?(z=1/z,t[0]=(s*L-l*S+u*E)*z,t[1]=(l*T-a*L-u*A)*z,t[2]=(a*S-s*T+u*k)*z,t[3]=(i*S-n*L-o*E)*z,t[4]=(r*L-i*T+o*A)*z,t[5]=(n*T-r*S-o*k)*z,t[6]=(m*M-g*w+v*_)*z,t[7]=(g*x-d*M-v*b)*z,t[8]=(d*w-m*x+v*y)*z,t):null},i.str=function(t){return"mat3("+t[0]+", "+t[1]+", "+t[2]+", "+t[3]+", "+t[4]+", "+t[5]+", "+t[6]+", "+t[7]+", "+t[8]+")"},i.frob=function(t){return Math.sqrt(Math.pow(t[0],2)+Math.pow(t[1],2)+Math.pow(t[2],2)+Math.pow(t[3],2)+Math.pow(t[4],2)+Math.pow(t[5],2)+Math.pow(t[6],2)+Math.pow(t[7],2)+Math.pow(t[8],2))},i.add=function(t,e,r){return t[0]=e[0]+r[0],t[1]=e[1]+r[1],t[2]=e[2]+r[2],t[3]=e[3]+r[3],t[4]=e[4]+r[4],t[5]=e[5]+r[5],t[6]=e[6]+r[6],t[7]=e[7]+r[7],t[8]=e[8]+r[8],t},i.subtract=function(t,e,r){return t[0]=e[0]-r[0],t[1]=e[1]-r[1],t[2]=e[2]-r[2],t[3]=e[3]-r[3],t[4]=e[4]-r[4],t[5]=e[5]-r[5],t[6]=e[6]-r[6],t[7]=e[7]-r[7],t[8]=e[8]-r[8],t},i.sub=i.subtract,i.multiplyScalar=function(t,e,r){return t[0]=e[0]*r,t[1]=e[1]*r,t[2]=e[2]*r,t[3]=e[3]*r,t[4]=e[4]*r,t[5]=e[5]*r,t[6]=e[6]*r,t[7]=e[7]*r,t[8]=e[8]*r,t},i.multiplyScalarAndAdd=function(t,e,r,n){return t[0]=e[0]+r[0]*n,t[1]=e[1]+r[1]*n,t[2]=e[2]+r[2]*n,t[3]=e[3]+r[3]*n,t[4]=e[4]+r[4]*n,t[5]=e[5]+r[5]*n,t[6]=e[6]+r[6]*n,t[7]=e[7]+r[7]*n,t[8]=e[8]+r[8]*n,t},i.exactEquals=function(t,e){return t[0]===e[0]&&t[1]===e[1]&&t[2]===e[2]&&t[3]===e[3]&&t[4]===e[4]&&t[5]===e[5]&&t[6]===e[6]&&t[7]===e[7]&&t[8]===e[8]},i.equals=function(t,e){var r=t[0],i=t[1],o=t[2],a=t[3],s=t[4],l=t[5],u=t[6],c=t[7],h=t[8],f=e[0],p=e[1],d=e[2],m=e[3],g=e[4],v=e[5],y=t[6],b=e[7],x=e[8];return Math.abs(r-f)<=n.EPSILON*Math.max(1,Math.abs(r),Math.abs(f))&&Math.abs(i-p)<=n.EPSILON*Math.max(1,Math.abs(i),Math.abs(p))&&Math.abs(o-d)<=n.EPSILON*Math.max(1,Math.abs(o),Math.abs(d))&&Math.abs(a-m)<=n.EPSILON*Math.max(1,Math.abs(a),Math.abs(m))&&Math.abs(s-g)<=n.EPSILON*Math.max(1,Math.abs(s),Math.abs(g))&&Math.abs(l-v)<=n.EPSILON*Math.max(1,Math.abs(l),Math.abs(v))&&Math.abs(u-y)<=n.EPSILON*Math.max(1,Math.abs(u),Math.abs(y))&&Math.abs(c-b)<=n.EPSILON*Math.max(1,Math.abs(c),Math.abs(b))&&Math.abs(h-x)<=n.EPSILON*Math.max(1,Math.abs(h),Math.abs(x))},e.exports=i},{"./common.js":383}],387:[function(t,e,r){var n=t("./common.js"),i={scalar:{},SIMD:{}};i.create=function(){var t=new n.ARRAY_TYPE(16);return t[0]=1,t[1]=0,t[2]=0,t[3]=0,t[4]=0,t[5]=1,t[6]=0,t[7]=0,t[8]=0,t[9]=0,t[10]=1,t[11]=0,t[12]=0,t[13]=0,t[14]=0,t[15]=1,t},i.clone=function(t){var e=new n.ARRAY_TYPE(16);return e[0]=t[0],e[1]=t[1],e[2]=t[2],e[3]=t[3],e[4]=t[4],e[5]=t[5],e[6]=t[6],e[7]=t[7],e[8]=t[8],e[9]=t[9],e[10]=t[10],e[11]=t[11],e[12]=t[12],e[13]=t[13],e[14]=t[14],e[15]=t[15],e},i.copy=function(t,e){return t[0]=e[0],t[1]=e[1],t[2]=e[2],t[3]=e[3],t[4]=e[4],t[5]=e[5],t[6]=e[6],t[7]=e[7],t[8]=e[8],t[9]=e[9],t[10]=e[10],t[11]=e[11],t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15],t},i.fromValues=function(t,e,r,i,o,a,s,l,u,c,h,f,p,d,m,g){var v=new n.ARRAY_TYPE(16);return v[0]=t,v[1]=e,v[2]=r,v[3]=i,v[4]=o,v[5]=a,v[6]=s,v[7]=l,v[8]=u,v[9]=c,v[10]=h,v[11]=f,v[12]=p,v[13]=d,v[14]=m,v[15]=g,v},i.set=function(t,e,r,n,i,o,a,s,l,u,c,h,f,p,d,m,g){return t[0]=e,t[1]=r,t[2]=n,t[3]=i,t[4]=o,t[5]=a,t[6]=s,t[7]=l,t[8]=u,t[9]=c,t[10]=h,t[11]=f,t[12]=p,t[13]=d,t[14]=m,t[15]=g,t},i.identity=function(t){return t[0]=1,t[1]=0,t[2]=0,t[3]=0,t[4]=0,t[5]=1,t[6]=0,t[7]=0,t[8]=0,t[9]=0,t[10]=1,t[11]=0,t[12]=0,t[13]=0,t[14]=0,t[15]=1,t},i.scalar.transpose=function(t,e){if(t===e){var r=e[1],n=e[2],i=e[3],o=e[6],a=e[7],s=e[11];t[1]=e[4],t[2]=e[8],t[3]=e[12],t[4]=r,t[6]=e[9],t[7]=e[13],t[8]=n,t[9]=o,t[11]=e[14],t[12]=i,t[13]=a,t[14]=s}else t[0]=e[0],t[1]=e[4],t[2]=e[8],t[3]=e[12],t[4]=e[1],t[5]=e[5],t[6]=e[9],t[7]=e[13],t[8]=e[2],t[9]=e[6],t[10]=e[10],t[11]=e[14],t[12]=e[3],t[13]=e[7],t[14]=e[11],t[15]=e[15];return t},i.SIMD.transpose=function(t,e){var r,n,i,o,a,s,l,u,c,h;
return r=SIMD.Float32x4.load(e,0),n=SIMD.Float32x4.load(e,4),i=SIMD.Float32x4.load(e,8),o=SIMD.Float32x4.load(e,12),a=SIMD.Float32x4.shuffle(r,n,0,1,4,5),s=SIMD.Float32x4.shuffle(i,o,0,1,4,5),l=SIMD.Float32x4.shuffle(a,s,0,2,4,6),u=SIMD.Float32x4.shuffle(a,s,1,3,5,7),SIMD.Float32x4.store(t,0,l),SIMD.Float32x4.store(t,4,u),a=SIMD.Float32x4.shuffle(r,n,2,3,6,7),s=SIMD.Float32x4.shuffle(i,o,2,3,6,7),c=SIMD.Float32x4.shuffle(a,s,0,2,4,6),h=SIMD.Float32x4.shuffle(a,s,1,3,5,7),SIMD.Float32x4.store(t,8,c),SIMD.Float32x4.store(t,12,h),t},i.transpose=n.USE_SIMD?i.SIMD.transpose:i.scalar.transpose,i.scalar.invert=function(t,e){var r=e[0],n=e[1],i=e[2],o=e[3],a=e[4],s=e[5],l=e[6],u=e[7],c=e[8],h=e[9],f=e[10],p=e[11],d=e[12],m=e[13],g=e[14],v=e[15],y=r*s-n*a,b=r*l-i*a,x=r*u-o*a,_=n*l-i*s,w=n*u-o*s,M=i*u-o*l,k=c*m-h*d,A=c*g-f*d,T=c*v-p*d,E=h*g-f*m,S=h*v-p*m,L=f*v-p*g,z=y*L-b*S+x*E+_*T-w*A+M*k;return z?(z=1/z,t[0]=(s*L-l*S+u*E)*z,t[1]=(i*S-n*L-o*E)*z,t[2]=(m*M-g*w+v*_)*z,t[3]=(f*w-h*M-p*_)*z,t[4]=(l*T-a*L-u*A)*z,t[5]=(r*L-i*T+o*A)*z,t[6]=(g*x-d*M-v*b)*z,t[7]=(c*M-f*x+p*b)*z,t[8]=(a*S-s*T+u*k)*z,t[9]=(n*T-r*S-o*k)*z,t[10]=(d*w-m*x+v*y)*z,t[11]=(h*x-c*w-p*y)*z,t[12]=(s*A-a*E-l*k)*z,t[13]=(r*E-n*A+i*k)*z,t[14]=(m*b-d*_-g*y)*z,t[15]=(c*_-h*b+f*y)*z,t):null},i.SIMD.invert=function(t,e){var r,n,i,o,a,s,l,u,c,h,f=SIMD.Float32x4.load(e,0),p=SIMD.Float32x4.load(e,4),d=SIMD.Float32x4.load(e,8),m=SIMD.Float32x4.load(e,12);return a=SIMD.Float32x4.shuffle(f,p,0,1,4,5),n=SIMD.Float32x4.shuffle(d,m,0,1,4,5),r=SIMD.Float32x4.shuffle(a,n,0,2,4,6),n=SIMD.Float32x4.shuffle(n,a,1,3,5,7),a=SIMD.Float32x4.shuffle(f,p,2,3,6,7),o=SIMD.Float32x4.shuffle(d,m,2,3,6,7),i=SIMD.Float32x4.shuffle(a,o,0,2,4,6),o=SIMD.Float32x4.shuffle(o,a,1,3,5,7),a=SIMD.Float32x4.mul(i,o),a=SIMD.Float32x4.swizzle(a,1,0,3,2),s=SIMD.Float32x4.mul(n,a),l=SIMD.Float32x4.mul(r,a),a=SIMD.Float32x4.swizzle(a,2,3,0,1),s=SIMD.Float32x4.sub(SIMD.Float32x4.mul(n,a),s),l=SIMD.Float32x4.sub(SIMD.Float32x4.mul(r,a),l),l=SIMD.Float32x4.swizzle(l,2,3,0,1),a=SIMD.Float32x4.mul(n,i),a=SIMD.Float32x4.swizzle(a,1,0,3,2),s=SIMD.Float32x4.add(SIMD.Float32x4.mul(o,a),s),c=SIMD.Float32x4.mul(r,a),a=SIMD.Float32x4.swizzle(a,2,3,0,1),s=SIMD.Float32x4.sub(s,SIMD.Float32x4.mul(o,a)),c=SIMD.Float32x4.sub(SIMD.Float32x4.mul(r,a),c),c=SIMD.Float32x4.swizzle(c,2,3,0,1),a=SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(n,2,3,0,1),o),a=SIMD.Float32x4.swizzle(a,1,0,3,2),i=SIMD.Float32x4.swizzle(i,2,3,0,1),s=SIMD.Float32x4.add(SIMD.Float32x4.mul(i,a),s),u=SIMD.Float32x4.mul(r,a),a=SIMD.Float32x4.swizzle(a,2,3,0,1),s=SIMD.Float32x4.sub(s,SIMD.Float32x4.mul(i,a)),u=SIMD.Float32x4.sub(SIMD.Float32x4.mul(r,a),u),u=SIMD.Float32x4.swizzle(u,2,3,0,1),a=SIMD.Float32x4.mul(r,n),a=SIMD.Float32x4.swizzle(a,1,0,3,2),u=SIMD.Float32x4.add(SIMD.Float32x4.mul(o,a),u),c=SIMD.Float32x4.sub(SIMD.Float32x4.mul(i,a),c),a=SIMD.Float32x4.swizzle(a,2,3,0,1),u=SIMD.Float32x4.sub(SIMD.Float32x4.mul(o,a),u),c=SIMD.Float32x4.sub(c,SIMD.Float32x4.mul(i,a)),a=SIMD.Float32x4.mul(r,o),a=SIMD.Float32x4.swizzle(a,1,0,3,2),l=SIMD.Float32x4.sub(l,SIMD.Float32x4.mul(i,a)),u=SIMD.Float32x4.add(SIMD.Float32x4.mul(n,a),u),a=SIMD.Float32x4.swizzle(a,2,3,0,1),l=SIMD.Float32x4.add(SIMD.Float32x4.mul(i,a),l),u=SIMD.Float32x4.sub(u,SIMD.Float32x4.mul(n,a)),a=SIMD.Float32x4.mul(r,i),a=SIMD.Float32x4.swizzle(a,1,0,3,2),l=SIMD.Float32x4.add(SIMD.Float32x4.mul(o,a),l),c=SIMD.Float32x4.sub(c,SIMD.Float32x4.mul(n,a)),a=SIMD.Float32x4.swizzle(a,2,3,0,1),l=SIMD.Float32x4.sub(l,SIMD.Float32x4.mul(o,a)),c=SIMD.Float32x4.add(SIMD.Float32x4.mul(n,a),c),h=SIMD.Float32x4.mul(r,s),h=SIMD.Float32x4.add(SIMD.Float32x4.swizzle(h,2,3,0,1),h),h=SIMD.Float32x4.add(SIMD.Float32x4.swizzle(h,1,0,3,2),h),a=SIMD.Float32x4.reciprocalApproximation(h),h=SIMD.Float32x4.sub(SIMD.Float32x4.add(a,a),SIMD.Float32x4.mul(h,SIMD.Float32x4.mul(a,a))),(h=SIMD.Float32x4.swizzle(h,0,0,0,0))?(SIMD.Float32x4.store(t,0,SIMD.Float32x4.mul(h,s)),SIMD.Float32x4.store(t,4,SIMD.Float32x4.mul(h,l)),SIMD.Float32x4.store(t,8,SIMD.Float32x4.mul(h,u)),SIMD.Float32x4.store(t,12,SIMD.Float32x4.mul(h,c)),t):null},i.invert=n.USE_SIMD?i.SIMD.invert:i.scalar.invert,i.scalar.adjoint=function(t,e){var r=e[0],n=e[1],i=e[2],o=e[3],a=e[4],s=e[5],l=e[6],u=e[7],c=e[8],h=e[9],f=e[10],p=e[11],d=e[12],m=e[13],g=e[14],v=e[15];return t[0]=s*(f*v-p*g)-h*(l*v-u*g)+m*(l*p-u*f),t[1]=-(n*(f*v-p*g)-h*(i*v-o*g)+m*(i*p-o*f)),t[2]=n*(l*v-u*g)-s*(i*v-o*g)+m*(i*u-o*l),t[3]=-(n*(l*p-u*f)-s*(i*p-o*f)+h*(i*u-o*l)),t[4]=-(a*(f*v-p*g)-c*(l*v-u*g)+d*(l*p-u*f)),t[5]=r*(f*v-p*g)-c*(i*v-o*g)+d*(i*p-o*f),t[6]=-(r*(l*v-u*g)-a*(i*v-o*g)+d*(i*u-o*l)),t[7]=r*(l*p-u*f)-a*(i*p-o*f)+c*(i*u-o*l),t[8]=a*(h*v-p*m)-c*(s*v-u*m)+d*(s*p-u*h),t[9]=-(r*(h*v-p*m)-c*(n*v-o*m)+d*(n*p-o*h)),t[10]=r*(s*v-u*m)-a*(n*v-o*m)+d*(n*u-o*s),t[11]=-(r*(s*p-u*h)-a*(n*p-o*h)+c*(n*u-o*s)),t[12]=-(a*(h*g-f*m)-c*(s*g-l*m)+d*(s*f-l*h)),t[13]=r*(h*g-f*m)-c*(n*g-i*m)+d*(n*f-i*h),t[14]=-(r*(s*g-l*m)-a*(n*g-i*m)+d*(n*l-i*s)),t[15]=r*(s*f-l*h)-a*(n*f-i*h)+c*(n*l-i*s),t},i.SIMD.adjoint=function(t,e){var r,n,i,o,a,s,l,u,c,h,f,p,d,r=SIMD.Float32x4.load(e,0),n=SIMD.Float32x4.load(e,4),i=SIMD.Float32x4.load(e,8),o=SIMD.Float32x4.load(e,12);return c=SIMD.Float32x4.shuffle(r,n,0,1,4,5),s=SIMD.Float32x4.shuffle(i,o,0,1,4,5),a=SIMD.Float32x4.shuffle(c,s,0,2,4,6),s=SIMD.Float32x4.shuffle(s,c,1,3,5,7),c=SIMD.Float32x4.shuffle(r,n,2,3,6,7),u=SIMD.Float32x4.shuffle(i,o,2,3,6,7),l=SIMD.Float32x4.shuffle(c,u,0,2,4,6),u=SIMD.Float32x4.shuffle(u,c,1,3,5,7),c=SIMD.Float32x4.mul(l,u),c=SIMD.Float32x4.swizzle(c,1,0,3,2),h=SIMD.Float32x4.mul(s,c),f=SIMD.Float32x4.mul(a,c),c=SIMD.Float32x4.swizzle(c,2,3,0,1),h=SIMD.Float32x4.sub(SIMD.Float32x4.mul(s,c),h),f=SIMD.Float32x4.sub(SIMD.Float32x4.mul(a,c),f),f=SIMD.Float32x4.swizzle(f,2,3,0,1),c=SIMD.Float32x4.mul(s,l),c=SIMD.Float32x4.swizzle(c,1,0,3,2),h=SIMD.Float32x4.add(SIMD.Float32x4.mul(u,c),h),d=SIMD.Float32x4.mul(a,c),c=SIMD.Float32x4.swizzle(c,2,3,0,1),h=SIMD.Float32x4.sub(h,SIMD.Float32x4.mul(u,c)),d=SIMD.Float32x4.sub(SIMD.Float32x4.mul(a,c),d),d=SIMD.Float32x4.swizzle(d,2,3,0,1),c=SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(s,2,3,0,1),u),c=SIMD.Float32x4.swizzle(c,1,0,3,2),l=SIMD.Float32x4.swizzle(l,2,3,0,1),h=SIMD.Float32x4.add(SIMD.Float32x4.mul(l,c),h),p=SIMD.Float32x4.mul(a,c),c=SIMD.Float32x4.swizzle(c,2,3,0,1),h=SIMD.Float32x4.sub(h,SIMD.Float32x4.mul(l,c)),p=SIMD.Float32x4.sub(SIMD.Float32x4.mul(a,c),p),p=SIMD.Float32x4.swizzle(p,2,3,0,1),c=SIMD.Float32x4.mul(a,s),c=SIMD.Float32x4.swizzle(c,1,0,3,2),p=SIMD.Float32x4.add(SIMD.Float32x4.mul(u,c),p),d=SIMD.Float32x4.sub(SIMD.Float32x4.mul(l,c),d),c=SIMD.Float32x4.swizzle(c,2,3,0,1),p=SIMD.Float32x4.sub(SIMD.Float32x4.mul(u,c),p),d=SIMD.Float32x4.sub(d,SIMD.Float32x4.mul(l,c)),c=SIMD.Float32x4.mul(a,u),c=SIMD.Float32x4.swizzle(c,1,0,3,2),f=SIMD.Float32x4.sub(f,SIMD.Float32x4.mul(l,c)),p=SIMD.Float32x4.add(SIMD.Float32x4.mul(s,c),p),c=SIMD.Float32x4.swizzle(c,2,3,0,1),f=SIMD.Float32x4.add(SIMD.Float32x4.mul(l,c),f),p=SIMD.Float32x4.sub(p,SIMD.Float32x4.mul(s,c)),c=SIMD.Float32x4.mul(a,l),c=SIMD.Float32x4.swizzle(c,1,0,3,2),f=SIMD.Float32x4.add(SIMD.Float32x4.mul(u,c),f),d=SIMD.Float32x4.sub(d,SIMD.Float32x4.mul(s,c)),c=SIMD.Float32x4.swizzle(c,2,3,0,1),f=SIMD.Float32x4.sub(f,SIMD.Float32x4.mul(u,c)),d=SIMD.Float32x4.add(SIMD.Float32x4.mul(s,c),d),SIMD.Float32x4.store(t,0,h),SIMD.Float32x4.store(t,4,f),SIMD.Float32x4.store(t,8,p),SIMD.Float32x4.store(t,12,d),t},i.adjoint=n.USE_SIMD?i.SIMD.adjoint:i.scalar.adjoint,i.determinant=function(t){var e=t[0],r=t[1],n=t[2],i=t[3],o=t[4],a=t[5],s=t[6],l=t[7],u=t[8],c=t[9],h=t[10],f=t[11],p=t[12],d=t[13],m=t[14],g=t[15],v=e*a-r*o,y=e*s-n*o,b=e*l-i*o,x=r*s-n*a,_=r*l-i*a,w=n*l-i*s,M=u*d-c*p,k=u*m-h*p,A=u*g-f*p,T=c*m-h*d,E=c*g-f*d,S=h*g-f*m;return v*S-y*E+b*T+x*A-_*k+w*M},i.SIMD.multiply=function(t,e,r){var n=SIMD.Float32x4.load(e,0),i=SIMD.Float32x4.load(e,4),o=SIMD.Float32x4.load(e,8),a=SIMD.Float32x4.load(e,12),s=SIMD.Float32x4.load(r,0),l=SIMD.Float32x4.add(SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(s,0,0,0,0),n),SIMD.Float32x4.add(SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(s,1,1,1,1),i),SIMD.Float32x4.add(SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(s,2,2,2,2),o),SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(s,3,3,3,3),a))));SIMD.Float32x4.store(t,0,l);var u=SIMD.Float32x4.load(r,4),c=SIMD.Float32x4.add(SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(u,0,0,0,0),n),SIMD.Float32x4.add(SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(u,1,1,1,1),i),SIMD.Float32x4.add(SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(u,2,2,2,2),o),SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(u,3,3,3,3),a))));SIMD.Float32x4.store(t,4,c);var h=SIMD.Float32x4.load(r,8),f=SIMD.Float32x4.add(SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(h,0,0,0,0),n),SIMD.Float32x4.add(SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(h,1,1,1,1),i),SIMD.Float32x4.add(SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(h,2,2,2,2),o),SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(h,3,3,3,3),a))));SIMD.Float32x4.store(t,8,f);var p=SIMD.Float32x4.load(r,12),d=SIMD.Float32x4.add(SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(p,0,0,0,0),n),SIMD.Float32x4.add(SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(p,1,1,1,1),i),SIMD.Float32x4.add(SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(p,2,2,2,2),o),SIMD.Float32x4.mul(SIMD.Float32x4.swizzle(p,3,3,3,3),a))));return SIMD.Float32x4.store(t,12,d),t},i.scalar.multiply=function(t,e,r){var n=e[0],i=e[1],o=e[2],a=e[3],s=e[4],l=e[5],u=e[6],c=e[7],h=e[8],f=e[9],p=e[10],d=e[11],m=e[12],g=e[13],v=e[14],y=e[15],b=r[0],x=r[1],_=r[2],w=r[3];return t[0]=b*n+x*s+_*h+w*m,t[1]=b*i+x*l+_*f+w*g,t[2]=b*o+x*u+_*p+w*v,t[3]=b*a+x*c+_*d+w*y,b=r[4],x=r[5],_=r[6],w=r[7],t[4]=b*n+x*s+_*h+w*m,t[5]=b*i+x*l+_*f+w*g,t[6]=b*o+x*u+_*p+w*v,t[7]=b*a+x*c+_*d+w*y,b=r[8],x=r[9],_=r[10],w=r[11],t[8]=b*n+x*s+_*h+w*m,t[9]=b*i+x*l+_*f+w*g,t[10]=b*o+x*u+_*p+w*v,t[11]=b*a+x*c+_*d+w*y,b=r[12],x=r[13],_=r[14],w=r[15],t[12]=b*n+x*s+_*h+w*m,t[13]=b*i+x*l+_*f+w*g,t[14]=b*o+x*u+_*p+w*v,t[15]=b*a+x*c+_*d+w*y,t},i.multiply=n.USE_SIMD?i.SIMD.multiply:i.scalar.multiply,i.mul=i.multiply,i.scalar.translate=function(t,e,r){var n,i,o,a,s,l,u,c,h,f,p,d,m=r[0],g=r[1],v=r[2];return e===t?(t[12]=e[0]*m+e[4]*g+e[8]*v+e[12],t[13]=e[1]*m+e[5]*g+e[9]*v+e[13],t[14]=e[2]*m+e[6]*g+e[10]*v+e[14],t[15]=e[3]*m+e[7]*g+e[11]*v+e[15]):(n=e[0],i=e[1],o=e[2],a=e[3],s=e[4],l=e[5],u=e[6],c=e[7],h=e[8],f=e[9],p=e[10],d=e[11],t[0]=n,t[1]=i,t[2]=o,t[3]=a,t[4]=s,t[5]=l,t[6]=u,t[7]=c,t[8]=h,t[9]=f,t[10]=p,t[11]=d,t[12]=n*m+s*g+h*v+e[12],t[13]=i*m+l*g+f*v+e[13],t[14]=o*m+u*g+p*v+e[14],t[15]=a*m+c*g+d*v+e[15]),t},i.SIMD.translate=function(t,e,r){var n=SIMD.Float32x4.load(e,0),i=SIMD.Float32x4.load(e,4),o=SIMD.Float32x4.load(e,8),a=SIMD.Float32x4.load(e,12),s=SIMD.Float32x4(r[0],r[1],r[2],0);e!==t&&(t[0]=e[0],t[1]=e[1],t[2]=e[2],t[3]=e[3],t[4]=e[4],t[5]=e[5],t[6]=e[6],t[7]=e[7],t[8]=e[8],t[9]=e[9],t[10]=e[10],t[11]=e[11]),n=SIMD.Float32x4.mul(n,SIMD.Float32x4.swizzle(s,0,0,0,0)),i=SIMD.Float32x4.mul(i,SIMD.Float32x4.swizzle(s,1,1,1,1)),o=SIMD.Float32x4.mul(o,SIMD.Float32x4.swizzle(s,2,2,2,2));var l=SIMD.Float32x4.add(n,SIMD.Float32x4.add(i,SIMD.Float32x4.add(o,a)));return SIMD.Float32x4.store(t,12,l),t},i.translate=n.USE_SIMD?i.SIMD.translate:i.scalar.translate,i.scalar.scale=function(t,e,r){var n=r[0],i=r[1],o=r[2];return t[0]=e[0]*n,t[1]=e[1]*n,t[2]=e[2]*n,t[3]=e[3]*n,t[4]=e[4]*i,t[5]=e[5]*i,t[6]=e[6]*i,t[7]=e[7]*i,t[8]=e[8]*o,t[9]=e[9]*o,t[10]=e[10]*o,t[11]=e[11]*o,t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15],t},i.SIMD.scale=function(t,e,r){var n,i,o,a=SIMD.Float32x4(r[0],r[1],r[2],0);return n=SIMD.Float32x4.load(e,0),SIMD.Float32x4.store(t,0,SIMD.Float32x4.mul(n,SIMD.Float32x4.swizzle(a,0,0,0,0))),i=SIMD.Float32x4.load(e,4),SIMD.Float32x4.store(t,4,SIMD.Float32x4.mul(i,SIMD.Float32x4.swizzle(a,1,1,1,1))),o=SIMD.Float32x4.load(e,8),SIMD.Float32x4.store(t,8,SIMD.Float32x4.mul(o,SIMD.Float32x4.swizzle(a,2,2,2,2))),t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15],t},i.scale=n.USE_SIMD?i.SIMD.scale:i.scalar.scale,i.rotate=function(t,e,r,i){var o,a,s,l,u,c,h,f,p,d,m,g,v,y,b,x,_,w,M,k,A,T,E,S,L=i[0],z=i[1],I=i[2],P=Math.sqrt(L*L+z*z+I*I);return Math.abs(P)<n.EPSILON?null:(P=1/P,L*=P,z*=P,I*=P,o=Math.sin(r),a=Math.cos(r),s=1-a,l=e[0],u=e[1],c=e[2],h=e[3],f=e[4],p=e[5],d=e[6],m=e[7],g=e[8],v=e[9],y=e[10],b=e[11],x=L*L*s+a,_=z*L*s+I*o,w=I*L*s-z*o,M=L*z*s-I*o,k=z*z*s+a,A=I*z*s+L*o,T=L*I*s+z*o,E=z*I*s-L*o,S=I*I*s+a,t[0]=l*x+f*_+g*w,t[1]=u*x+p*_+v*w,t[2]=c*x+d*_+y*w,t[3]=h*x+m*_+b*w,t[4]=l*M+f*k+g*A,t[5]=u*M+p*k+v*A,t[6]=c*M+d*k+y*A,t[7]=h*M+m*k+b*A,t[8]=l*T+f*E+g*S,t[9]=u*T+p*E+v*S,t[10]=c*T+d*E+y*S,t[11]=h*T+m*E+b*S,e!==t&&(t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15]),t)},i.scalar.rotateX=function(t,e,r){var n=Math.sin(r),i=Math.cos(r),o=e[4],a=e[5],s=e[6],l=e[7],u=e[8],c=e[9],h=e[10],f=e[11];return e!==t&&(t[0]=e[0],t[1]=e[1],t[2]=e[2],t[3]=e[3],t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15]),t[4]=o*i+u*n,t[5]=a*i+c*n,t[6]=s*i+h*n,t[7]=l*i+f*n,t[8]=u*i-o*n,t[9]=c*i-a*n,t[10]=h*i-s*n,t[11]=f*i-l*n,t},i.SIMD.rotateX=function(t,e,r){var n=SIMD.Float32x4.splat(Math.sin(r)),i=SIMD.Float32x4.splat(Math.cos(r));e!==t&&(t[0]=e[0],t[1]=e[1],t[2]=e[2],t[3]=e[3],t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15]);var o=SIMD.Float32x4.load(e,4),a=SIMD.Float32x4.load(e,8);return SIMD.Float32x4.store(t,4,SIMD.Float32x4.add(SIMD.Float32x4.mul(o,i),SIMD.Float32x4.mul(a,n))),SIMD.Float32x4.store(t,8,SIMD.Float32x4.sub(SIMD.Float32x4.mul(a,i),SIMD.Float32x4.mul(o,n))),t},i.rotateX=n.USE_SIMD?i.SIMD.rotateX:i.scalar.rotateX,i.scalar.rotateY=function(t,e,r){var n=Math.sin(r),i=Math.cos(r),o=e[0],a=e[1],s=e[2],l=e[3],u=e[8],c=e[9],h=e[10],f=e[11];return e!==t&&(t[4]=e[4],t[5]=e[5],t[6]=e[6],t[7]=e[7],t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15]),t[0]=o*i-u*n,t[1]=a*i-c*n,t[2]=s*i-h*n,t[3]=l*i-f*n,t[8]=o*n+u*i,t[9]=a*n+c*i,t[10]=s*n+h*i,t[11]=l*n+f*i,t},i.SIMD.rotateY=function(t,e,r){var n=SIMD.Float32x4.splat(Math.sin(r)),i=SIMD.Float32x4.splat(Math.cos(r));e!==t&&(t[4]=e[4],t[5]=e[5],t[6]=e[6],t[7]=e[7],t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15]);var o=SIMD.Float32x4.load(e,0),a=SIMD.Float32x4.load(e,8);return SIMD.Float32x4.store(t,0,SIMD.Float32x4.sub(SIMD.Float32x4.mul(o,i),SIMD.Float32x4.mul(a,n))),SIMD.Float32x4.store(t,8,SIMD.Float32x4.add(SIMD.Float32x4.mul(o,n),SIMD.Float32x4.mul(a,i))),t},i.rotateY=n.USE_SIMD?i.SIMD.rotateY:i.scalar.rotateY,i.scalar.rotateZ=function(t,e,r){var n=Math.sin(r),i=Math.cos(r),o=e[0],a=e[1],s=e[2],l=e[3],u=e[4],c=e[5],h=e[6],f=e[7];return e!==t&&(t[8]=e[8],t[9]=e[9],t[10]=e[10],t[11]=e[11],t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15]),t[0]=o*i+u*n,t[1]=a*i+c*n,t[2]=s*i+h*n,t[3]=l*i+f*n,t[4]=u*i-o*n,t[5]=c*i-a*n,t[6]=h*i-s*n,t[7]=f*i-l*n,t},i.SIMD.rotateZ=function(t,e,r){var n=SIMD.Float32x4.splat(Math.sin(r)),i=SIMD.Float32x4.splat(Math.cos(r));e!==t&&(t[8]=e[8],t[9]=e[9],t[10]=e[10],t[11]=e[11],t[12]=e[12],t[13]=e[13],t[14]=e[14],t[15]=e[15]);var o=SIMD.Float32x4.load(e,0),a=SIMD.Float32x4.load(e,4);return SIMD.Float32x4.store(t,0,SIMD.Float32x4.add(SIMD.Float32x4.mul(o,i),SIMD.Float32x4.mul(a,n))),SIMD.Float32x4.store(t,4,SIMD.Float32x4.sub(SIMD.Float32x4.mul(a,i),SIMD.Float32x4.mul(o,n))),t},i.rotateZ=n.USE_SIMD?i.SIMD.rotateZ:i.scalar.rotateZ,i.fromTranslation=function(t,e){return t[0]=1,t[1]=0,t[2]=0,t[3]=0,t[4]=0,t[5]=1,t[6]=0,t[7]=0,t[8]=0,t[9]=0,t[10]=1,t[11]=0,t[12]=e[0],t[13]=e[1],t[14]=e[2],t[15]=1,t},i.fromScaling=function(t,e){return t[0]=e[0],t[1]=0,t[2]=0,t[3]=0,t[4]=0,t[5]=e[1],t[6]=0,t[7]=0,t[8]=0,t[9]=0,t[10]=e[2],t[11]=0,t[12]=0,t[13]=0,t[14]=0,t[15]=1,t},i.fromRotation=function(t,e,r){var i,o,a,s=r[0],l=r[1],u=r[2],c=Math.sqrt(s*s+l*l+u*u);return Math.abs(c)<n.EPSILON?null:(c=1/c,s*=c,l*=c,u*=c,i=Math.sin(e),o=Math.cos(e),a=1-o,t[0]=s*s*a+o,t[1]=l*s*a+u*i,t[2]=u*s*a-l*i,t[3]=0,t[4]=s*l*a-u*i,t[5]=l*l*a+o,t[6]=u*l*a+s*i,t[7]=0,t[8]=s*u*a+l*i,t[9]=l*u*a-s*i,t[10]=u*u*a+o,t[11]=0,t[12]=0,t[13]=0,t[14]=0,t[15]=1,t)},i.fromXRotation=function(t,e){var r=Math.sin(e),n=Math.cos(e);return t[0]=1,t[1]=0,t[2]=0,t[3]=0,t[4]=0,t[5]=n,t[6]=r,t[7]=0,t[8]=0,t[9]=-r,t[10]=n,t[11]=0,t[12]=0,t[13]=0,t[14]=0,t[15]=1,t},i.fromYRotation=function(t,e){var r=Math.sin(e),n=Math.cos(e);return t[0]=n,t[1]=0,t[2]=-r,t[3]=0,t[4]=0,t[5]=1,t[6]=0,t[7]=0,t[8]=r,t[9]=0,t[10]=n,t[11]=0,t[12]=0,t[13]=0,t[14]=0,t[15]=1,t},i.fromZRotation=function(t,e){var r=Math.sin(e),n=Math.cos(e);return t[0]=n,t[1]=r,t[2]=0,t[3]=0,t[4]=-r,t[5]=n,t[6]=0,t[7]=0,t[8]=0,t[9]=0,t[10]=1,t[11]=0,t[12]=0,t[13]=0,t[14]=0,t[15]=1,t},i.fromRotationTranslation=function(t,e,r){var n=e[0],i=e[1],o=e[2],a=e[3],s=n+n,l=i+i,u=o+o,c=n*s,h=n*l,f=n*u,p=i*l,d=i*u,m=o*u,g=a*s,v=a*l,y=a*u;return t[0]=1-(p+m),t[1]=h+y,t[2]=f-v,t[3]=0,t[4]=h-y,t[5]=1-(c+m),t[6]=d+g,t[7]=0,t[8]=f+v,t[9]=d-g,t[10]=1-(c+p),t[11]=0,t[12]=r[0],t[13]=r[1],t[14]=r[2],t[15]=1,t},i.getTranslation=function(t,e){return t[0]=e[12],t[1]=e[13],t[2]=e[14],t},i.getRotation=function(t,e){var r=e[0]+e[5]+e[10],n=0;return r>0?(n=2*Math.sqrt(r+1),t[3]=.25*n,t[0]=(e[6]-e[9])/n,t[1]=(e[8]-e[2])/n,t[2]=(e[1]-e[4])/n):e[0]>e[5]&e[0]>e[10]?(n=2*Math.sqrt(1+e[0]-e[5]-e[10]),t[3]=(e[6]-e[9])/n,t[0]=.25*n,t[1]=(e[1]+e[4])/n,t[2]=(e[8]+e[2])/n):e[5]>e[10]?(n=2*Math.sqrt(1+e[5]-e[0]-e[10]),t[3]=(e[8]-e[2])/n,t[0]=(e[1]+e[4])/n,t[1]=.25*n,t[2]=(e[6]+e[9])/n):(n=2*Math.sqrt(1+e[10]-e[0]-e[5]),t[3]=(e[1]-e[4])/n,t[0]=(e[8]+e[2])/n,t[1]=(e[6]+e[9])/n,t[2]=.25*n),t},i.fromRotationTranslationScale=function(t,e,r,n){var i=e[0],o=e[1],a=e[2],s=e[3],l=i+i,u=o+o,c=a+a,h=i*l,f=i*u,p=i*c,d=o*u,m=o*c,g=a*c,v=s*l,y=s*u,b=s*c,x=n[0],_=n[1],w=n[2];return t[0]=(1-(d+g))*x,t[1]=(f+b)*x,t[2]=(p-y)*x,t[3]=0,t[4]=(f-b)*_,t[5]=(1-(h+g))*_,t[6]=(m+v)*_,t[7]=0,t[8]=(p+y)*w,t[9]=(m-v)*w,t[10]=(1-(h+d))*w,t[11]=0,t[12]=r[0],t[13]=r[1],t[14]=r[2],t[15]=1,t},i.fromRotationTranslationScaleOrigin=function(t,e,r,n,i){var o=e[0],a=e[1],s=e[2],l=e[3],u=o+o,c=a+a,h=s+s,f=o*u,p=o*c,d=o*h,m=a*c,g=a*h,v=s*h,y=l*u,b=l*c,x=l*h,_=n[0],w=n[1],M=n[2],k=i[0],A=i[1],T=i[2];return t[0]=(1-(m+v))*_,t[1]=(p+x)*_,t[2]=(d-b)*_,t[3]=0,t[4]=(p-x)*w,t[5]=(1-(f+v))*w,t[6]=(g+y)*w,t[7]=0,t[8]=(d+b)*M,t[9]=(g-y)*M,t[10]=(1-(f+m))*M,t[11]=0,t[12]=r[0]+k-(t[0]*k+t[4]*A+t[8]*T),t[13]=r[1]+A-(t[1]*k+t[5]*A+t[9]*T),t[14]=r[2]+T-(t[2]*k+t[6]*A+t[10]*T),t[15]=1,t},i.fromQuat=function(t,e){var r=e[0],n=e[1],i=e[2],o=e[3],a=r+r,s=n+n,l=i+i,u=r*a,c=n*a,h=n*s,f=i*a,p=i*s,d=i*l,m=o*a,g=o*s,v=o*l;return t[0]=1-h-d,t[1]=c+v,t[2]=f-g,t[3]=0,t[4]=c-v,t[5]=1-u-d,t[6]=p+m,t[7]=0,t[8]=f+g,t[9]=p-m,t[10]=1-u-h,t[11]=0,t[12]=0,t[13]=0,t[14]=0,t[15]=1,t},i.frustum=function(t,e,r,n,i,o,a){var 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r=t[0],i=t[1],o=t[2],a=t[3],s=t[4],l=t[5],u=t[6],c=t[7],h=t[8],f=t[9],p=t[10],d=t[11],m=t[12],g=t[13],v=t[14],y=t[15],b=e[0],x=e[1],_=e[2],w=e[3],M=e[4],k=e[5],A=e[6],T=e[7],E=e[8],S=e[9],L=e[10],z=e[11],I=e[12],P=e[13],C=e[14],R=e[15];return 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t},r.isFeatureConstant=!0,r.isZoomConstant=!0;return r}function i(t,e){for(var r=0;r<t.stops.length;r++)if(e===t.stops[r][0])return t.stops[r][1];return t.stops[0][1]}function o(t,e){for(var r=0;r<t.stops.length&&!(e<t.stops[r][0]);r++);return t.stops[Math.max(r-1,0)][1]}function a(t,e){for(var r=void 0!==t.base?t.base:1,n=0;;){if(n>=t.stops.length)break;if(e<=t.stops[n][0])break;n++}return 0===n?t.stops[n][1]:n===t.stops.length?t.stops[n-1][1]:s(e,r,t.stops[n-1][0],t.stops[n][0],t.stops[n-1][1],t.stops[n][1])}function s(t,e,r,n,i,o){return"function"==typeof i?function(){var a=i.apply(void 0,arguments),l=o.apply(void 0,arguments);return s(t,e,r,n,a,l)}:i.length?u(t,e,r,n,i,o):l(t,e,r,n,i,o)}function l(t,e,r,n,i,o){var a,s=n-r,l=t-r;return a=1===e?l/s:(Math.pow(e,l)-1)/(Math.pow(e,s)-1),i*(1-a)+o*a}function u(t,e,r,n,i,o){for(var a=[],s=0;s<i.length;s++)a[s]=l(t,e,r,n,i[s],o[s]);return a}function c(t){return"object"==typeof 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opacity\n\n    gl_FragColor = color * opacity;\n\n#ifdef OVERDRAW_INSPECTOR\n    gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"#ifdef GL_ES\nprecision highp float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nattribute vec2 a_pos;\n\nuniform mat4 u_matrix;\n\n#pragma mapbox: define lowp vec4 color\n#pragma mapbox: define lowp float opacity\n\nvoid main() {\n    #pragma mapbox: initialize lowp vec4 color\n    #pragma mapbox: initialize lowp float opacity\n\n    gl_Position = u_matrix * vec4(a_pos, 0, 1);\n}\n"},circle:{fragmentSource:"#ifdef GL_ES\nprecision mediump float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\n#pragma mapbox: define lowp vec4 color\n#pragma mapbox: define lowp float blur\n#pragma mapbox: define lowp float opacity\n\nvarying vec2 v_extrude;\nvarying lowp float v_antialiasblur;\n\nvoid main() {\n    #pragma mapbox: initialize lowp vec4 color\n    #pragma mapbox: initialize lowp float blur\n    #pragma mapbox: initialize lowp float opacity\n\n    float t = smoothstep(1.0 - max(blur, v_antialiasblur), 1.0, length(v_extrude));\n    gl_FragColor = color * (1.0 - t) * opacity;\n\n#ifdef OVERDRAW_INSPECTOR\n    gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"#ifdef GL_ES\nprecision highp float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nuniform mat4 u_matrix;\nuniform bool u_scale_with_map;\nuniform vec2 u_extrude_scale;\nuniform float u_devicepixelratio;\n\nattribute vec2 a_pos;\n\n#pragma mapbox: define lowp vec4 color\n#pragma mapbox: define mediump float radius\n#pragma mapbox: define lowp float blur\n#pragma mapbox: define lowp float opacity\n\nvarying vec2 v_extrude;\nvarying lowp float v_antialiasblur;\n\nvoid main(void) {\n    #pragma mapbox: initialize lowp vec4 color\n    #pragma mapbox: initialize mediump float radius\n    #pragma mapbox: initialize lowp float blur\n    #pragma mapbox: initialize lowp float opacity\n\n    // unencode the extrusion vector that we snuck into the a_pos vector\n    v_extrude = vec2(mod(a_pos, 2.0) * 2.0 - 1.0);\n\n    vec2 extrude = v_extrude * radius * u_extrude_scale;\n    // multiply a_pos by 0.5, since we had it * 2 in order to sneak\n    // in extrusion data\n    gl_Position = u_matrix * vec4(floor(a_pos * 0.5), 0, 1);\n\n    if (u_scale_with_map) {\n        gl_Position.xy += extrude;\n    } else {\n        gl_Position.xy += extrude * gl_Position.w;\n    }\n\n    // This is a minimum blur distance that serves as a faux-antialiasing for\n    // the circle. since blur is a ratio of the circle's size and the intent is\n    // to keep the blur at roughly 1px, the two are inversely related.\n    v_antialiasblur = 1.0 / u_devicepixelratio / radius;\n}\n"},line:{fragmentSource:"#ifdef GL_ES\nprecision mediump float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nuniform lowp vec4 u_color;\nuniform lowp float u_opacity;\nuniform float u_blur;\n\nvarying vec2 v_linewidth;\nvarying vec2 v_normal;\nvarying float v_gamma_scale;\n\nvoid main() {\n    // Calculate the distance of the pixel from the line in pixels.\n    float dist = length(v_normal) * v_linewidth.s;\n\n    // Calculate the antialiasing fade factor. This is either when fading in\n    // the line in case of an offset line (v_linewidth.t) or when fading out\n    // (v_linewidth.s)\n    float blur = u_blur * v_gamma_scale;\n    float alpha = clamp(min(dist - (v_linewidth.t - blur), v_linewidth.s - dist) / blur, 0.0, 1.0);\n\n    gl_FragColor = u_color * (alpha * u_opacity);\n\n#ifdef OVERDRAW_INSPECTOR\n    gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"#ifdef GL_ES\nprecision highp float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\n// floor(127 / 2) == 63.0\n// the maximum allowed miter limit is 2.0 at the moment. the extrude normal is\n// stored in a byte (-128..127). we scale regular normals up to length 63, but\n// there are also \"special\" normals that have a bigger length (of up to 126 in\n// this case).\n// #define scale 63.0\n#define scale 0.015873016\n\nattribute vec2 a_pos;\nattribute vec4 a_data;\n\nuniform mat4 u_matrix;\nuniform mediump float u_ratio;\nuniform mediump float u_linewidth;\nuniform mediump float u_gapwidth;\nuniform mediump float u_antialiasing;\nuniform mediump float u_extra;\nuniform mat2 u_antialiasingmatrix;\nuniform mediump float u_offset;\nuniform mediump float u_blur;\n\nvarying vec2 v_normal;\nvarying vec2 v_linewidth;\nvarying float v_gamma_scale;\n\nvoid main() {\n    vec2 a_extrude = a_data.xy - 128.0;\n    float a_direction = mod(a_data.z, 4.0) - 1.0;\n\n    // We store the texture normals in the most insignificant bit\n    // transform y so that 0 => -1 and 1 => 1\n    // In the texture normal, x is 0 if the normal points straight up/down and 1 if it's a round cap\n    // y is 1 if the normal points up, and -1 if it points down\n    mediump vec2 normal = mod(a_pos, 2.0);\n    normal.y = sign(normal.y - 0.5);\n    v_normal = normal;\n\n    float inset = u_gapwidth + (u_gapwidth > 0.0 ? u_antialiasing : 0.0);\n    float outset = u_gapwidth + u_linewidth * (u_gapwidth > 0.0 ? 2.0 : 1.0) + u_antialiasing;\n\n    // Scale the extrusion vector down to a normal and then up by the line width\n    // of this vertex.\n    mediump vec2 dist = outset * a_extrude * scale;\n\n    // Calculate the offset when drawing a line that is to the side of the actual line.\n    // We do this by creating a vector that points towards the extrude, but rotate\n    // it when we're drawing round end points (a_direction = -1 or 1) since their\n    // extrude vector points in another direction.\n    mediump float u = 0.5 * a_direction;\n    mediump float t = 1.0 - abs(u);\n    mediump vec2 offset = u_offset * a_extrude * scale * normal.y * mat2(t, -u, u, t);\n\n    // Remove the texture normal bit of the position before scaling it with the\n    // model/view matrix.\n    gl_Position = u_matrix * vec4(floor(a_pos * 0.5) + (offset + dist) / u_ratio, 0.0, 1.0);\n\n    // position of y on the screen\n    float y = gl_Position.y / gl_Position.w;\n\n    // how much features are squished in the y direction by the tilt\n    float squish_scale = length(a_extrude) / length(u_antialiasingmatrix * a_extrude);\n\n    // how much features are squished in all directions by the perspectiveness\n    float perspective_scale = 1.0 / (1.0 - min(y * u_extra, 0.9));\n\n    v_linewidth = vec2(outset, inset);\n    v_gamma_scale = perspective_scale * squish_scale;\n}\n"},linepattern:{fragmentSource:"#ifdef GL_ES\nprecision mediump float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nuniform float u_blur;\n\nuniform vec2 u_pattern_size_a;\nuniform vec2 u_pattern_size_b;\nuniform vec2 u_pattern_tl_a;\nuniform vec2 u_pattern_br_a;\nuniform vec2 u_pattern_tl_b;\nuniform vec2 u_pattern_br_b;\nuniform float u_fade;\nuniform float u_opacity;\n\nuniform sampler2D u_image;\n\nvarying vec2 v_normal;\nvarying vec2 v_linewidth;\nvarying float v_linesofar;\nvarying float v_gamma_scale;\n\nvoid main() {\n    // Calculate the distance of the pixel from the line in pixels.\n    float dist = length(v_normal) * v_linewidth.s;\n\n    // Calculate the antialiasing fade factor. This is either when fading in\n    // the line in case of an offset line (v_linewidth.t) or when fading out\n    // (v_linewidth.s)\n    float blur = u_blur * v_gamma_scale;\n    float alpha = clamp(min(dist - (v_linewidth.t - blur), v_linewidth.s - dist) / blur, 0.0, 1.0);\n\n    float x_a = mod(v_linesofar / u_pattern_size_a.x, 1.0);\n    float x_b = mod(v_linesofar / u_pattern_size_b.x, 1.0);\n    float y_a = 0.5 + (v_normal.y * v_linewidth.s / u_pattern_size_a.y);\n    float y_b = 0.5 + (v_normal.y * v_linewidth.s / u_pattern_size_b.y);\n    vec2 pos_a = mix(u_pattern_tl_a, u_pattern_br_a, vec2(x_a, y_a));\n    vec2 pos_b = mix(u_pattern_tl_b, u_pattern_br_b, vec2(x_b, y_b));\n\n    vec4 color = mix(texture2D(u_image, pos_a), texture2D(u_image, pos_b), u_fade);\n\n    alpha *= u_opacity;\n\n    gl_FragColor = color * alpha;\n\n#ifdef OVERDRAW_INSPECTOR\n    gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"#ifdef GL_ES\nprecision highp float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\n// floor(127 / 2) == 63.0\n// the maximum allowed miter limit is 2.0 at the moment. the extrude normal is\n// stored in a byte (-128..127). we scale regular normals up to length 63, but\n// there are also \"special\" normals that have a bigger length (of up to 126 in\n// this case).\n// #define scale 63.0\n#define scale 0.015873016\n\n// We scale the distance before adding it to the buffers so that we can store\n// long distances for long segments. Use this value to unscale the distance.\n#define LINE_DISTANCE_SCALE 2.0\n\nattribute vec2 a_pos;\nattribute vec4 a_data;\n\nuniform mat4 u_matrix;\nuniform mediump float u_ratio;\nuniform mediump float u_linewidth;\nuniform mediump float u_gapwidth;\nuniform mediump float u_antialiasing;\nuniform mediump float u_extra;\nuniform mat2 u_antialiasingmatrix;\nuniform mediump float u_offset;\n\nvarying vec2 v_normal;\nvarying vec2 v_linewidth;\nvarying float v_linesofar;\nvarying float v_gamma_scale;\n\nvoid main() {\n    vec2 a_extrude = a_data.xy - 128.0;\n    float a_direction = mod(a_data.z, 4.0) - 1.0;\n    float a_linesofar = (floor(a_data.z / 4.0) + a_data.w * 64.0) * LINE_DISTANCE_SCALE;\n\n    // We store the texture normals in the most insignificant bit\n    // transform y so that 0 => -1 and 1 => 1\n    // In the texture normal, x is 0 if the normal points straight up/down and 1 if it's a round cap\n    // y is 1 if the normal points up, and -1 if it points down\n    mediump vec2 normal = mod(a_pos, 2.0);\n    normal.y = sign(normal.y - 0.5);\n    v_normal = normal;\n\n    float inset = u_gapwidth + (u_gapwidth > 0.0 ? u_antialiasing : 0.0);\n    float outset = u_gapwidth + u_linewidth * (u_gapwidth > 0.0 ? 2.0 : 1.0) + u_antialiasing;\n\n    // Scale the extrusion vector down to a normal and then up by the line width\n    // of this vertex.\n    mediump vec2 dist = outset * a_extrude * scale;\n\n    // Calculate the offset when drawing a line that is to the side of the actual line.\n    // We do this by creating a vector that points towards the extrude, but rotate\n    // it when we're drawing round end points (a_direction = -1 or 1) since their\n    // extrude vector points in another direction.\n    mediump float u = 0.5 * a_direction;\n    mediump float t = 1.0 - abs(u);\n    mediump vec2 offset = u_offset * a_extrude * scale * normal.y * mat2(t, -u, u, t);\n\n    // Remove the texture normal bit of the position before scaling it with the\n    // model/view matrix.\n    gl_Position = u_matrix * vec4(floor(a_pos * 0.5) + (offset + dist) / u_ratio, 0.0, 1.0);\n    v_linesofar = a_linesofar;\n\n    // position of y on the screen\n    float y = gl_Position.y / gl_Position.w;\n\n    // how much features are squished in the y direction by the tilt\n    float squish_scale = length(a_extrude) / length(u_antialiasingmatrix * a_extrude);\n\n    // how much features are squished in all directions by the perspectiveness\n    float perspective_scale = 1.0 / (1.0 - min(y * u_extra, 0.9));\n\n    v_linewidth = vec2(outset, inset);\n    v_gamma_scale = perspective_scale * squish_scale;\n}\n"},linesdfpattern:{fragmentSource:"#ifdef GL_ES\nprecision mediump float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nuniform lowp vec4 u_color;\nuniform lowp float u_opacity;\n\nuniform float u_blur;\nuniform sampler2D u_image;\nuniform float u_sdfgamma;\nuniform float u_mix;\n\nvarying vec2 v_normal;\nvarying vec2 v_linewidth;\nvarying vec2 v_tex_a;\nvarying vec2 v_tex_b;\nvarying float v_gamma_scale;\n\nvoid main() {\n    // Calculate the distance of the pixel from the line in pixels.\n    float dist = length(v_normal) * v_linewidth.s;\n\n    // Calculate the antialiasing fade factor. This is either when fading in\n    // the line in case of an offset line (v_linewidth.t) or when fading out\n    // (v_linewidth.s)\n    float blur = u_blur * v_gamma_scale;\n    float alpha = clamp(min(dist - (v_linewidth.t - blur), v_linewidth.s - dist) / blur, 0.0, 1.0);\n\n    float sdfdist_a = texture2D(u_image, v_tex_a).a;\n    float sdfdist_b = texture2D(u_image, v_tex_b).a;\n    float sdfdist = mix(sdfdist_a, sdfdist_b, u_mix);\n    alpha *= smoothstep(0.5 - u_sdfgamma, 0.5 + u_sdfgamma, sdfdist);\n\n    gl_FragColor = u_color * (alpha * u_opacity);\n\n#ifdef OVERDRAW_INSPECTOR\n    gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"#ifdef GL_ES\nprecision highp float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\n// floor(127 / 2) == 63.0\n// the maximum allowed miter limit is 2.0 at the moment. the extrude normal is\n// stored in a byte (-128..127). we scale regular normals up to length 63, but\n// there are also \"special\" normals that have a bigger length (of up to 126 in\n// this case).\n// #define scale 63.0\n#define scale 0.015873016\n\n// We scale the distance before adding it to the buffers so that we can store\n// long distances for long segments. Use this value to unscale the distance.\n#define LINE_DISTANCE_SCALE 2.0\n\nattribute vec2 a_pos;\nattribute vec4 a_data;\n\nuniform mat4 u_matrix;\nuniform mediump float u_ratio;\nuniform mediump float u_linewidth;\nuniform mediump float u_gapwidth;\nuniform mediump float u_antialiasing;\nuniform vec2 u_patternscale_a;\nuniform float u_tex_y_a;\nuniform vec2 u_patternscale_b;\nuniform float u_tex_y_b;\nuniform float u_extra;\nuniform mat2 u_antialiasingmatrix;\nuniform mediump float u_offset;\n\nvarying vec2 v_normal;\nvarying vec2 v_linewidth;\nvarying vec2 v_tex_a;\nvarying vec2 v_tex_b;\nvarying float v_gamma_scale;\n\nvoid main() {\n    vec2 a_extrude = a_data.xy - 128.0;\n    float a_direction = mod(a_data.z, 4.0) - 1.0;\n    float a_linesofar = (floor(a_data.z / 4.0) + a_data.w * 64.0) * LINE_DISTANCE_SCALE;\n\n    // We store the texture normals in the most insignificant bit\n    // transform y so that 0 => -1 and 1 => 1\n    // In the texture normal, x is 0 if the normal points straight up/down and 1 if it's a round cap\n    // y is 1 if the normal points up, and -1 if it points down\n    mediump vec2 normal = mod(a_pos, 2.0);\n    normal.y = sign(normal.y - 0.5);\n    v_normal = normal;\n\n    float inset = u_gapwidth + (u_gapwidth > 0.0 ? u_antialiasing : 0.0);\n    float outset = u_gapwidth + u_linewidth * (u_gapwidth > 0.0 ? 2.0 : 1.0) + u_antialiasing;\n\n    // Scale the extrusion vector down to a normal and then up by the line width\n    // of this vertex.\n    mediump vec2 dist = outset * a_extrude * scale;\n\n    // Calculate the offset when drawing a line that is to the side of the actual line.\n    // We do this by creating a vector that points towards the extrude, but rotate\n    // it when we're drawing round end points (a_direction = -1 or 1) since their\n    // extrude vector points in another direction.\n    mediump float u = 0.5 * a_direction;\n    mediump float t = 1.0 - abs(u);\n    mediump vec2 offset = u_offset * a_extrude * scale * normal.y * mat2(t, -u, u, t);\n\n    // Remove the texture normal bit of the position before scaling it with the\n    // model/view matrix.\n    gl_Position = u_matrix * vec4(floor(a_pos * 0.5) + (offset + dist) / u_ratio, 0.0, 1.0);\n\n    v_tex_a = vec2(a_linesofar * u_patternscale_a.x, normal.y * u_patternscale_a.y + u_tex_y_a);\n    v_tex_b = vec2(a_linesofar * u_patternscale_b.x, normal.y * u_patternscale_b.y + u_tex_y_b);\n\n    // position of y on the screen\n    float y = gl_Position.y / gl_Position.w;\n\n    // how much features are squished in the y direction by the tilt\n    float squish_scale = length(a_extrude) / length(u_antialiasingmatrix * a_extrude);\n\n    // how much features are squished in all directions by the perspectiveness\n    float perspective_scale = 1.0 / (1.0 - min(y * u_extra, 0.9));\n\n    v_linewidth = vec2(outset, inset);\n    v_gamma_scale = perspective_scale * squish_scale;\n}\n"},outline:{fragmentSource:"#ifdef GL_ES\nprecision mediump float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\n#pragma mapbox: define lowp vec4 outline_color\n#pragma mapbox: define lowp float opacity\n\nvarying vec2 v_pos;\n\nvoid main() {\n    #pragma mapbox: initialize lowp vec4 outline_color\n    #pragma mapbox: initialize lowp float opacity\n\n    float dist = length(v_pos - gl_FragCoord.xy);\n    float alpha = smoothstep(1.0, 0.0, dist);\n    gl_FragColor = outline_color * (alpha * opacity);\n\n#ifdef OVERDRAW_INSPECTOR\n    gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"#ifdef GL_ES\nprecision highp float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nattribute vec2 a_pos;\n\nuniform mat4 u_matrix;\nuniform vec2 u_world;\n\nvarying vec2 v_pos;\n\n#pragma mapbox: define lowp vec4 outline_color\n#pragma mapbox: define lowp float opacity\n\nvoid main() {\n    #pragma mapbox: initialize lowp vec4 outline_color\n    #pragma mapbox: initialize lowp float opacity\n\n    gl_Position = u_matrix * vec4(a_pos, 0, 1);\n    v_pos = (gl_Position.xy / gl_Position.w + 1.0) / 2.0 * u_world;\n}\n"},outlinepattern:{fragmentSource:"#ifdef GL_ES\nprecision mediump float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nuniform float u_opacity;\nuniform vec2 u_pattern_tl_a;\nuniform vec2 u_pattern_br_a;\nuniform vec2 u_pattern_tl_b;\nuniform vec2 u_pattern_br_b;\nuniform float u_mix;\n\nuniform sampler2D u_image;\n\nvarying vec2 v_pos_a;\nvarying vec2 v_pos_b;\nvarying vec2 v_pos;\n\nvoid main() {\n    vec2 imagecoord = mod(v_pos_a, 1.0);\n    vec2 pos = mix(u_pattern_tl_a, u_pattern_br_a, imagecoord);\n    vec4 color1 = texture2D(u_image, pos);\n\n    vec2 imagecoord_b = mod(v_pos_b, 1.0);\n    vec2 pos2 = mix(u_pattern_tl_b, u_pattern_br_b, imagecoord_b);\n    vec4 color2 = texture2D(u_image, pos2);\n\n    // find distance to outline for alpha interpolation\n\n    float dist = length(v_pos - gl_FragCoord.xy);\n    float alpha = smoothstep(1.0, 0.0, dist);\n    \n\n    gl_FragColor = mix(color1, color2, u_mix) * alpha * u_opacity;\n\n#ifdef OVERDRAW_INSPECTOR\n    gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"#ifdef GL_ES\nprecision highp float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nuniform vec2 u_pattern_size_a;\nuniform vec2 u_pattern_size_b;\nuniform vec2 u_pixel_coord_upper;\nuniform vec2 u_pixel_coord_lower;\nuniform float u_scale_a;\nuniform float u_scale_b;\nuniform float u_tile_units_to_pixels;\n\nattribute vec2 a_pos;\n\nuniform mat4 u_matrix;\nuniform vec2 u_world;\n\nvarying vec2 v_pos_a;\nvarying vec2 v_pos_b;\nvarying vec2 v_pos;\n\nvoid main() {\n    gl_Position = u_matrix * vec4(a_pos, 0, 1);\n    vec2 scaled_size_a = u_scale_a * u_pattern_size_a;\n    vec2 scaled_size_b = u_scale_b * u_pattern_size_b;\n\n    // the correct offset needs to be calculated.\n    //\n    // The offset depends on how many pixels are between the world origin and\n    // the edge of the tile:\n    // vec2 offset = mod(pixel_coord, size)\n    //\n    // At high zoom levels there are a ton of pixels between the world origin\n    // and the edge of the tile. The glsl spec only guarantees 16 bits of\n    // precision for highp floats. We need more than that.\n    //\n    // The pixel_coord is passed in as two 16 bit values:\n    // pixel_coord_upper = floor(pixel_coord / 2^16)\n    // pixel_coord_lower = mod(pixel_coord, 2^16)\n    //\n    // The offset is calculated in a series of steps that should preserve this precision:\n    vec2 offset_a = mod(mod(mod(u_pixel_coord_upper, scaled_size_a) * 256.0, scaled_size_a) * 256.0 + u_pixel_coord_lower, scaled_size_a);\n    vec2 offset_b = mod(mod(mod(u_pixel_coord_upper, scaled_size_b) * 256.0, scaled_size_b) * 256.0 + u_pixel_coord_lower, scaled_size_b);\n\n    v_pos_a = (u_tile_units_to_pixels * a_pos + offset_a) / scaled_size_a;\n    v_pos_b = (u_tile_units_to_pixels * a_pos + offset_b) / scaled_size_b;\n\n    v_pos = (gl_Position.xy / gl_Position.w + 1.0) / 2.0 * u_world;\n}\n"
},pattern:{fragmentSource:"#ifdef GL_ES\nprecision mediump float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nuniform float u_opacity;\nuniform vec2 u_pattern_tl_a;\nuniform vec2 u_pattern_br_a;\nuniform vec2 u_pattern_tl_b;\nuniform vec2 u_pattern_br_b;\nuniform float u_mix;\n\nuniform sampler2D u_image;\n\nvarying vec2 v_pos_a;\nvarying vec2 v_pos_b;\n\nvoid main() {\n\n    vec2 imagecoord = mod(v_pos_a, 1.0);\n    vec2 pos = mix(u_pattern_tl_a, u_pattern_br_a, imagecoord);\n    vec4 color1 = texture2D(u_image, pos);\n\n    vec2 imagecoord_b = mod(v_pos_b, 1.0);\n    vec2 pos2 = mix(u_pattern_tl_b, u_pattern_br_b, imagecoord_b);\n    vec4 color2 = texture2D(u_image, pos2);\n\n    gl_FragColor = mix(color1, color2, u_mix) * u_opacity;\n\n#ifdef OVERDRAW_INSPECTOR\n    gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"#ifdef GL_ES\nprecision highp float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nuniform mat4 u_matrix;\nuniform vec2 u_pattern_size_a;\nuniform vec2 u_pattern_size_b;\nuniform vec2 u_pixel_coord_upper;\nuniform vec2 u_pixel_coord_lower;\nuniform float u_scale_a;\nuniform float u_scale_b;\nuniform float u_tile_units_to_pixels;\n\nattribute vec2 a_pos;\n\nvarying vec2 v_pos_a;\nvarying vec2 v_pos_b;\n\nvoid main() {\n    gl_Position = u_matrix * vec4(a_pos, 0, 1);\n    vec2 scaled_size_a = u_scale_a * u_pattern_size_a;\n    vec2 scaled_size_b = u_scale_b * u_pattern_size_b;\n\n    // the correct offset needs to be calculated.\n    //\n    // The offset depends on how many pixels are between the world origin and\n    // the edge of the tile:\n    // vec2 offset = mod(pixel_coord, size)\n    //\n    // At high zoom levels there are a ton of pixels between the world origin\n    // and the edge of the tile. The glsl spec only guarantees 16 bits of\n    // precision for highp floats. We need more than that.\n    //\n    // The pixel_coord is passed in as two 16 bit values:\n    // pixel_coord_upper = floor(pixel_coord / 2^16)\n    // pixel_coord_lower = mod(pixel_coord, 2^16)\n    //\n    // The offset is calculated in a series of steps that should preserve this precision:\n    vec2 offset_a = mod(mod(mod(u_pixel_coord_upper, scaled_size_a) * 256.0, scaled_size_a) * 256.0 + u_pixel_coord_lower, scaled_size_a);\n    vec2 offset_b = mod(mod(mod(u_pixel_coord_upper, scaled_size_b) * 256.0, scaled_size_b) * 256.0 + u_pixel_coord_lower, scaled_size_b);\n\n    v_pos_a = (u_tile_units_to_pixels * a_pos + offset_a) / scaled_size_a;\n    v_pos_b = (u_tile_units_to_pixels * a_pos + offset_b) / scaled_size_b;\n}\n"},raster:{fragmentSource:"#ifdef GL_ES\nprecision mediump float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nuniform float u_opacity0;\nuniform float u_opacity1;\nuniform sampler2D u_image0;\nuniform sampler2D u_image1;\nvarying vec2 v_pos0;\nvarying vec2 v_pos1;\n\nuniform float u_brightness_low;\nuniform float u_brightness_high;\n\nuniform float u_saturation_factor;\nuniform float u_contrast_factor;\nuniform vec3 u_spin_weights;\n\nvoid main() {\n\n    // read and cross-fade colors from the main and parent tiles\n    vec4 color0 = texture2D(u_image0, v_pos0);\n    vec4 color1 = texture2D(u_image1, v_pos1);\n    vec4 color = color0 * u_opacity0 + color1 * u_opacity1;\n    vec3 rgb = color.rgb;\n\n    // spin\n    rgb = vec3(\n        dot(rgb, u_spin_weights.xyz),\n        dot(rgb, u_spin_weights.zxy),\n        dot(rgb, u_spin_weights.yzx));\n\n    // saturation\n    float average = (color.r + color.g + color.b) / 3.0;\n    rgb += (average - rgb) * u_saturation_factor;\n\n    // contrast\n    rgb = (rgb - 0.5) * u_contrast_factor + 0.5;\n\n    // brightness\n    vec3 u_high_vec = vec3(u_brightness_low, u_brightness_low, u_brightness_low);\n    vec3 u_low_vec = vec3(u_brightness_high, u_brightness_high, u_brightness_high);\n\n    gl_FragColor = vec4(mix(u_high_vec, u_low_vec, rgb), color.a);\n\n#ifdef OVERDRAW_INSPECTOR\n    gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"#ifdef GL_ES\nprecision highp float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nuniform mat4 u_matrix;\nuniform vec2 u_tl_parent;\nuniform float u_scale_parent;\nuniform float u_buffer_scale;\n\nattribute vec2 a_pos;\nattribute vec2 a_texture_pos;\n\nvarying vec2 v_pos0;\nvarying vec2 v_pos1;\n\nvoid main() {\n    gl_Position = u_matrix * vec4(a_pos, 0, 1);\n    v_pos0 = (((a_texture_pos / 32767.0) - 0.5) / u_buffer_scale ) + 0.5;\n    v_pos1 = (v_pos0 * u_scale_parent) + u_tl_parent;\n}\n"},icon:{fragmentSource:"#ifdef GL_ES\nprecision mediump float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nuniform sampler2D u_texture;\nuniform sampler2D u_fadetexture;\nuniform lowp float u_opacity;\n\nvarying vec2 v_tex;\nvarying vec2 v_fade_tex;\n\nvoid main() {\n    lowp float alpha = texture2D(u_fadetexture, v_fade_tex).a * u_opacity;\n    gl_FragColor = texture2D(u_texture, v_tex) * alpha;\n\n#ifdef OVERDRAW_INSPECTOR\n    gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"#ifdef GL_ES\nprecision highp float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nattribute vec2 a_pos;\nattribute vec2 a_offset;\nattribute vec2 a_texture_pos;\nattribute vec4 a_data;\n\n\n// matrix is for the vertex position.\nuniform mat4 u_matrix;\n\nuniform mediump float u_zoom;\nuniform bool u_rotate_with_map;\nuniform vec2 u_extrude_scale;\n\nuniform vec2 u_texsize;\n\nvarying vec2 v_tex;\nvarying vec2 v_fade_tex;\n\nvoid main() {\n    vec2 a_tex = a_texture_pos.xy;\n    mediump float a_labelminzoom = a_data[0];\n    mediump vec2 a_zoom = a_data.pq;\n    mediump float a_minzoom = a_zoom[0];\n    mediump float a_maxzoom = a_zoom[1];\n\n    // u_zoom is the current zoom level adjusted for the change in font size\n    mediump float z = 2.0 - step(a_minzoom, u_zoom) - (1.0 - step(a_maxzoom, u_zoom));\n\n    vec2 extrude = u_extrude_scale * (a_offset / 64.0);\n    if (u_rotate_with_map) {\n        gl_Position = u_matrix * vec4(a_pos + extrude, 0, 1);\n        gl_Position.z += z * gl_Position.w;\n    } else {\n        gl_Position = u_matrix * vec4(a_pos, 0, 1) + vec4(extrude, 0, 0);\n    }\n\n    v_tex = a_tex / u_texsize;\n    v_fade_tex = vec2(a_labelminzoom / 255.0, 0.0);\n}\n"},sdf:{fragmentSource:"#ifdef GL_ES\nprecision mediump float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nuniform sampler2D u_texture;\nuniform sampler2D u_fadetexture;\nuniform lowp vec4 u_color;\nuniform lowp float u_opacity;\nuniform lowp float u_buffer;\nuniform lowp float u_gamma;\n\nvarying vec2 v_tex;\nvarying vec2 v_fade_tex;\nvarying float v_gamma_scale;\n\nvoid main() {\n    lowp float dist = texture2D(u_texture, v_tex).a;\n    lowp float fade_alpha = texture2D(u_fadetexture, v_fade_tex).a;\n    lowp float gamma = u_gamma * v_gamma_scale;\n    lowp float alpha = smoothstep(u_buffer - gamma, u_buffer + gamma, dist) * fade_alpha;\n\n    gl_FragColor = u_color * (alpha * u_opacity);\n\n#ifdef OVERDRAW_INSPECTOR\n    gl_FragColor = vec4(1.0);\n#endif\n}\n",vertexSource:"#ifdef GL_ES\nprecision highp float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nconst float PI = 3.141592653589793;\n\nattribute vec2 a_pos;\nattribute vec2 a_offset;\nattribute vec2 a_texture_pos;\nattribute vec4 a_data;\n\n\n// matrix is for the vertex position.\nuniform mat4 u_matrix;\n\nuniform mediump float u_zoom;\nuniform bool u_rotate_with_map;\nuniform bool u_pitch_with_map;\nuniform mediump float u_pitch;\nuniform mediump float u_bearing;\nuniform mediump float u_aspect_ratio;\nuniform vec2 u_extrude_scale;\n\nuniform vec2 u_texsize;\n\nvarying vec2 v_tex;\nvarying vec2 v_fade_tex;\nvarying float v_gamma_scale;\n\nvoid main() {\n    vec2 a_tex = a_texture_pos.xy;\n    mediump float a_labelminzoom = a_data[0];\n    mediump vec2 a_zoom = a_data.pq;\n    mediump float a_minzoom = a_zoom[0];\n    mediump float a_maxzoom = a_zoom[1];\n\n    // u_zoom is the current zoom level adjusted for the change in font size\n    mediump float z = 2.0 - step(a_minzoom, u_zoom) - (1.0 - step(a_maxzoom, u_zoom));\n\n    // pitch-alignment: map\n    // rotation-alignment: map | viewport\n    if (u_pitch_with_map) {\n        lowp float angle = u_rotate_with_map ? (a_data[1] / 256.0 * 2.0 * PI) : u_bearing;\n        lowp float asin = sin(angle);\n        lowp float acos = cos(angle);\n        mat2 RotationMatrix = mat2(acos, asin, -1.0 * asin, acos);\n        vec2 offset = RotationMatrix * a_offset;\n        vec2 extrude = u_extrude_scale * (offset / 64.0);\n        gl_Position = u_matrix * vec4(a_pos + extrude, 0, 1);\n        gl_Position.z += z * gl_Position.w;\n    // pitch-alignment: viewport\n    // rotation-alignment: map\n    } else if (u_rotate_with_map) {\n        // foreshortening factor to apply on pitched maps\n        // as a label goes from horizontal <=> vertical in angle\n        // it goes from 0% foreshortening to up to around 70% foreshortening\n        lowp float pitchfactor = 1.0 - cos(u_pitch * sin(u_pitch * 0.75));\n\n        lowp float lineangle = a_data[1] / 256.0 * 2.0 * PI;\n\n        // use the lineangle to position points a,b along the line\n        // project the points and calculate the label angle in projected space\n        // this calculation allows labels to be rendered unskewed on pitched maps\n        vec4 a = u_matrix * vec4(a_pos, 0, 1);\n        vec4 b = u_matrix * vec4(a_pos + vec2(cos(lineangle),sin(lineangle)), 0, 1);\n        lowp float angle = atan((b[1]/b[3] - a[1]/a[3])/u_aspect_ratio, b[0]/b[3] - a[0]/a[3]);\n        lowp float asin = sin(angle);\n        lowp float acos = cos(angle);\n        mat2 RotationMatrix = mat2(acos, -1.0 * asin, asin, acos);\n\n        vec2 offset = RotationMatrix * (vec2((1.0-pitchfactor)+(pitchfactor*cos(angle*2.0)), 1.0) * a_offset);\n        vec2 extrude = u_extrude_scale * (offset / 64.0);\n        gl_Position = u_matrix * vec4(a_pos, 0, 1) + vec4(extrude, 0, 0);\n        gl_Position.z += z * gl_Position.w;\n    // pitch-alignment: viewport\n    // rotation-alignment: viewport\n    } else {\n        vec2 extrude = u_extrude_scale * (a_offset / 64.0);\n        gl_Position = u_matrix * vec4(a_pos, 0, 1) + vec4(extrude, 0, 0);\n    }\n\n    v_gamma_scale = (gl_Position.w - 0.5);\n\n    v_tex = a_tex / u_texsize;\n    v_fade_tex = vec2(a_labelminzoom / 255.0, 0.0);\n}\n"},collisionbox:{fragmentSource:"#ifdef GL_ES\nprecision mediump float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nuniform float u_zoom;\nuniform float u_maxzoom;\n\nvarying float v_max_zoom;\nvarying float v_placement_zoom;\n\nvoid main() {\n\n    float alpha = 0.5;\n\n    gl_FragColor = vec4(0.0, 1.0, 0.0, 1.0) * alpha;\n\n    if (v_placement_zoom > u_zoom) {\n        gl_FragColor = vec4(1.0, 0.0, 0.0, 1.0) * alpha;\n    }\n\n    if (u_zoom >= v_max_zoom) {\n        gl_FragColor = vec4(0.0, 0.0, 0.0, 1.0) * alpha * 0.25;\n    }\n\n    if (v_placement_zoom >= u_maxzoom) {\n        gl_FragColor = vec4(0.0, 0.0, 1.0, 1.0) * alpha * 0.2;\n    }\n}\n",vertexSource:"#ifdef GL_ES\nprecision highp float;\n#else\n#define lowp\n#define mediump\n#define highp\n#endif\n\nattribute vec2 a_pos;\nattribute vec2 a_extrude;\nattribute vec2 a_data;\n\nuniform mat4 u_matrix;\nuniform float u_scale;\n\nvarying float v_max_zoom;\nvarying float v_placement_zoom;\n\nvoid main() {\n    gl_Position = u_matrix * vec4(a_pos + a_extrude / u_scale, 0.0, 1.0);\n\n    v_max_zoom = a_data.x;\n    v_placement_zoom = a_data.y;\n}\n"}},e.exports.util="float evaluate_zoom_function_1(const vec4 values, const float t) {\n    if (t < 1.0) {\n        return mix(values[0], values[1], t);\n    } else if (t < 2.0) {\n        return mix(values[1], values[2], t - 1.0);\n    } else {\n        return mix(values[2], values[3], t - 2.0);\n    }\n}\nvec4 evaluate_zoom_function_4(const vec4 value0, const vec4 value1, const vec4 value2, const vec4 value3, const float t) {\n    if (t < 1.0) {\n        return mix(value0, value1, t);\n    } else if (t < 2.0) {\n        return mix(value1, value2, t - 1.0);\n    } else {\n        return mix(value2, value3, t - 2.0);\n    }\n}\n"},{path:58}],395:[function(t,e,r){"use strict";function n(t,e){this.message=(t?t+": 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r=t("./validate_function"),a=t("./validate_object"),s={"*":function(){return[]},array:t("./validate_array"),"boolean":t("./validate_boolean"),number:t("./validate_number"),color:t("./validate_color"),constants:t("./validate_constants"),"enum":t("./validate_enum"),filter:t("./validate_filter"),"function":t("./validate_function"),layer:t("./validate_layer"),object:t("./validate_object"),source:t("./validate_source"),string:t("./validate_string")},l=e.value,u=e.valueSpec,c=e.key,h=e.styleSpec,f=e.style;if("string"===i(l)&&"@"===l[0]){if(h.$version>7)return[new n(c,l,"constants have been deprecated as of v8")];if(!(l in f.constants))return[new n(c,l,'constant "%s" not found',l)];e=o({},e,{value:f.constants[l]})}return 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n=t("../error/validation_error"),i=t("./validate_enum"),o=t("../util/get_type"),a=t("../util/unbundle_jsonlint");e.exports=function s(t){var e,r=t.value,l=t.key,u=t.styleSpec,c=[];if("array"!==o(r))return[new n(l,r,"array expected, %s found",o(r))];if(r.length<1)return[new n(l,r,"filter array must have at least 1 element")];switch(c=c.concat(i({key:l+"[0]",value:r[0],valueSpec:u.filter_operator,style:t.style,styleSpec:t.styleSpec})),a(r[0])){case"<":case"<=":case">":case">=":r.length>=2&&"$type"==r[1]&&c.push(new n(l,r,'"$type" cannot be use with operator "%s"',r[0]));case"==":case"!=":3!=r.length&&c.push(new n(l,r,'filter array for operator "%s" must have 3 elements',r[0]));case"in":case"!in":r.length>=2&&(e=o(r[1]),"string"!==e?c.push(new n(l+"[1]",r[1],"string expected, %s found",e)):"@"===r[1][0]&&c.push(new n(l+"[1]",r[1],"filter key cannot be a constant")));for(var h=2;h<r.length;h++)e=o(r[h]),"$type"==r[1]?c=c.concat(i({key:l+"["+h+"]",value:r[h],valueSpec:u.geometry_type,style:t.style,styleSpec:t.styleSpec})):"string"===e&&"@"===r[h][0]?c.push(new n(l+"["+h+"]",r[h],"filter value cannot be a constant")):"string"!==e&&"number"!==e&&"boolean"!==e&&c.push(new n(l+"["+h+"]",r[h],"string, number, or boolean expected, %s found",e));break;case"any":case"all":case"none":for(h=1;h<r.length;h++)c=c.concat(s({key:l+"["+h+"]",value:r[h],style:t.style,styleSpec:t.styleSpec}));break;case"has":case"!has":e=o(r[1]),2!==r.length?c.push(new n(l,r,'filter array for "%s" operator must have 2 elements',r[0])):"string"!==e?c.push(new n(l+"[1]",r[1],"string expected, %s found",e)):"@"===r[1][0]&&c.push(new n(l+"[1]",r[1],"filter key cannot be a constant"))}return c}},{"../error/validation_error":395,"../util/get_type":397,"../util/unbundle_jsonlint":398,"./validate_enum":404}],406:[function(t,e,r){"use strict";var n=t("../error/validation_error"),i=t("../util/get_type"),o=t("./validate"),a=t("./validate_object"),s=t("./validate_array"),l=t("./validate_number");e.exports=function(t){function e(t){var e=[],o=t.value;return e=e.concat(s({key:t.key,value:o,valueSpec:t.valueSpec,style:t.style,styleSpec:t.styleSpec,arrayElementValidator:r})),"array"===i(o)&&0===o.length&&e.push(new n(t.key,o,"array must have at least one stop")),e}function r(t){var e=[],r=t.value,s=t.key;if("array"!==i(r))return[new n(s,r,"array expected, %s found",i(r))];if(2!==r.length)return[new n(s,r,"array length %d expected, length %d found",2,r.length)];var f=i(r[0]);if(c||(c=f),f!==c)return[new n(s,r,"%s stop key type must match previous stop key type %s",f,c)];if("object"===f){if(void 0===r[0].zoom)return[new n(s,r,"object stop key must have zoom")];if(void 0===r[0].value)return[new n(s,r,"object stop key must have 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0===t.value.property||"object"===c,d=a({key:t.key,value:t.value,valueSpec:t.styleSpec.function,style:t.style,styleSpec:t.styleSpec,objectElementValidators:{stops:e}});return t.styleSpec.$version>=8&&(f&&!t.valueSpec["property-function"]?d.push(new n(t.key,t.value,"property functions not supported")):p&&!t.valueSpec["zoom-function"]&&d.push(new n(t.key,t.value,"zoom functions not supported"))),d}},{"../error/validation_error":395,"../util/get_type":397,"./validate":399,"./validate_array":400,"./validate_number":410,"./validate_object":411}],407:[function(t,e,r){"use strict";var n=t("../error/validation_error"),i=t("./validate_string");e.exports=function(t){var e=t.value,r=t.key,o=i(t);return o.length?o:(-1===e.indexOf("{fontstack}")&&o.push(new n(r,e,'"glyphs" url must include a "{fontstack}" token')),-1===e.indexOf("{range}")&&o.push(new n(r,e,'"glyphs" url must include a "{range}" token')),o)}},{"../error/validation_error":395,"./validate_string":414}],408:[function(t,e,r){"use strict";var n=t("../error/validation_error"),i=t("../util/unbundle_jsonlint"),o=t("./validate_object"),a=t("./validate_filter"),s=t("./validate_paint_property"),l=t("./validate_layout_property"),u=t("../util/extend");e.exports=function(t){var e=[],r=t.value,c=t.key,h=t.style,f=t.styleSpec;r.type||r.ref||e.push(new n(c,r,'either "type" or "ref" is required'));var p=i(r.type),d=i(r.ref);if(r.id)for(var m=0;m<t.arrayIndex;m++){var g=h.layers[m];i(g.id)===i(r.id)&&e.push(new n(c,r.id,'duplicate layer id "%s", previously used at line %d',r.id,g.id.__line__))}if("ref"in r){["type","source","source-layer","filter","layout"].forEach(function(t){t in r&&e.push(new n(c,r[t],'"%s" is prohibited for ref layers',t))});var v;h.layers.forEach(function(t){t.id==d&&(v=t)}),v?v.ref?e.push(new n(c,r.ref,"ref cannot reference another ref layer")):p=i(v.type):e.push(new n(c,r.ref,'ref layer "%s" not found',d))}else if("background"!==p)if(r.source){var y=h.sources&&h.sources[r.source];y?"vector"==y.type&&"raster"==p?e.push(new n(c,r.source,'layer "%s" requires a raster source',r.id)):"raster"==y.type&&"raster"!=p?e.push(new n(c,r.source,'layer "%s" requires a vector source',r.id)):"vector"!=y.type||r["source-layer"]||e.push(new n(c,r,'layer "%s" must specify a "source-layer"',r.id)):e.push(new n(c,r.source,'source "%s" not found',r.source))}else e.push(new n(c,r,'missing required property "source"'));return e=e.concat(o({key:c,value:r,valueSpec:f.layer,style:t.style,styleSpec:t.styleSpec,objectElementValidators:{filter:a,layout:function(t){return o({layer:r,key:t.key,value:t.value,style:t.style,styleSpec:t.styleSpec,objectElementValidators:{"*":function(t){return l(u({layerType:p},t))}}})},paint:function(t){return o({layer:r,key:t.key,value:t.value,style:t.style,styleSpec:t.styleSpec,objectElementValidators:{"*":function(t){return s(u({layerType:p},t))}}})}}}))}},{"../error/validation_error":395,"../util/extend":396,"../util/unbundle_jsonlint":398,"./validate_filter":405,"./validate_layout_property":409,"./validate_object":411,"./validate_paint_property":412}],409:[function(t,e,r){"use strict";var n=t("./validate"),i=t("../error/validation_error");e.exports=function(t){var e=t.key,r=t.style,o=t.styleSpec,a=t.value,s=t.objectKey,l=o["layout_"+t.layerType];if(t.valueSpec||l[s]){var u=[];return"symbol"===t.layerType&&("icon-image"===s&&r&&!r.sprite?u.push(new i(e,a,'use of "icon-image" requires a style "sprite" property')):"text-field"===s&&r&&!r.glyphs&&u.push(new i(e,a,'use of "text-field" requires a style "glyphs" property'))),u.concat(n({key:t.key,value:a,valueSpec:t.valueSpec||l[s],style:r,styleSpec:o}))}return[new i(e,a,'unknown property "%s"',s)]}},{"../error/validation_error":395,"./validate":399}],410:[function(t,e,r){"use strict";var n=t("../util/get_type"),i=t("../error/validation_error");e.exports=function(t){var e=t.key,r=t.value,o=t.valueSpec,a=n(r);return"number"!==a?[new i(e,r,"number expected, %s found",a)]:"minimum"in o&&r<o.minimum?[new i(e,r,"%s is less than the minimum value %s",r,o.minimum)]:"maximum"in o&&r>o.maximum?[new i(e,r,"%s is greater than the maximum value %s",r,o.maximum)]:[]}},{"../error/validation_error":395,"../util/get_type":397}],411:[function(t,e,r){"use strict";var n=t("../error/validation_error"),i=t("../util/get_type"),o=t("./validate");e.exports=function(t){var e=t.key,r=t.value,a=t.valueSpec,s=t.objectElementValidators||{},l=t.style,u=t.styleSpec,c=[],h=i(r);if("object"!==h)return[new n(e,r,"object expected, %s found",h)];for(var f in r){var p=f.split(".")[0],d=a&&(a[p]||a["*"]),m=s[p]||s["*"];d||m?c=c.concat((m||o)({key:(e?e+".":e)+f,value:r[f],valueSpec:d,style:l,styleSpec:u,object:r,objectKey:f})):""!==e&&1!==e.split(".").length&&c.push(new n(e,r[f],'unknown property "%s"',f))}for(p in a)a[p].required&&void 0===a[p].default&&void 0===r[p]&&c.push(new n(e,r,'missing required property "%s"',p));return c}},{"../error/validation_error":395,"../util/get_type":397,"./validate":399}],412:[function(t,e,r){"use strict";var n=t("./validate"),i=t("../error/validation_error");e.exports=function(t){var e=t.key,r=t.style,o=t.styleSpec,a=t.value,s=t.objectKey,l=o["paint_"+t.layerType],u=s.match(/^(.*)-transition$/);return u&&l[u[1]]&&l[u[1]].transition?n({key:e,value:a,valueSpec:o.transition,style:r,styleSpec:o}):t.valueSpec||l[s]?n({key:t.key,value:a,valueSpec:t.valueSpec||l[s],style:r,styleSpec:o}):[new i(e,a,'unknown property "%s"',s)]}},{"../error/validation_error":395,"./validate":399}],413:[function(t,e,r){"use strict";var n=t("../error/validation_error"),i=t("../util/unbundle_jsonlint"),o=t("./validate_object"),a=t("./validate_enum");e.exports=function(t){var e=t.value,r=t.key,s=t.styleSpec,l=t.style;if(!e.type)return[new n(r,e,'"type" is required')];var u=i(e.type);switch(u){case"vector":case"raster":var c=[];if(c=c.concat(o({key:r,value:e,valueSpec:s.source_tile,style:t.style,styleSpec:s})),"url"in e)for(var h in e)["type","url","tileSize"].indexOf(h)<0&&c.push(new n(r+"."+h,e[h],'a source with a "url" property may not include a "%s" property',h));return c;case"geojson":return o({key:r,value:e,valueSpec:s.source_geojson,style:l,styleSpec:s});case"video":return o({key:r,value:e,valueSpec:s.source_video,style:l,styleSpec:s});case"image":return o({key:r,value:e,valueSpec:s.source_image,style:l,styleSpec:s});default:return a({key:r+".type",value:e.type,valueSpec:{values:["vector","raster","geojson","video","image"]},style:l,styleSpec:s})}}},{"../error/validation_error":395,"../util/unbundle_jsonlint":398,"./validate_enum":404,"./validate_object":411}],414:[function(t,e,r){"use strict";var n=t("../util/get_type"),i=t("../error/validation_error");e.exports=function(t){var e=t.value,r=t.key,o=n(e);return"string"!==o?[new i(r,e,"string expected, %s found",o)]:[]}},{"../error/validation_error":395,"../util/get_type":397}],415:[function(t,e,r){"use strict";function n(t,e){e=e||l;var r=[];return r=r.concat(s({key:"",value:t,valueSpec:e.$root,styleSpec:e,style:t,objectElementValidators:{glyphs:u}})),e.$version>7&&t.constants&&(r=r.concat(a({key:"constants",value:t.constants,style:t,styleSpec:e}))),i(r)}function i(t){return[].concat(t).sort(function(t,e){return t.line-e.line})}function o(t){return function(){return i(t.apply(this,arguments))}}var a=t("./validate/validate_constants"),s=t("./validate/validate"),l=t("../reference/latest.min"),u=t("./validate/validate_glyphs_url");n.source=o(t("./validate/validate_source")),n.layer=o(t("./validate/validate_layer")),n.filter=o(t("./validate/validate_filter")),n.paintProperty=o(t("./validate/validate_paint_property")),n.layoutProperty=o(t("./validate/validate_layout_property")),e.exports=n},{"../reference/latest.min":417,"./validate/validate":399,"./validate/validate_constants":403,"./validate/validate_filter":405,"./validate/validate_glyphs_url":407,"./validate/validate_layer":408,"./validate/validate_layout_property":409,"./validate/validate_paint_property":412,"./validate/validate_source":413}],416:[function(t,e,r){e.exports=t("./v8.json")},{"./v8.json":418}],417:[function(t,e,r){e.exports=t("./v8.min.json")},{"./v8.min.json":419}],418:[function(t,e,r){e.exports={$version:8,$root:{version:{required:!0,type:"enum",values:[8],doc:"Style specification version number. Must be 8.",example:8},name:{type:"string",doc:"A human-readable name for the style.",example:"Bright"},metadata:{type:"*",doc:"Arbitrary properties useful to track with the stylesheet, but do not influence rendering. Properties should be prefixed to avoid collisions, like 'mapbox:'."},center:{type:"array",value:"number",doc:"Default map center in longitude and latitude.  The style center will be used only if the map has not been positioned by other means (e.g. map options or user interaction).",example:[-73.9749,40.7736]},zoom:{type:"number",doc:"Default zoom level.  The style zoom will be used only if the map has not been positioned by other means (e.g. map options or user interaction).",example:12.5},bearing:{type:"number","default":0,period:360,units:"degrees",doc:"Default bearing, in degrees.  The style bearing will be used only if the map has not been positioned by other means (e.g. map options or user interaction).",example:29},pitch:{type:"number","default":0,units:"degrees",doc:"Default pitch, in degrees. Zero is perpendicular to the surface.  The style pitch will be used only if the map has not been positioned by other means (e.g. map options or user interaction).",example:50},sources:{required:!0,type:"sources",doc:"Data source specifications.",example:{"mapbox-streets":{type:"vector",url:"mapbox://mapbox.mapbox-streets-v6"}}},sprite:{type:"string",doc:"A base URL for retrieving the sprite image and metadata. The extensions `.png`, `.json` and scale factor `@2x.png` will be automatically appended. This property is required if any layer uses the 'sprite-image' layout property.",example:"mapbox://sprites/mapbox/bright-v8"},glyphs:{type:"string",doc:"A URL template for loading signed-distance-field glyph sets in PBF format. The URL must include `{fontstack}` and `{range}` tokens. This property is required if any layer uses the 'text-field' layout property.",example:"mapbox://fonts/mapbox/{fontstack}/{range}.pbf"},transition:{type:"transition",doc:"A global transition definition to use as a default across properties.",example:{duration:300,delay:0}},layers:{required:!0,type:"array",value:"layer",doc:"Layers will be drawn in the order of this array.",example:[{id:"water",source:"mapbox-streets","source-layer":"water",type:"fill",paint:{"fill-color":"#00ffff"}}]}},sources:{"*":{type:"source",doc:"Specification of a data source. For vector and raster sources, either TileJSON or a URL to a TileJSON must be provided. For GeoJSON and video sources, a URL must be provided."}},source:["source_tile","source_geojson","source_video","source_image"],source_tile:{type:{required:!0,type:"enum",values:["vector","raster"],doc:"The data type of the tile source."},url:{type:"string",doc:"A URL to a TileJSON resource. Supported protocols are `http:`, `https:`, and `mapbox://<mapid>`."},tiles:{type:"array",value:"string",doc:"An array of one or more tile source URLs, as in the TileJSON spec."},minzoom:{type:"number","default":0,doc:"Minimum zoom level for which tiles are available, as in the TileJSON spec."},maxzoom:{type:"number","default":22,doc:"Maximum zoom level for which tiles are available, as in the TileJSON spec. Data from tiles at the maxzoom are used when displaying the map at higher zoom levels."},tileSize:{type:"number","default":512,units:"pixels",doc:"The minimum visual size to display tiles for this layer. Only configurable for raster layers."},"*":{type:"*",doc:"Other keys to configure the data source."}},source_geojson:{type:{required:!0,type:"enum",values:["geojson"],doc:"The data type of the GeoJSON source."
},data:{type:"*",doc:"A URL to a GeoJSON file, or inline GeoJSON."},maxzoom:{type:"number","default":14,doc:"Maximum zoom level at which to create vector tiles (higher means greater detail at high zoom levels)."},buffer:{type:"number","default":64,doc:"Tile buffer size on each side (higher means fewer rendering artifacts near tile edges but slower performance)."},tolerance:{type:"number","default":3,doc:"Douglas-Peucker simplification tolerance (higher means simpler geometries and faster performance)."},cluster:{type:"boolean","default":!1,doc:"If the data is a collection of point features, setting this to true clusters the points by radius into groups."},clusterRadius:{type:"number","default":400,doc:"Radius of each cluster when clustering points, relative to 4096 tile."},clusterMaxZoom:{type:"number",doc:"Max zoom to cluster points on. Defaults to one zoom less than maxzoom (so that last zoom features are not clustered)."}},source_video:{type:{required:!0,type:"enum",values:["video"],doc:"The data type of the video source."},urls:{required:!0,type:"array",value:"string",doc:"URLs to video content in order of preferred format."},coordinates:{required:!0,doc:"Corners of video specified in longitude, latitude pairs.",type:"array",length:4,value:{type:"array",length:2,value:"number",doc:"A single longitude, latitude pair."}}},source_image:{type:{required:!0,type:"enum",values:["image"],doc:"The data type of the image source."},url:{required:!0,type:"string",doc:"URL that points to an image"},coordinates:{required:!0,doc:"Corners of image specified in longitude, latitude pairs.",type:"array",length:4,value:{type:"array",length:2,value:"number",doc:"A single longitude, latitude pair."}}},layer:{id:{type:"string",doc:"Unique layer name.",required:!0},type:{type:"enum",values:["fill","line","symbol","circle","raster","background"],doc:"Rendering type of this layer."},metadata:{type:"*",doc:"Arbitrary properties useful to track with the layer, but do not influence rendering. Properties should be prefixed to avoid collisions, like 'mapbox:'."},ref:{type:"string",doc:"References another layer to copy `type`, `source`, `source-layer`, `minzoom`, `maxzoom`, `filter`, and `layout` properties from. This allows the layers to share processing and be more efficient."},source:{type:"string",doc:"Name of a source description to be used for this layer."},"source-layer":{type:"string",doc:"Layer to use from a vector tile source. Required if the source supports multiple layers."},minzoom:{type:"number",minimum:0,maximum:22,doc:"The minimum zoom level on which the layer gets parsed and appears on."},maxzoom:{type:"number",minimum:0,maximum:22,doc:"The maximum zoom level on which the layer gets parsed and appears on."},interactive:{type:"boolean",doc:"Enable querying of feature data from this layer for interactivity.","default":!1},filter:{type:"filter",doc:"A expression specifying conditions on source features. Only features that match the filter are displayed."},layout:{type:"layout",doc:"Layout properties for the layer."},paint:{type:"paint",doc:"Default paint properties for this layer."},"paint.*":{type:"paint",doc:"Class-specific paint properties for this layer. The class name is the part after the first dot."}},layout:["layout_fill","layout_line","layout_circle","layout_symbol","layout_raster","layout_background"],layout_background:{visibility:{type:"enum","function":"piecewise-constant","zoom-function":!0,values:["visible","none"],"default":"visible",doc:"The display of this layer. `none` hides this layer.","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}}},layout_fill:{visibility:{type:"enum","function":"piecewise-constant","zoom-function":!0,values:["visible","none"],"default":"visible",doc:"The display of this layer. `none` hides this layer.","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}}},layout_circle:{visibility:{type:"enum","function":"piecewise-constant","zoom-function":!0,values:["visible","none"],"default":"visible",doc:"The display of this layer. `none` hides this layer.","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}}},layout_line:{"line-cap":{type:"enum","function":"piecewise-constant","zoom-function":!0,"property-function":!0,values:["butt","round","square"],"default":"butt",doc:"The display of line endings.","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"line-join":{type:"enum","function":"piecewise-constant","zoom-function":!0,"property-function":!0,values:["bevel","round","miter"],"default":"miter",doc:"The display of lines when joining.","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"line-miter-limit":{type:"number","default":2,"function":"interpolated","zoom-function":!0,"property-function":!0,doc:"Used to automatically convert miter joins to bevel joins for sharp angles.",requires:[{"line-join":"miter"}],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"line-round-limit":{type:"number","default":1.05,"function":"interpolated","zoom-function":!0,"property-function":!0,doc:"Used to automatically convert round joins to miter joins for shallow angles.",requires:[{"line-join":"round"}],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},visibility:{type:"enum","function":"piecewise-constant","zoom-function":!0,values:["visible","none"],"default":"visible",doc:"The display of this layer. `none` hides this layer.","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}}},layout_symbol:{"symbol-placement":{type:"enum","function":"piecewise-constant","zoom-function":!0,"property-function":!0,values:["point","line"],"default":"point",doc:"Label placement relative to its geometry. `line` can only be used on LineStrings and Polygons.","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"symbol-spacing":{type:"number","default":250,minimum:1,"function":"interpolated","zoom-function":!0,"property-function":!0,units:"pixels",doc:"Distance between two symbol anchors.",requires:[{"symbol-placement":"line"}],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"symbol-avoid-edges":{type:"boolean","function":"piecewise-constant","zoom-function":!0,"property-function":!0,"default":!1,doc:"If true, the symbols will not cross tile edges to avoid mutual collisions. Recommended in layers that don't have enough padding in the vector tile to prevent collisions, or if it is a point symbol layer placed after a line symbol layer.","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"icon-allow-overlap":{type:"boolean","function":"piecewise-constant","zoom-function":!0,"property-function":!0,"default":!1,doc:"If true, the icon will be visible even if it collides with other previously drawn symbols.",requires:["icon-image"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"icon-ignore-placement":{type:"boolean","function":"piecewise-constant","zoom-function":!0,"property-function":!0,"default":!1,doc:"If true, other symbols can be visible even if they collide with the icon.",requires:["icon-image"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"icon-optional":{type:"boolean","function":"piecewise-constant","zoom-function":!0,"property-function":!0,"default":!1,doc:"If true, text will display without their corresponding icons when the icon collides with other symbols and the text does not.",requires:["icon-image","text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"icon-rotation-alignment":{type:"enum","function":"piecewise-constant","zoom-function":!0,"property-function":!0,values:["map","viewport"],"default":"viewport",doc:"Orientation of icon when map is rotated.",requires:["icon-image"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"icon-size":{type:"number","default":1,minimum:0,"function":"interpolated","zoom-function":!0,"property-function":!0,doc:"Scale factor for icon. 1 is original size, 3 triples the size.",requires:["icon-image"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"icon-text-fit":{type:"enum","function":"piecewise-constant","zoom-function":!0,"property-function":!1,values:["none","both","width","height"],"default":"none",doc:"Position and scale an icon by the its corresponding text.",requires:["icon-image","text-field"],"sdk-support":{basic:{}}},"icon-text-fit-padding":{type:"array",value:"number",length:4,"default":[0,0,0,0],units:"pixels","function":"interpolated","zoom-function":!0,"property-function":!0,doc:"Size of padding area around the text-fit size in clockwise order: top, right, bottom, left.",requires:["icon-image","icon-text-fit","text-field"],"sdk-support":{basic:{}}},"icon-image":{type:"string","function":"piecewise-constant","zoom-function":!0,"property-function":!0,doc:"A string with {tokens} replaced, referencing the data property to pull from.",tokens:!0,"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"icon-rotate":{type:"number","default":0,period:360,"function":"interpolated","zoom-function":!0,"property-function":!0,units:"degrees",doc:"Rotates the icon clockwise.",requires:["icon-image"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"icon-padding":{type:"number","default":2,minimum:0,"function":"interpolated","zoom-function":!0,"property-function":!0,units:"pixels",doc:"Size of the additional area around the icon bounding box used for detecting symbol collisions.",requires:["icon-image"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"icon-keep-upright":{type:"boolean","function":"piecewise-constant","zoom-function":!0,"property-function":!0,"default":!1,doc:"If true, the icon may be flipped to prevent it from being rendered upside-down.",requires:["icon-image",{"icon-rotation-alignment":"map"},{"symbol-placement":"line"}],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"icon-offset":{type:"array",value:"number",length:2,"default":[0,0],"function":"interpolated","zoom-function":!0,"property-function":!0,doc:"Offset distance of icon from its anchor. Positive values indicate right and down, while negative values indicate left and up.",requires:["icon-image"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-pitch-alignment":{type:"enum","function":"piecewise-constant","zoom-function":!0,"property-function":!0,values:["map","viewport"],doc:"Aligns text to the plane of the `viewport` or the `map` when the map is pitched. Matches `text-rotation-alignment` if unspecified.",requires:["text-field"],"sdk-support":{basic:{}}},"text-rotation-alignment":{type:"enum","function":"piecewise-constant","zoom-function":!0,"property-function":!0,values:["map","viewport"],"default":"viewport",doc:"Orientation of text when map is rotated.",requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-field":{type:"string","function":"piecewise-constant","zoom-function":!0,"property-function":!0,"default":"",tokens:!0,doc:"Value to use for a text label. Feature properties are specified using tokens like {field_name}.","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-font":{type:"array",value:"string","function":"piecewise-constant","zoom-function":!0,"property-function":!0,"default":["Open Sans Regular","Arial Unicode MS Regular"],doc:"Font stack to use for displaying text.",requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-size":{type:"number","default":16,minimum:0,units:"pixels","function":"interpolated","zoom-function":!0,"property-function":!0,doc:"Font size.",requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-max-width":{type:"number","default":10,minimum:0,units:"em","function":"interpolated","zoom-function":!0,"property-function":!0,doc:"The maximum line width for text wrapping.",requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-line-height":{type:"number","default":1.2,units:"em","function":"interpolated","zoom-function":!0,"property-function":!0,doc:"Text leading value for multi-line text.",requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-letter-spacing":{type:"number","default":0,units:"em","function":"interpolated","zoom-function":!0,"property-function":!0,doc:"Text tracking amount.",requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-justify":{type:"enum","function":"piecewise-constant","zoom-function":!0,"property-function":!0,values:["left","center","right"],"default":"center",doc:"Text justification options.",requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-anchor":{type:"enum","function":"piecewise-constant","zoom-function":!0,"property-function":!0,values:["center","left","right","top","bottom","top-left","top-right","bottom-left","bottom-right"],"default":"center",doc:"Part of the text placed closest to the anchor.",requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-max-angle":{type:"number","default":45,units:"degrees","function":"interpolated","zoom-function":!0,"property-function":!0,doc:"Maximum angle change between adjacent characters.",requires:["text-field",{"symbol-placement":"line"}],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-rotate":{type:"number","default":0,period:360,units:"degrees","function":"interpolated","zoom-function":!0,"property-function":!0,doc:"Rotates the text clockwise.",requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-padding":{type:"number","default":2,minimum:0,units:"pixels","function":"interpolated","zoom-function":!0,"property-function":!0,doc:"Size of the additional area around the text bounding box used for detecting symbol collisions.",requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-keep-upright":{type:"boolean","function":"piecewise-constant","zoom-function":!0,"property-function":!0,"default":!0,doc:"If true, the text may be flipped vertically to prevent it from being rendered upside-down.",requires:["text-field",{"text-rotation-alignment":"map"},{"symbol-placement":"line"}],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-transform":{type:"enum","function":"piecewise-constant","zoom-function":!0,"property-function":!0,values:["none","uppercase","lowercase"],"default":"none",doc:"Specifies how to capitalize text, similar to the CSS `text-transform` property.",requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-offset":{type:"array",doc:"Offset distance of text from its anchor. Positive values indicate right and down, while negative values indicate left and up.",value:"number",units:"ems","function":"interpolated","zoom-function":!0,"property-function":!0,length:2,"default":[0,0],requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-allow-overlap":{type:"boolean","function":"piecewise-constant","zoom-function":!0,"property-function":!0,"default":!1,doc:"If true, the text will be visible even if it collides with other previously drawn symbols.",requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-ignore-placement":{type:"boolean","function":"piecewise-constant","zoom-function":!0,"property-function":!0,"default":!1,doc:"If true, other symbols can be visible even if they collide with the text.",requires:["text-field"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"text-optional":{type:"boolean","function":"piecewise-constant","zoom-function":!0,"property-function":!0,"default":!1,doc:"If true, icons will display without their corresponding text when the text collides with other symbols and the icon does not.",requires:["text-field","icon-image"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},visibility:{type:"enum","function":"piecewise-constant","zoom-function":!0,values:["visible","none"],"default":"visible",doc:"The display of this layer. `none` hides this layer.","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}}},layout_raster:{visibility:{type:"enum","function":"piecewise-constant","zoom-function":!0,values:["visible","none"],"default":"visible",doc:"The display of this layer. `none` hides this layer.","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}}},filter:{type:"array",value:"*",doc:"A filter selects specific features from a layer."},filter_operator:{type:"enum",values:["==","!=",">",">=","<","<=","in","!in","all","any","none","has","!has"],doc:"The filter operator."},geometry_type:{type:"enum",values:["Point","LineString","Polygon"],doc:"The geometry type for the filter to select."},color_operation:{type:"enum",values:["lighten","saturate","spin","fade","mix"],doc:"A color operation to apply."},"function":{stops:{type:"array",required:!0,doc:"An array of stops.",value:"function_stop"},base:{type:"number","default":1,minimum:0,doc:"The exponential base of the interpolation curve. It controls the rate at which the result increases. Higher values make the result increase more towards the high end of the range. With `1` the stops are interpolated linearly."},property:{type:"string",doc:"The name of a global property or feature property to use as the function input.","default":"$zoom"},type:{type:"enum",values:["exponential","interval","categorical"],doc:"The interpolation strategy to use in function evaluation.","default":"exponential"}},function_stop:{type:"array",minimum:0,maximum:22,value:["number","color"],length:2,doc:"Zoom level and value pair."},paint:["paint_fill","paint_line","paint_circle","paint_symbol","paint_raster","paint_background"],paint_fill:{"fill-antialias":{type:"boolean","function":"piecewise-constant","zoom-function":!0,"property-function":!0,"default":!0,doc:"Whether or not the fill should be antialiased.","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"fill-opacity":{type:"number","function":"interpolated","zoom-function":!0,"property-function":!0,"default":1,minimum:0,maximum:1,doc:"The opacity of the entire fill layer. In contrast to the fill-color, this value will also affect the 1px stroke around the fill, if the stroke is used.",transition:!0,"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"fill-color":{type:"color","default":"#000000",doc:"The color of the filled part of this layer. This color can be specified as rgba with an alpha component and the color's opacity will not affect the opacity of the 1px stroke, if it is used.","function":"interpolated","zoom-function":!0,"property-function":!0,transition:!0,requires:[{"!":"fill-pattern"}],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"},"property-function":{js:"0.19.0"}}},"fill-outline-color":{type:"color",doc:"The outline color of the fill. Matches the value of `fill-color` if unspecified.","function":"interpolated","zoom-function":!0,"property-function":!0,transition:!0,requires:[{"!":"fill-pattern"},{"fill-antialias":!0}],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"},"property-function":{js:"0.19.0"}}},"fill-translate":{type:"array",value:"number",length:2,"default":[0,0],"function":"interpolated","zoom-function":!0,"property-function":!0,transition:!0,units:"pixels",doc:"The geometry's offset. Values are [x, y] where negatives indicate left and up, respectively.","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"fill-translate-anchor":{type:"enum","function":"piecewise-constant","zoom-function":!0,"property-function":!0,values:["map","viewport"],doc:"Control whether the translation is relative to the map (north) or viewport (screen)","default":"map",requires:["fill-translate"],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"fill-pattern":{type:"string","function":"piecewise-constant","zoom-function":!0,"property-function":!0,transition:!0,doc:"Name of image in sprite to use for drawing image fills. For seamless patterns, image width and height must be a factor of two (2, 4, 8, ..., 512).","sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}}},paint_line:{"line-opacity":{type:"number",doc:"The opacity at which the line will be drawn.","function":"interpolated","zoom-function":!0,"property-function":!0,"default":1,minimum:0,maximum:1,transition:!0,"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"line-color":{type:"color",doc:"The color with which the line will be drawn.","default":"#000000","function":"interpolated","zoom-function":!0,"property-function":!0,transition:!0,requires:[{"!":"line-pattern"}],"sdk-support":{basic:{js:"0.10.0",ios:"2.0.0",android:"2.0.1"}}},"line-translate":{type:"array",value:"number",length:2,"default":[0,0],"function":"interpolated","zoom-function":!0,"property-function":!0,transition:!0,units:"pixels",doc:"The geometry's offset. 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t.yaxis1);var n=C.Axes.list({_fullLayout:t});for(e=0;e<n.length;e++){var i=n[e];i.anchor&&"free"!==i.anchor&&(i.anchor=C.Axes.cleanId(i.anchor)),i.overlaying&&(i.overlaying=C.Axes.cleanId(i.overlaying)),i.type||(i.isdate?i.type="date":i.islog?i.type="log":i.isdate===!1&&i.islog===!1&&(i.type="linear")),"withzero"!==i.autorange&&"tozero"!==i.autorange||(i.autorange=!0,i.rangemode="tozero"),delete i.islog,delete i.isdate,delete i.categories,f(i,"domain")&&delete i.domain,void 0!==i.autotick&&(void 0===i.tickmode&&(i.tickmode=i.autotick?"auto":"linear"),delete i.autotick)}void 0===t.annotations||Array.isArray(t.annotations)||(R.warn("Annotations must be an array."),delete t.annotations);var o=(t.annotations||[]).length;for(e=0;o>e;e++){var a=t.annotations[e];a.ref&&("paper"===a.ref?(a.xref="paper",a.yref="paper"):"data"===a.ref&&(a.xref="x",a.yref="y"),delete a.ref),u(a,"xref"),u(a,"yref")}void 0===t.shapes||Array.isArray(t.shapes)||(R.warn("Shapes must be an array."),delete t.shapes);var s=(t.shapes||[]).length;for(e=0;s>e;e++){var l=t.shapes[e];u(l,"xref"),u(l,"yref")}var c=t.legend;c&&(c.x>3?(c.x=1.02,c.xanchor="left"):c.x<-2&&(c.x=-.02,c.xanchor="right"),c.y>3?(c.y=1.02,c.yanchor="bottom"):c.y<-2&&(c.y=-.02,c.yanchor="top")),"rotate"===t.dragmode&&(t.dragmode="orbit"),t.scene1&&(t.scene||(t.scene=t.scene1),delete t.scene1);var h=O.getSubplotIds(t,"gl3d");for(e=0;e<h.length;e++){var p=t[h[e]],d=p.cameraposition;if(Array.isArray(d)&&4===d[0].length){var m=d[0],g=d[1],v=d[2],y=I([],m),b=[];for(r=0;3>r;++r)b[r]=g[e]+v*y[2+4*r];p.camera={eye:{x:b[0],y:b[1],z:b[2]},center:{x:g[0],y:g[1],z:g[2]},up:{x:y[1],y:y[5],z:y[9]}},delete p.cameraposition}}return N.clean(t),t}function u(t,e){var r=t[e],n=e.charAt(0);r&&"paper"!==r&&(t[e]=C.Axes.cleanId(r,n))}function c(t,e){for(var r=[],n=(t.concat(Array.isArray(e)?e:[]).filter(function(t){return"uid"in t}).map(function(t){return t.uid})),i=0;i<t.length;i++){var o,a=t[i];if(!("uid"in a)||-1!==r.indexOf(a.uid)){var s;for(o=0;100>o&&(s=R.randstr(n),-1!==r.indexOf(s));o++);a.uid=R.randstr(n),n.push(a.uid)}if(r.push(a.uid),"histogramy"===a.type&&"xbins"in a&&!("ybins"in a)&&(a.ybins=a.xbins,delete a.xbins),a.error_y&&"opacity"in a.error_y){var l=N.defaults,u=a.error_y.color||(O.traceIs(a,"bar")?N.defaultLine:l[i%l.length]);a.error_y.color=N.addOpacity(N.rgb(u),N.opacity(u)*a.error_y.opacity),delete a.error_y.opacity}if("bardir"in a&&("h"!==a.bardir||!O.traceIs(a,"bar")&&"histogram"!==a.type.substr(0,9)||(a.orientation="h",_(a)),delete a.bardir),"histogramy"===a.type&&_(a),"histogramx"!==a.type&&"histogramy"!==a.type||(a.type="histogram"),"scl"in a&&(a.colorscale=a.scl,delete a.scl),"reversescl"in a&&(a.reversescale=a.reversescl,delete a.reversescl),a.xaxis&&(a.xaxis=C.Axes.cleanId(a.xaxis,"x")),a.yaxis&&(a.yaxis=C.Axes.cleanId(a.yaxis,"y")),O.traceIs(a,"gl3d")&&a.scene&&(a.scene=O.subplotsRegistry.gl3d.cleanId(a.scene)),O.traceIs(a,"pie")||(Array.isArray(a.textposition)?a.textposition=a.textposition.map(h):a.textposition&&(a.textposition=h(a.textposition))),O.traceIs(a,"2dMap")&&("YIGnBu"===a.colorscale&&(a.colorscale="YlGnBu"),"YIOrRd"===a.colorscale&&(a.colorscale="YlOrRd")),O.traceIs(a,"markerColorscale")&&a.marker){var c=a.marker;"YIGnBu"===c.colorscale&&(c.colorscale="YlGnBu"),"YIOrRd"===c.colorscale&&(c.colorscale="YlOrRd")}if("surface"===a.type&&R.isPlainObject(a.contours)){var p=["x","y","z"];for(o=0;o<p.length;o++){var d=a.contours[p[o]];R.isPlainObject(d)&&(d.highlightColor&&(d.highlightcolor=d.highlightColor,delete d.highlightColor),d.highlightWidth&&(d.highlightwidth=d.highlightWidth,delete d.highlightWidth))}}f(a,"line")&&delete a.line,"marker"in a&&(f(a.marker,"line")&&delete a.marker.line,f(a,"marker")&&delete a.marker),N.clean(a)}}function h(t){var e="middle",r="center";return-1!==t.indexOf("top")?e="top":-1!==t.indexOf("bottom")&&(e="bottom"),-1!==t.indexOf("left")?r="left":-1!==t.indexOf("right")&&(r="right"),e+" "+r}function f(t,e){return e in t&&"object"==typeof t[e]&&0===Object.keys(t[e]).length}function p(t){var e,r=C.Axes.list(t),n=t._fullData,i=t._fullLayout,o=t.calcdata=new Array(n.length);for(t.firstscatter=!0,t.numboxes=0,t._hmpixcount=0,t._hmlumcount=0,i._piecolormap={},i._piedefaultcolorcount=0,e=0;e<r.length;e++)r[e]._categories=r[e]._initialCategories.slice();for(e=0;e<n.length;e++){var a=n[e],s=a._module,l=[];s&&a.visible===!0&&s.calc&&(l=s.calc(t,a)),Array.isArray(l)&&l[0]||(l=[{x:!1,y:!1}]),l[0].t||(l[0].t={}),l[0].trace=a,o[e]=l}}function d(t,e){var r,n,i=e+1,o=[];for(r=0;r<t.length;r++)n=t[r],0>n?o.push(i+n):o.push(n);return o}function m(t,e,r){var n,i;for(n=0;n<e.length;n++){if(i=e[n],i!==parseInt(i,10))throw new Error("all values in "+r+" must be integers");if(i>=t.data.length||i<-t.data.length)throw new Error(r+" must be valid indices for gd.data.");if(e.indexOf(i,n+1)>-1||i>=0&&e.indexOf(-t.data.length+i)>-1||0>i&&e.indexOf(t.data.length+i)>-1)throw new Error("each index in "+r+" must be unique.")}}function g(t,e,r){if(!Array.isArray(t.data))throw new Error("gd.data must be an array.");if("undefined"==typeof e)throw new Error("currentIndices is a required argument.");if(Array.isArray(e)||(e=[e]),m(t,e,"currentIndices"),"undefined"==typeof r||Array.isArray(r)||(r=[r]),"undefined"!=typeof r&&m(t,r,"newIndices"),"undefined"!=typeof r&&e.length!==r.length)throw new Error("current and new indices must be of equal length.")}function v(t,e,r){var n,i;if(!Array.isArray(t.data))throw new Error("gd.data must be an array.");if("undefined"==typeof e)throw new Error("traces must be defined.");for(Array.isArray(e)||(e=[e]),n=0;n<e.length;n++)if(i=e[n],"object"!=typeof i||Array.isArray(i)||null===i)throw new Error("all values in traces array must be non-array objects");if("undefined"==typeof r||Array.isArray(r)||(r=[r]),"undefined"!=typeof r&&r.length!==e.length)throw new Error("if indices is specified, traces.length must equal indices.length")}function y(t,e,r,n){var i=R.isPlainObject(n);if(!Array.isArray(t.data))throw new Error("gd.data must be an array");if(!R.isPlainObject(e))throw new Error("update must be a key:value object");if("undefined"==typeof r)throw new Error("indices must be an integer or array of integers");m(t,r,"indices");for(var o in e){if(!Array.isArray(e[o])||e[o].length!==r.length)throw new Error("attribute "+o+" must be an array of length equal to indices array length");if(i&&(!(o in n)||!Array.isArray(n[o])||n[o].length!==e[o].length))throw new Error("when maxPoints is set as a key:value object it must contain a 1:1 corrispondence with the keys and number of traces in the update object")}}function b(t,e,r,n){var i,o,a,s,l,u=R.isPlainObject(n),c=[];Array.isArray(r)||(r=[r]),r=d(r,t.data.length-1);for(var h in e)for(var f=0;f<r.length;f++){if(i=t.data[r[f]],a=R.nestedProperty(i,h),o=a.get(),s=e[h][f],!Array.isArray(s))throw new Error("attribute: "+h+" index: "+f+" must be an array");if(!Array.isArray(o))throw new Error("cannot extend missing or non-array attribute: "+h);l=u?n[h][f]:n,P(l)||(l=-1),c.push({prop:a,target:o,insert:s,maxp:Math.floor(l)})}return c}function x(t,e,r,n,i,o){y(t,e,r,n);for(var a,s,l,u=b(t,e,r,n),c=[],h={},f={},p=0;p<u.length;p++)s=u[p].prop,l=u[p].maxp,a=i(u[p].target,u[p].insert),l>=0&&l<a.length&&(c=o(a,l)),l=u[p].target.length,s.set(a),Array.isArray(h[s.astr])||(h[s.astr]=[]),Array.isArray(f[s.astr])||(f[s.astr]=[]),h[s.astr].push(c),f[s.astr].push(l);return{update:h,maxPoints:f}}function _(t){var e;if(R.swapAttrs(t,["?","?0","d?","?bins","nbins?","autobin?","?src","error_?"]),Array.isArray(t.z)&&Array.isArray(t.z[0])&&(t.transpose?delete t.transpose:t.transpose=!0),t.error_x&&t.error_y){var r=t.error_y,n="copy_ystyle"in r?r.copy_ystyle:!(r.color||r.thickness||r.width);R.swapAttrs(t,["error_?.copy_ystyle"]),n&&R.swapAttrs(t,["error_?.color","error_?.thickness","error_?.width"])}if(t.hoverinfo){var i=t.hoverinfo.split("+");for(e=0;e<i.length;e++)"x"===i[e]?i[e]="y":"y"===i[e]&&(i[e]="x");t.hoverinfo=i.join("+")}}function w(t){var e,r={left:0,right:0,bottom:0,top:0};if(t)for(e in t)t.hasOwnProperty(e)&&(r.left+=t[e].left||0,r.right+=t[e].right||0,r.bottom+=t[e].bottom||0,r.top+=t[e].top||0);return r}function M(t,e){var r,n,i,o=t._fullLayout,a=t._context;if(t.emit("plotly_autosize"),t._context.fillFrame)i=window.innerWidth,n=window.innerHeight,document.body.style.overflow="hidden";else if(P(a.frameMargins)&&a.frameMargins>0){var s=w(t._boundingBoxMargins),l=s.left+s.right,u=s.bottom+s.top,c=o._container.node().getBoundingClientRect(),h=1-2*a.frameMargins;i=Math.round(h*(c.width-l)),n=Math.round(h*(c.height-u))}else r=window.getComputedStyle(t),n=parseFloat(r.height)||o.height,i=parseFloat(r.width)||o.width;return Math.abs(o.width-i)>1||Math.abs(o.height-n)>1?(o.height=t.layout.height=n,o.width=t.layout.width=i):"initial"!==o.autosize&&(delete e.autosize,o.autosize=t.layout.autosize=!0),O.sanitizeMargins(o),e}function k(t){var e=z.select(t),r=t._fullLayout;if(r._container=e.selectAll(".plot-container").data([0]),r._container.enter().insert("div",":first-child").classed("plot-container",!0).classed("plotly",!0),r._paperdiv=r._container.selectAll(".svg-container").data([0]),r._paperdiv.enter().append("div").classed("svg-container",!0).style("position","relative"),"initial"===r.autosize&&(M(t,{}),r.autosize=!0,t.layout.autosize=!0),r._glcontainer=r._paperdiv.selectAll(".gl-container").data([0]),r._glcontainer.enter().append("div").classed("gl-container",!0),r._geocontainer=r._paperdiv.selectAll(".geo-container").data([0]),r._geocontainer.enter().append("div").classed("geo-container",!0),r._paperdiv.selectAll(".main-svg").remove(),r._paper=r._paperdiv.insert("svg",":first-child").classed("main-svg",!0),r._toppaper=r._paperdiv.append("svg").classed("main-svg",!0),!r._uid){var n=[];z.selectAll("defs").each(function(){this.id&&n.push(this.id.split("-")[1])}),r._uid=R.randstr(n)}r._paperdiv.selectAll(".main-svg").attr(Q.svgAttrs),r._defs=r._paper.append("defs").attr("id","defs-"+r._uid),r._topdefs=r._toppaper.append("defs").attr("id","topdefs-"+r._uid),r._draggers=r._paper.append("g").classed("draglayer",!0);var i=r._paper.append("g").classed("layer-below",!0);r._imageLowerLayer=i.append("g").classed("imagelayer",!0),r._shapeLowerLayer=i.append("g").classed("shapelayer",!0);var o=C.Axes.getSubplots(t);o.join("")!==Object.keys(t._fullLayout._plots||{}).join("")&&A(t,o),r._has("cartesian")&&T(t,o),r._ternarylayer=r._paper.append("g").classed("ternarylayer",!0);var a=r._paper.selectAll(".layer-subplot");r._imageSubplotLayer=a.selectAll(".imagelayer"),r._shapeSubplotLayer=a.selectAll(".shapelayer");var s=r._paper.append("g").classed("layer-above",!0);r._imageUpperLayer=s.append("g").classed("imagelayer",!0),r._shapeUpperLayer=s.append("g").classed("shapelayer",!0),r._pielayer=r._paper.append("g").classed("pielayer",!0),r._glimages=r._paper.append("g").classed("glimages",!0),r._geoimages=r._paper.append("g").classed("geoimages",!0),r._infolayer=r._toppaper.append("g").classed("infolayer",!0),r._zoomlayer=r._toppaper.append("g").classed("zoomlayer",!0),r._hoverlayer=r._toppaper.append("g").classed("hoverlayer",!0),t.emit("plotly_framework");var l=R.syncOrAsync([E,function(){return C.Axes.doTicks(t,"redraw")},F.init],t);return l&&l.then&&t._promises.push(l),l}function A(t,e){function r(e,r){return function(){return C.Axes.getFromId(t,e,r)}}for(var n,i,o=t._fullLayout._plots={},a=0;a<e.length;a++)n=e[a],i=o[n]={},i.id=n,i.x=r(n,"x"),i.y=r(n,"y"),i.xaxis=i.x(),i.yaxis=i.y()}function T(t,e){function r(t){t.append("g").classed("imagelayer",!0),t.append("g").classed("maplayer",!0),t.append("g").classed("barlayer",!0),t.append("g").classed("boxlayer",!0),t.append("g").classed("scatterlayer",!0)}var n=t._fullLayout,i=[];n._paper.selectAll("g.subplot").data(e).enter().append("g").classed("subplot",!0).each(function(o){var a=n._plots[o],s=a.plotgroup=z.select(this).classed(o,!0),l=a.xaxis,u=a.yaxis;a.overlays=[];var c=C.Axes.getFromId(t,l.overlaying)||l;c!==l&&c.overlaying&&(c=l,l.overlaying=!1);var h=C.Axes.getFromId(t,u.overlaying)||u;h!==u&&h.overlaying&&(h=u,u.overlaying=!1);var f=c._id+h._id;if(f!==o&&-1!==e.indexOf(f))a.mainplot=f,i.push(a),l.domain=c.domain.slice(),u.domain=h.domain.slice();else{a.bg=s.append("rect").style("stroke-width",0);var p=s.append("g").classed("layer-subplot",!0);a.shapelayer=p.append("g").classed("shapelayer",!0),a.imagelayer=p.append("g").classed("imagelayer",!0),a.gridlayer=s.append("g"),a.overgrid=s.append("g"),a.zerolinelayer=s.append("g"),a.overzero=s.append("g"),a.plot=s.append("g").call(r),a.overplot=s.append("g"),a.xlines=s.append("path"),a.ylines=s.append("path"),a.overlines=s.append("g"),a.xaxislayer=s.append("g"),a.yaxislayer=s.append("g"),a.overaxes=s.append("g")}a.draglayer=n._draggers.append("g")}),i.forEach(function(t){var e=n._plots[t.mainplot];e.overlays.push(t),t.gridlayer=e.overgrid.append("g"),t.zerolinelayer=e.overzero.append("g"),t.plot=e.overplot.append("g").call(r),t.xlines=e.overlines.append("path"),t.ylines=e.overlines.append("path"),t.xaxislayer=e.overaxes.append("g"),t.yaxislayer=e.overaxes.append("g")}),e.forEach(function(t){var e=n._plots[t];e.xlines.style("fill","none").classed("crisp",!0),e.ylines.style("fill","none").classed("crisp",!0)})}function E(t){return R.syncOrAsync([O.doAutoMargin,S],t)}function S(t){var e,r=t._fullLayout,n=r._size,i=C.Axes.list(t);for(e=0;e<i.length;e++)i[e]._linepositions={};r._paperdiv.style({width:r.width+"px",height:r.height+"px"}).selectAll(".main-svg").call(B.setSize,r.width,r.height),t._context.setBackground(t,r.paper_bgcolor);var o=[];return r._paper.selectAll("g.subplot").each(function(e){var i=r._plots[e],a=C.Axes.getFromId(t,e,"x"),s=C.Axes.getFromId(t,e,"y");a.setScale(),s.setScale(),i.bg&&i.bg.call(B.setRect,a._offset-n.p,s._offset-n.p,a._length+2*n.p,s._length+2*n.p).call(N.fill,r.plot_bgcolor),i.clipId="clip"+r._uid+e+"plot";var l=r._defs.selectAll("g.clips").selectAll("#"+i.clipId).data([0]);l.enter().append("clipPath").attr({"class":"plotclip",id:i.clipId}).append("rect"),l.selectAll("rect").attr({width:a._length,height:s._length}),i.plot.call(R.setTranslate,a._offset,s._offset),i.plot.call(B.setClipUrl,i.clipId);var 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title/.test(r.title)?"":r.title,d=0;2>=d;d+=2)this.labelEnable[p+d]=!1,this.labels[p+d]=a(n),this.labelColor[p+d]=s(r.titlefont.color),this.labelFont[p+d]=r.titlefont.family,this.labelSize[p+d]=r.titlefont.size,this.labelPad[p+d]=this.getLabelPad(e,r),this.tickEnable[p+d]=!1,this.tickColor[p+d]=s((r.tickfont||{}).color),this.tickAngle[p+d]="auto"===r.tickangle?0:Math.PI*-r.tickangle/180,this.tickPad[p+d]=this.getTickPad(r),this.tickMarkLength[p+d]=0,this.tickMarkWidth[p+d]=r.tickwidth||0,this.tickMarkColor[p+d]=s(r.tickcolor),this.borderLineEnable[p+d]=!1,this.borderLineColor[p+d]=s(r.linecolor),this.borderLineWidth[p+d]=r.linewidth||0;c=this.hasSharedAxis(r),o=this.hasAxisInDfltPos(e,r)&&!c,l=this.hasAxisInAltrPos(e,r)&&!c,i=r.mirror||!1,h=c?-1!==String(i).indexOf("all"):!!i,f=c?"allticks"===i:-1!==String(i).indexOf("ticks"),o?this.labelEnable[p]=!0:l&&(this.labelEnable[p+2]=!0),o?this.tickEnable[p]=r.showticklabels:l&&(this.tickEnable[p+2]=r.showticklabels),(o||h)&&(this.borderLineEnable[p]=r.showline),(l||h)&&(this.borderLineEnable[p+2]=r.showline),(o||f)&&(this.tickMarkLength[p]=this.getTickMarkLength(r)),(l||f)&&(this.tickMarkLength[p+2]=this.getTickMarkLength(r)),this.gridLineEnable[p]=r.showgrid,this.gridLineColor[p]=s(r.gridcolor),this.gridLineWidth[p]=r.gridwidth,this.zeroLineEnable[p]=r.zeroline,this.zeroLineColor[p]=s(r.zerolinecolor),this.zeroLineWidth[p]=r.zerolinewidth}},l.hasSharedAxis=function(t){var e=this.scene,r=o.Plots.getSubplotIds(e.fullLayout,"gl2d"),n=o.Axes.findSubplotsWithAxis(r,t);return 0!==n.indexOf(e.id)},l.hasAxisInDfltPos=function(t,e){var r=e.side;return"xaxis"===t?"bottom"===r:"yaxis"===t?"left"===r:void 0},l.hasAxisInAltrPos=function(t,e){var r=e.side;return"xaxis"===t?"top"===r:"yaxis"===t?"right"===r:void 0},l.getLabelPad=function(t,e){var r=1.5,n=e.titlefont.size,i=e.showticklabels;return"xaxis"===t?"top"===e.side?-10+n*(r+(i?1:0)):-10+n*(r+(i?.5:0)):"yaxis"===t?"right"===e.side?10+n*(r+(i?1:.5)):10+n*(r+(i?.5:0)):void 0},l.getTickPad=function(t){return"outside"===t.ticks?10+t.ticklen:15},l.getTickMarkLength=function(t){if(!t.ticks)return 0;var e=t.ticklen;return"inside"===t.ticks?-e:e},e.exports=i},{"../../lib/html2unicode":590,"../../lib/str2rgbarray":603,"../../plotly":612}],648:[function(t,e,r){"use strict";var n=t("./scene2d"),i=t("../plots"),o=t("../../constants/xmlns_namespaces");r.name="gl2d",r.attr=["xaxis","yaxis"],r.idRoot=["x","y"],r.idRegex={x:/^x([2-9]|[1-9][0-9]+)?$/,y:/^y([2-9]|[1-9][0-9]+)?$/},r.attrRegex={x:/^xaxis([2-9]|[1-9][0-9]+)?$/,y:/^yaxis([2-9]|[1-9][0-9]+)?$/},r.attributes=t("../cartesian/attributes"),r.plot=function(t){for(var e=t._fullLayout,r=t._fullData,o=i.getSubplotIds(e,"gl2d"),a=0;a<o.length;a++){var s=o[a],l=e._plots[s],u=i.getSubplotData(r,"gl2d",s),c=l._scene2d;void 0===c&&(c=new n({id:s,graphDiv:t,container:t.querySelector(".gl-container"),staticPlot:t._context.staticPlot,plotGlPixelRatio:t._context.plotGlPixelRatio},e),l._scene2d=c),c.plot(u,t.calcdata,e,t.layout)}},r.clean=function(t,e,r,n){for(var o=i.getSubplotIds(n,"gl2d"),a=0;a<o.length;a++){var s=o[a],l=n._plots[s];if(l._scene2d){var u=i.getSubplotData(t,"gl2d",s);0===u.length&&(l._scene2d.destroy(),delete n._plots[s])}}},r.toSVG=function(t){for(var e=t._fullLayout,r=i.getSubplotIds(e,"gl2d"),n=0;n<r.length;n++){var a=e._plots[r[n]],s=a._scene2d,l=s.toImage("png"),u=e._glimages.append("svg:image");u.attr({xmlns:o.svg,"xlink:href":l,x:0,y:0,width:"100%",height:"100%",preserveAspectRatio:"none"}),s.destroy()}}},{"../../constants/xmlns_namespaces":579,"../cartesian/attributes":614,"../plots":671,"./scene2d":649}],649:[function(t,e,r){"use strict";function n(t,e){this.container=t.container,this.graphDiv=t.graphDiv,this.pixelRatio=t.plotGlPixelRatio||window.devicePixelRatio,this.id=t.id,this.staticPlot=!!t.staticPlot,this.fullLayout=e,this.updateAxes(e),this.makeFramework(),this.glplotOptions=f(this),this.glplotOptions.merge(e),this.glplot=u(this.glplotOptions),this.camera=p(this),this.traces={},this.spikes=c(this.glplot),this.selectBox=h(this.glplot,{innerFill:!1,outerFill:!0}),this.pickResult=null,this.bounds=[1/0,1/0,-(1/0),-(1/0)],this.stopped=!1,this.redraw=this.draw.bind(this),this.redraw()}function i(t,e){for(var r=0;2>r;++r){var n=t[r],i=e[r];if(n.length!==i.length)return!0;for(var o=0;o<n.length;++o)if(n[o].x!==i[o].x)return!0}return!1}var o,a,s=t("../../plots/cartesian/axes"),l=t("../../plots/cartesian/graph_interact"),u=t("gl-plot2d"),c=t("gl-spikes2d"),h=t("gl-select-box"),f=t("./convert"),p=t("./camera"),d=t("../../lib/html2unicode"),m=t("../../lib/show_no_webgl_msg"),g=["xaxis","yaxis"];e.exports=n;var v=n.prototype;v.makeFramework=function(){if(this.staticPlot){if(!a){o=document.createElement("canvas");try{a=o.getContext("webgl",{preserveDrawingBuffer:!0,premultipliedAlpha:!0,antialias:!0})}catch(t){throw new Error(["Error creating static canvas/context for image server"].join(" "))}}this.canvas=o,this.gl=a}else{var e,r=document.createElement("canvas"),n={premultipliedAlpha:!0};try{e=r.getContext("webgl",n)}catch(t){}if(!e)try{e=r.getContext("experimental-webgl",n)}catch(t){}e||m(this),this.canvas=r,this.gl=e}var i=this.canvas,s=this.pixelRatio,l=this.fullLayout;i.width=0|Math.ceil(s*l.width),i.height=0|Math.ceil(s*l.height),i.style.width="100%",i.style.height="100%",i.style.position="absolute",i.style.top="0px",i.style.left="0px",i.style["pointer-events"]="none";var u=this.svgContainer=document.createElementNS("http://www.w3.org/2000/svg","svg");u.style.position="absolute",u.style.top=u.style.left="0px",u.style.width=u.style.height="100%",u.style["z-index"]=20,u.style["pointer-events"]="none";var c=this.mouseContainer=document.createElement("div");c.style.position="absolute";var h=this.container;h.appendChild(i),h.appendChild(u),h.appendChild(c)},v.toImage=function(t){t||(t="png"),this.stopped=!0,this.staticPlot&&this.container.appendChild(o),this.glplot.setDirty(),this.glplot.draw();var e=this.glplot.gl,r=e.drawingBufferWidth,n=e.drawingBufferHeight;e.bindFramebuffer(e.FRAMEBUFFER,null);var i=new Uint8Array(r*n*4);e.readPixels(0,0,r,n,e.RGBA,e.UNSIGNED_BYTE,i);for(var a=0,s=n-1;s>a;++a,--s)for(var l=0;r>l;++l)for(var u=0;4>u;++u){var c=i[4*(r*a+l)+u];i[4*(r*a+l)+u]=i[4*(r*s+l)+u],i[4*(r*s+l)+u]=c}var h=document.createElement("canvas");h.width=r,h.height=n;var f=h.getContext("2d"),p=f.createImageData(r,n);p.data.set(i),f.putImageData(p,0,0);var d;switch(t){case"jpeg":d=h.toDataURL("image/jpeg");break;case"webp":d=h.toDataURL("image/webp");break;default:d=h.toDataURL("image/png")}return this.staticPlot&&this.container.removeChild(o),d},v.computeTickMarks=function(){this.xaxis._length=this.glplot.viewBox[2]-this.glplot.viewBox[0],this.yaxis._length=this.glplot.viewBox[3]-this.glplot.viewBox[1];for(var t=[s.calcTicks(this.xaxis),s.calcTicks(this.yaxis)],e=0;2>e;++e)for(var r=0;r<t[e].length;++r)t[e][r].text=d(t[e][r].text+"").replace(/\n/g," ");return t},v.updateAxes=function(t){var e=s.subplotMatch,r="xaxis"+this.id.match(e)[1],n="yaxis"+this.id.match(e)[2];this.xaxis=t[r],this.yaxis=t[n]},v.updateFx=function(t){var e=this.fullLayout;e.dragmode=t.dragmode,e.hovermode=t.hovermode};var y=function(t){var e=t.xaxis.range,r=t.yaxis.range;t.graphDiv.layout.xaxis.autorange=t.xaxis.autorange,t.graphDiv.layout.xaxis.range=e.slice(0),t.graphDiv.layout.yaxis.autorange=t.yaxis.autorange,t.graphDiv.layout.yaxis.range=r.slice(0);var n={lastInputTime:t.camera.lastInputTime};n[t.xaxis._name]=e.slice(),n[t.yaxis._name]=r.slice(),t.graphDiv.emit("plotly_relayout",n)};v.cameraChanged=function(){var t=this.camera,e=this.xaxis.range,r=this.yaxis.range;this.glplot.setDataBox([e[0],r[0],e[1],r[1]]);var n=this.computeTickMarks(),o=this.glplotOptions.ticks;i(n,o)&&(this.glplotOptions.ticks=n,this.glplotOptions.dataBox=t.dataBox,this.glplot.update(this.glplotOptions),y(this))},v.destroy=function(){var t=this.traces;t&&Object.keys(t).map(function(e){t[e].dispose(),delete t[e]}),this.glplot.dispose(),this.staticPlot||this.container.removeChild(this.canvas),this.container.removeChild(this.svgContainer),this.container.removeChild(this.mouseContainer),this.glplot=null,this.stopped=!0},v.plot=function(t,e,r){var n=this.glplot,i=this.pixelRatio;this.fullLayout=r,this.updateAxes(r),this.updateTraces(t,e);var o=r.width,a=r.height,l=0|Math.ceil(i*o),u=0|Math.ceil(i*a),c=this.canvas;c.width===l&&c.height===u||(c.width=l,c.height=u);var h=this.glplotOptions;h.merge(r),h.screenBox=[0,0,o,a];var f=r._size,p=this.xaxis.domain,d=this.yaxis.domain;
h.viewBox=[f.l+p[0]*f.w,f.b+d[0]*f.h,o-f.r-(1-p[1])*f.w,a-f.t-(1-d[1])*f.h],this.mouseContainer.style.width=f.w*(p[1]-p[0])+"px",this.mouseContainer.style.height=f.h*(d[1]-d[0])+"px",this.mouseContainer.height=f.h*(d[1]-d[0]),this.mouseContainer.style.left=f.l+p[0]*f.w+"px",this.mouseContainer.style.top=f.t+(1-d[1])*f.h+"px";var m=this.bounds;m[0]=m[1]=1/0,m[2]=m[3]=-(1/0);var v,y,b=Object.keys(this.traces);for(y=0;y<b.length;++y)for(var x=this.traces[b[y]],_=0;2>_;++_)m[_]=Math.min(m[_],x.bounds[_]),m[_+2]=Math.max(m[_+2],x.bounds[_+2]);for(y=0;2>y;++y)m[y]>m[y+2]&&(m[y]=-1,m[y+2]=1),v=this[g[y]],v._length=h.viewBox[y+2]-h.viewBox[y],s.doAutoRange(v);h.ticks=this.computeTickMarks();var w=this.xaxis.range,M=this.yaxis.range;h.dataBox=[w[0],M[0],w[1],M[1]],h.merge(r),n.update(h),this.glplot.draw()},v.updateTraces=function(t,e){var r,n,i,o=Object.keys(this.traces);t:for(r=0;r<o.length;r++){var a=o[r],s=this.traces[a];for(n=0;n<t.length;n++)if(i=t[n],i.uid===a&&i.type===s.type)continue t;s.dispose(),delete this.traces[a]}for(r=0;r<t.length;r++){i=t[r];var l=e[r],u=this.traces[i.uid];u?u.update(i,l):(u=i._module.plot(this,i,l),this.traces[i.uid]=u)}},v.draw=function(){if(!this.stopped){requestAnimationFrame(this.redraw);var t=this.glplot,e=this.camera,r=e.mouseListener,n=this.fullLayout;this.cameraChanged();var i=r.x*t.pixelRatio,o=this.canvas.height-t.pixelRatio*r.y;if(e.boxEnabled&&"zoom"===n.dragmode)this.selectBox.enabled=!0,this.selectBox.selectBox=[Math.min(e.boxStart[0],e.boxEnd[0]),Math.min(e.boxStart[1],e.boxEnd[1]),Math.max(e.boxStart[0],e.boxEnd[0]),Math.max(e.boxStart[1],e.boxEnd[1])],t.setDirty();else{this.selectBox.enabled=!1;var a=n._size,s=this.xaxis.domain,u=this.yaxis.domain,c=t.pick(i/t.pixelRatio+a.l+s[0]*a.w,o/t.pixelRatio-(a.t+(1-u[1])*a.h));if(c&&n.hovermode){var h=c.object._trace.handlePick(c);if(h&&(!this.lastPickResult||this.lastPickResult.traceUid!==h.trace.uid||this.lastPickResult.dataCoord[0]!==h.dataCoord[0]||this.lastPickResult.dataCoord[1]!==h.dataCoord[1])){var f=h;this.lastPickResult={traceUid:h.trace?h.trace.uid:null,dataCoord:h.dataCoord.slice()},this.spikes.update({center:c.dataCoord}),f.screenCoord=[((t.viewBox[2]-t.viewBox[0])*(c.dataCoord[0]-t.dataBox[0])/(t.dataBox[2]-t.dataBox[0])+t.viewBox[0])/t.pixelRatio,(this.canvas.height-(t.viewBox[3]-t.viewBox[1])*(c.dataCoord[1]-t.dataBox[1])/(t.dataBox[3]-t.dataBox[1])-t.viewBox[1])/t.pixelRatio];var p=f.hoverinfo;if("all"!==p){var d=p.split("+");-1===d.indexOf("x")&&(f.traceCoord[0]=void 0),-1===d.indexOf("y")&&(f.traceCoord[1]=void 0),-1===d.indexOf("z")&&(f.traceCoord[2]=void 0),-1===d.indexOf("text")&&(f.textLabel=void 0),-1===d.indexOf("name")&&(f.name=void 0)}l.loneHover({x:f.screenCoord[0],y:f.screenCoord[1],xLabel:this.hoverFormatter("xaxis",f.traceCoord[0]),yLabel:this.hoverFormatter("yaxis",f.traceCoord[1]),zLabel:f.traceCoord[2],text:f.textLabel,name:f.name,color:f.color},{container:this.svgContainer})}}else!c&&this.lastPickResult&&(this.spikes.update({}),this.lastPickResult=null,l.loneUnhover(this.svgContainer))}t.draw()}},v.hoverFormatter=function(t,e){if(void 0!==e){var r=this[t];return s.tickText(r,r.c2l(e),"hover").text}}},{"../../lib/html2unicode":590,"../../lib/show_no_webgl_msg":601,"../../plots/cartesian/axes":615,"../../plots/cartesian/graph_interact":622,"./camera":646,"./convert":647,"gl-plot2d":176,"gl-select-box":206,"gl-spikes2d":226}],650:[function(t,e,r){"use strict";function n(t,e){t=t||document.body,e=e||{};var r=[.01,1/0];"distanceLimits"in e&&(r[0]=e.distanceLimits[0],r[1]=e.distanceLimits[1]),"zoomMin"in e&&(r[0]=e.zoomMin),"zoomMax"in e&&(r[1]=e.zoomMax);var n=o({center:e.center||[0,0,0],up:e.up||[0,1,0],eye:e.eye||[0,0,10],mode:e.mode||"orbit",distanceLimits:r}),l=[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0],u=0,c=t.clientWidth,h=t.clientHeight,f={keyBindingMode:"rotate",view:n,element:t,delay:e.delay||16,rotateSpeed:e.rotateSpeed||1,zoomSpeed:e.zoomSpeed||1,translateSpeed:e.translateSpeed||1,flipX:!!e.flipX,flipY:!!e.flipY,modes:n.modes,tick:function(){var e=i(),r=this.delay,o=e-2*r;n.idle(e-r),n.recalcMatrix(o),n.flush(e-(100+2*r));for(var a=!0,s=n.computedMatrix,f=0;16>f;++f)a=a&&l[f]===s[f],l[f]=s[f];var p=t.clientWidth===c&&t.clientHeight===h;return c=t.clientWidth,h=t.clientHeight,a?!p:(u=Math.exp(n.computedRadius[0]),!0)},lookAt:function(t,e,r){n.lookAt(n.lastT(),t,e,r)},rotate:function(t,e,r){n.rotate(n.lastT(),t,e,r)},pan:function(t,e,r){n.pan(n.lastT(),t,e,r)},translate:function(t,e,r){n.translate(n.lastT(),t,e,r)}};Object.defineProperties(f,{matrix:{get:function(){return n.computedMatrix},set:function(t){return n.setMatrix(n.lastT(),t),n.computedMatrix},enumerable:!0},mode:{get:function(){return n.getMode()},set:function(t){var e=n.computedUp.slice(),r=n.computedEye.slice(),o=n.computedCenter.slice();if(n.setMode(t),"turntable"===t){var a=i();n._active.lookAt(a,r,o,e),n._active.lookAt(a+500,r,o,[0,0,1]),n._active.flush(a)}return n.getMode()},enumerable:!0},center:{get:function(){return n.computedCenter},set:function(t){return n.lookAt(n.lastT(),null,t),n.computedCenter},enumerable:!0},eye:{get:function(){return n.computedEye},set:function(t){return n.lookAt(n.lastT(),t),n.computedEye},enumerable:!0},up:{get:function(){return n.computedUp},set:function(t){return n.lookAt(n.lastT(),null,null,t),n.computedUp},enumerable:!0},distance:{get:function(){return u},set:function(t){return n.setDistance(n.lastT(),t),t},enumerable:!0},distanceLimits:{get:function(){return n.getDistanceLimits(r)},set:function(t){return n.setDistanceLimits(t),t},enumerable:!0}}),t.addEventListener("contextmenu",function(t){return t.preventDefault(),!1});var p=0,d=0;return a(t,function(e,r,o,a){var s="rotate"===f.keyBindingMode,l="pan"===f.keyBindingMode,c="zoom"===f.keyBindingMode,h=!!a.control,m=!!a.alt,g=!!a.shift,v=!!(1&e),y=!!(2&e),b=!!(4&e),x=1/t.clientHeight,_=x*(r-p),w=x*(o-d),M=f.flipX?1:-1,k=f.flipY?1:-1,A=i(),T=Math.PI*f.rotateSpeed;if((s&&v&&!h&&!m&&!g||v&&!h&&!m&&g)&&n.rotate(A,M*T*_,-k*T*w,0),(l&&v&&!h&&!m&&!g||y||v&&h&&!m&&!g)&&n.pan(A,-f.translateSpeed*_*u,f.translateSpeed*w*u,0),c&&v&&!h&&!m&&!g||b||v&&!h&&m&&!g){var E=-f.zoomSpeed*w/window.innerHeight*(A-n.lastT())*100;n.pan(A,0,0,u*(Math.exp(E)-1))}return p=r,d=o,!0}),s(t,function(t,e){var r=f.flipX?1:-1,o=f.flipY?1:-1,a=i();if(Math.abs(t)>Math.abs(e))n.rotate(a,0,0,-t*r*Math.PI*f.rotateSpeed/window.innerWidth);else{var s=-f.zoomSpeed*o*e/window.innerHeight*(a-n.lastT())/100;n.pan(a,0,0,u*(Math.exp(s)-1))}},!0),f}e.exports=n;var i=t("right-now"),o=t("3d-view"),a=t("mouse-change"),s=t("mouse-wheel")},{"3d-view":40,"mouse-change":444,"mouse-wheel":448,"right-now":458}],651:[function(t,e,r){"use strict";function n(t,e){for(var r=0;3>r;++r){var n=s[r];e[n]._gd=t}}var i=t("./scene"),o=t("../plots"),a=t("../../constants/xmlns_namespaces"),s=["xaxis","yaxis","zaxis"];r.name="gl3d",r.attr="scene",r.idRoot="scene",r.idRegex=/^scene([2-9]|[1-9][0-9]+)?$/,r.attrRegex=/^scene([2-9]|[1-9][0-9]+)?$/,r.attributes=t("./layout/attributes"),r.layoutAttributes=t("./layout/layout_attributes"),r.supplyLayoutDefaults=t("./layout/defaults"),r.plot=function(t){var e=t._fullLayout,r=t._fullData,a=o.getSubplotIds(e,"gl3d");e._paperdiv.style({width:e.width+"px",height:e.height+"px"}),t._context.setBackground(t,e.paper_bgcolor);for(var s=0;s<a.length;s++){var l=a[s],u=o.getSubplotData(r,"gl3d",l),c=e[l],h=c._scene;void 0===h&&(n(t,c),h=new 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e=t.substr(5);return"1"===e&&(e=""),"scene"+e}},r.setConvert=t("./set_convert")},{"../../constants/xmlns_namespaces":579,"../plots":671,"./layout/attributes":652,"./layout/defaults":656,"./layout/layout_attributes":657,"./scene":661,"./set_convert":662}],652:[function(t,e,r){"use strict";e.exports={scene:{valType:"subplotid",dflt:"scene"}}},{}],653:[function(t,e,r){"use strict";var n=t("../../../components/color"),i=t("../../cartesian/layout_attributes"),o=t("../../../lib/extend").extendFlat;e.exports={showspikes:{valType:"boolean",dflt:!0},spikesides:{valType:"boolean",dflt:!0},spikethickness:{valType:"number",min:0,dflt:2},spikecolor:{valType:"color",dflt:n.defaultLine},showbackground:{valType:"boolean",dflt:!1},backgroundcolor:{valType:"color",dflt:"rgba(204, 204, 204, 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204)"}),gridwidth:i.gridwidth,zeroline:i.zeroline,zerolinecolor:i.zerolinecolor,zerolinewidth:i.zerolinewidth}},{"../../../components/color":506,"../../../lib/extend":586,"../../cartesian/layout_attributes":624}],654:[function(t,e,r){"use strict";var n=t("tinycolor2").mix,i=t("../../../lib"),o=t("./axis_attributes"),a=t("../../cartesian/axis_defaults"),s=["xaxis","yaxis","zaxis"],l=function(){},u=13600/187;e.exports=function(t,e,r){function c(t,e){return i.coerce(h,f,o,t,e)}for(var h,f,p=0;p<s.length;p++){var d=s[p];h=t[d]||{},f={_id:d[0]+r.scene,_name:d},e[d]=f=a(h,f,c,{font:r.font,letter:d[0],data:r.data,showGrid:!0,bgColor:r.bgColor}),c("gridcolor",n(f.color,r.bgColor,u).toRgbString()),c("title",d[0]),f.setScale=l,c("showspikes")&&(c("spikesides"),c("spikethickness"),c("spikecolor",f.color)),c("showaxeslabels"),c("showbackground")&&c("backgroundcolor")}}},{"../../../lib":591,"../../cartesian/axis_defaults":616,"./axis_attributes":653,tinycolor2:477}],655:[function(t,e,r){"use strict";function n(){this.bounds=[[-10,-10,-10],[10,10,10]],this.ticks=[[],[],[]],this.tickEnable=[!0,!0,!0],this.tickFont=["sans-serif","sans-serif","sans-serif"],this.tickSize=[12,12,12],this.tickAngle=[0,0,0],this.tickColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.tickPad=[18,18,18],this.labels=["x","y","z"],this.labelEnable=[!0,!0,!0],this.labelFont=["Open Sans","Open Sans","Open Sans"],this.labelSize=[20,20,20],this.labelAngle=[0,0,0],this.labelColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.labelPad=[30,30,30],this.lineEnable=[!0,!0,!0],this.lineMirror=[!1,!1,!1],this.lineWidth=[1,1,1],this.lineColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.lineTickEnable=[!0,!0,!0],this.lineTickMirror=[!1,!1,!1],this.lineTickLength=[10,10,10],this.lineTickWidth=[1,1,1],this.lineTickColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.gridEnable=[!0,!0,!0],this.gridWidth=[1,1,1],this.gridColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.zeroEnable=[!0,!0,!0],this.zeroLineColor=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.zeroLineWidth=[2,2,2],this.backgroundEnable=[!0,!0,!0],this.backgroundColor=[[.8,.8,.8,.5],[.8,.8,.8,.5],[.8,.8,.8,.5]],this._defaultTickPad=l(this.tickPad),this._defaultLabelPad=l(this.labelPad),this._defaultLineTickLength=l(this.lineTickLength)}function i(t){var e=new n;return e.merge(t),e}var o=t("arraytools"),a=t("../../../lib/html2unicode"),s=t("../../../lib/str2rgbarray"),l=o.copy1D,u=["xaxis","yaxis","zaxis"],c=n.prototype;c.merge=function(t){for(var e=this,r=0;3>r;++r){var n=t[u[r]];e.labels[r]=a(n.title),"titlefont"in n&&(n.titlefont.color&&(e.labelColor[r]=s(n.titlefont.color)),n.titlefont.family&&(e.labelFont[r]=n.titlefont.family),n.titlefont.size&&(e.labelSize[r]=n.titlefont.size)),"showline"in n&&(e.lineEnable[r]=n.showline),"linecolor"in n&&(e.lineColor[r]=s(n.linecolor)),"linewidth"in n&&(e.lineWidth[r]=n.linewidth),"showgrid"in n&&(e.gridEnable[r]=n.showgrid),"gridcolor"in n&&(e.gridColor[r]=s(n.gridcolor)),"gridwidth"in n&&(e.gridWidth[r]=n.gridwidth),"log"===n.type?e.zeroEnable[r]=!1:"zeroline"in n&&(e.zeroEnable[r]=n.zeroline),"zerolinecolor"in n&&(e.zeroLineColor[r]=s(n.zerolinecolor)),"zerolinewidth"in n&&(e.zeroLineWidth[r]=n.zerolinewidth),"ticks"in n&&n.ticks?e.lineTickEnable[r]=!0:e.lineTickEnable[r]=!1,"ticklen"in n&&(e.lineTickLength[r]=e._defaultLineTickLength[r]=n.ticklen),"tickcolor"in n&&(e.lineTickColor[r]=s(n.tickcolor)),"tickwidth"in n&&(e.lineTickWidth[r]=n.tickwidth),"tickangle"in n&&(e.tickAngle[r]="auto"===n.tickangle?0:Math.PI*-n.tickangle/180),"showticklabels"in n&&(e.tickEnable[r]=n.showticklabels),"tickfont"in n&&(n.tickfont.color&&(e.tickColor[r]=s(n.tickfont.color)),n.tickfont.family&&(e.tickFont[r]=n.tickfont.family),n.tickfont.size&&(e.tickSize[r]=n.tickfont.size)),"mirror"in n?-1!==["ticks","all","allticks"].indexOf(n.mirror)?(e.lineTickMirror[r]=!0,e.lineMirror[r]=!0):n.mirror===!0?(e.lineTickMirror[r]=!1,e.lineMirror[r]=!0):(e.lineTickMirror[r]=!1,e.lineMirror[r]=!1):e.lineMirror[r]=!1,"showbackground"in n&&n.showbackground!==!1?(e.backgroundEnable[r]=!0,e.backgroundColor[r]=s(n.backgroundcolor)):e.backgroundEnable[r]=!1}},e.exports=i},{"../../../lib/html2unicode":590,"../../../lib/str2rgbarray":603,arraytools:50}],656:[function(t,e,r){"use strict";function n(t,e,r,n){for(var o=r("bgcolor"),l=i.combine(o,n.paper_bgcolor),u=Object.keys(a.camera),c=0;c<u.length;c++)r("camera."+u[c]+".x"),r("camera."+u[c]+".y"),r("camera."+u[c]+".z");var h=!!r("aspectratio.x")&&!!r("aspectratio.y")&&!!r("aspectratio.z"),f=h?"manual":"auto",p=r("aspectmode",f);h||(t.aspectratio=e.aspectratio={x:1,y:1,z:1},"manual"===p&&(e.aspectmode="auto")),s(t,e,{font:n.font,scene:n.id,data:n.fullData,bgColor:l}),r("dragmode",n.getDfltFromLayout("dragmode")),r("hovermode",n.getDfltFromLayout("hovermode"))}var i=t("../../../components/color"),o=t("../../subplot_defaults"),a=t("./layout_attributes"),s=t("./axis_defaults");e.exports=function(t,e,r){function i(e){if(!s){var r=-1!==a[e].values.indexOf(t[e]);return r?t[e]:void 0}}var s=e._has("cartesian")||e._has("geo")||e._has("gl2d")||e._has("pie")||e._has("ternary");o(t,e,r,{type:"gl3d",attributes:a,handleDefaults:n,font:e.font,fullData:r,getDfltFromLayout:i,paper_bgcolor:e.paper_bgcolor})}},{"../../../components/color":506,"../../subplot_defaults":677,"./axis_defaults":654,"./layout_attributes":657}],657:[function(t,e,r){"use strict";function n(t,e,r){return{x:{valType:"number",dflt:t},y:{valType:"number",dflt:e},z:{valType:"number",dflt:r}}}var i=t("./axis_attributes"),o=t("../../../lib/extend").extendFlat;e.exports={bgcolor:{valType:"color",dflt:"rgba(0,0,0,0)"},camera:{up:o(n(0,0,1),{}),center:o(n(0,0,0),{}),eye:o(n(1.25,1.25,1.25),{})},domain:{x:{valType:"info_array",items:[{valType:"number",min:0,max:1},{valType:"number",min:0,max:1}],dflt:[0,1]},y:{valType:"info_array",items:[{valType:"number",min:0,max:1},{valType:"number",min:0,max:1}],dflt:[0,1]}},aspectmode:{valType:"enumerated",values:["auto","cube","data","manual"],dflt:"auto"},aspectratio:{x:{valType:"number",min:0},y:{valType:"number",min:0},z:{valType:"number",min:0}},xaxis:i,yaxis:i,zaxis:i,dragmode:{valType:"enumerated",values:["orbit","turntable","zoom","pan"],dflt:"turntable"},hovermode:{valType:"enumerated",values:["closest",!1],dflt:"closest"},_deprecated:{cameraposition:{valType:"info_array"}}}},{"../../../lib/extend":586,"./axis_attributes":653}],658:[function(t,e,r){"use strict";function n(){this.enabled=[!0,!0,!0],this.colors=[[0,0,0,1],[0,0,0,1],[0,0,0,1]],this.drawSides=[!0,!0,!0],this.lineWidth=[1,1,1]}function i(t){var e=new n;return e.merge(t),e}var o=t("../../../lib/str2rgbarray"),a=["xaxis","yaxis","zaxis"],s=n.prototype;s.merge=function(t){for(var e=0;3>e;++e){var r=t[a[e]];this.enabled[e]=r.showspikes,this.colors[e]=o(r.spikecolor),this.drawSides[e]=r.spikesides,this.lineWidth[e]=r.spikethickness}},e.exports=i},{"../../../lib/str2rgbarray":603}],659:[function(t,e,r){"use strict";function n(t){for(var e=new Array(3),r=0;3>r;++r){for(var n=t[r],i=new Array(n.length),o=0;o<n.length;++o)i[o]=n[o].x;e[r]=i}return e}function i(t){for(var e=t.axesOptions,r=t.glplot.axesPixels,i=t.fullSceneLayout,u=[[],[],[]],c=0;3>c;++c){var h=i[s[c]];if(h._length=(r[c].hi-r[c].lo)*r[c].pixelsPerDataUnit/t.dataScale[c],Math.abs(h._length)===1/0)u[c]=[];else{h.range[0]=r[c].lo/t.dataScale[c],h.range[1]=r[c].hi/t.dataScale[c],h._m=1/(t.dataScale[c]*r[c].pixelsPerDataUnit),h.range[0]===h.range[1]&&(h.range[0]-=1,h.range[1]+=1);var f=h.tickmode;if("auto"===h.tickmode){h.tickmode="linear";var p=h.nticks||o.Lib.constrain(h._length/40,4,9);o.Axes.autoTicks(h,Math.abs(h.range[1]-h.range[0])/p)}for(var d=o.Axes.calcTicks(h),m=0;m<d.length;++m)d[m].x=d[m].x*t.dataScale[c],d[m].text=a(d[m].text);u[c]=d,h.tickmode=f}}e.ticks=u;for(var c=0;3>c;++c){l[c]=.5*(t.glplot.bounds[0][c]+t.glplot.bounds[1][c]);for(var m=0;2>m;++m)e.bounds[m][c]=t.glplot.bounds[m][c]}t.contourLevels=n(u)}e.exports=i;var o=t("../../../plotly"),a=t("../../../lib/html2unicode"),s=["xaxis","yaxis","zaxis"],l=[0,0,0]},{"../../../lib/html2unicode":590,"../../../plotly":612}],660:[function(t,e,r){"use strict";function n(t,e){var r,n,i=[0,0,0,0];for(r=0;4>r;++r)for(n=0;4>n;++n)i[n]+=t[4*r+n]*e[r];return i}function i(t,e){var r=n(t.projection,n(t.view,n(t.model,[e[0],e[1],e[2],1])));return r}e.exports=i},{}],661:[function(t,e,r){"use strict";function n(t){function e(e,r){if("string"==typeof r)return r;var n=t.fullSceneLayout[e];return m.tickText(n,n.c2l(r),"hover").text}var r,n=t.svgContainer,i=t.container.getBoundingClientRect(),o=i.width,a=i.height;n.setAttributeNS(null,"viewBox","0 0 "+o+" "+a),n.setAttributeNS(null,"width",o),n.setAttributeNS(null,"height",a),k(t),t.glplot.axes.update(t.axesOptions);for(var s=Object.keys(t.traces),l=null,u=t.glplot.selection,c=0;c<s.length;++c)r=t.traces[s[c]],r.handlePick(u)&&(l=r),r.setContourLevels&&r.setContourLevels();var h;if(null!==l){var f=x(t.glplot.cameraParams,u.dataCoordinate);r=l.data;var p=r.hoverinfo,d=e("xaxis",u.traceCoordinate[0]),v=e("yaxis",u.traceCoordinate[1]),y=e("zaxis",u.traceCoordinate[2]);if("all"!==p){var b=p.split("+");-1===b.indexOf("x")&&(d=void 0),-1===b.indexOf("y")&&(v=void 0),-1===b.indexOf("z")&&(y=void 0),-1===b.indexOf("text")&&(u.textLabel=void 0),-1===b.indexOf("name")&&(l.name=void 0)}t.fullSceneLayout.hovermode&&g.loneHover({x:(.5+.5*f[0]/f[3])*o,y:(.5-.5*f[1]/f[3])*a,xLabel:d,yLabel:v,zLabel:y,text:u.textLabel,name:l.name,color:l.color},{container:n});var _={points:[{x:d,y:v,z:y,data:r._input,fullData:r,curveNumber:r.index,pointNumber:u.data.index}]};u.buttons&&u.distance<5?t.graphDiv.emit("plotly_click",_):t.graphDiv.emit("plotly_hover",_),h=_}else g.loneUnhover(n),t.graphDiv.emit("plotly_unhover",h)}function i(t,e,r,i){var o={canvas:r,gl:i,container:t.container,axes:t.axesOptions,spikes:t.spikeOptions,pickRadius:10,snapToData:!0,autoScale:!0,autoBounds:!1};if(t.staticMode){if(!h){c=document.createElement("canvas");try{h=c.getContext("webgl",{preserveDrawingBuffer:!0,premultipliedAlpha:!0,antialias:!0})}catch(a){throw new Error("error creating static canvas/context for image server")}}o.pixelRatio=t.pixelRatio,o.gl=h,o.canvas=c}try{t.glplot=f(o)}catch(a){y(t)}var s=function(t){var e={};e[t.id]=u(t.camera),t.saveCamera(t.graphDiv.layout),t.graphDiv.emit("plotly_relayout",e)};if(t.glplot.canvas.addEventListener("mouseup",s.bind(null,t)),t.glplot.canvas.addEventListener("wheel",s.bind(null,t)),t.staticMode||t.glplot.canvas.addEventListener("webglcontextlost",function(t){p.warn("Lost WebGL context."),t.preventDefault()}),!t.camera){var l=t.fullSceneLayout.camera;t.camera=b(t.container,{center:[l.center.x,l.center.y,l.center.z],eye:[l.eye.x,l.eye.y,l.eye.z],up:[l.up.x,l.up.y,l.up.z],zoomMin:.1,zoomMax:100,mode:"orbit"})}return t.glplot.mouseListener.enabled=!1,t.glplot.camera=t.camera,t.glplot.oncontextloss=function(){t.recoverContext()},t.glplot.onrender=n.bind(null,t),t.traces={},!0}function o(t,e){var r=document.createElement("div"),n=t.container;this.graphDiv=t.graphDiv;var 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s(t,e,r){var n=t.fullSceneLayout;a(n.xaxis,e.x,0,r),a(n.yaxis,e.y,1,r),a(n.zaxis,e.z,2,r)}function l(t){return[[t.eye.x,t.eye.y,t.eye.z],[t.center.x,t.center.y,t.center.z],[t.up.x,t.up.y,t.up.z]]}function u(t){return{up:{x:t.up[0],y:t.up[1],z:t.up[2]},center:{x:t.center[0],y:t.center[1],z:t.center[2]},eye:{x:t.eye[0],y:t.eye[1],z:t.eye[2]}}}var c,h,f=t("gl-plot3d"),p=t("../../lib"),d=t("../../plots/plots"),m=t("../../plots/cartesian/axes"),g=t("../../plots/cartesian/graph_interact"),v=t("../../lib/str2rgbarray"),y=t("../../lib/show_no_webgl_msg"),b=t("./camera"),x=t("./project"),_=t("./set_convert"),w=t("./layout/convert"),M=t("./layout/spikes"),k=t("./layout/tick_marks"),A=o.prototype;A.recoverContext=function(){function t(){return r.isContextLost()?void requestAnimationFrame(t):i(e,e.fullLayout,n,r)?void e.plot.apply(e,e.plotArgs):void p.error("Catastrophic and unrecoverable WebGL error. 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i=M+a.pxmid[0]*e.rCenter+(e.x||0),s=k+a.pxmid[1]*e.rCenter+(e.y||0);e.outside&&(a.yLabelMin=s-r.height/2,a.yLabelMid=s,a.yLabelMax=s+r.height/2,a.labelExtraX=0,a.labelExtraY=0,v=!0),t.attr("transform","translate("+i+","+s+")"+(e.scale<1?"scale("+e.scale+")":"")+(e.rotate?"rotate("+e.rotate+")":"")+"translate("+-(r.left+r.right)/2+","+-(r.top+r.bottom)/2+")")})}),v&&a(l,g),s.each(function(t){if(t.labelExtraX||t.labelExtraY){var e=c.select(this),r=e.select("g.slicetext text");r.attr("transform","translate("+t.labelExtraX+","+t.labelExtraY+")"+r.attr("transform"));var n=t.cxFinal+t.pxmid[0],i=t.cyFinal+t.pxmid[1],o="M"+n+","+i,a=(t.yLabelMax-t.yLabelMin)*(t.pxmid[0]<0?-1:1)/4;if(t.labelExtraX){var s=t.labelExtraX*t.pxmid[1]/t.pxmid[0],l=t.yLabelMid+t.labelExtraY-(t.cyFinal+t.pxmid[1]);o+=Math.abs(s)>Math.abs(l)?"l"+l*t.pxmid[0]/t.pxmid[1]+","+l+"H"+(n+t.labelExtraX+a):"l"+t.labelExtraX+","+s+"v"+(l-s)+"h"+a}else 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o=r.marker.line.width||0;Array.isArray(o)&&(o=o[e.i]||0),t.style({"stroke-width":o,fill:e.color}).call(n.stroke,i)}},{"../../components/color":506}],772:[function(t,e,r){"use strict";var n=t("../../lib");e.exports=function(t){var e=t[0].trace,r=e.marker;if(n.mergeArray(e.text,t,"tx"),n.mergeArray(e.textposition,t,"tp"),e.textfont&&(n.mergeArray(e.textfont.size,t,"ts"),n.mergeArray(e.textfont.color,t,"tc"),n.mergeArray(e.textfont.family,t,"tf")),r&&r.line){var i=r.line;n.mergeArray(r.opacity,t,"mo"),n.mergeArray(r.symbol,t,"mx"),n.mergeArray(r.color,t,"mc"),n.mergeArray(i.color,t,"mlc"),n.mergeArray(i.width,t,"mlw")}}},{"../../lib":591}],773:[function(t,e,r){"use strict";var n=t("../../components/colorscale/color_attributes"),i=t("../../components/drawing"),o=(t("./constants"),t("../../lib/extend").extendFlat);e.exports={x:{valType:"data_array"},x0:{valType:"any",dflt:0},dx:{valType:"number",dflt:1},y:{valType:"data_array"},y0:{valType:"any",dflt:0},dy:{valType:"number",
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y="projection."+g[v];f(y+".show")&&(f(y+".opacity"),f(y+".scale"))}u(t,e,r,{axis:"z"}),u(t,e,r,{axis:"y",inherit:"z"}),u(t,e,r,{axis:"x",inherit:"z"})}},{"../../components/errorbars/defaults":534,"../../lib":591,"../scatter/line_defaults":784,"../scatter/marker_defaults":788,"../scatter/subtypes":792,"../scatter/text_defaults":793,"./attributes":795}],800:[function(t,e,r){"use strict";var n={};n.plot=t("./convert"),n.attributes=t("./attributes"),n.markerSymbols=t("../../constants/gl_markers"),n.supplyDefaults=t("./defaults"),n.colorbar=t("../scatter/colorbar"),n.calc=t("./calc"),n.moduleType="trace",n.name="scatter3d",n.basePlotModule=t("../../plots/gl3d"),n.categories=["gl3d","symbols","markerColorscale","showLegend"],n.meta={},e.exports=n},{"../../constants/gl_markers":577,"../../plots/gl3d":651,"../scatter/colorbar":776,"./attributes":795,"./calc":796,"./convert":798,"./defaults":799}],801:[function(t,e,r){"use strict";var n=t("../scatter/attributes"),i=t("../../plots/attributes"),o=t("../../components/colorscale/color_attributes"),a=t("../../lib/extend").extendFlat,s=n.marker,l=n.line,u=s.line;e.exports={lon:{valType:"data_array"},lat:{valType:"data_array"},locations:{valType:"data_array"},locationmode:{valType:"enumerated",values:["ISO-3","USA-states","country names"],dflt:"ISO-3"},mode:a({},n.mode,{dflt:"markers"}),text:a({},n.text,{}),line:{color:l.color,width:l.width,dash:l.dash},marker:a({},{symbol:s.symbol,opacity:s.opacity,size:s.size,sizeref:s.sizeref,sizemin:s.sizemin,sizemode:s.sizemode,showscale:s.showscale,line:a({},{width:u.width},o("marker.line"))},o("marker")),textfont:n.textfont,textposition:n.textposition,hoverinfo:a({},i.hoverinfo,{flags:["lon","lat","location","text","name"]}),_nestedModules:{"marker.colorbar":"Colorbar"}}},{"../../components/colorscale/color_attributes":514,"../../lib/extend":586,"../../plots/attributes":613,"../scatter/attributes":773}],802:[function(t,e,r){"use 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o=i.line;n(i.opacity,"mo"),n(i.symbol,"mx"),n(i.color,"mc"),n(i.size,"ms"),n(o.color,"mlc"),n(o.width,"mlw")}}function i(t){for(var e=t.lon.length,r=new Array(e),n=0;e>n;n++)r[n]=[t.lon[n],t.lat[n]];return{type:"LineString",coordinates:r,trace:t}}function o(t,e){function r(e){var r=t.mockAxis;return u.tickText(r,r.c2l(e),"hover").text+"\xb0"}var n=e.hoverinfo;if("none"===n)return function(t){delete t.textLabel};var i="all"===n?g.hoverinfo.flags:n.split("+"),o=-1!==i.indexOf("location")&&Array.isArray(e.locations),a=-1!==i.indexOf("lon"),s=-1!==i.indexOf("lat"),l=-1!==i.indexOf("text");
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n=t("../scatter/attributes"),i=t("../../components/colorscale/color_attributes"),o=t("../../constants/gl2d_dashes"),a=t("../../constants/gl_markers"),s=t("../../lib/extend").extendFlat,l=t("../../lib/extend").extendDeep,u=n.line,c=n.marker,h=c.line;e.exports={x:n.x,x0:n.x0,dx:n.dx,y:n.y,y0:n.y0,dy:n.dy,text:s({},n.text,{}),mode:{valType:"flaglist",flags:["lines","markers"],extras:["none"]},line:{color:u.color,width:u.width,dash:{valType:"enumerated",values:Object.keys(o),dflt:"solid"}},marker:l({},i("marker"),{symbol:{valType:"enumerated",values:Object.keys(a),dflt:"circle",arrayOk:!0},size:c.size,sizeref:c.sizeref,sizemin:c.sizemin,sizemode:c.sizemode,opacity:c.opacity,showscale:c.showscale,line:l({},i("marker.line"),{width:h.width})}),connectgaps:n.connectgaps,fill:s({},n.fill,{values:["none","tozeroy","tozerox"]}),fillcolor:n.fillcolor,_nestedModules:{error_x:"ErrorBars",error_y:"ErrorBars","marker.colorbar":"Colorbar"}}},{"../../components/colorscale/color_attributes":514,"../../constants/gl2d_dashes":575,"../../constants/gl_markers":577,"../../lib/extend":586,"../scatter/attributes":773}],807:[function(t,e,r){"use 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e=this.scene,r=e.xaxis,n=e.yaxis,o=this.bounds,a=this.pickXData=r.makeCalcdata(t,"x").slice(),l=this.pickYData=n.makeCalcdata(t,"y").slice();this.xData=a.slice(),this.yData=l.slice();var c,h,f,p,d,m,g,v,b=y.calcFromTrace(t,e.fullLayout),x=a.length,_=new Array(x),M=new Float32Array(2*x),k=new Float32Array(4*x),A=new Float32Array(4*x),T=0,E=0,L=0,I=0,P="log"===r.type?function(t){return r.d2l(t)}:function(t){return t},C="log"===n.type?function(t){return n.d2l(t)}:function(t){return t};for(c=0;x>c;++c)this.xData[c]=f=P(a[c]),this.yData[c]=p=C(l[c]),isNaN(f)||isNaN(p)||(_[T++]=c,M[E++]=f,M[E++]=p,d=k[L++]=f-b[c].xs||0,m=k[L++]=b[c].xh-f||0,k[L++]=0,k[L++]=0,A[I++]=0,A[I++]=0,g=A[I++]=p-b[c].ys||0,v=A[I++]=b[c].yh-p||0,o[0]=Math.min(o[0],f-d),o[1]=Math.min(o[1],p-g),o[2]=Math.max(o[2],f+m),o[3]=Math.max(o[3],p+v));M=u(M,E),this.idToIndex=_,this.updateLines(t,M),this.updateError("X",t,M,k),this.updateError("Y",t,M,A);var 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i=this["error"+t],o=e["error_"+t.toLowerCase()],s=this["error"+t+"Options"];"x"===t.toLowerCase()&&o.copy_ystyle&&(o=e.error_y),this["hasError"+t]?(s.positions=r,s.errors=n,s.capSize=o.width,s.lineWidth=o.thickness/2,s.color=a(o.color,1,1)):s.positions=new Float32Array(0),i.update(s)},E.expandAxesFast=function(t,e){for(var r,n,i,o=e||10,a=0;2>a;a++)r=this.scene[T[a]],n=r._min,n||(n=[]),n.push({val:t[a],pad:o}),i=r._max,i||(i=[]),i.push({val:t[a+2],pad:o})},E.expandAxesFancy=function(t,e,r){var n=this.scene,i={padded:!0,ppad:r};v.expand(n.xaxis,t,i),v.expand(n.yaxis,e,i)},E.dispose=function(){this.line.dispose(),this.errorX.dispose(),this.errorY.dispose(),this.scatter.dispose(),this.fancyScatter.dispose()},e.exports=c},{"../../components/errorbars":535,"../../constants/gl2d_dashes":575,"../../constants/gl_markers":577,"../../lib":591,"../../lib/gl_format_color":589,"../../lib/str2rgbarray":603,"../../plots/cartesian/axes":615,"../scatter/get_trace_color":781,"../scatter/make_bubble_size_func":787,"../scatter/subtypes":792,"fast-isnumeric":128,"gl-error2d":130,"gl-line2d":136,"gl-scatter2d":201,"gl-scatter2d-fancy":196}],808:[function(t,e,r){"use strict";var n=t("../../lib"),i=t("../scatter/constants"),o=t("../scatter/subtypes"),a=t("../scatter/xy_defaults"),s=t("../scatter/marker_defaults"),l=t("../scatter/line_defaults"),u=t("../scatter/fillcolor_defaults"),c=t("../../components/errorbars/defaults"),h=t("./attributes");e.exports=function(t,e,r,f){function p(r,i){return n.coerce(t,e,h,r,i)}var d=a(t,e,p);return d?(p("text"),p("mode",d<i.PTS_LINESONLY?"lines+markers":"lines"),o.hasLines(e)&&(p("connectgaps"),l(t,e,r,f,p)),o.hasMarkers(e)&&s(t,e,r,f,p),p("fill"),"none"!==e.fill&&u(t,e,r,p),c(t,e,r,{axis:"y"}),void c(t,e,r,{axis:"x",inherit:"y"})):void(e.visible=!1)}},{"../../components/errorbars/defaults":534,"../../lib":591,"../scatter/constants":778,"../scatter/fillcolor_defaults":780,"../scatter/line_defaults":784,"../scatter/marker_defaults":788,"../scatter/subtypes":792,"../scatter/xy_defaults":794,"./attributes":806}],809:[function(t,e,r){"use strict";var n={};n.attributes=t("./attributes"),n.supplyDefaults=t("./defaults"),n.colorbar=t("../scatter/colorbar"),n.calc=t("../scatter3d/calc"),n.plot=t("./convert"),n.moduleType="trace",n.name="scattergl",n.basePlotModule=t("../../plots/gl2d"),n.categories=["gl2d","symbols","errorBarsOK","markerColorscale","showLegend"],n.meta={},e.exports=n},{"../../plots/gl2d":648,"../scatter/colorbar":776,"../scatter3d/calc":796,"./attributes":806,"./convert":807,"./defaults":808}],810:[function(t,e,r){"use strict";var n=t("../scattergeo/attributes"),i=t("../scatter/attributes"),o=t("../../plots/mapbox/layout_attributes"),a=t("../../plots/attributes"),s=t("../../lib/extend").extendFlat,l=n.line,u=n.marker;e.exports={lon:n.lon,lat:n.lat,mode:{valType:"flaglist",flags:["lines","markers","text"],dflt:"markers",extras:["none"]},text:s({},i.text,{}),line:{color:l.color,width:l.width,dash:l.dash},connectgaps:i.connectgaps,marker:{symbol:{valType:"string",dflt:"circle",arrayOk:!0},opacity:s({},u.opacity,{arrayOk:!1}),size:u.size,sizeref:u.sizeref,sizemin:u.sizemin,sizemode:u.sizemode,color:u.color,colorscale:u.colorscale,cauto:u.cauto,cmax:u.cmax,cmin:u.cmin,autocolorscale:u.autocolorscale,reversescale:u.reversescale,showscale:u.showscale},fill:{valType:"enumerated",values:["none","toself"],dflt:"none"},fillcolor:i.fillcolor,textfont:o.layers.symbol.textfont,textposition:o.layers.symbol.textposition,hoverinfo:s({},a.hoverinfo,{flags:["lon","lat","text","name"]}),_nestedModules:{"marker.colorbar":"Colorbar"}}},{"../../lib/extend":586,"../../plots/attributes":613,"../../plots/mapbox/layout_attributes":668,"../scatter/attributes":773,"../scattergeo/attributes":801}],811:[function(t,e,r){"use 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b=a.charCodeAt(0),c=a.charCodeAt(1),d=a.charCodeAt(2),e=a.charCodeAt(3),f=this.length-4;f>=0;--f)if(this.data[f]===b&&this.data[f+1]===c&&this.data[f+2]===d&&this.data[f+3]===e)return f;return-1},c.prototype.readData=function(a){if(this.checkOffset(a),0===a)return new Uint8Array(0);var b=this.data.subarray(this.index,this.index+a);return this.index+=a,b},b.exports=c},{"./dataReader":5}],19:[function(a,b){"use strict";var c=a("./utils"),d=function(a){this.data=new Uint8Array(a),this.index=0};d.prototype={append:function(a){0!==a.length&&(a=c.transformTo("uint8array",a),this.data.set(a,this.index),this.index+=a.length)},finalize:function(){return this.data}},b.exports=d},{"./utils":21}],20:[function(a,b,c){"use strict";for(var d=a("./utils"),e=a("./support"),f=a("./nodeBuffer"),g=new Array(256),h=0;256>h;h++)g[h]=h>=252?6:h>=248?5:h>=240?4:h>=224?3:h>=192?2:1;g[254]=g[254]=1;var i=function(a){var b,c,d,f,g,h=a.length,i=0;for(f=0;h>f;f++)c=a.charCodeAt(f),55296===(64512&c)&&h>f+1&&(d=a.charCodeAt(f+1),56320===(64512&d)&&(c=65536+(c-55296<<10)+(d-56320),f++)),i+=128>c?1:2048>c?2:65536>c?3:4;for(b=e.uint8array?new Uint8Array(i):new Array(i),g=0,f=0;i>g;f++)c=a.charCodeAt(f),55296===(64512&c)&&h>f+1&&(d=a.charCodeAt(f+1),56320===(64512&d)&&(c=65536+(c-55296<<10)+(d-56320),f++)),128>c?b[g++]=c:2048>c?(b[g++]=192|c>>>6,b[g++]=128|63&c):65536>c?(b[g++]=224|c>>>12,b[g++]=128|c>>>6&63,b[g++]=128|63&c):(b[g++]=240|c>>>18,b[g++]=128|c>>>12&63,b[g++]=128|c>>>6&63,b[g++]=128|63&c);return b},j=function(a,b){var c;for(b=b||a.length,b>a.length&&(b=a.length),c=b-1;c>=0&&128===(192&a[c]);)c--;return 0>c?b:0===c?b:c+g[a[c]]>b?c:b},k=function(a){var b,c,e,f,h=a.length,i=new Array(2*h);for(c=0,b=0;h>b;)if(e=a[b++],128>e)i[c++]=e;else if(f=g[e],f>4)i[c++]=65533,b+=f-1;else{for(e&=2===f?31:3===f?15:7;f>1&&h>b;)e=e<<6|63&a[b++],f--;f>1?i[c++]=65533:65536>e?i[c++]=e:(e-=65536,i[c++]=55296|e>>10&1023,i[c++]=56320|1023&e)}return i.length!==c&&(i.subarray?i=i.subarray(0,c):i.length=c),d.applyFromCharCode(i)};c.utf8encode=function(a){return e.nodebuffer?f(a,"utf-8"):i(a)},c.utf8decode=function(a){if(e.nodebuffer)return d.transformTo("nodebuffer",a).toString("utf-8");a=d.transformTo(e.uint8array?"uint8array":"array",a);for(var b=[],c=0,f=a.length,g=65536;f>c;){var h=j(a,Math.min(c+g,f));b.push(e.uint8array?k(a.subarray(c,h)):k(a.slice(c,h))),c=h}return b.join("")}},{"./nodeBuffer":11,"./support":17,"./utils":21}],21:[function(a,b,c){"use strict";function d(a){return a}function e(a,b){for(var c=0;c<a.length;++c)b[c]=255&a.charCodeAt(c);return b}function f(a){var b=65536,d=[],e=a.length,f=c.getTypeOf(a),g=0,h=!0;try{switch(f){case"uint8array":String.fromCharCode.apply(null,new Uint8Array(0));break;case"nodebuffer":String.fromCharCode.apply(null,j(0))}}catch(i){h=!1}if(!h){for(var k="",l=0;l<a.length;l++)k+=String.fromCharCode(a[l]);return k}for(;e>g&&b>1;)try{d.push("array"===f||"nodebuffer"===f?String.fromCharCode.apply(null,a.slice(g,Math.min(g+b,e))):String.fromCharCode.apply(null,a.subarray(g,Math.min(g+b,e)))),g+=b}catch(i){b=Math.floor(b/2)}return d.join("")}function g(a,b){for(var c=0;c<a.length;c++)b[c]=a[c];return b}var h=a("./support"),i=a("./compressions"),j=a("./nodeBuffer");c.string2binary=function(a){for(var b="",c=0;c<a.length;c++)b+=String.fromCharCode(255&a.charCodeAt(c));return b},c.arrayBuffer2Blob=function(a,b){c.checkSupport("blob"),b=b||"application/zip";try{return new Blob([a],{type:b})}catch(d){try{var e=window.BlobBuilder||window.WebKitBlobBuilder||window.MozBlobBuilder||window.MSBlobBuilder,f=new e;return f.append(a),f.getBlob(b)}catch(d){throw new Error("Bug : can't construct the Blob.")}}},c.applyFromCharCode=f;var k={};k.string={string:d,array:function(a){return e(a,new Array(a.length))},arraybuffer:function(a){return k.string.uint8array(a).buffer},uint8array:function(a){return e(a,new Uint8Array(a.length))},nodebuffer:function(a){return e(a,j(a.length))}},k.array={string:f,array:d,arraybuffer:function(a){return new Uint8Array(a).buffer},uint8array:function(a){return new Uint8Array(a)},nodebuffer:function(a){return j(a)}},k.arraybuffer={string:function(a){return f(new Uint8Array(a))},array:function(a){return g(new Uint8Array(a),new Array(a.byteLength))},arraybuffer:d,uint8array:function(a){return new Uint8Array(a)},nodebuffer:function(a){return j(new Uint8Array(a))}},k.uint8array={string:f,array:function(a){return g(a,new Array(a.length))},arraybuffer:function(a){return a.buffer},uint8array:d,nodebuffer:function(a){return j(a)}},k.nodebuffer={string:f,array:function(a){return g(a,new Array(a.length))},arraybuffer:function(a){return k.nodebuffer.uint8array(a).buffer},uint8array:function(a){return g(a,new Uint8Array(a.length))},nodebuffer:d},c.transformTo=function(a,b){if(b||(b=""),!a)return b;c.checkSupport(a);var d=c.getTypeOf(b),e=k[d][a](b);return e},c.getTypeOf=function(a){return"string"==typeof a?"string":"[object Array]"===Object.prototype.toString.call(a)?"array":h.nodebuffer&&j.test(a)?"nodebuffer":h.uint8array&&a instanceof Uint8Array?"uint8array":h.arraybuffer&&a instanceof ArrayBuffer?"arraybuffer":void 0},c.checkSupport=function(a){var b=h[a.toLowerCase()];if(!b)throw new Error(a+" is not supported by this browser")},c.MAX_VALUE_16BITS=65535,c.MAX_VALUE_32BITS=-1,c.pretty=function(a){var b,c,d="";for(c=0;c<(a||"").length;c++)b=a.charCodeAt(c),d+="\\x"+(16>b?"0":"")+b.toString(16).toUpperCase();return d},c.findCompression=function(a){for(var b in i)if(i.hasOwnProperty(b)&&i[b].magic===a)return i[b];return null},c.isRegExp=function(a){return"[object RegExp]"===Object.prototype.toString.call(a)}},{"./compressions":3,"./nodeBuffer":11,"./support":17}],22:[function(a,b){"use strict";function c(a,b){this.files=[],this.loadOptions=b,a&&this.load(a)}var d=a("./stringReader"),e=a("./nodeBufferReader"),f=a("./uint8ArrayReader"),g=a("./utils"),h=a("./signature"),i=a("./zipEntry"),j=a("./support"),k=a("./object");c.prototype={checkSignature:function(a){var b=this.reader.readString(4);if(b!==a)throw new Error("Corrupted zip or bug : unexpected signature ("+g.pretty(b)+", expected "+g.pretty(a)+")")},readBlockEndOfCentral:function(){this.diskNumber=this.reader.readInt(2),this.diskWithCentralDirStart=this.reader.readInt(2),this.centralDirRecordsOnThisDisk=this.reader.readInt(2),this.centralDirRecords=this.reader.readInt(2),this.centralDirSize=this.reader.readInt(4),this.centralDirOffset=this.reader.readInt(4),this.zipCommentLength=this.reader.readInt(2),this.zipComment=this.reader.readString(this.zipCommentLength),this.zipComment=k.utf8decode(this.zipComment)},readBlockZip64EndOfCentral:function(){this.zip64EndOfCentralSize=this.reader.readInt(8),this.versionMadeBy=this.reader.readString(2),this.versionNeeded=this.reader.readInt(2),this.diskNumber=this.reader.readInt(4),this.diskWithCentralDirStart=this.reader.readInt(4),this.centralDirRecordsOnThisDisk=this.reader.readInt(8),this.centralDirRecords=this.reader.readInt(8),this.centralDirSize=this.reader.readInt(8),this.centralDirOffset=this.reader.readInt(8),this.zip64ExtensibleData={};for(var a,b,c,d=this.zip64EndOfCentralSize-44,e=0;d>e;)a=this.reader.readInt(2),b=this.reader.readInt(4),c=this.reader.readString(b),this.zip64ExtensibleData[a]={id:a,length:b,value:c}},readBlockZip64EndOfCentralLocator:function(){if(this.diskWithZip64CentralDirStart=this.reader.readInt(4),this.relativeOffsetEndOfZip64CentralDir=this.reader.readInt(8),this.disksCount=this.reader.readInt(4),this.disksCount>1)throw new Error("Multi-volumes zip are not supported")},readLocalFiles:function(){var a,b;for(a=0;a<this.files.length;a++)b=this.files[a],this.reader.setIndex(b.localHeaderOffset),this.checkSignature(h.LOCAL_FILE_HEADER),b.readLocalPart(this.reader),b.handleUTF8(),b.processAttributes()},readCentralDir:function(){var a;for(this.reader.setIndex(this.centralDirOffset);this.reader.readString(4)===h.CENTRAL_FILE_HEADER;)a=new i({zip64:this.zip64},this.loadOptions),a.readCentralPart(this.reader),this.files.push(a)},readEndOfCentral:function(){var a=this.reader.lastIndexOfSignature(h.CENTRAL_DIRECTORY_END);if(-1===a){var b=!0;try{this.reader.setIndex(0),this.checkSignature(h.LOCAL_FILE_HEADER),b=!1}catch(c){}throw new Error(b?"Can't find end of central directory : is this a zip file ? If it is, see http://stuk.github.io/jszip/documentation/howto/read_zip.html":"Corrupted zip : can't find end of central directory")}if(this.reader.setIndex(a),this.checkSignature(h.CENTRAL_DIRECTORY_END),this.readBlockEndOfCentral(),this.diskNumber===g.MAX_VALUE_16BITS||this.diskWithCentralDirStart===g.MAX_VALUE_16BITS||this.centralDirRecordsOnThisDisk===g.MAX_VALUE_16BITS||this.centralDirRecords===g.MAX_VALUE_16BITS||this.centralDirSize===g.MAX_VALUE_32BITS||this.centralDirOffset===g.MAX_VALUE_32BITS){if(this.zip64=!0,a=this.reader.lastIndexOfSignature(h.ZIP64_CENTRAL_DIRECTORY_LOCATOR),-1===a)throw new Error("Corrupted zip : can't find the ZIP64 end of central directory locator");this.reader.setIndex(a),this.checkSignature(h.ZIP64_CENTRAL_DIRECTORY_LOCATOR),this.readBlockZip64EndOfCentralLocator(),this.reader.setIndex(this.relativeOffsetEndOfZip64CentralDir),this.checkSignature(h.ZIP64_CENTRAL_DIRECTORY_END),this.readBlockZip64EndOfCentral()}},prepareReader:function(a){var b=g.getTypeOf(a);this.reader="string"!==b||j.uint8array?"nodebuffer"===b?new e(a):new f(g.transformTo("uint8array",a)):new d(a,this.loadOptions.optimizedBinaryString)},load:function(a){this.prepareReader(a),this.readEndOfCentral(),this.readCentralDir(),this.readLocalFiles()}},b.exports=c},{"./nodeBufferReader":12,"./object":13,"./signature":14,"./stringReader":15,"./support":17,"./uint8ArrayReader":18,"./utils":21,"./zipEntry":23}],23:[function(a,b){"use strict";function c(a,b){this.options=a,this.loadOptions=b}var d=a("./stringReader"),e=a("./utils"),f=a("./compressedObject"),g=a("./object"),h=0,i=3;c.prototype={isEncrypted:function(){return 1===(1&this.bitFlag)},useUTF8:function(){return 2048===(2048&this.bitFlag)},prepareCompressedContent:function(a,b,c){return function(){var d=a.index;a.setIndex(b);var e=a.readData(c);return a.setIndex(d),e}},prepareContent:function(a,b,c,d,f){return function(){var a=e.transformTo(d.uncompressInputType,this.getCompressedContent()),b=d.uncompress(a);if(b.length!==f)throw new Error("Bug : uncompressed data size mismatch");return b}},readLocalPart:function(a){var b,c;if(a.skip(22),this.fileNameLength=a.readInt(2),c=a.readInt(2),this.fileName=a.readString(this.fileNameLength),a.skip(c),-1==this.compressedSize||-1==this.uncompressedSize)throw new Error("Bug or corrupted zip : didn't get enough informations from the central directory (compressedSize == -1 || uncompressedSize == -1)");if(b=e.findCompression(this.compressionMethod),null===b)throw new Error("Corrupted zip : compression "+e.pretty(this.compressionMethod)+" unknown (inner file : "+this.fileName+")");if(this.decompressed=new f,this.decompressed.compressedSize=this.compressedSize,this.decompressed.uncompressedSize=this.uncompressedSize,this.decompressed.crc32=this.crc32,this.decompressed.compressionMethod=this.compressionMethod,this.decompressed.getCompressedContent=this.prepareCompressedContent(a,a.index,this.compressedSize,b),this.decompressed.getContent=this.prepareContent(a,a.index,this.compressedSize,b,this.uncompressedSize),this.loadOptions.checkCRC32&&(this.decompressed=e.transformTo("string",this.decompressed.getContent()),g.crc32(this.decompressed)!==this.crc32))throw new Error("Corrupted zip : CRC32 mismatch")},readCentralPart:function(a){if(this.versionMadeBy=a.readInt(2),this.versionNeeded=a.readInt(2),this.bitFlag=a.readInt(2),this.compressionMethod=a.readString(2),this.date=a.readDate(),this.crc32=a.readInt(4),this.compressedSize=a.readInt(4),this.uncompressedSize=a.readInt(4),this.fileNameLength=a.readInt(2),this.extraFieldsLength=a.readInt(2),this.fileCommentLength=a.readInt(2),this.diskNumberStart=a.readInt(2),this.internalFileAttributes=a.readInt(2),this.externalFileAttributes=a.readInt(4),this.localHeaderOffset=a.readInt(4),this.isEncrypted())throw new Error("Encrypted zip are not supported");this.fileName=a.readString(this.fileNameLength),this.readExtraFields(a),this.parseZIP64ExtraField(a),this.fileComment=a.readString(this.fileCommentLength)},processAttributes:function(){this.unixPermissions=null,this.dosPermissions=null;var a=this.versionMadeBy>>8;this.dir=16&this.externalFileAttributes?!0:!1,a===h&&(this.dosPermissions=63&this.externalFileAttributes),a===i&&(this.unixPermissions=this.externalFileAttributes>>16&65535),this.dir||"/"!==this.fileName.slice(-1)||(this.dir=!0)},parseZIP64ExtraField:function(){if(this.extraFields[1]){var a=new d(this.extraFields[1].value);this.uncompressedSize===e.MAX_VALUE_32BITS&&(this.uncompressedSize=a.readInt(8)),this.compressedSize===e.MAX_VALUE_32BITS&&(this.compressedSize=a.readInt(8)),this.localHeaderOffset===e.MAX_VALUE_32BITS&&(this.localHeaderOffset=a.readInt(8)),this.diskNumberStart===e.MAX_VALUE_32BITS&&(this.diskNumberStart=a.readInt(4))}},readExtraFields:function(a){var b,c,d,e=a.index;for(this.extraFields=this.extraFields||{};a.index<e+this.extraFieldsLength;)b=a.readInt(2),c=a.readInt(2),d=a.readString(c),this.extraFields[b]={id:b,length:c,value:d}},handleUTF8:function(){if(this.useUTF8())this.fileName=g.utf8decode(this.fileName),this.fileComment=g.utf8decode(this.fileComment);else{var a=this.findExtraFieldUnicodePath();null!==a&&(this.fileName=a);var b=this.findExtraFieldUnicodeComment();null!==b&&(this.fileComment=b)}},findExtraFieldUnicodePath:function(){var a=this.extraFields[28789];if(a){var b=new d(a.value);return 1!==b.readInt(1)?null:g.crc32(this.fileName)!==b.readInt(4)?null:g.utf8decode(b.readString(a.length-5))
}return null},findExtraFieldUnicodeComment:function(){var a=this.extraFields[25461];if(a){var b=new d(a.value);return 1!==b.readInt(1)?null:g.crc32(this.fileComment)!==b.readInt(4)?null:g.utf8decode(b.readString(a.length-5))}return null}},b.exports=c},{"./compressedObject":2,"./object":13,"./stringReader":15,"./utils":21}],24:[function(a,b){"use strict";var c=a("./lib/utils/common").assign,d=a("./lib/deflate"),e=a("./lib/inflate"),f=a("./lib/zlib/constants"),g={};c(g,d,e,f),b.exports=g},{"./lib/deflate":25,"./lib/inflate":26,"./lib/utils/common":27,"./lib/zlib/constants":30}],25:[function(a,b,c){"use strict";function d(a,b){var c=new s(b);if(c.push(a,!0),c.err)throw c.msg;return c.result}function e(a,b){return b=b||{},b.raw=!0,d(a,b)}function f(a,b){return b=b||{},b.gzip=!0,d(a,b)}var g=a("./zlib/deflate.js"),h=a("./utils/common"),i=a("./utils/strings"),j=a("./zlib/messages"),k=a("./zlib/zstream"),l=0,m=4,n=0,o=1,p=-1,q=0,r=8,s=function(a){this.options=h.assign({level:p,method:r,chunkSize:16384,windowBits:15,memLevel:8,strategy:q,to:""},a||{});var b=this.options;b.raw&&b.windowBits>0?b.windowBits=-b.windowBits:b.gzip&&b.windowBits>0&&b.windowBits<16&&(b.windowBits+=16),this.err=0,this.msg="",this.ended=!1,this.chunks=[],this.strm=new k,this.strm.avail_out=0;var c=g.deflateInit2(this.strm,b.level,b.method,b.windowBits,b.memLevel,b.strategy);if(c!==n)throw new Error(j[c]);b.header&&g.deflateSetHeader(this.strm,b.header)};s.prototype.push=function(a,b){var c,d,e=this.strm,f=this.options.chunkSize;if(this.ended)return!1;d=b===~~b?b:b===!0?m:l,e.input="string"==typeof a?i.string2buf(a):a,e.next_in=0,e.avail_in=e.input.length;do{if(0===e.avail_out&&(e.output=new h.Buf8(f),e.next_out=0,e.avail_out=f),c=g.deflate(e,d),c!==o&&c!==n)return this.onEnd(c),this.ended=!0,!1;(0===e.avail_out||0===e.avail_in&&d===m)&&this.onData("string"===this.options.to?i.buf2binstring(h.shrinkBuf(e.output,e.next_out)):h.shrinkBuf(e.output,e.next_out))}while((e.avail_in>0||0===e.avail_out)&&c!==o);return d===m?(c=g.deflateEnd(this.strm),this.onEnd(c),this.ended=!0,c===n):!0},s.prototype.onData=function(a){this.chunks.push(a)},s.prototype.onEnd=function(a){a===n&&(this.result="string"===this.options.to?this.chunks.join(""):h.flattenChunks(this.chunks)),this.chunks=[],this.err=a,this.msg=this.strm.msg},c.Deflate=s,c.deflate=d,c.deflateRaw=e,c.gzip=f},{"./utils/common":27,"./utils/strings":28,"./zlib/deflate.js":32,"./zlib/messages":37,"./zlib/zstream":39}],26:[function(a,b,c){"use strict";function d(a,b){var c=new m(b);if(c.push(a,!0),c.err)throw c.msg;return c.result}function e(a,b){return b=b||{},b.raw=!0,d(a,b)}var f=a("./zlib/inflate.js"),g=a("./utils/common"),h=a("./utils/strings"),i=a("./zlib/constants"),j=a("./zlib/messages"),k=a("./zlib/zstream"),l=a("./zlib/gzheader"),m=function(a){this.options=g.assign({chunkSize:16384,windowBits:0,to:""},a||{});var b=this.options;b.raw&&b.windowBits>=0&&b.windowBits<16&&(b.windowBits=-b.windowBits,0===b.windowBits&&(b.windowBits=-15)),!(b.windowBits>=0&&b.windowBits<16)||a&&a.windowBits||(b.windowBits+=32),b.windowBits>15&&b.windowBits<48&&0===(15&b.windowBits)&&(b.windowBits|=15),this.err=0,this.msg="",this.ended=!1,this.chunks=[],this.strm=new k,this.strm.avail_out=0;var c=f.inflateInit2(this.strm,b.windowBits);if(c!==i.Z_OK)throw new Error(j[c]);this.header=new l,f.inflateGetHeader(this.strm,this.header)};m.prototype.push=function(a,b){var c,d,e,j,k,l=this.strm,m=this.options.chunkSize;if(this.ended)return!1;d=b===~~b?b:b===!0?i.Z_FINISH:i.Z_NO_FLUSH,l.input="string"==typeof a?h.binstring2buf(a):a,l.next_in=0,l.avail_in=l.input.length;do{if(0===l.avail_out&&(l.output=new g.Buf8(m),l.next_out=0,l.avail_out=m),c=f.inflate(l,i.Z_NO_FLUSH),c!==i.Z_STREAM_END&&c!==i.Z_OK)return this.onEnd(c),this.ended=!0,!1;l.next_out&&(0===l.avail_out||c===i.Z_STREAM_END||0===l.avail_in&&d===i.Z_FINISH)&&("string"===this.options.to?(e=h.utf8border(l.output,l.next_out),j=l.next_out-e,k=h.buf2string(l.output,e),l.next_out=j,l.avail_out=m-j,j&&g.arraySet(l.output,l.output,e,j,0),this.onData(k)):this.onData(g.shrinkBuf(l.output,l.next_out)))}while(l.avail_in>0&&c!==i.Z_STREAM_END);return c===i.Z_STREAM_END&&(d=i.Z_FINISH),d===i.Z_FINISH?(c=f.inflateEnd(this.strm),this.onEnd(c),this.ended=!0,c===i.Z_OK):!0},m.prototype.onData=function(a){this.chunks.push(a)},m.prototype.onEnd=function(a){a===i.Z_OK&&(this.result="string"===this.options.to?this.chunks.join(""):g.flattenChunks(this.chunks)),this.chunks=[],this.err=a,this.msg=this.strm.msg},c.Inflate=m,c.inflate=d,c.inflateRaw=e,c.ungzip=d},{"./utils/common":27,"./utils/strings":28,"./zlib/constants":30,"./zlib/gzheader":33,"./zlib/inflate.js":35,"./zlib/messages":37,"./zlib/zstream":39}],27:[function(a,b,c){"use strict";var d="undefined"!=typeof Uint8Array&&"undefined"!=typeof Uint16Array&&"undefined"!=typeof Int32Array;c.assign=function(a){for(var b=Array.prototype.slice.call(arguments,1);b.length;){var c=b.shift();if(c){if("object"!=typeof c)throw new TypeError(c+"must be non-object");for(var d in c)c.hasOwnProperty(d)&&(a[d]=c[d])}}return a},c.shrinkBuf=function(a,b){return a.length===b?a:a.subarray?a.subarray(0,b):(a.length=b,a)};var e={arraySet:function(a,b,c,d,e){if(b.subarray&&a.subarray)return void a.set(b.subarray(c,c+d),e);for(var f=0;d>f;f++)a[e+f]=b[c+f]},flattenChunks:function(a){var b,c,d,e,f,g;for(d=0,b=0,c=a.length;c>b;b++)d+=a[b].length;for(g=new Uint8Array(d),e=0,b=0,c=a.length;c>b;b++)f=a[b],g.set(f,e),e+=f.length;return g}},f={arraySet:function(a,b,c,d,e){for(var f=0;d>f;f++)a[e+f]=b[c+f]},flattenChunks:function(a){return[].concat.apply([],a)}};c.setTyped=function(a){a?(c.Buf8=Uint8Array,c.Buf16=Uint16Array,c.Buf32=Int32Array,c.assign(c,e)):(c.Buf8=Array,c.Buf16=Array,c.Buf32=Array,c.assign(c,f))},c.setTyped(d)},{}],28:[function(a,b,c){"use strict";function d(a,b){if(65537>b&&(a.subarray&&g||!a.subarray&&f))return String.fromCharCode.apply(null,e.shrinkBuf(a,b));for(var c="",d=0;b>d;d++)c+=String.fromCharCode(a[d]);return c}var 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m=Y+(h.w_bits-8<<4)<<8,n=-1;n=h.strategy>=T||h.level<2?0:h.level<6?1:6===h.level?2:3,m|=n<<6,0!==h.strstart&&(m|=kb),m+=31-m%31,h.status=qb,j(h,m),0!==h.strstart&&(j(h,a.adler>>>16),j(h,65535&a.adler)),a.adler=1}if(h.status===mb)if(h.gzhead.extra){for(k=h.pending;h.gzindex<(65535&h.gzhead.extra.length)&&(h.pending!==h.pending_buf_size||(h.gzhead.hcrc&&h.pending>k&&(a.adler=F(a.adler,h.pending_buf,h.pending-k,k)),g(a),k=h.pending,h.pending!==h.pending_buf_size));)i(h,255&h.gzhead.extra[h.gzindex]),h.gzindex++;h.gzhead.hcrc&&h.pending>k&&(a.adler=F(a.adler,h.pending_buf,h.pending-k,k)),h.gzindex===h.gzhead.extra.length&&(h.gzindex=0,h.status=nb)}else h.status=nb;if(h.status===nb)if(h.gzhead.name){k=h.pending;do{if(h.pending===h.pending_buf_size&&(h.gzhead.hcrc&&h.pending>k&&(a.adler=F(a.adler,h.pending_buf,h.pending-k,k)),g(a),k=h.pending,h.pending===h.pending_buf_size)){l=1;break}l=h.gzindex<h.gzhead.name.length?255&h.gzhead.name.charCodeAt(h.gzindex++):0,i(h,l)}while(0!==l);h.gzhead.hcrc&&h.pending>k&&(a.adler=F(a.adler,h.pending_buf,h.pending-k,k)),0===l&&(h.gzindex=0,h.status=ob)}else h.status=ob;if(h.status===ob)if(h.gzhead.comment){k=h.pending;do{if(h.pending===h.pending_buf_size&&(h.gzhead.hcrc&&h.pending>k&&(a.adler=F(a.adler,h.pending_buf,h.pending-k,k)),g(a),k=h.pending,h.pending===h.pending_buf_size)){l=1;break}l=h.gzindex<h.gzhead.comment.length?255&h.gzhead.comment.charCodeAt(h.gzindex++):0,i(h,l)}while(0!==l);h.gzhead.hcrc&&h.pending>k&&(a.adler=F(a.adler,h.pending_buf,h.pending-k,k)),0===l&&(h.status=pb)}else h.status=pb;if(h.status===pb&&(h.gzhead.hcrc?(h.pending+2>h.pending_buf_size&&g(a),h.pending+2<=h.pending_buf_size&&(i(h,255&a.adler),i(h,a.adler>>8&255),a.adler=0,h.status=qb)):h.status=qb),0!==h.pending){if(g(a),0===a.avail_out)return h.last_flush=-1,M}else if(0===a.avail_in&&e(b)<=e(c)&&b!==K)return d(a,Q);if(h.status===rb&&0!==a.avail_in)return d(a,Q);if(0!==a.avail_in||0!==h.lookahead||b!==H&&h.status!==rb){var o=h.strategy===T?r(h,b):h.strategy===U?q(h,b):B[h.level].func(h,b);if((o===ub||o===vb)&&(h.status=rb),o===sb||o===ub)return 0===a.avail_out&&(h.last_flush=-1),M;if(o===tb&&(b===I?D._tr_align(h):b!==L&&(D._tr_stored_block(h,0,0,!1),b===J&&(f(h.head),0===h.lookahead&&(h.strstart=0,h.block_start=0,h.insert=0))),g(a),0===a.avail_out))return h.last_flush=-1,M}return b!==K?M:h.wrap<=0?N:(2===h.wrap?(i(h,255&a.adler),i(h,a.adler>>8&255),i(h,a.adler>>16&255),i(h,a.adler>>24&255),i(h,255&a.total_in),i(h,a.total_in>>8&255),i(h,a.total_in>>16&255),i(h,a.total_in>>24&255)):(j(h,a.adler>>>16),j(h,65535&a.adler)),g(a),h.wrap>0&&(h.wrap=-h.wrap),0!==h.pending?M:N)}function A(a){var b;return a&&a.state?(b=a.state.status,b!==lb&&b!==mb&&b!==nb&&b!==ob&&b!==pb&&b!==qb&&b!==rb?d(a,O):(a.state=null,b===qb?d(a,P):M)):O}var B,C=a("../utils/common"),D=a("./trees"),E=a("./adler32"),F=a("./crc32"),G=a("./messages"),H=0,I=1,J=3,K=4,L=5,M=0,N=1,O=-2,P=-3,Q=-5,R=-1,S=1,T=2,U=3,V=4,W=0,X=2,Y=8,Z=9,$=15,_=8,ab=29,bb=256,cb=bb+1+ab,db=30,eb=19,fb=2*cb+1,gb=15,hb=3,ib=258,jb=ib+hb+1,kb=32,lb=42,mb=69,nb=73,ob=91,pb=103,qb=113,rb=666,sb=1,tb=2,ub=3,vb=4,wb=3,xb=function(a,b,c,d,e){this.good_length=a,this.max_lazy=b,this.nice_length=c,this.max_chain=d,this.func=e};B=[new xb(0,0,0,0,n),new xb(4,4,8,4,o),new xb(4,5,16,8,o),new xb(4,6,32,32,o),new xb(4,4,16,16,p),new xb(8,16,32,32,p),new xb(8,16,128,128,p),new xb(8,32,128,256,p),new xb(32,128,258,1024,p),new xb(32,258,258,4096,p)],c.deflateInit=y,c.deflateInit2=x,c.deflateReset=v,c.deflateResetKeep=u,c.deflateSetHeader=w,c.deflate=z,c.deflateEnd=A,c.deflateInfo="pako deflate (from Nodeca project)"},{"../utils/common":27,"./adler32":29,"./crc32":31,"./messages":37,"./trees":38}],33:[function(a,b){"use strict";function c(){this.text=0,this.time=0,this.xflags=0,this.os=0,this.extra=null,this.extra_len=0,this.name="",this.comment="",this.hcrc=0,this.done=!1}b.exports=c},{}],34:[function(a,b){"use strict";var c=30,d=12;b.exports=function(a,b){var e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t,u,v,w,x,y,z,A,B,C;e=a.state,f=a.next_in,B=a.input,g=f+(a.avail_in-5),h=a.next_out,C=a.output,i=h-(b-a.avail_out),j=h+(a.avail_out-257),k=e.dmax,l=e.wsize,m=e.whave,n=e.wnext,o=e.window,p=e.hold,q=e.bits,r=e.lencode,s=e.distcode,t=(1<<e.lenbits)-1,u=(1<<e.distbits)-1;a:do{15>q&&(p+=B[f++]<<q,q+=8,p+=B[f++]<<q,q+=8),v=r[p&t];b:for(;;){if(w=v>>>24,p>>>=w,q-=w,w=v>>>16&255,0===w)C[h++]=65535&v;else{if(!(16&w)){if(0===(64&w)){v=r[(65535&v)+(p&(1<<w)-1)];continue b}if(32&w){e.mode=d;break a}a.msg="invalid literal/length code",e.mode=c;break a}x=65535&v,w&=15,w&&(w>q&&(p+=B[f++]<<q,q+=8),x+=p&(1<<w)-1,p>>>=w,q-=w),15>q&&(p+=B[f++]<<q,q+=8,p+=B[f++]<<q,q+=8),v=s[p&u];c:for(;;){if(w=v>>>24,p>>>=w,q-=w,w=v>>>16&255,!(16&w)){if(0===(64&w)){v=s[(65535&v)+(p&(1<<w)-1)];continue c}a.msg="invalid distance code",e.mode=c;break a}if(y=65535&v,w&=15,w>q&&(p+=B[f++]<<q,q+=8,w>q&&(p+=B[f++]<<q,q+=8)),y+=p&(1<<w)-1,y>k){a.msg="invalid distance too far back",e.mode=c;break a}if(p>>>=w,q-=w,w=h-i,y>w){if(w=y-w,w>m&&e.sane){a.msg="invalid distance too far back",e.mode=c;break a}if(z=0,A=o,0===n){if(z+=l-w,x>w){x-=w;do C[h++]=o[z++];while(--w);z=h-y,A=C}}else if(w>n){if(z+=l+n-w,w-=n,x>w){x-=w;do C[h++]=o[z++];while(--w);if(z=0,x>n){w=n,x-=w;do C[h++]=o[z++];while(--w);z=h-y,A=C}}}else if(z+=n-w,x>w){x-=w;do C[h++]=o[z++];while(--w);z=h-y,A=C}for(;x>2;)C[h++]=A[z++],C[h++]=A[z++],C[h++]=A[z++],x-=3;x&&(C[h++]=A[z++],x>1&&(C[h++]=A[z++]))}else{z=h-y;do C[h++]=C[z++],C[h++]=C[z++],C[h++]=C[z++],x-=3;while(x>2);x&&(C[h++]=C[z++],x>1&&(C[h++]=C[z++]))}break}}break}}while(g>f&&j>h);x=q>>3,f-=x,q-=x<<3,p&=(1<<q)-1,a.next_in=f,a.next_out=h,a.avail_in=g>f?5+(g-f):5-(f-g),a.avail_out=j>h?257+(j-h):257-(h-j),e.hold=p,e.bits=q}},{}],35:[function(a,b,c){"use strict";function d(a){return(a>>>24&255)+(a>>>8&65280)+((65280&a)<<8)+((255&a)<<24)}function e(){this.mode=0,this.last=!1,this.wrap=0,this.havedict=!1,this.flags=0,this.dmax=0,this.check=0,this.total=0,this.head=null,this.wbits=0,this.wsize=0,this.whave=0,this.wnext=0,this.window=null,this.hold=0,this.bits=0,this.length=0,this.offset=0,this.extra=0,this.lencode=null,this.distcode=null,this.lenbits=0,this.distbits=0,this.ncode=0,this.nlen=0,this.ndist=0,this.have=0,this.next=null,this.lens=new r.Buf16(320),this.work=new r.Buf16(288),this.lendyn=null,this.distdyn=null,this.sane=0,this.back=0,this.was=0}function f(a){var b;return a&&a.state?(b=a.state,a.total_in=a.total_out=b.total=0,a.msg="",b.wrap&&(a.adler=1&b.wrap),b.mode=K,b.last=0,b.havedict=0,b.dmax=32768,b.head=null,b.hold=0,b.bits=0,b.lencode=b.lendyn=new r.Buf32(ob),b.distcode=b.distdyn=new r.Buf32(pb),b.sane=1,b.back=-1,C):F}function g(a){var b;return a&&a.state?(b=a.state,b.wsize=0,b.whave=0,b.wnext=0,f(a)):F}function h(a,b){var c,d;return a&&a.state?(d=a.state,0>b?(c=0,b=-b):(c=(b>>4)+1,48>b&&(b&=15)),b&&(8>b||b>15)?F:(null!==d.window&&d.wbits!==b&&(d.window=null),d.wrap=c,d.wbits=b,g(a))):F}function i(a,b){var c,d;return a?(d=new e,a.state=d,d.window=null,c=h(a,b),c!==C&&(a.state=null),c):F}function j(a){return i(a,rb)}function k(a){if(sb){var b;for(p=new r.Buf32(512),q=new r.Buf32(32),b=0;144>b;)a.lens[b++]=8;for(;256>b;)a.lens[b++]=9;for(;280>b;)a.lens[b++]=7;for(;288>b;)a.lens[b++]=8;for(v(x,a.lens,0,288,p,0,a.work,{bits:9}),b=0;32>b;)a.lens[b++]=5;v(y,a.lens,0,32,q,0,a.work,{bits:5}),sb=!1}a.lencode=p,a.lenbits=9,a.distcode=q,a.distbits=5}function l(a,b,c,d){var e,f=a.state;return null===f.window&&(f.wsize=1<<f.wbits,f.wnext=0,f.whave=0,f.window=new r.Buf8(f.wsize)),d>=f.wsize?(r.arraySet(f.window,b,c-f.wsize,f.wsize,0),f.wnext=0,f.whave=f.wsize):(e=f.wsize-f.wnext,e>d&&(e=d),r.arraySet(f.window,b,c-d,e,f.wnext),d-=e,d?(r.arraySet(f.window,b,c-d,d,0),f.wnext=d,f.whave=f.wsize):(f.wnext+=e,f.wnext===f.wsize&&(f.wnext=0),f.whave<f.wsize&&(f.whave+=e))),0}function m(a,b){var c,e,f,g,h,i,j,m,n,o,p,q,ob,pb,qb,rb,sb,tb,ub,vb,wb,xb,yb,zb,Ab=0,Bb=new r.Buf8(4),Cb=[16,17,18,0,8,7,9,6,10,5,11,4,12,3,13,2,14,1,15];if(!a||!a.state||!a.output||!a.input&&0!==a.avail_in)return F;c=a.state,c.mode===V&&(c.mode=W),h=a.next_out,f=a.output,j=a.avail_out,g=a.next_in,e=a.input,i=a.avail_in,m=c.hold,n=c.bits,o=i,p=j,xb=C;a:for(;;)switch(c.mode){case K:if(0===c.wrap){c.mode=W;break}for(;16>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}if(2&c.wrap&&35615===m){c.check=0,Bb[0]=255&m,Bb[1]=m>>>8&255,c.check=t(c.check,Bb,2,0),m=0,n=0,c.mode=L;break}if(c.flags=0,c.head&&(c.head.done=!1),!(1&c.wrap)||(((255&m)<<8)+(m>>8))%31){a.msg="incorrect header 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O:if(1024&c.flags){for(;16>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}c.length=m,c.head&&(c.head.extra_len=m),512&c.flags&&(Bb[0]=255&m,Bb[1]=m>>>8&255,c.check=t(c.check,Bb,2,0)),m=0,n=0}else c.head&&(c.head.extra=null);c.mode=P;case P:if(1024&c.flags&&(q=c.length,q>i&&(q=i),q&&(c.head&&(wb=c.head.extra_len-c.length,c.head.extra||(c.head.extra=new Array(c.head.extra_len)),r.arraySet(c.head.extra,e,g,q,wb)),512&c.flags&&(c.check=t(c.check,e,q,g)),i-=q,g+=q,c.length-=q),c.length))break a;c.length=0,c.mode=Q;case Q:if(2048&c.flags){if(0===i)break a;q=0;do wb=e[g+q++],c.head&&wb&&c.length<65536&&(c.head.name+=String.fromCharCode(wb));while(wb&&i>q);if(512&c.flags&&(c.check=t(c.check,e,q,g)),i-=q,g+=q,wb)break a}else c.head&&(c.head.name=null);c.length=0,c.mode=R;case R:if(4096&c.flags){if(0===i)break a;q=0;do wb=e[g+q++],c.head&&wb&&c.length<65536&&(c.head.comment+=String.fromCharCode(wb));while(wb&&i>q);if(512&c.flags&&(c.check=t(c.check,e,q,g)),i-=q,g+=q,wb)break a}else c.head&&(c.head.comment=null);c.mode=S;case S:if(512&c.flags){for(;16>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}if(m!==(65535&c.check)){a.msg="header crc mismatch",c.mode=lb;break}m=0,n=0}c.head&&(c.head.hcrc=c.flags>>9&1,c.head.done=!0),a.adler=c.check=0,c.mode=V;break;case T:for(;32>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}a.adler=c.check=d(m),m=0,n=0,c.mode=U;case U:if(0===c.havedict)return a.next_out=h,a.avail_out=j,a.next_in=g,a.avail_in=i,c.hold=m,c.bits=n,E;a.adler=c.check=1,c.mode=V;case V:if(b===A||b===B)break a;case W:if(c.last){m>>>=7&n,n-=7&n,c.mode=ib;break}for(;3>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}switch(c.last=1&m,m>>>=1,n-=1,3&m){case 0:c.mode=X;break;case 1:if(k(c),c.mode=bb,b===B){m>>>=2,n-=2;break a}break;case 2:c.mode=$;break;case 3:a.msg="invalid block type",c.mode=lb}m>>>=2,n-=2;break;case X:for(m>>>=7&n,n-=7&n;32>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}if((65535&m)!==(m>>>16^65535)){a.msg="invalid stored block lengths",c.mode=lb;break}if(c.length=65535&m,m=0,n=0,c.mode=Y,b===B)break a;case Y:c.mode=Z;case Z:if(q=c.length){if(q>i&&(q=i),q>j&&(q=j),0===q)break a;r.arraySet(f,e,g,q,h),i-=q,g+=q,j-=q,h+=q,c.length-=q;break}c.mode=V;break;case $:for(;14>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}if(c.nlen=(31&m)+257,m>>>=5,n-=5,c.ndist=(31&m)+1,m>>>=5,n-=5,c.ncode=(15&m)+4,m>>>=4,n-=4,c.nlen>286||c.ndist>30){a.msg="too many length or distance symbols",c.mode=lb;break}c.have=0,c.mode=_;case _:for(;c.have<c.ncode;){for(;3>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}c.lens[Cb[c.have++]]=7&m,m>>>=3,n-=3}for(;c.have<19;)c.lens[Cb[c.have++]]=0;if(c.lencode=c.lendyn,c.lenbits=7,yb={bits:c.lenbits},xb=v(w,c.lens,0,19,c.lencode,0,c.work,yb),c.lenbits=yb.bits,xb){a.msg="invalid code lengths set",c.mode=lb;break}c.have=0,c.mode=ab;case ab:for(;c.have<c.nlen+c.ndist;){for(;Ab=c.lencode[m&(1<<c.lenbits)-1],qb=Ab>>>24,rb=Ab>>>16&255,sb=65535&Ab,!(n>=qb);){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}if(16>sb)m>>>=qb,n-=qb,c.lens[c.have++]=sb;else{if(16===sb){for(zb=qb+2;zb>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}if(m>>>=qb,n-=qb,0===c.have){a.msg="invalid bit length repeat",c.mode=lb;break}wb=c.lens[c.have-1],q=3+(3&m),m>>>=2,n-=2}else if(17===sb){for(zb=qb+3;zb>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}m>>>=qb,n-=qb,wb=0,q=3+(7&m),m>>>=3,n-=3}else{for(zb=qb+7;zb>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}m>>>=qb,n-=qb,wb=0,q=11+(127&m),m>>>=7,n-=7}if(c.have+q>c.nlen+c.ndist){a.msg="invalid bit length repeat",c.mode=lb;break}for(;q--;)c.lens[c.have++]=wb}}if(c.mode===lb)break;if(0===c.lens[256]){a.msg="invalid code -- missing end-of-block",c.mode=lb;break}if(c.lenbits=9,yb={bits:c.lenbits},xb=v(x,c.lens,0,c.nlen,c.lencode,0,c.work,yb),c.lenbits=yb.bits,xb){a.msg="invalid literal/lengths set",c.mode=lb;break}if(c.distbits=6,c.distcode=c.distdyn,yb={bits:c.distbits},xb=v(y,c.lens,c.nlen,c.ndist,c.distcode,0,c.work,yb),c.distbits=yb.bits,xb){a.msg="invalid distances set",c.mode=lb;break}if(c.mode=bb,b===B)break a;case bb:c.mode=cb;case cb:if(i>=6&&j>=258){a.next_out=h,a.avail_out=j,a.next_in=g,a.avail_in=i,c.hold=m,c.bits=n,u(a,p),h=a.next_out,f=a.output,j=a.avail_out,g=a.next_in,e=a.input,i=a.avail_in,m=c.hold,n=c.bits,c.mode===V&&(c.back=-1);
break}for(c.back=0;Ab=c.lencode[m&(1<<c.lenbits)-1],qb=Ab>>>24,rb=Ab>>>16&255,sb=65535&Ab,!(n>=qb);){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}if(rb&&0===(240&rb)){for(tb=qb,ub=rb,vb=sb;Ab=c.lencode[vb+((m&(1<<tb+ub)-1)>>tb)],qb=Ab>>>24,rb=Ab>>>16&255,sb=65535&Ab,!(n>=tb+qb);){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}m>>>=tb,n-=tb,c.back+=tb}if(m>>>=qb,n-=qb,c.back+=qb,c.length=sb,0===rb){c.mode=hb;break}if(32&rb){c.back=-1,c.mode=V;break}if(64&rb){a.msg="invalid literal/length code",c.mode=lb;break}c.extra=15&rb,c.mode=db;case db:if(c.extra){for(zb=c.extra;zb>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}c.length+=m&(1<<c.extra)-1,m>>>=c.extra,n-=c.extra,c.back+=c.extra}c.was=c.length,c.mode=eb;case eb:for(;Ab=c.distcode[m&(1<<c.distbits)-1],qb=Ab>>>24,rb=Ab>>>16&255,sb=65535&Ab,!(n>=qb);){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}if(0===(240&rb)){for(tb=qb,ub=rb,vb=sb;Ab=c.distcode[vb+((m&(1<<tb+ub)-1)>>tb)],qb=Ab>>>24,rb=Ab>>>16&255,sb=65535&Ab,!(n>=tb+qb);){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}m>>>=tb,n-=tb,c.back+=tb}if(m>>>=qb,n-=qb,c.back+=qb,64&rb){a.msg="invalid distance code",c.mode=lb;break}c.offset=sb,c.extra=15&rb,c.mode=fb;case fb:if(c.extra){for(zb=c.extra;zb>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}c.offset+=m&(1<<c.extra)-1,m>>>=c.extra,n-=c.extra,c.back+=c.extra}if(c.offset>c.dmax){a.msg="invalid distance too far back",c.mode=lb;break}c.mode=gb;case gb:if(0===j)break a;if(q=p-j,c.offset>q){if(q=c.offset-q,q>c.whave&&c.sane){a.msg="invalid distance too far back",c.mode=lb;break}q>c.wnext?(q-=c.wnext,ob=c.wsize-q):ob=c.wnext-q,q>c.length&&(q=c.length),pb=c.window}else pb=f,ob=h-c.offset,q=c.length;q>j&&(q=j),j-=q,c.length-=q;do f[h++]=pb[ob++];while(--q);0===c.length&&(c.mode=cb);break;case hb:if(0===j)break a;f[h++]=c.length,j--,c.mode=cb;break;case ib:if(c.wrap){for(;32>n;){if(0===i)break a;i--,m|=e[g++]<<n,n+=8}if(p-=j,a.total_out+=p,c.total+=p,p&&(a.adler=c.check=c.flags?t(c.check,f,p,h-p):s(c.check,f,p,h-p)),p=j,(c.flags?m:d(m))!==c.check){a.msg="incorrect data check",c.mode=lb;break}m=0,n=0}c.mode=jb;case jb:if(c.wrap&&c.flags){for(;32>n;){if(0===i)break a;i--,m+=e[g++]<<n,n+=8}if(m!==(4294967295&c.total)){a.msg="incorrect length check",c.mode=lb;break}m=0,n=0}c.mode=kb;case kb:xb=D;break a;case lb:xb=G;break a;case mb:return H;case nb:default:return F}return a.next_out=h,a.avail_out=j,a.next_in=g,a.avail_in=i,c.hold=m,c.bits=n,(c.wsize||p!==a.avail_out&&c.mode<lb&&(c.mode<ib||b!==z))&&l(a,a.output,a.next_out,p-a.avail_out)?(c.mode=mb,H):(o-=a.avail_in,p-=a.avail_out,a.total_in+=o,a.total_out+=p,c.total+=p,c.wrap&&p&&(a.adler=c.check=c.flags?t(c.check,f,p,a.next_out-p):s(c.check,f,p,a.next_out-p)),a.data_type=c.bits+(c.last?64:0)+(c.mode===V?128:0)+(c.mode===bb||c.mode===Y?256:0),(0===o&&0===p||b===z)&&xb===C&&(xb=I),xb)}function n(a){if(!a||!a.state)return F;var b=a.state;return b.window&&(b.window=null),a.state=null,C}function o(a,b){var c;return a&&a.state?(c=a.state,0===(2&c.wrap)?F:(c.head=b,b.done=!1,C)):F}var p,q,r=a("../utils/common"),s=a("./adler32"),t=a("./crc32"),u=a("./inffast"),v=a("./inftrees"),w=0,x=1,y=2,z=4,A=5,B=6,C=0,D=1,E=2,F=-2,G=-3,H=-4,I=-5,J=8,K=1,L=2,M=3,N=4,O=5,P=6,Q=7,R=8,S=9,T=10,U=11,V=12,W=13,X=14,Y=15,Z=16,$=17,_=18,ab=19,bb=20,cb=21,db=22,eb=23,fb=24,gb=25,hb=26,ib=27,jb=28,kb=29,lb=30,mb=31,nb=32,ob=852,pb=592,qb=15,rb=qb,sb=!0;c.inflateReset=g,c.inflateReset2=h,c.inflateResetKeep=f,c.inflateInit=j,c.inflateInit2=i,c.inflate=m,c.inflateEnd=n,c.inflateGetHeader=o,c.inflateInfo="pako inflate (from Nodeca project)"},{"../utils/common":27,"./adler32":29,"./crc32":31,"./inffast":34,"./inftrees":36}],36:[function(a,b){"use strict";var c=a("../utils/common"),d=15,e=852,f=592,g=0,h=1,i=2,j=[3,4,5,6,7,8,9,10,11,13,15,17,19,23,27,31,35,43,51,59,67,83,99,115,131,163,195,227,258,0,0],k=[16,16,16,16,16,16,16,16,17,17,17,17,18,18,18,18,19,19,19,19,20,20,20,20,21,21,21,21,16,72,78],l=[1,2,3,4,5,7,9,13,17,25,33,49,65,97,129,193,257,385,513,769,1025,1537,2049,3073,4097,6145,8193,12289,16385,24577,0,0],m=[16,16,16,16,17,17,18,18,19,19,20,20,21,21,22,22,23,23,24,24,25,25,26,26,27,27,28,28,29,29,64,64];b.exports=function(a,b,n,o,p,q,r,s){var t,u,v,w,x,y,z,A,B,C=s.bits,D=0,E=0,F=0,G=0,H=0,I=0,J=0,K=0,L=0,M=0,N=null,O=0,P=new c.Buf16(d+1),Q=new c.Buf16(d+1),R=null,S=0;for(D=0;d>=D;D++)P[D]=0;for(E=0;o>E;E++)P[b[n+E]]++;for(H=C,G=d;G>=1&&0===P[G];G--);if(H>G&&(H=G),0===G)return p[q++]=20971520,p[q++]=20971520,s.bits=1,0;for(F=1;G>F&&0===P[F];F++);for(F>H&&(H=F),K=1,D=1;d>=D;D++)if(K<<=1,K-=P[D],0>K)return-1;if(K>0&&(a===g||1!==G))return-1;for(Q[1]=0,D=1;d>D;D++)Q[D+1]=Q[D]+P[D];for(E=0;o>E;E++)0!==b[n+E]&&(r[Q[b[n+E]]++]=E);if(a===g?(N=R=r,y=19):a===h?(N=j,O-=257,R=k,S-=257,y=256):(N=l,R=m,y=-1),M=0,E=0,D=F,x=q,I=H,J=0,v=-1,L=1<<H,w=L-1,a===h&&L>e||a===i&&L>f)return 1;for(var T=0;;){T++,z=D-J,r[E]<y?(A=0,B=r[E]):r[E]>y?(A=R[S+r[E]],B=N[O+r[E]]):(A=96,B=0),t=1<<D-J,u=1<<I,F=u;do u-=t,p[x+(M>>J)+u]=z<<24|A<<16|B|0;while(0!==u);for(t=1<<D-1;M&t;)t>>=1;if(0!==t?(M&=t-1,M+=t):M=0,E++,0===--P[D]){if(D===G)break;D=b[n+r[E]]}if(D>H&&(M&w)!==v){for(0===J&&(J=H),x+=F,I=D-J,K=1<<I;G>I+J&&(K-=P[I+J],!(0>=K));)I++,K<<=1;if(L+=1<<I,a===h&&L>e||a===i&&L>f)return 1;v=M&w,p[v]=H<<24|I<<16|x-q|0}}return 0!==M&&(p[x+M]=D-J<<24|64<<16|0),s.bits=H,0}},{"../utils/common":27}],37:[function(a,b){"use strict";b.exports={2:"need dictionary",1:"stream end",0:"","-1":"file error","-2":"stream error","-3":"data error","-4":"insufficient memory","-5":"buffer error","-6":"incompatible version"}},{}],38:[function(a,b,c){"use strict";function d(a){for(var b=a.length;--b>=0;)a[b]=0}function e(a){return 256>a?gb[a]:gb[256+(a>>>7)]}function f(a,b){a.pending_buf[a.pending++]=255&b,a.pending_buf[a.pending++]=b>>>8&255}function g(a,b,c){a.bi_valid>V-c?(a.bi_buf|=b<<a.bi_valid&65535,f(a,a.bi_buf),a.bi_buf=b>>V-a.bi_valid,a.bi_valid+=c-V):(a.bi_buf|=b<<a.bi_valid&65535,a.bi_valid+=c)}function h(a,b,c){g(a,c[2*b],c[2*b+1])}function i(a,b){var c=0;do c|=1&a,a>>>=1,c<<=1;while(--b>0);return c>>>1}function j(a){16===a.bi_valid?(f(a,a.bi_buf),a.bi_buf=0,a.bi_valid=0):a.bi_valid>=8&&(a.pending_buf[a.pending++]=255&a.bi_buf,a.bi_buf>>=8,a.bi_valid-=8)}function k(a,b){var c,d,e,f,g,h,i=b.dyn_tree,j=b.max_code,k=b.stat_desc.static_tree,l=b.stat_desc.has_stree,m=b.stat_desc.extra_bits,n=b.stat_desc.extra_base,o=b.stat_desc.max_length,p=0;for(f=0;U>=f;f++)a.bl_count[f]=0;for(i[2*a.heap[a.heap_max]+1]=0,c=a.heap_max+1;T>c;c++)d=a.heap[c],f=i[2*i[2*d+1]+1]+1,f>o&&(f=o,p++),i[2*d+1]=f,d>j||(a.bl_count[f]++,g=0,d>=n&&(g=m[d-n]),h=i[2*d],a.opt_len+=h*(f+g),l&&(a.static_len+=h*(k[2*d+1]+g)));if(0!==p){do{for(f=o-1;0===a.bl_count[f];)f--;a.bl_count[f]--,a.bl_count[f+1]+=2,a.bl_count[o]--,p-=2}while(p>0);for(f=o;0!==f;f--)for(d=a.bl_count[f];0!==d;)e=a.heap[--c],e>j||(i[2*e+1]!==f&&(a.opt_len+=(f-i[2*e+1])*i[2*e],i[2*e+1]=f),d--)}}function l(a,b,c){var d,e,f=new Array(U+1),g=0;for(d=1;U>=d;d++)f[d]=g=g+c[d-1]<<1;for(e=0;b>=e;e++){var h=a[2*e+1];0!==h&&(a[2*e]=i(f[h]++,h))}}function m(){var a,b,c,d,e,f=new Array(U+1);for(c=0,d=0;O-1>d;d++)for(ib[d]=c,a=0;a<1<<_[d];a++)hb[c++]=d;for(hb[c-1]=d,e=0,d=0;16>d;d++)for(jb[d]=e,a=0;a<1<<ab[d];a++)gb[e++]=d;for(e>>=7;R>d;d++)for(jb[d]=e<<7,a=0;a<1<<ab[d]-7;a++)gb[256+e++]=d;for(b=0;U>=b;b++)f[b]=0;for(a=0;143>=a;)eb[2*a+1]=8,a++,f[8]++;for(;255>=a;)eb[2*a+1]=9,a++,f[9]++;for(;279>=a;)eb[2*a+1]=7,a++,f[7]++;for(;287>=a;)eb[2*a+1]=8,a++,f[8]++;for(l(eb,Q+1,f),a=0;R>a;a++)fb[2*a+1]=5,fb[2*a]=i(a,5);kb=new nb(eb,_,P+1,Q,U),lb=new nb(fb,ab,0,R,U),mb=new nb(new Array(0),bb,0,S,W)}function n(a){var b;for(b=0;Q>b;b++)a.dyn_ltree[2*b]=0;for(b=0;R>b;b++)a.dyn_dtree[2*b]=0;for(b=0;S>b;b++)a.bl_tree[2*b]=0;a.dyn_ltree[2*X]=1,a.opt_len=a.static_len=0,a.last_lit=a.matches=0}function o(a){a.bi_valid>8?f(a,a.bi_buf):a.bi_valid>0&&(a.pending_buf[a.pending++]=a.bi_buf),a.bi_buf=0,a.bi_valid=0}function p(a,b,c,d){o(a),d&&(f(a,c),f(a,~c)),E.arraySet(a.pending_buf,a.window,b,c,a.pending),a.pending+=c}function q(a,b,c,d){var e=2*b,f=2*c;return 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	 * @license  MIT
	 */
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o},t.prototype.fill=function(t,e,n){if(t||(t=0),e||(e=0),n||(n=this.length),e>n)throw new RangeError("end < start");if(n!==e&&0!==this.length){if(0>e||e>=this.length)throw new RangeError("start out of bounds");if(0>n||n>this.length)throw new RangeError("end out of bounds");var r;if("number"==typeof t)for(r=e;n>r;r++)this[r]=t;else{var i=P(t.toString()),o=i.length;for(r=e;n>r;r++)this[r]=i[r%o]}return this}},t.prototype.toArrayBuffer=function(){if("undefined"!=typeof Uint8Array){if(t.TYPED_ARRAY_SUPPORT)return new t(this).buffer;for(var e=new Uint8Array(this.length),n=0,r=e.length;r>n;n+=1)e[n]=this[n];return e.buffer}throw new TypeError("Buffer.toArrayBuffer not supported in this browser")};var K=t.prototype;t._augment=function(e){return e.constructor=t,e._isBuffer=!0,e._set=e.set,e.get=K.get,e.set=K.set,e.write=K.write,e.toString=K.toString,e.toLocaleString=K.toString,e.toJSON=K.toJSON,e.equals=K.equals,e.compare=K.compare,e.indexOf=K.indexOf,e.copy=K.copy,e.slice=K.slice,e.readUIntLE=K.readUIntLE,e.readUIntBE=K.readUIntBE,e.readUInt8=K.readUInt8,e.readUInt16LE=K.readUInt16LE,e.readUInt16BE=K.readUInt16BE,e.readUInt32LE=K.readUInt32LE,e.readUInt32BE=K.readUInt32BE,e.readIntLE=K.readIntLE,e.readIntBE=K.readIntBE,e.readInt8=K.readInt8,e.readInt16LE=K.readInt16LE,e.readInt16BE=K.readInt16BE,e.readInt32LE=K.readInt32LE,e.readInt32BE=K.readInt32BE,e.readFloatLE=K.readFloatLE,e.readFloatBE=K.readFloatBE,e.readDoubleLE=K.readDoubleLE,e.readDoubleBE=K.readDoubleBE,e.writeUInt8=K.writeUInt8,e.writeUIntLE=K.writeUIntLE,e.writeUIntBE=K.writeUIntBE,e.writeUInt16LE=K.writeUInt16LE,e.writeUInt16BE=K.writeUInt16BE,e.writeUInt32LE=K.writeUInt32LE,e.writeUInt32BE=K.writeUInt32BE,e.writeIntLE=K.writeIntLE,e.writeIntBE=K.writeIntBE,e.writeInt8=K.writeInt8,e.writeInt16LE=K.writeInt16LE,e.writeInt16BE=K.writeInt16BE,e.writeInt32LE=K.writeInt32LE,e.writeInt32BE=K.writeInt32BE,e.writeFloatLE=K.writeFloatLE,e.writeFloatBE=K.writeFloatBE,e.writeDoubleLE=K.writeDoubleLE,e.writeDoubleBE=K.writeDoubleBE,e.fill=K.fill,e.inspect=K.inspect,e.toArrayBuffer=K.toArrayBuffer,e};var X=/[^+\/0-9A-z\-]/g}).call(e,n(4).Buffer)},function(t,e,n){"use strict";function r(t,e){var n="normal";return t&&e?n="bolditalics":t?n="bold":e&&(n="italics"),n}function i(t,e){this.fonts={},this.pdfDoc=e,this.fontWrappers={};for(var n in t)if(t.hasOwnProperty(n)){var r=t[n];this.fonts[n]={normal:r.normal,bold:r.bold,italics:r.italics,bolditalics:r.bolditalics}}}var o=n(11),a=n(16);i.prototype.provideFont=function(t,e,n){if(!this.fonts[t])return this.pdfDoc._font;var i=r(e,n);return this.fontWrappers[t]=this.fontWrappers[t]||{},this.fontWrappers[t][i]||(this.fontWrappers[t][i]=new a(this.pdfDoc,this.fonts[t][i],t+"("+i+")")),this.fontWrappers[t][i]},i.prototype.setFontRefsToPdfDoc=function(){var t=this;o.each(t.fontWrappers,function(e){o.each(e,function(e){o.each(e.pdfFonts,function(e){t.pdfDoc.page.fonts[e.id]||(t.pdfDoc.page.fonts[e.id]=e.ref())})})})},t.exports=i},function(t,e,n){"use strict";function r(t,e){a.each(e,function(e){t.push(e)})}function 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n=a.pick(t,["id","text","ul","ol","table","image","qr","canvas","columns","headlineLevel","style","pageBreak","pageOrientation","width","height"]);n.startPosition=a.first(t.positions),n.pageNumbers=a.chain(t.positions).map("pageNumber").uniq().value(),n.pages=e.length,n.stack=a.isArray(t.stack),t.nodeInfo=n}),a.any(t,function(t,e,n){if("before"!==t.pageBreak&&!t.pageBreakCalculated){t.pageBreakCalculated=!0;var r=a.first(t.nodeInfo.pageNumbers),i=a.chain(n).drop(e+1).filter(function(t){return a.contains(t.nodeInfo.pageNumbers,r)}).value(),o=a.chain(n).drop(e+1).filter(function(t){return a.contains(t.nodeInfo.pageNumbers,r+1)}).value(),s=a.chain(n).take(e).filter(function(t){return a.contains(t.nodeInfo.pageNumbers,r)}).value();if(c(t.nodeInfo,a.map(i,"nodeInfo"),a.map(o,"nodeInfo"),a.map(s,"nodeInfo")))return t.pageBreak="before",!0}})}function d(t){a.each(t.linearNodeList,function(t){t.resetXY()})}m(c)||(c=function(){return!1}),this.docMeasure=new 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r=this.writer.context().getCurrentPage().pageSize;this.writer.beginUnbreakableBlock(r.width,r.height),this.processNode(this.docMeasure.measureDocument(n)),this.writer.commitUnbreakableBlock(0,0)}},i.prototype.addStaticRepeatable=function(t,e){this.addDynamicRepeatable(function(){return t},e)},i.prototype.addDynamicRepeatable=function(t,e){for(var n=this.writer.context().pages,r=0,i=n.length;i>r;r++){this.writer.context().page=r;var o=t(r+1,i);if(o){var a=e(this.writer.context().getCurrentPage().pageSize,this.pageMargins);this.writer.beginUnbreakableBlock(a.width,a.height),this.processNode(this.docMeasure.measureDocument(o)),this.writer.commitUnbreakableBlock(a.x,a.y)}}},i.prototype.addHeadersAndFooters=function(t,e){var n=function(t,e){return{x:0,y:0,width:t.width,height:e.top}},r=function(t,e){return{x:0,y:t.height-e.bottom,width:t.width,height:e.bottom}};m(t)?this.addDynamicRepeatable(t,n):t&&this.addStaticRepeatable(t,n),m(e)?this.addDynamicRepeatable(e,r):e&&this.addStaticRepeatable(e,r)},i.prototype.addWatermark=function(t,e){function n(t,e,n){for(var r,i=t.width,o=t.height,a=.8*Math.sqrt(i*i+o*o),s=new y(n),h=new w,u=0,l=1e3,c=(u+l)/2;Math.abs(u-l)>1;)h.push({fontSize:c}),r=s.sizeOfString(e,h),r.width>a?(l=c,c=(u+l)/2):r.width<a&&(u=c,c=(u+l)/2),h.pop();return{size:r,fontSize:c}}for(var r=Object.getOwnPropertyNames(e.fonts)[0],i={text:t,font:e.provideFont(e[r],!1,!1),size:n(this.pageSize,t,e)},o=this.writer.context().pages,a=0,s=o.length;s>a;a++)o[a].watermark=i},i.prototype.processNode=function(t){function e(e){var r=t._margin;"before"===t.pageBreak&&n.writer.moveToNextPage(t.pageOrientation),r&&(n.writer.context().moveDown(r[1]),n.writer.context().addMargin(r[0],r[2])),e(),r&&(n.writer.context().addMargin(-r[0],-r[2]),n.writer.context().moveDown(r[3])),"after"===t.pageBreak&&n.writer.moveToNextPage(t.pageOrientation)}var n=this;this.linearNodeList.push(t),o(t),e(function(){var e=t.absolutePosition;if(e&&(n.writer.context().beginDetachedBlock(),n.writer.context().moveTo(e.x||0,e.y||0)),t.stack)n.processVerticalContainer(t);else if(t.columns)n.processColumns(t);else if(t.ul)n.processList(!1,t);else if(t.ol)n.processList(!0,t);else if(t.table)n.processTable(t);else if(void 0!==t.text)n.processLeaf(t);else if(t.image)n.processImage(t);else if(t.canvas)n.processCanvas(t);else if(t.qr)n.processQr(t);else if(!t._span)throw"Unrecognized document structure: "+JSON.stringify(t,v);e&&n.writer.context().endDetachedBlock()})},i.prototype.processVerticalContainer=function(t){var e=this;t.stack.forEach(function(n){e.processNode(n),r(t.positions,n.positions)})},i.prototype.processColumns=function(t){function e(t){if(!t)return null;var e=[];e.push(0);for(var r=n.length-1;r>0;r--)e.push(t);return e}var n=t.columns,i=this.writer.context().availableWidth,o=e(t._gap);o&&(i-=(o.length-1)*t._gap),c.buildColumnWidths(n,i);var a=this.processRow(n,n,o);r(t.positions,a.positions)},i.prototype.processRow=function(t,e,n,i,o){function a(t){for(var e,n=0,r=l.length;r>n;n++){var i=l[n];if(i.prevPage===t.prevPage){e=i;break}}e||(e=t,l.push(e)),e.prevY=Math.max(e.prevY,t.prevY),e.y=Math.min(e.y,t.y)}function s(t){return n&&n.length>t?n[t]:0}function h(t,e){if(t.rowSpan&&t.rowSpan>1){var n=o+t.rowSpan-1;if(n>=i.length)throw"Row span for column "+e+" (with indexes starting from 0) exceeded row count";return i[n][e]}return null}var u=this,l=[],c=[];return this.tracker.auto("pageChanged",a,function(){e=e||t,u.writer.context().beginColumnGroup();for(var i=0,o=t.length;o>i;i++){var a=t[i],l=e[i]._calcWidth,f=s(i);if(a.colSpan&&a.colSpan>1)for(var d=1;d<a.colSpan;d++)l+=e[++i]._calcWidth+n[i];u.writer.context().beginColumn(l,f,h(a,i)),a._span?a._columnEndingContext&&u.writer.context().markEnding(a):(u.processNode(a),r(c,a.positions))}u.writer.context().completeColumnGroup()}),{pageBreaks:l,positions:c}},i.prototype.processList=function(t,e){function n(t){if(s){var e=s;if(s=null,e.canvas){var n=e.canvas[0];g(n,-e._minWidth,0),i.writer.addVector(n)}else{var r=new d(i.pageSize.width);r.addInline(e._inlines[0]),r.x=-e._minWidth,r.y=t.getAscenderHeight()-r.getAscenderHeight(),i.writer.addLine(r,!0)}}}var i=this,o=t?e.ol:e.ul,a=e._gapSize;this.writer.context().addMargin(a.width);var s;this.tracker.auto("lineAdded",n,function(){o.forEach(function(t){s=t.listMarker,i.processNode(t),r(e.positions,t.positions)})}),this.writer.context().addMargin(-a.width)},i.prototype.processTable=function(t){var e=new f(t);e.beginTable(this.writer);for(var n=0,i=t.table.body.length;i>n;n++){e.beginRow(n,this.writer);var o=this.processRow(t.table.body[n],t.table.widths,t._offsets.offsets,t.table.body,n);r(t.positions,o.positions),e.endRow(n,this.writer,o.pageBreaks)}e.endTable(this.writer)},i.prototype.processLeaf=function(t){for(var e=this.buildNextLine(t);e;){var n=this.writer.addLine(e);t.positions.push(n),e=this.buildNextLine(t)}},i.prototype.buildNextLine=function(t){if(!t._inlines||0===t._inlines.length)return null;for(var e=new d(this.writer.context().availableWidth);t._inlines&&t._inlines.length>0&&e.hasEnoughSpaceForInline(t._inlines[0]);)e.addInline(t._inlines.shift());return e.lastLineInParagraph=0===t._inlines.length,e},i.prototype.processImage=function(t){var e=this.writer.addImage(t);t.positions.push(e)},i.prototype.processCanvas=function(t){var e=t._minHeight;this.writer.context().availableHeight<e&&this.writer.moveToNextPage(),t.canvas.forEach(function(e){var n=this.writer.addVector(e);t.positions.push(n)},this),this.writer.context().moveDown(e)},i.prototype.processQr=function(t){var e=this.writer.addQr(t);t.positions.push(e)},t.exports=i},function(t,e,n){t.exports={"4A0":[4767.87,6740.79],"2A0":[3370.39,4767.87],A0:[2383.94,3370.39],A1:[1683.78,2383.94],A2:[1190.55,1683.78],A3:[841.89,1190.55],A4:[595.28,841.89],A5:[419.53,595.28],A6:[297.64,419.53],A7:[209.76,297.64],A8:[147.4,209.76],A9:[104.88,147.4],A10:[73.7,104.88],B0:[2834.65,4008.19],B1:[2004.09,2834.65],B2:[1417.32,2004.09],B3:[1000.63,1417.32],B4:[708.66,1000.63],B5:[498.9,708.66],B6:[354.33,498.9],B7:[249.45,354.33],B8:[175.75,249.45],B9:[124.72,175.75],B10:[87.87,124.72],C0:[2599.37,3676.54],C1:[1836.85,2599.37],C2:[1298.27,1836.85],C3:[918.43,1298.27],C4:[649.13,918.43],C5:[459.21,649.13],C6:[323.15,459.21],C7:[229.61,323.15],C8:[161.57,229.61],C9:[113.39,161.57],C10:[79.37,113.39],RA0:[2437.8,3458.27],RA1:[1729.13,2437.8],RA2:[1218.9,1729.13],RA3:[864.57,1218.9],RA4:[609.45,864.57],SRA0:[2551.18,3628.35],SRA1:[1814.17,2551.18],SRA2:[1275.59,1814.17],SRA3:[907.09,1275.59],SRA4:[637.8,907.09],EXECUTIVE:[521.86,756],FOLIO:[612,936],LEGAL:[612,1008],LETTER:[612,792],TABLOID:[792,1224]}},function(t,e,n){(function(e){"use 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c=a[u];n&&c===n.decoration&&h===n.decorationStyle&&s===n.decorationColor&&"lineThrough"!==c?n.inlines.push(o):(n={line:t,decoration:c,decorationColor:s,decorationStyle:h,inlines:[o]},e.push(n))}}else n=null}return e}function i(t,e,n,r){function i(){for(var e=0,n=0,r=t.inlines.length;r>n;n++){var i=t.inlines[n];e=i.fontSize>e?n:e}return t.inlines[e]}function o(){for(var e=0,n=0,r=t.inlines.length;r>n;n++)e+=t.inlines[n].width;return e}var a=t.inlines[0],s=i(),h=o(),u=t.line.getAscenderHeight(),l=s.font.ascender/1e3*s.fontSize,c=s.height,f=c-l,d=.5+.12*Math.floor(Math.max(s.fontSize-8,0)/2);switch(t.decoration){case"underline":n+=u+.45*f;break;case"overline":n+=u-.85*l;break;case"lineThrough":n+=u-.25*l;break;default:throw"Unkown decoration : "+t.decoration}if(r.save(),"double"===t.decorationStyle){var p=Math.max(.5,2*d);r.fillColor(t.decorationColor).rect(e+a.x,n-d/2,h,d/2).fill().rect(e+a.x,n+p-d/2,h,d/2).fill()}else if("dashed"===t.decorationStyle){var 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";s.ol||s.ul||(s.listMarker=this.buildMarker(t,s.counter||h,n,e._gapSize)),e._minWidth=Math.max(e._minWidth,r[o]._minWidth+e._gapSize.width),e._maxWidth=Math.max(e._maxWidth,r[o]._maxWidth+e._gapSize.width)}return e},r.prototype.measureColumns=function(t){var e=t.columns;t._gap=this.styleStack.getProperty("columnGap")||0;for(var n=0,r=e.length;r>n;n++)e[n]=this.measureNode(e[n]);var i=a.measureMinMax(e);return t._minWidth=i.min+t._gap*(e.length-1),t._maxWidth=i.max+t._gap*(e.length-1),t},r.prototype.measureTable=function(t){function e(t,e){return function(){return null!==e&&"object"==typeof e&&(e.fillColor=t.styleStack.getProperty("fillColor")),t.measureNode(e)}}function n(e){var n=t.layout;("string"==typeof t.layout||t instanceof String)&&(n=e[n]);var r={hLineWidth:function(t,e){return 1},vLineWidth:function(t,e){return 1},hLineColor:function(t,e){return"black"},vLineColor:function(t,e){return"black"},paddingLeft:function(t,e){return 4},paddingRight:function(t,e){return 4},paddingTop:function(t,e){return 2},paddingBottom:function(t,e){return 2}};return h(r,n)}function r(e){for(var n=[],r=0,i=0,o=0,a=t.table.widths.length;a>o;o++){var s=i+e.vLineWidth(o,t)+e.paddingLeft(o,t);n.push(s),r+=s,i=e.paddingRight(o,t)}return r+=i+e.vLineWidth(t.table.widths.length,t),{total:r,offsets:n}}function i(){for(var e,n,r=0,i=g.length;i>r;r++){var a=g[r],s=o(a.col,a.span,t._offsets),h=a.minWidth-s.minWidth,u=a.maxWidth-s.maxWidth;if(h>0)for(e=h/a.span,n=0;n<a.span;n++)t.table.widths[a.col+n]._minWidth+=e;if(u>0)for(e=u/a.span,n=0;n<a.span;n++)t.table.widths[a.col+n]._maxWidth+=e}}function o(e,n,r){for(var i={minWidth:0,maxWidth:0},o=0;n>o;o++)i.minWidth+=t.table.widths[e+o]._minWidth+(o?r.offsets[e+o]:0),i.maxWidth+=t.table.widths[e+o]._maxWidth+(o?r.offsets[e+o]:0);return i}function s(t,e,n){for(var r=1;n>r;r++)t[e+r]={_span:!0,_minWidth:0,_maxWidth:0,rowSpan:t[e].rowSpan}}function u(t,e,n,r){for(var i=1;r>i;i++)t.body[e+i][n]={_span:!0,_minWidth:0,_maxWidth:0,fillColor:t.body[e][n].fillColor}}function l(t){if(t.table.widths||(t.table.widths="auto"),"string"==typeof t.table.widths||t.table.widths instanceof String)for(t.table.widths=[t.table.widths];t.table.widths.length<t.table.body[0].length;)t.table.widths.push(t.table.widths[t.table.widths.length-1]);for(var e=0,n=t.table.widths.length;n>e;e++){var r=t.table.widths[e];("number"==typeof r||r instanceof Number||"string"==typeof r||r instanceof String)&&(t.table.widths[e]={width:r})}}l(t),t._layout=n(this.tableLayouts),t._offsets=r(t._layout);var c,f,d,p,g=[];for(c=0,d=t.table.body[0].length;d>c;c++){var v=t.table.widths[c];for(v._minWidth=0,v._maxWidth=0,f=0,p=t.table.body.length;p>f;f++){var m=t.table.body[f],y=m[c];if(!y._span){y=m[c]=this.styleStack.auto(y,e(this,y)),y.colSpan&&y.colSpan>1?(s(m,c,y.colSpan),g.push({col:c,span:y.colSpan,minWidth:y._minWidth,maxWidth:y._maxWidth})):(v._minWidth=Math.max(v._minWidth,y._minWidth),v._maxWidth=Math.max(v._maxWidth,y._maxWidth))}y.rowSpan&&y.rowSpan>1&&u(t.table,f,c,y.rowSpan)}}i();var w=a.measureMinMax(t.table.widths);return t._minWidth=w.min+t._offsets.total,t._maxWidth=w.max+t._offsets.total,t},r.prototype.measureCanvas=function(t){for(var e=0,n=0,r=0,i=t.canvas.length;i>r;r++){var o=t.canvas[r];switch(o.type){case"ellipse":e=Math.max(e,o.x+o.r1),n=Math.max(n,o.y+o.r2);break;case"rect":e=Math.max(e,o.x+o.w),n=Math.max(n,o.y+o.h);break;case"line":e=Math.max(e,o.x1,o.x2),n=Math.max(n,o.y1,o.y2);break;case"polyline":for(var a=0,s=o.points.length;s>a;a++)e=Math.max(e,o.points[a].x),n=Math.max(n,o.points[a].y)}}return t._minWidth=t._maxWidth=e,t._minHeight=t._maxHeight=n,t},r.prototype.measureQr=function(t){return t=u.measure(t),t._alignment=this.styleStack.getProperty("alignment"),t},t.exports=r},function(t,e,n){"use strict";function r(t,e){this.pages=[],this.pageMargins=e,this.x=e.left,this.availableWidth=t.width-e.left-e.right,this.availableHeight=0,this.page=-1,this.snapshots=[],this.endingCell=null,this.tracker=new a,this.addPage(t)}function i(t,e){return void 0===t?e:"landscape"===t?"landscape":"portrait"}function o(t,e){var n;return n=t.page>e.page?t:e.page>t.page?e:t.y>e.y?t:e,{page:n.page,x:n.x,y:n.y,availableHeight:n.availableHeight,availableWidth:n.availableWidth}}var a=n(18);r.prototype.beginColumnGroup=function(){this.snapshots.push({x:this.x,y:this.y,availableHeight:this.availableHeight,availableWidth:this.availableWidth,page:this.page,bottomMost:{y:this.y,page:this.page},endingCell:this.endingCell,lastColumnWidth:this.lastColumnWidth}),this.lastColumnWidth=0},r.prototype.beginColumn=function(t,e,n){var r=this.snapshots[this.snapshots.length-1];this.calculateBottomMost(r),this.endingCell=n,this.page=r.page,this.x=this.x+this.lastColumnWidth+(e||0),this.y=r.y,this.availableWidth=t,this.availableHeight=r.availableHeight,this.lastColumnWidth=t},r.prototype.calculateBottomMost=function(t){this.endingCell?(this.saveContextInEndingCell(this.endingCell),this.endingCell=null):t.bottomMost=o(this,t.bottomMost)},r.prototype.markEnding=function(t){this.page=t._columnEndingContext.page,this.x=t._columnEndingContext.x,this.y=t._columnEndingContext.y,this.availableWidth=t._columnEndingContext.availableWidth,this.availableHeight=t._columnEndingContext.availableHeight,this.lastColumnWidth=t._columnEndingContext.lastColumnWidth},r.prototype.saveContextInEndingCell=function(t){t._columnEndingContext={page:this.page,x:this.x,y:this.y,availableHeight:this.availableHeight,availableWidth:this.availableWidth,lastColumnWidth:this.lastColumnWidth}},r.prototype.completeColumnGroup=function(){var t=this.snapshots.pop();this.calculateBottomMost(t),this.endingCell=null,this.x=t.x,this.y=t.bottomMost.y,this.page=t.bottomMost.page,this.availableWidth=t.availableWidth,this.availableHeight=t.bottomMost.availableHeight,this.lastColumnWidth=t.lastColumnWidth},r.prototype.addMargin=function(t,e){this.x+=t,this.availableWidth-=t+(e||0)},r.prototype.moveDown=function(t){return this.y+=t,this.availableHeight-=t,this.availableHeight>0},r.prototype.initializePage=function(){this.y=this.pageMargins.top,this.availableHeight=this.getCurrentPage().pageSize.height-this.pageMargins.top-this.pageMargins.bottom,this.pageSnapshot().availableWidth=this.getCurrentPage().pageSize.width-this.pageMargins.left-this.pageMargins.right},r.prototype.pageSnapshot=function(){return this.snapshots[0]?this.snapshots[0]:this},r.prototype.moveTo=function(t,e){void 0!==t&&null!==t&&(this.x=t,this.availableWidth=this.getCurrentPage().pageSize.width-this.x-this.pageMargins.right),void 0!==e&&null!==e&&(this.y=e,this.availableHeight=this.getCurrentPage().pageSize.height-this.y-this.pageMargins.bottom)},r.prototype.beginDetachedBlock=function(){this.snapshots.push({x:this.x,y:this.y,availableHeight:this.availableHeight,availableWidth:this.availableWidth,page:this.page,endingCell:this.endingCell,lastColumnWidth:this.lastColumnWidth})},r.prototype.endDetachedBlock=function(){var t=this.snapshots.pop();this.x=t.x,this.y=t.y,this.availableWidth=t.availableWidth,this.availableHeight=t.availableHeight,this.page=t.page,this.endingCell=t.endingCell,this.lastColumnWidth=t.lastColumnWidth};var s=function(t,e){return e=i(e,t.pageSize.orientation),e!==t.pageSize.orientation?{orientation:e,width:t.pageSize.height,height:t.pageSize.width}:{orientation:t.pageSize.orientation,width:t.pageSize.width,height:t.pageSize.height}};r.prototype.moveToNextPage=function(t){var e=this.page+1,n=this.page,r=this.y,i=e>=this.pages.length;return i?this.addPage(s(this.getCurrentPage(),t)):(this.page=e,this.initializePage()),{newPageCreated:i,prevPage:n,prevY:r,y:this.y}},r.prototype.addPage=function(t){var e={items:[],pageSize:t};return this.pages.push(e),this.page=this.pages.length-1,this.initializePage(),this.tracker.emit("pageAdded"),e},r.prototype.getCurrentPage=function(){return this.page<0||this.page>=this.pages.length?null:this.pages[this.page]},r.prototype.getCurrentPosition=function(){var t=this.getCurrentPage().pageSize,e=t.height-this.pageMargins.top-this.pageMargins.bottom,n=t.width-this.pageMargins.left-this.pageMargins.right;return{pageNumber:this.page+1,pageOrientation:t.orientation,pageInnerHeight:e,pageInnerWidth:n,left:this.x,top:this.y,verticalRatio:(this.y-this.pageMargins.top)/e,horizontalRatio:(this.x-this.pageMargins.left)/n}},t.exports=r},function(t,e,n){"use strict";function r(t,e){this.transactionLevel=0,this.repeatables=[],this.tracker=e,this.writer=new o(t,e)}function i(t,e){var n=e(t);return n||(t.moveToNextPage(),n=e(t)),n}var o=n(37);r.prototype.addLine=function(t,e,n){return i(this,function(r){return r.writer.addLine(t,e,n)})},r.prototype.addImage=function(t,e){return i(this,function(n){return n.writer.addImage(t,e)})},r.prototype.addQr=function(t,e){return i(this,function(n){return n.writer.addQr(t,e)})},r.prototype.addVector=function(t,e,n,r){return this.writer.addVector(t,e,n,r)},r.prototype.addFragment=function(t,e,n,r){this.writer.addFragment(t,e,n,r)||(this.moveToNextPage(),this.writer.addFragment(t,e,n,r))},r.prototype.moveToNextPage=function(t){var e=this.writer.context.moveToNextPage(t);e.newPageCreated?this.repeatables.forEach(function(t){this.writer.addFragment(t,!0)},this):this.repeatables.forEach(function(t){this.writer.context.moveDown(t.height)},this),this.writer.tracker.emit("pageChanged",{prevPage:e.prevPage,prevY:e.prevY,y:e.y})},r.prototype.beginUnbreakableBlock=function(t,e){0===this.transactionLevel++&&(this.originalX=this.writer.context.x,this.writer.pushContext(t,e))},r.prototype.commitUnbreakableBlock=function(t,e){if(0===--this.transactionLevel){var n=this.writer.context;this.writer.popContext();var r=n.pages.length;if(r>0){var i=n.pages[0];if(i.xOffset=t,i.yOffset=e,r>1)if(void 0!==t||void 0!==e)i.height=n.getCurrentPage().pageSize.height-n.pageMargins.top-n.pageMargins.bottom;else{i.height=this.writer.context.getCurrentPage().pageSize.height-this.writer.context.pageMargins.top-this.writer.context.pageMargins.bottom;for(var o=0,a=this.repeatables.length;a>o;o++)i.height-=this.repeatables[o].height}else i.height=n.y;void 0!==t||void 0!==e?this.writer.addFragment(i,!0,!0,!0):this.addFragment(i)}}},r.prototype.currentBlockToRepeatable=function(){var t=this.writer.context,e={items:[]};return t.pages[0].items.forEach(function(t){e.items.push(t)}),e.xOffset=this.originalX,e.height=t.y,e},r.prototype.pushToRepeatables=function(t){this.repeatables.push(t)},r.prototype.popFromRepeatables=function(){this.repeatables.pop()},r.prototype.context=function(){return this.writer.context},t.exports=r},function(t,e,n){"use strict";function r(t,e){var n=[],r=0,a=0,s=[],h=0,u=0,l=[],c=e;t.forEach(function(t){i(t)?(n.push(t),r+=t._minWidth,a+=t._maxWidth):o(t)?(s.push(t),h=Math.max(h,t._minWidth),u=Math.max(u,t._maxWidth)):l.push(t)}),l.forEach(function(t){"string"==typeof t.width&&/\d+%/.test(t.width)&&(t.width=parseFloat(t.width)*c/100),t._calcWidth=t.width<t._minWidth&&t.elasticWidth?t._minWidth:t.width,e-=t._calcWidth});var f=r+h*s.length,d=a+u*s.length;if(f>=e)n.forEach(function(t){t._calcWidth=t._minWidth}),s.forEach(function(t){t._calcWidth=h});else{if(e>d)n.forEach(function(t){t._calcWidth=t._maxWidth,e-=t._calcWidth});else{var p=e-f,g=d-f;n.forEach(function(t){var n=t._maxWidth-t._minWidth;t._calcWidth=t._minWidth+n*p/g,e-=t._calcWidth})}if(s.length>0){var v=e/s.length;s.forEach(function(t){t._calcWidth=v})}}}function i(t){return"auto"===t.width}function o(t){return null===t.width||void 0===t.width||"*"===t.width||"star"===t.width}function a(t){for(var e={min:0,max:0},n={min:0,max:0},r=0,a=0,s=t.length;s>a;a++){var h=t[a];o(h)?(n.min=Math.max(n.min,h._minWidth),n.max=Math.max(n.max,h._maxWidth),r++):i(h)?(e.min+=h._minWidth,e.max+=h._maxWidth):(e.min+=void 0!==h.width&&h.width||h._minWidth,e.max+=void 0!==h.width&&h.width||h._maxWidth)}return r&&(e.min+=r*n.min,e.max+=r*n.max),e}t.exports={buildColumnWidths:r,measureMinMax:a,isAutoColumn:i,isStarColumn:o}},function(t,e,n){"use strict";function r(t){this.tableNode=t}var i=n(22);r.prototype.beginTable=function(t){function e(){var t=0;return r.table.widths.forEach(function(e){t+=e._calcWidth}),t}function n(){var t=[],e=0,n=0;t.push({left:0,rowSpan:0});for(var r=0,i=a.tableNode.table.body[0].length;i>r;r++){var o=a.layout.paddingLeft(r,a.tableNode)+a.layout.paddingRight(r,a.tableNode),s=a.layout.vLineWidth(r,a.tableNode);n=o+s+a.tableNode.table.widths[r]._calcWidth,t[t.length-1].width=n,e+=n,t.push({left:e,rowSpan:0,width:0})}return t}var r,o,a=this;r=this.tableNode,this.offsets=r._offsets,this.layout=r._layout,o=t.context().availableWidth-this.offsets.total,i.buildColumnWidths(r.table.widths,o),this.tableWidth=r._offsets.total+e(),this.rowSpanData=n(),this.cleanUpRepeatables=!1,this.headerRows=r.table.headerRows||0,this.rowsWithoutPageBreak=this.headerRows+(r.table.keepWithHeaderRows||0),this.dontBreakRows=r.table.dontBreakRows||!1,this.rowsWithoutPageBreak&&t.beginUnbreakableBlock(),this.drawHorizontalLine(0,t)},r.prototype.onRowBreak=function(t,e){var n=this;return function(){var t=n.rowPaddingTop+(n.headerRows?0:n.topLineWidth);e.context().moveDown(t)}},r.prototype.beginRow=function(t,e){this.topLineWidth=this.layout.hLineWidth(t,this.tableNode),this.rowPaddingTop=this.layout.paddingTop(t,this.tableNode),this.bottomLineWidth=this.layout.hLineWidth(t+1,this.tableNode),this.rowPaddingBottom=this.layout.paddingBottom(t,this.tableNode),this.rowCallback=this.onRowBreak(t,e),e.tracker.startTracking("pageChanged",this.rowCallback),this.dontBreakRows&&e.beginUnbreakableBlock(),this.rowTopY=e.context().y,this.reservedAtBottom=this.bottomLineWidth+this.rowPaddingBottom,e.context().availableHeight-=this.reservedAtBottom,e.context().moveDown(this.rowPaddingTop)},r.prototype.drawHorizontalLine=function(t,e,n){var r=this.layout.hLineWidth(t,this.tableNode);if(r){for(var i=r/2,o=null,a=0,s=this.rowSpanData.length;s>a;a++){var h=this.rowSpanData[a],u=!h.rowSpan;!o&&u&&(o={left:h.left,width:0}),u&&(o.width+=h.width||0);var l=(n||0)+i;u&&a!==s-1||o&&(e.addVector({type:"line",x1:o.left,x2:o.left+o.width,y1:l,y2:l,lineWidth:r,lineColor:"function"==typeof this.layout.hLineColor?this.layout.hLineColor(t,this.tableNode):this.layout.hLineColor},!1,n),o=null)}e.context().moveDown(r)}},r.prototype.drawVerticalLine=function(t,e,n,r,i){var o=this.layout.vLineWidth(r,this.tableNode);0!==o&&i.addVector({type:"line",x1:t+o/2,x2:t+o/2,y1:e,y2:n,lineWidth:o,lineColor:"function"==typeof this.layout.vLineColor?this.layout.vLineColor(r,this.tableNode):this.layout.vLineColor},!1,!0)},r.prototype.endTable=function(t){this.cleanUpRepeatables&&t.popFromRepeatables()},r.prototype.endRow=function(t,e,n){function r(){for(var e=[],n=0,r=0,i=a.tableNode.table.body[t].length;i>r;r++){if(!n){e.push({x:a.rowSpanData[r].left,index:r});var o=a.tableNode.table.body[t][r];n=o._colSpan||o.colSpan||0}n>0&&n--}return e.push({x:a.rowSpanData[a.rowSpanData.length-1].left,index:a.rowSpanData.length-1}),e}var i,o,a=this;e.tracker.stopTracking("pageChanged",this.rowCallback),e.context().moveDown(this.layout.paddingBottom(t,this.tableNode)),e.context().availableHeight+=this.reservedAtBottom;var s=e.context().page,h=e.context().y,u=r(),l=[],c=n&&n.length>0;if(l.push({y0:this.rowTopY,page:c?n[0].prevPage:s}),c)for(o=0,i=n.length;i>o;o++){var f=n[o];l[l.length-1].y1=f.prevY,l.push({y0:f.y,page:f.prevPage+1})}l[l.length-1].y1=h;for(var d=l[0].y1-l[0].y0===this.rowPaddingTop,p=d?1:0,g=l.length;g>p;p++){var v=p<l.length-1,m=p>0&&!this.headerRows,y=m?0:this.topLineWidth,w=l[p].y0,_=l[p].y1;for(v&&(_+=this.rowPaddingBottom),e.context().page!=l[p].page&&(e.context().page=l[p].page,this.reservedAtBottom=0),o=0,i=u.length;i>o;o++)if(this.drawVerticalLine(u[o].x,w-y,_+this.bottomLineWidth,u[o].index,e),i-1>o){var b=u[o].index,x=this.tableNode.table.body[t][b].fillColor;if(x){var S=this.layout.vLineWidth(b,this.tableNode),k=u[o].x+S,E=w-y;e.addVector({type:"rect",x:k,y:E,w:u[o+1].x-k,h:_+this.bottomLineWidth-E,lineWidth:0,color:x},!1,!0,0)}}v&&this.layout.hLineWhenBroken!==!1&&this.drawHorizontalLine(t+1,e,_),m&&this.layout.hLineWhenBroken!==!1&&this.drawHorizontalLine(t,e,w);

}e.context().page=s,e.context().y=h;var C=this.tableNode.table.body[t];for(o=0,i=C.length;i>o;o++){if(C[o].rowSpan&&(this.rowSpanData[o].rowSpan=C[o].rowSpan,C[o].colSpan&&C[o].colSpan>1))for(var I=1;I<C[o].rowSpan;I++)this.tableNode.table.body[t+I][o]._colSpan=C[o].colSpan;this.rowSpanData[o].rowSpan>0&&this.rowSpanData[o].rowSpan--}this.drawHorizontalLine(t+1,e),this.headerRows&&t===this.headerRows-1&&(this.headerRepeatable=e.currentBlockToRepeatable()),this.dontBreakRows&&e.tracker.auto("pageChanged",function(){a.drawHorizontalLine(t,e)},function(){e.commitUnbreakableBlock(),a.drawHorizontalLine(t,e)}),!this.headerRepeatable||t!==this.rowsWithoutPageBreak-1&&t!==this.tableNode.table.body.length-1||(e.commitUnbreakableBlock(),e.pushToRepeatables(this.headerRepeatable),this.cleanUpRepeatables=!0,this.headerRepeatable=null)},t.exports=r},function(t,e,n){"use strict";function r(t){this.maxWidth=t,this.leadingCut=0,this.trailingCut=0,this.inlineWidths=0,this.inlines=[]}r.prototype.getAscenderHeight=function(){var t=0;return this.inlines.forEach(function(e){t=Math.max(t,e.font.ascender/1e3*e.fontSize)}),t},r.prototype.hasEnoughSpaceForInline=function(t){return 0===this.inlines.length?!0:this.newLineForced?!1:this.inlineWidths+t.width-this.leadingCut-(t.trailingCut||0)<=this.maxWidth},r.prototype.addInline=function(t){0===this.inlines.length&&(this.leadingCut=t.leadingCut||0),this.trailingCut=t.trailingCut||0,t.x=this.inlineWidths-this.leadingCut,this.inlines.push(t),this.inlineWidths+=t.width,t.lineEnd&&(this.newLineForced=!0)},r.prototype.getWidth=function(){return this.inlineWidths-this.leadingCut-this.trailingCut},r.prototype.getHeight=function(){var t=0;return this.inlines.forEach(function(e){t=Math.max(t,e.height||0)}),t},t.exports=r},function(t,e,n){"use strict";function r(){for(var t={},e=0,n=arguments.length;n>e;e++){var r=arguments[e];if(r)for(var i 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n,r,i,o,a,s,h,u,l,c,f;for(this.data=t,this.pos=8,this.palette=[],this.imgData=[],this.transparency={},this.text={};;){switch(n=this.readUInt32(),s=function(){var t,e;for(e=[],i=t=0;4>t;i=++t)e.push(String.fromCharCode(this.data[this.pos++]));return e}.call(this).join("")){case"IHDR":this.width=this.readUInt32(),this.height=this.readUInt32(),this.bits=this.data[this.pos++],this.colorType=this.data[this.pos++],this.compressionMethod=this.data[this.pos++],this.filterMethod=this.data[this.pos++],this.interlaceMethod=this.data[this.pos++];break;case"PLTE":this.palette=this.read(n);break;case"IDAT":for(i=l=0;n>l;i=l+=1)this.imgData.push(this.data[this.pos++]);break;case"tRNS":switch(this.transparency={},this.colorType){case 3:if(this.transparency.indexed=this.read(n),h=255-this.transparency.indexed.length,h>0)for(i=c=0;h>=0?h>c:c>h;i=h>=0?++c:--c)this.transparency.indexed.push(255);break;case 0:this.transparency.grayscale=this.read(n)[0];break;case 2:this.transparency.rgb=this.read(n)}break;case"tEXt":u=this.read(n),o=u.indexOf(0),a=String.fromCharCode.apply(String,u.slice(0,o)),this.text[a]=String.fromCharCode.apply(String,u.slice(o+1));break;case"IEND":return this.colors=function(){switch(this.colorType){case 0:case 3:case 4:return 1;case 2:case 6:return 3}}.call(this),this.hasAlphaChannel=4===(f=this.colorType)||6===f,r=this.colors+(this.hasAlphaChannel?1:0),this.pixelBitlength=this.bits*r,this.colorSpace=function(){switch(this.colors){case 1:return"DeviceGray";case 3:return"DeviceRGB"}}.call(this),void(this.imgData=new e(this.imgData));default:this.pos+=n}if(this.pos+=4,this.pos>this.data.length)throw new Error("Incomplete or corrupt PNG file")}}return t.decode=function(e,n){return i.readFile(e,function(e,r){var i;return i=new t(r),i.decode(function(t){return n(t)})})},t.load=function(e){var n;return n=i.readFileSync(e),new t(n)},t.prototype.read=function(t){var e,n,r;for(r=[],e=n=0;t>=0?t>n:n>t;e=t>=0?++n:--n)r.push(this.data[this.pos++]);return r},t.prototype.readUInt32=function(){var t,e,n,r;return t=this.data[this.pos++]<<24,e=this.data[this.pos++]<<16,n=this.data[this.pos++]<<8,r=this.data[this.pos++],t|e|n|r},t.prototype.readUInt16=function(){var t,e;return t=this.data[this.pos++]<<8,e=this.data[this.pos++],t|e},t.prototype.decodePixels=function(t){var n=this;return o.inflate(this.imgData,function(r,i){var o,a,s,h,u,l,c,f,d,p,g,v,m,y,w,_,b,x,S,k,E,C,I;if(r)throw r;for(v=n.pixelBitlength/8,_=v*n.width,m=new e(_*n.height),l=i.length,w=0,y=0,a=0;l>y;){switch(i[y++]){case 0:for(h=S=0;_>S;h=S+=1)m[a++]=i[y++];break;case 1:for(h=k=0;_>k;h=k+=1)o=i[y++],u=v>h?0:m[a-v],m[a++]=(o+u)%256;break;case 2:for(h=E=0;_>E;h=E+=1)o=i[y++],s=(h-h%v)/v,b=w&&m[(w-1)*_+s*v+h%v],m[a++]=(b+o)%256;break;case 3:for(h=C=0;_>C;h=C+=1)o=i[y++],s=(h-h%v)/v,u=v>h?0:m[a-v],b=w&&m[(w-1)*_+s*v+h%v],m[a++]=(o+Math.floor((u+b)/2))%256;break;case 4:for(h=I=0;_>I;h=I+=1)o=i[y++],s=(h-h%v)/v,u=v>h?0:m[a-v],0===w?b=x=0:(b=m[(w-1)*_+s*v+h%v],x=s&&m[(w-1)*_+(s-1)*v+h%v]),c=u+b-x,f=Math.abs(c-u),p=Math.abs(c-b),g=Math.abs(c-x),d=p>=f&&g>=f?u:g>=p?b:x,m[a++]=(o+d)%256;break;default:throw new Error("Invalid filter algorithm: "+i[y-1])}w++}return t(m)})},t.prototype.decodePalette=function(){var t,n,r,i,o,a,s,h,u,l;for(i=this.palette,s=this.transparency.indexed||[],a=new e(s.length+i.length),o=0,r=i.length,t=0,n=h=0,u=i.length;u>h;n=h+=3)a[o++]=i[n],a[o++]=i[n+1],a[o++]=i[n+2],a[o++]=null!=(l=s[t++])?l:255;return a},t.prototype.copyToImageData=function(t,e){var n,r,i,o,a,s,h,u,l,c,f;if(r=this.colors,l=null,n=this.hasAlphaChannel,this.palette.length&&(l=null!=(f=this._decodedPalette)?f:this._decodedPalette=this.decodePalette(),r=4,n=!0),i=(null!=t?t.data:void 0)||t,u=i.length,a=l||e,o=s=0,1===r)for(;u>o;)h=l?4*e[o/4]:s,c=a[h++],i[o++]=c,i[o++]=c,i[o++]=c,i[o++]=n?a[h++]:255,s=h;else for(;u>o;)h=l?4*e[o/4]:s,i[o++]=a[h++],i[o++]=a[h++],i[o++]=a[h++],i[o++]=n?a[h++]:255,s=h},t.prototype.decode=function(t){var n,r=this;return n=new e(this.width*this.height*4),this.decodePixels(function(e){return r.copyToImageData(n,e),t(n)})},t}()}).call(this)}).call(e,n(4).Buffer)},function(t,e,n){(function(e,r){(function(){var i,o,a,s,h;s=n(64),i=n(63),a=n(65),h=n(10),o=function(){function t(t,r,o,h){if(this.document=t,this.id=h,"string"==typeof r){if(r in n)return this.isAFM=!0,this.font=new i(n[r]()),void this.registerAFM(r);if(/\.(ttf|ttc)$/i.test(r))this.font=s.open(r,o);else{if(!/\.dfont$/i.test(r))throw new Error("Not a supported font format or standard PDF font.");this.font=s.fromDFont(r,o)}}else if(e.isBuffer(r))this.font=s.fromBuffer(r,o);else if(r instanceof Uint8Array)this.font=s.fromBuffer(new e(r),o);else{if(!(r instanceof ArrayBuffer))throw new Error("Not a supported font format or standard PDF font.");this.font=s.fromBuffer(new e(new Uint8Array(r)),o)}this.subset=new a(this.font),this.registerTTF()}var n,o;return n={Courier:function(){return h.readFileSync(r+"/font/data/Courier.afm","utf8")},"Courier-Bold":function(){return h.readFileSync(r+"/font/data/Courier-Bold.afm","utf8")},"Courier-Oblique":function(){return h.readFileSync(r+"/font/data/Courier-Oblique.afm","utf8")},"Courier-BoldOblique":function(){return h.readFileSync(r+"/font/data/Courier-BoldOblique.afm","utf8")},Helvetica:function(){return h.readFileSync(r+"/font/data/Helvetica.afm","utf8")},"Helvetica-Bold":function(){return h.readFileSync(r+"/font/data/Helvetica-Bold.afm","utf8")},"Helvetica-Oblique":function(){return h.readFileSync(r+"/font/data/Helvetica-Oblique.afm","utf8")},"Helvetica-BoldOblique":function(){return h.readFileSync(r+"/font/data/Helvetica-BoldOblique.afm","utf8")},"Times-Roman":function(){return h.readFileSync(r+"/font/data/Times-Roman.afm","utf8")},"Times-Bold":function(){return h.readFileSync(r+"/font/data/Times-Bold.afm","utf8")},"Times-Italic":function(){return h.readFileSync(r+"/font/data/Times-Italic.afm","utf8")},"Times-BoldItalic":function(){return h.readFileSync(r+"/font/data/Times-BoldItalic.afm","utf8")},Symbol:function(){return h.readFileSync(r+"/font/data/Symbol.afm","utf8")},ZapfDingbats:function(){return h.readFileSync(r+"/font/data/ZapfDingbats.afm","utf8")}},t.prototype.use=function(t){var e;return null!=(e=this.subset)?e.use(t):void 0},t.prototype.embed=function(){return this.embedded||null==this.dictionary?void 0:(this.isAFM?this.embedAFM():this.embedTTF(),this.embedded=!0)},t.prototype.encode=function(t){var e;return this.isAFM?this.font.encodeText(t):(null!=(e=this.subset)?e.encodeText(t):void 0)||t},t.prototype.ref=function(){return null!=this.dictionary?this.dictionary:this.dictionary=this.document.ref()},t.prototype.registerTTF=function(){var t,e,n,r,i;if(this.name=this.font.name.postscriptName,this.scaleFactor=1e3/this.font.head.unitsPerEm,this.bbox=function(){var e,n,r,i;for(r=this.font.bbox,i=[],e=0,n=r.length;n>e;e++)t=r[e],i.push(Math.round(t*this.scaleFactor));return i}.call(this),this.stemV=0,this.font.post.exists?(r=this.font.post.italic_angle,e=r>>16,n=255&r,e&!0&&(e=-((65535^e)+1)),this.italicAngle=+(""+e+"."+n)):this.italicAngle=0,this.ascender=Math.round(this.font.ascender*this.scaleFactor),this.decender=Math.round(this.font.decender*this.scaleFactor),this.lineGap=Math.round(this.font.lineGap*this.scaleFactor),this.capHeight=this.font.os2.exists&&this.font.os2.capHeight||this.ascender,this.xHeight=this.font.os2.exists&&this.font.os2.xHeight||0,this.familyClass=(this.font.os2.exists&&this.font.os2.familyClass||0)>>8,this.isSerif=1===(i=this.familyClass)||2===i||3===i||4===i||5===i||7===i,this.isScript=10===this.familyClass,this.flags=0,this.font.post.isFixedPitch&&(this.flags|=1),this.isSerif&&(this.flags|=2),this.isScript&&(this.flags|=8),0!==this.italicAngle&&(this.flags|=64),this.flags|=32,!this.font.cmap.unicode)throw new Error("No unicode cmap for font")},t.prototype.embedTTF=function(){var t,e,n,r,i,a,s,h;return r=this.subset.encode(),s=this.document.ref(),s.write(r),s.data.Length1=s.uncompressedLength,s.end(),i=this.document.ref({Type:"FontDescriptor",FontName:this.subset.postscriptName,FontFile2:s,FontBBox:this.bbox,Flags:this.flags,StemV:this.stemV,ItalicAngle:this.italicAngle,Ascent:this.ascender,Descent:this.decender,CapHeight:this.capHeight,XHeight:this.xHeight}),i.end(),a=+Object.keys(this.subset.cmap)[0],t=function(){var t,e;t=this.subset.cmap,e=[];for(n in t)h=t[n],e.push(Math.round(this.font.widthOfGlyph(h)));return e}.call(this),e=this.document.ref(),e.end(o(this.subset.subset)),this.dictionary.data={Type:"Font",BaseFont:this.subset.postscriptName,Subtype:"TrueType",FontDescriptor:i,FirstChar:a,LastChar:a+t.length-1,Widths:t,Encoding:"MacRomanEncoding",ToUnicode:e},this.dictionary.end()},o=function(t){var e,n,r,i,o,a,s;for(o="/CIDInit /ProcSet findresource begin\n12 dict begin\nbegincmap\n/CIDSystemInfo <<\n  /Registry (Adobe)\n  /Ordering (UCS)\n  /Supplement 0\n>> def\n/CMapName /Adobe-Identity-UCS def\n/CMapType 2 def\n1 begincodespacerange\n<00><ff>\nendcodespacerange",n=Object.keys(t).sort(function(t,e){return t-e}),r=[],a=0,s=n.length;s>a;a++)e=n[a],r.length>=100&&(o+="\n"+r.length+" beginbfchar\n"+r.join("\n")+"\nendbfchar",r=[]),i=("0000"+t[e].toString(16)).slice(-4),e=(+e).toString(16),r.push("<"+e+"><"+i+">");return r.length&&(o+="\n"+r.length+" beginbfchar\n"+r.join("\n")+"\nendbfchar\n"),o+="endcmap\nCMapName currentdict /CMap defineresource pop\nend\nend"},t.prototype.registerAFM=function(t){var e;return this.name=t,e=this.font,this.ascender=e.ascender,this.decender=e.decender,this.bbox=e.bbox,this.lineGap=e.lineGap,e},t.prototype.embedAFM=function(){return this.dictionary.data={Type:"Font",BaseFont:this.name,Subtype:"Type1",Encoding:"WinAnsiEncoding"},this.dictionary.end()},t.prototype.widthOfString=function(t,e){var n,r,i,o,a,s;for(t=""+t,o=0,r=a=0,s=t.length;s>=0?s>a:a>s;r=s>=0?++a:--a)n=t.charCodeAt(r),o+=this.font.widthOfGlyph(this.font.characterToGlyph(n))||0;return i=e/1e3,o*i},t.prototype.lineHeight=function(t,e){var n;return null==e&&(e=!1),n=e?this.lineGap:0,(this.ascender+n-this.decender)/1e3*t},t}(),t.exports=o}).call(this)}).call(e,n(4).Buffer,"/")},function(t,e,n){function r(t,e){return d.isUndefined(e)?""+e:d.isNumber(e)&&!isFinite(e)?e.toString():d.isFunction(e)||d.isRegExp(e)?e.toString():e}function i(t,e){return d.isString(t)?t.length<e?t:t.slice(0,e):t}function o(t){return i(JSON.stringify(t.actual,r),128)+" "+t.operator+" "+i(JSON.stringify(t.expected,r),128)}function a(t,e,n,r,i){throw new v.AssertionError({message:n,actual:t,expected:e,operator:r,stackStartFunction:i})}function s(t,e){t||a(t,!0,e,"==",v.ok)}function h(t,e){if(t===e)return!0;if(d.isBuffer(t)&&d.isBuffer(e)){if(t.length!=e.length)return!1;for(var n=0;n<t.length;n++)if(t[n]!==e[n])return!1;return!0}return 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r=C.prototype.on.call(this,t,n);if("data"===t&&!1!==this._readableState.flowing&&this.resume(),"readable"===t&&this.readable){var i=this._readableState;if(!i.readableListening)if(i.readableListening=!0,i.emittedReadable=!1,i.needReadable=!0,i.reading)i.length&&c(this,i);else{var o=this;e.nextTick(function(){L("readable nexttick read 0"),o.read(0)})}}return r},i.prototype.addListener=i.prototype.on,i.prototype.resume=function(){var t=this._readableState;return t.flowing||(L("resume"),t.flowing=!0,t.reading||(L("resume read 0"),this.read(0)),v(this,t)),this},i.prototype.pause=function(){return L("call pause flowing=%j",this._readableState.flowing),!1!==this._readableState.flowing&&(L("pause"),this._readableState.flowing=!1,this.emit("pause")),this},i.prototype.wrap=function(t){var e=this._readableState,n=!1,r=this;t.on("end",function(){if(L("wrapped end"),e.decoder&&!e.ended){var t=e.decoder.end();t&&t.length&&r.push(t)}r.push(null)}),t.on("data",function(i){if(L("wrapped 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n,r,i=t.max_chain_length,o=t.strstart,a=t.prev_length,s=t.nice_match,h=t.strstart>t.w_size-ut?t.strstart-(t.w_size-ut):0,u=t.window,l=t.w_mask,c=t.prev,f=t.strstart+ht,d=u[o+a-1],p=u[o+a];t.prev_length>=t.good_match&&(i>>=2),s>t.lookahead&&(s=t.lookahead);do if(n=e,u[n+a]===p&&u[n+a-1]===d&&u[n]===u[o]&&u[++n]===u[o+1]){o+=2,n++;do;while(u[++o]===u[++n]&&u[++o]===u[++n]&&u[++o]===u[++n]&&u[++o]===u[++n]&&u[++o]===u[++n]&&u[++o]===u[++n]&&u[++o]===u[++n]&&u[++o]===u[++n]&&f>o);if(r=ht-(f-o),o=f-ht,r>a){if(t.match_start=e,a=r,r>=s)break;d=u[o+a-1],p=u[o+a]}}while((e=c[e&l])>h&&0!==--i);return a<=t.lookahead?a:t.lookahead}function f(t){var e,n,r,i,o,a=t.w_size;do{if(i=t.window_size-t.lookahead-t.strstart,t.strstart>=a+(a-ut)){A.arraySet(t.window,t.window,a,a,0),t.match_start-=a,t.strstart-=a,t.block_start-=a,n=t.hash_size,e=n;do r=t.head[--e],t.head[e]=r>=a?r-a:0;while(--n);n=a,e=n;do r=t.prev[--e],t.prev[e]=r>=a?r-a:0;while(--n);i+=a}if(0===t.strm.avail_in)break;if(n=l(t.strm,t.window,t.strstart+t.lookahead,i),t.lookahead+=n,t.lookahead+t.insert>=st)for(o=t.strstart-t.insert,t.ins_h=t.window[o],t.ins_h=(t.ins_h<<t.hash_shift^t.window[o+1])&t.hash_mask;t.insert&&(t.ins_h=(t.ins_h<<t.hash_shift^t.window[o+st-1])&t.hash_mask,t.prev[o&t.w_mask]=t.head[t.ins_h],t.head[t.ins_h]=o,o++,t.insert--,!(t.lookahead+t.insert<st)););}while(t.lookahead<ut&&0!==t.strm.avail_in)}function d(t,e){var n=65535;for(n>t.pending_buf_size-5&&(n=t.pending_buf_size-5);;){if(t.lookahead<=1){if(f(t),0===t.lookahead&&e===M)return yt;if(0===t.lookahead)break}t.strstart+=t.lookahead,t.lookahead=0;var r=t.block_start+n;if((0===t.strstart||t.strstart>=r)&&(t.lookahead=t.strstart-r,
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t.strstart+=t.match_length,t.match_length=0,t.ins_h=t.window[t.strstart],t.ins_h=(t.ins_h<<t.hash_shift^t.window[t.strstart+1])&t.hash_mask;else r=L._tr_tally(t,0,t.window[t.strstart]),t.lookahead--,t.strstart++;if(r&&(s(t,!1),0===t.strm.avail_out))return yt}return t.insert=t.strstart<st-1?t.strstart:st-1,e===U?(s(t,!0),0===t.strm.avail_out?_t:bt):t.last_lit&&(s(t,!1),0===t.strm.avail_out)?yt:wt}function g(t,e){for(var n,r,i;;){if(t.lookahead<ut){if(f(t),t.lookahead<ut&&e===M)return yt;if(0===t.lookahead)break}if(n=0,t.lookahead>=st&&(t.ins_h=(t.ins_h<<t.hash_shift^t.window[t.strstart+st-1])&t.hash_mask,n=t.prev[t.strstart&t.w_mask]=t.head[t.ins_h],t.head[t.ins_h]=t.strstart),t.prev_length=t.match_length,t.prev_match=t.match_start,t.match_length=st-1,0!==n&&t.prev_length<t.max_lazy_match&&t.strstart-n<=t.w_size-ut&&(t.match_length=c(t,n),t.match_length<=5&&(t.strategy===Z||t.match_length===st&&t.strstart-t.match_start>4096)&&(t.match_length=st-1)),t.prev_length>=st&&t.match_length<=t.prev_length){i=t.strstart+t.lookahead-st,r=L._tr_tally(t,t.strstart-1-t.prev_match,t.prev_length-st),t.lookahead-=t.prev_length-1,t.prev_length-=2;do++t.strstart<=i&&(t.ins_h=(t.ins_h<<t.hash_shift^t.window[t.strstart+st-1])&t.hash_mask,n=t.prev[t.strstart&t.w_mask]=t.head[t.ins_h],t.head[t.ins_h]=t.strstart);while(0!==--t.prev_length);if(t.match_available=0,t.match_length=st-1,t.strstart++,r&&(s(t,!1),0===t.strm.avail_out))return yt}else if(t.match_available){if(r=L._tr_tally(t,0,t.window[t.strstart-1]),r&&s(t,!1),t.strstart++,t.lookahead--,0===t.strm.avail_out)return yt}else t.match_available=1,t.strstart++,t.lookahead--}return t.match_available&&(r=L._tr_tally(t,0,t.window[t.strstart-1]),t.match_available=0),t.insert=t.strstart<st-1?t.strstart:st-1,e===U?(s(t,!0),0===t.strm.avail_out?_t:bt):t.last_lit&&(s(t,!1),0===t.strm.avail_out)?yt:wt}function v(t,e){for(var n,r,i,o,a=t.window;;){if(t.lookahead<=ht){if(f(t),t.lookahead<=ht&&e===M)return yt;if(0===t.lookahead)break}if(t.match_length=0,t.lookahead>=st&&t.strstart>0&&(i=t.strstart-1,r=a[i],r===a[++i]&&r===a[++i]&&r===a[++i])){o=t.strstart+ht;do;while(r===a[++i]&&r===a[++i]&&r===a[++i]&&r===a[++i]&&r===a[++i]&&r===a[++i]&&r===a[++i]&&r===a[++i]&&o>i);t.match_length=ht-(o-i),t.match_length>t.lookahead&&(t.match_length=t.lookahead)}if(t.match_length>=st?(n=L._tr_tally(t,1,t.match_length-st),t.lookahead-=t.match_length,t.strstart+=t.match_length,t.match_length=0):(n=L._tr_tally(t,0,t.window[t.strstart]),t.lookahead--,t.strstart++),n&&(s(t,!1),0===t.strm.avail_out))return yt}return t.insert=0,e===U?(s(t,!0),0===t.strm.avail_out?_t:bt):t.last_lit&&(s(t,!1),0===t.strm.avail_out)?yt:wt}function m(t,e){for(var n;;){if(0===t.lookahead&&(f(t),0===t.lookahead)){if(e===M)return yt;break}if(t.match_length=0,n=L._tr_tally(t,0,t.window[t.strstart]),t.lookahead--,t.strstart++,n&&(s(t,!1),0===t.strm.avail_out))return yt}return t.insert=0,e===U?(s(t,!0),0===t.strm.avail_out?_t:bt):t.last_lit&&(s(t,!1),0===t.strm.avail_out)?yt:wt}function y(t){t.window_size=2*t.w_size,o(t.head),t.max_lazy_match=I[t.level].max_lazy,t.good_match=I[t.level].good_length,t.nice_match=I[t.level].nice_length,t.max_chain_length=I[t.level].max_chain,t.strstart=0,t.block_start=0,t.lookahead=0,t.insert=0,t.match_length=t.prev_length=st-1,t.match_available=0,t.ins_h=0}function w(){this.strm=null,this.status=0,this.pending_buf=null,this.pending_buf_size=0,this.pending_out=0,this.pending=0,this.wrap=0,this.gzhead=null,this.gzindex=0,this.method=V,this.last_flush=-1,this.w_size=0,this.w_bits=0,this.w_mask=0,this.window=null,this.window_size=0,this.prev=null,this.head=null,this.ins_h=0,this.hash_size=0,this.hash_bits=0,this.hash_mask=0,this.hash_shift=0,this.block_start=0,this.match_length=0,this.prev_match=0,this.match_available=0,this.strstart=0,this.match_start=0,this.lookahead=0,this.prev_length=0,this.max_chain_length=0,this.max_lazy_match=0,this.level=0,this.strategy=0,this.good_match=0,this.nice_match=0,this.dyn_ltree=new A.Buf16(2*ot),this.dyn_dtree=new A.Buf16(2*(2*rt+1)),this.bl_tree=new A.Buf16(2*(2*it+1)),o(this.dyn_ltree),o(this.dyn_dtree),o(this.bl_tree),this.l_desc=null,this.d_desc=null,this.bl_desc=null,this.bl_count=new A.Buf16(at+1),this.heap=new A.Buf16(2*nt+1),o(this.heap),this.heap_len=0,this.heap_max=0,this.depth=new A.Buf16(2*nt+1),o(this.depth),this.l_buf=0,this.lit_bufsize=0,this.last_lit=0,this.d_buf=0,this.opt_len=0,this.static_len=0,this.matches=0,this.insert=0,this.bi_buf=0,this.bi_valid=0}function _(t){var e;return t&&t.state?(t.total_in=t.total_out=0,t.data_type=X,e=t.state,e.pending=0,e.pending_out=0,e.wrap<0&&(e.wrap=-e.wrap),e.status=e.wrap?ct:vt,t.adler=2===e.wrap?0:1,e.last_flush=M,L._tr_init(e),F):r(t,W)}function b(t){var e=_(t);return e===F&&y(t.state),e}function x(t,e){return t&&t.state?2!==t.state.wrap?W:(t.state.gzhead=e,F):W}function S(t,e,n,i,o,a){if(!t)return W;var s=1;if(e===H&&(e=6),0>i?(s=0,i=-i):i>15&&(s=2,i-=16),1>o||o>$||n!==V||8>i||i>15||0>e||e>9||0>a||a>Y)return r(t,W);8===i&&(i=9);var h=new w;return t.state=h,h.strm=t,h.wrap=s,h.gzhead=null,h.w_bits=i,h.w_size=1<<h.w_bits,h.w_mask=h.w_size-1,h.hash_bits=o+7,h.hash_size=1<<h.hash_bits,h.hash_mask=h.hash_size-1,h.hash_shift=~~((h.hash_bits+st-1)/st),h.window=new A.Buf8(2*h.w_size),h.head=new A.Buf16(h.hash_size),h.prev=new A.Buf16(h.w_size),h.lit_bufsize=1<<o+6,h.pending_buf_size=4*h.lit_bufsize,h.pending_buf=new A.Buf8(h.pending_buf_size),h.d_buf=h.lit_bufsize>>1,h.l_buf=3*h.lit_bufsize,h.level=e,h.strategy=a,h.method=n,b(t)}function k(t,e){return S(t,e,V,J,Q,K)}function E(t,e){var n,s,l,c;if(!t||!t.state||e>P||0>e)return t?r(t,W):W;if(s=t.state,!t.output||!t.input&&0!==t.avail_in||s.status===mt&&e!==U)return r(t,0===t.avail_out?j:W);if(s.strm=t,n=s.last_flush,s.last_flush=e,s.status===ct)if(2===s.wrap)t.adler=0,h(s,31),h(s,139),h(s,8),s.gzhead?(h(s,(s.gzhead.text?1:0)+(s.gzhead.hcrc?2:0)+(s.gzhead.extra?4:0)+(s.gzhead.name?8:0)+(s.gzhead.comment?16:0)),h(s,255&s.gzhead.time),h(s,s.gzhead.time>>8&255),h(s,s.gzhead.time>>16&255),h(s,s.gzhead.time>>24&255),h(s,9===s.level?2:s.strategy>=G||s.level<2?4:0),h(s,255&s.gzhead.os),s.gzhead.extra&&s.gzhead.extra.length&&(h(s,255&s.gzhead.extra.length),h(s,s.gzhead.extra.length>>8&255)),s.gzhead.hcrc&&(t.adler=B(t.adler,s.pending_buf,s.pending,0)),s.gzindex=0,s.status=ft):(h(s,0),h(s,0),h(s,0),h(s,0),h(s,0),h(s,9===s.level?2:s.strategy>=G||s.level<2?4:0),h(s,xt),s.status=vt);else{var f=V+(s.w_bits-8<<4)<<8,d=-1;d=s.strategy>=G||s.level<2?0:s.level<6?1:6===s.level?2:3,f|=d<<6,0!==s.strstart&&(f|=lt),f+=31-f%31,s.status=vt,u(s,f),0!==s.strstart&&(u(s,t.adler>>>16),u(s,65535&t.adler)),t.adler=1}if(s.status===ft)if(s.gzhead.extra){for(l=s.pending;s.gzindex<(65535&s.gzhead.extra.length)&&(s.pending!==s.pending_buf_size||(s.gzhead.hcrc&&s.pending>l&&(t.adler=B(t.adler,s.pending_buf,s.pending-l,l)),a(t),l=s.pending,s.pending!==s.pending_buf_size));)h(s,255&s.gzhead.extra[s.gzindex]),s.gzindex++;s.gzhead.hcrc&&s.pending>l&&(t.adler=B(t.adler,s.pending_buf,s.pending-l,l)),s.gzindex===s.gzhead.extra.length&&(s.gzindex=0,s.status=dt)}else s.status=dt;if(s.status===dt)if(s.gzhead.name){l=s.pending;do{if(s.pending===s.pending_buf_size&&(s.gzhead.hcrc&&s.pending>l&&(t.adler=B(t.adler,s.pending_buf,s.pending-l,l)),a(t),l=s.pending,s.pending===s.pending_buf_size)){c=1;break}c=s.gzindex<s.gzhead.name.length?255&s.gzhead.name.charCodeAt(s.gzindex++):0,h(s,c)}while(0!==c);s.gzhead.hcrc&&s.pending>l&&(t.adler=B(t.adler,s.pending_buf,s.pending-l,l)),0===c&&(s.gzindex=0,s.status=pt)}else s.status=pt;if(s.status===pt)if(s.gzhead.comment){l=s.pending;do{if(s.pending===s.pending_buf_size&&(s.gzhead.hcrc&&s.pending>l&&(t.adler=B(t.adler,s.pending_buf,s.pending-l,l)),a(t),l=s.pending,s.pending===s.pending_buf_size)){c=1;break}c=s.gzindex<s.gzhead.comment.length?255&s.gzhead.comment.charCodeAt(s.gzindex++):0,h(s,c)}while(0!==c);s.gzhead.hcrc&&s.pending>l&&(t.adler=B(t.adler,s.pending_buf,s.pending-l,l)),0===c&&(s.status=gt)}else s.status=gt;if(s.status===gt&&(s.gzhead.hcrc?(s.pending+2>s.pending_buf_size&&a(t),s.pending+2<=s.pending_buf_size&&(h(s,255&t.adler),h(s,t.adler>>8&255),t.adler=0,s.status=vt)):s.status=vt),0!==s.pending){if(a(t),0===t.avail_out)return s.last_flush=-1,F}else if(0===t.avail_in&&i(e)<=i(n)&&e!==U)return r(t,j);if(s.status===mt&&0!==t.avail_in)return r(t,j);if(0!==t.avail_in||0!==s.lookahead||e!==M&&s.status!==mt){var p=s.strategy===G?m(s,e):s.strategy===q?v(s,e):I[s.level].func(s,e);if((p===_t||p===bt)&&(s.status=mt),p===yt||p===_t)return 0===t.avail_out&&(s.last_flush=-1),F;if(p===wt&&(e===O?L._tr_align(s):e!==P&&(L._tr_stored_block(s,0,0,!1),e===D&&(o(s.head),0===s.lookahead&&(s.strstart=0,s.block_start=0,s.insert=0))),a(t),0===t.avail_out))return s.last_flush=-1,F}return e!==U?F:s.wrap<=0?z:(2===s.wrap?(h(s,255&t.adler),h(s,t.adler>>8&255),h(s,t.adler>>16&255),h(s,t.adler>>24&255),h(s,255&t.total_in),h(s,t.total_in>>8&255),h(s,t.total_in>>16&255),h(s,t.total_in>>24&255)):(u(s,t.adler>>>16),u(s,65535&t.adler)),a(t),s.wrap>0&&(s.wrap=-s.wrap),0!==s.pending?F:z)}function C(t){var e;return t&&t.state?(e=t.state.status,e!==ct&&e!==ft&&e!==dt&&e!==pt&&e!==gt&&e!==vt&&e!==mt?r(t,W):(t.state=null,e===vt?r(t,N):F)):W}var I,A=n(98),L=n(95),R=n(96),B=n(97),T=n(73),M=0,O=1,D=3,U=4,P=5,F=0,z=1,W=-2,N=-3,j=-5,H=-1,Z=1,G=2,q=3,Y=4,K=0,X=2,V=8,$=9,J=15,Q=8,tt=29,et=256,nt=et+1+tt,rt=30,it=19,ot=2*nt+1,at=15,st=3,ht=258,ut=ht+st+1,lt=32,ct=42,ft=69,dt=73,pt=91,gt=103,vt=113,mt=666,yt=1,wt=2,_t=3,bt=4,xt=3,St=function(t,e,n,r,i){this.good_length=t,this.max_lazy=e,this.nice_length=n,this.max_chain=r,this.func=i};I=[new St(0,0,0,0,d),new St(4,4,8,4,p),new St(4,5,16,8,p),new St(4,6,32,32,p),new St(4,4,16,16,g),new St(8,16,32,32,g),new St(8,16,128,128,g),new St(8,32,128,256,g),new St(32,128,258,1024,g),new St(32,258,258,4096,g)],e.deflateInit=k,e.deflateInit2=S,e.deflateReset=b,e.deflateResetKeep=_,e.deflateSetHeader=x,e.deflate=E,e.deflateEnd=C,e.deflateInfo="pako deflate (from Nodeca project)"},function(t,e,n){"use strict";function r(t){return(t>>>24&255)+(t>>>8&65280)+((65280&t)<<8)+((255&t)<<24)}function i(){this.mode=0,this.last=!1,this.wrap=0,this.havedict=!1,this.flags=0,this.dmax=0,this.check=0,this.total=0,this.head=null,this.wbits=0,this.wsize=0,this.whave=0,this.wnext=0,this.window=null,this.hold=0,this.bits=0,this.length=0,this.offset=0,this.extra=0,this.lencode=null,this.distcode=null,this.lenbits=0,this.distbits=0,this.ncode=0,this.nlen=0,this.ndist=0,this.have=0,this.next=null,this.lens=new m.Buf16(320),this.work=new m.Buf16(288),this.lendyn=null,this.distdyn=null,this.sane=0,this.back=0,this.was=0}function o(t){var e;return t&&t.state?(e=t.state,t.total_in=t.total_out=e.total=0,t.msg="",e.wrap&&(t.adler=1&e.wrap),e.mode=U,e.last=0,e.havedict=0,e.dmax=32768,e.head=null,e.hold=0,e.bits=0,e.lencode=e.lendyn=new m.Buf32(pt),e.distcode=e.distdyn=new m.Buf32(gt),e.sane=1,e.back=-1,A):B}function a(t){var e;return t&&t.state?(e=t.state,e.wsize=0,e.whave=0,e.wnext=0,o(t)):B}function s(t,e){var n,r;return t&&t.state?(r=t.state,0>e?(n=0,e=-e):(n=(e>>4)+1,48>e&&(e&=15)),e&&(8>e||e>15)?B:(null!==r.window&&r.wbits!==e&&(r.window=null),r.wrap=n,r.wbits=e,a(t))):B}function h(t,e){var n,r;return t?(r=new i,t.state=r,r.window=null,n=s(t,e),n!==A&&(t.state=null),n):B}function u(t){return h(t,mt)}function l(t){if(yt){var e;for(g=new m.Buf32(512),v=new m.Buf32(32),e=0;144>e;)t.lens[e++]=8;for(;256>e;)t.lens[e++]=9;for(;280>e;)t.lens[e++]=7;for(;288>e;)t.lens[e++]=8;for(b(S,t.lens,0,288,g,0,t.work,{bits:9}),e=0;32>e;)t.lens[e++]=5;b(k,t.lens,0,32,v,0,t.work,{bits:5}),yt=!1}t.lencode=g,t.lenbits=9,t.distcode=v,t.distbits=5}function c(t,e,n,r){var i,o=t.state;return null===o.window&&(o.wsize=1<<o.wbits,o.wnext=0,o.whave=0,o.window=new m.Buf8(o.wsize)),r>=o.wsize?(m.arraySet(o.window,e,n-o.wsize,o.wsize,0),o.wnext=0,o.whave=o.wsize):(i=o.wsize-o.wnext,i>r&&(i=r),m.arraySet(o.window,e,n-r,i,o.wnext),r-=i,r?(m.arraySet(o.window,e,n-r,r,0),o.wnext=r,o.whave=o.wsize):(o.wnext+=i,o.wnext===o.wsize&&(o.wnext=0),o.whave<o.wsize&&(o.whave+=i))),0}function f(t,e){var n,i,o,a,s,h,u,f,d,p,g,v,pt,gt,vt,mt,yt,wt,_t,bt,xt,St,kt,Et,Ct=0,It=new m.Buf8(4),At=[16,17,18,0,8,7,9,6,10,5,11,4,12,3,13,2,14,1,15];if(!t||!t.state||!t.output||!t.input&&0!==t.avail_in)return B;n=t.state,n.mode===Y&&(n.mode=K),s=t.next_out,o=t.output,u=t.avail_out,a=t.next_in,i=t.input,h=t.avail_in,f=n.hold,d=n.bits,p=h,g=u,St=A;t:for(;;)switch(n.mode){case U:if(0===n.wrap){n.mode=K;break}for(;16>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}if(2&n.wrap&&35615===f){n.check=0,It[0]=255&f,It[1]=f>>>8&255,n.check=w(n.check,It,2,0),f=0,d=0,n.mode=P;break}if(n.flags=0,n.head&&(n.head.done=!1),!(1&n.wrap)||(((255&f)<<8)+(f>>8))%31){t.msg="incorrect header check",n.mode=ct;break}if((15&f)!==D){t.msg="unknown compression method",n.mode=ct;break}if(f>>>=4,d-=4,xt=(15&f)+8,0===n.wbits)n.wbits=xt;else if(xt>n.wbits){t.msg="invalid window size",n.mode=ct;break}n.dmax=1<<xt,t.adler=n.check=1,n.mode=512&f?G:Y,f=0,d=0;break;case P:for(;16>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}if(n.flags=f,(255&n.flags)!==D){t.msg="unknown compression method",n.mode=ct;break}if(57344&n.flags){t.msg="unknown header flags set",n.mode=ct;break}n.head&&(n.head.text=f>>8&1),512&n.flags&&(It[0]=255&f,It[1]=f>>>8&255,n.check=w(n.check,It,2,0)),f=0,d=0,n.mode=F;case F:for(;32>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}n.head&&(n.head.time=f),512&n.flags&&(It[0]=255&f,It[1]=f>>>8&255,It[2]=f>>>16&255,It[3]=f>>>24&255,n.check=w(n.check,It,4,0)),f=0,d=0,n.mode=z;case z:for(;16>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}n.head&&(n.head.xflags=255&f,n.head.os=f>>8),512&n.flags&&(It[0]=255&f,It[1]=f>>>8&255,n.check=w(n.check,It,2,0)),f=0,d=0,n.mode=W;case W:if(1024&n.flags){for(;16>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}n.length=f,n.head&&(n.head.extra_len=f),512&n.flags&&(It[0]=255&f,It[1]=f>>>8&255,n.check=w(n.check,It,2,0)),f=0,d=0}else n.head&&(n.head.extra=null);n.mode=N;case N:if(1024&n.flags&&(v=n.length,v>h&&(v=h),v&&(n.head&&(xt=n.head.extra_len-n.length,n.head.extra||(n.head.extra=new Array(n.head.extra_len)),m.arraySet(n.head.extra,i,a,v,xt)),512&n.flags&&(n.check=w(n.check,i,v,a)),h-=v,a+=v,n.length-=v),n.length))break t;n.length=0,n.mode=j;case j:if(2048&n.flags){if(0===h)break t;v=0;do xt=i[a+v++],n.head&&xt&&n.length<65536&&(n.head.name+=String.fromCharCode(xt));while(xt&&h>v);if(512&n.flags&&(n.check=w(n.check,i,v,a)),h-=v,a+=v,xt)break t}else n.head&&(n.head.name=null);n.length=0,n.mode=H;case H:if(4096&n.flags){if(0===h)break t;v=0;do xt=i[a+v++],n.head&&xt&&n.length<65536&&(n.head.comment+=String.fromCharCode(xt));while(xt&&h>v);if(512&n.flags&&(n.check=w(n.check,i,v,a)),h-=v,a+=v,xt)break t}else n.head&&(n.head.comment=null);n.mode=Z;case Z:if(512&n.flags){for(;16>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}if(f!==(65535&n.check)){t.msg="header crc mismatch",n.mode=ct;break}f=0,d=0}n.head&&(n.head.hcrc=n.flags>>9&1,n.head.done=!0),t.adler=n.check=0,n.mode=Y;break;case G:for(;32>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}t.adler=n.check=r(f),f=0,d=0,n.mode=q;case q:if(0===n.havedict)return t.next_out=s,t.avail_out=u,t.next_in=a,t.avail_in=h,n.hold=f,n.bits=d,R;t.adler=n.check=1,n.mode=Y;case Y:if(e===C||e===I)break t;case K:if(n.last){f>>>=7&d,d-=7&d,n.mode=ht;break}for(;3>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}switch(n.last=1&f,f>>>=1,d-=1,3&f){case 0:n.mode=X;break;case 1:if(l(n),n.mode=et,e===I){f>>>=2,d-=2;break t}break;case 2:n.mode=J;break;case 3:t.msg="invalid block type",n.mode=ct}f>>>=2,d-=2;break;case X:for(f>>>=7&d,d-=7&d;32>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}if((65535&f)!==(f>>>16^65535)){t.msg="invalid stored block lengths",n.mode=ct;break}if(n.length=65535&f,f=0,d=0,n.mode=V,e===I)break t;case V:n.mode=$;case $:if(v=n.length){if(v>h&&(v=h),v>u&&(v=u),0===v)break t;m.arraySet(o,i,a,v,s),h-=v,a+=v,u-=v,s+=v,n.length-=v;break}n.mode=Y;break;case J:for(;14>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}if(n.nlen=(31&f)+257,f>>>=5,d-=5,n.ndist=(31&f)+1,f>>>=5,d-=5,n.ncode=(15&f)+4,f>>>=4,d-=4,n.nlen>286||n.ndist>30){t.msg="too many length or distance symbols",n.mode=ct;break}n.have=0,n.mode=Q;case Q:for(;n.have<n.ncode;){for(;3>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}n.lens[At[n.have++]]=7&f,f>>>=3,d-=3}for(;n.have<19;)n.lens[At[n.have++]]=0;if(n.lencode=n.lendyn,n.lenbits=7,kt={bits:n.lenbits},St=b(x,n.lens,0,19,n.lencode,0,n.work,kt),n.lenbits=kt.bits,St){t.msg="invalid code lengths set",n.mode=ct;break}n.have=0,n.mode=tt;case tt:for(;n.have<n.nlen+n.ndist;){for(;Ct=n.lencode[f&(1<<n.lenbits)-1],vt=Ct>>>24,mt=Ct>>>16&255,yt=65535&Ct,!(d>=vt);){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}if(16>yt)f>>>=vt,d-=vt,n.lens[n.have++]=yt;else{if(16===yt){for(Et=vt+2;Et>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}if(f>>>=vt,d-=vt,0===n.have){t.msg="invalid bit length repeat",n.mode=ct;break}xt=n.lens[n.have-1],v=3+(3&f),f>>>=2,d-=2}else if(17===yt){for(Et=vt+3;Et>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}f>>>=vt,d-=vt,xt=0,v=3+(7&f),f>>>=3,d-=3}else{for(Et=vt+7;Et>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}f>>>=vt,d-=vt,xt=0,v=11+(127&f),f>>>=7,d-=7}if(n.have+v>n.nlen+n.ndist){t.msg="invalid bit length repeat",n.mode=ct;break}for(;v--;)n.lens[n.have++]=xt}}if(n.mode===ct)break;if(0===n.lens[256]){t.msg="invalid code -- missing end-of-block",n.mode=ct;break}if(n.lenbits=9,kt={bits:n.lenbits},St=b(S,n.lens,0,n.nlen,n.lencode,0,n.work,kt),n.lenbits=kt.bits,St){t.msg="invalid literal/lengths set",n.mode=ct;break}if(n.distbits=6,n.distcode=n.distdyn,kt={bits:n.distbits},St=b(k,n.lens,n.nlen,n.ndist,n.distcode,0,n.work,kt),n.distbits=kt.bits,St){t.msg="invalid distances set",n.mode=ct;break}if(n.mode=et,e===I)break t;case et:n.mode=nt;case nt:if(h>=6&&u>=258){t.next_out=s,t.avail_out=u,t.next_in=a,t.avail_in=h,n.hold=f,n.bits=d,_(t,g),s=t.next_out,o=t.output,u=t.avail_out,a=t.next_in,i=t.input,h=t.avail_in,f=n.hold,d=n.bits,n.mode===Y&&(n.back=-1);break}for(n.back=0;Ct=n.lencode[f&(1<<n.lenbits)-1],vt=Ct>>>24,mt=Ct>>>16&255,yt=65535&Ct,!(d>=vt);){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}if(mt&&0===(240&mt)){for(wt=vt,_t=mt,bt=yt;Ct=n.lencode[bt+((f&(1<<wt+_t)-1)>>wt)],vt=Ct>>>24,mt=Ct>>>16&255,yt=65535&Ct,!(d>=wt+vt);){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}f>>>=wt,d-=wt,n.back+=wt}if(f>>>=vt,d-=vt,n.back+=vt,n.length=yt,0===mt){n.mode=st;break}if(32&mt){n.back=-1,n.mode=Y;break}if(64&mt){t.msg="invalid literal/length code",n.mode=ct;break}n.extra=15&mt,n.mode=rt;case rt:if(n.extra){for(Et=n.extra;Et>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}n.length+=f&(1<<n.extra)-1,f>>>=n.extra,d-=n.extra,n.back+=n.extra}n.was=n.length,n.mode=it;case it:for(;Ct=n.distcode[f&(1<<n.distbits)-1],vt=Ct>>>24,mt=Ct>>>16&255,yt=65535&Ct,!(d>=vt);){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}if(0===(240&mt)){for(wt=vt,_t=mt,bt=yt;Ct=n.distcode[bt+((f&(1<<wt+_t)-1)>>wt)],vt=Ct>>>24,mt=Ct>>>16&255,yt=65535&Ct,!(d>=wt+vt);){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}f>>>=wt,d-=wt,n.back+=wt}if(f>>>=vt,d-=vt,n.back+=vt,64&mt){t.msg="invalid distance code",n.mode=ct;break}n.offset=yt,n.extra=15&mt,n.mode=ot;case ot:if(n.extra){for(Et=n.extra;Et>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}n.offset+=f&(1<<n.extra)-1,f>>>=n.extra,d-=n.extra,n.back+=n.extra}if(n.offset>n.dmax){t.msg="invalid distance too far back",n.mode=ct;break}n.mode=at;case at:if(0===u)break t;if(v=g-u,n.offset>v){if(v=n.offset-v,v>n.whave&&n.sane){t.msg="invalid distance too far back",n.mode=ct;break}v>n.wnext?(v-=n.wnext,pt=n.wsize-v):pt=n.wnext-v,v>n.length&&(v=n.length),gt=n.window}else gt=o,pt=s-n.offset,v=n.length;v>u&&(v=u),u-=v,n.length-=v;do o[s++]=gt[pt++];while(--v);0===n.length&&(n.mode=nt);break;case st:if(0===u)break t;o[s++]=n.length,u--,n.mode=nt;break;case ht:if(n.wrap){for(;32>d;){if(0===h)break t;h--,f|=i[a++]<<d,d+=8}if(g-=u,t.total_out+=g,n.total+=g,g&&(t.adler=n.check=n.flags?w(n.check,o,g,s-g):y(n.check,o,g,s-g)),g=u,(n.flags?f:r(f))!==n.check){t.msg="incorrect data check",n.mode=ct;break}f=0,d=0}n.mode=ut;case ut:if(n.wrap&&n.flags){for(;32>d;){if(0===h)break t;h--,f+=i[a++]<<d,d+=8}if(f!==(4294967295&n.total)){t.msg="incorrect length check",n.mode=ct;break}f=0,d=0}n.mode=lt;case lt:St=L;break t;case ct:St=T;break t;case ft:return M;case dt:default:return B}return t.next_out=s,t.avail_out=u,t.next_in=a,t.avail_in=h,n.hold=f,n.bits=d,(n.wsize||g!==t.avail_out&&n.mode<ct&&(n.mode<ht||e!==E))&&c(t,t.output,t.next_out,g-t.avail_out)?(n.mode=ft,M):(p-=t.avail_in,g-=t.avail_out,t.total_in+=p,t.total_out+=g,n.total+=g,n.wrap&&g&&(t.adler=n.check=n.flags?w(n.check,o,g,t.next_out-g):y(n.check,o,g,t.next_out-g)),t.data_type=n.bits+(n.last?64:0)+(n.mode===Y?128:0)+(n.mode===et||n.mode===V?256:0),(0===p&&0===g||e===E)&&St===A&&(St=O),St)}function d(t){if(!t||!t.state)return B;var e=t.state;return e.window&&(e.window=null),t.state=null,A}function p(t,e){var n;return t&&t.state?(n=t.state,0===(2&n.wrap)?B:(n.head=e,e.done=!1,A)):B}var 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r(){this.input=null,this.next_in=0,this.avail_in=0,this.total_in=0,this.output=null,this.next_out=0,this.avail_out=0,this.total_out=0,this.msg="",this.state=null,this.data_type=2,this.adler=0}t.exports=r},function(t,e,n){(function(){var e,r,i,NameTable,o;o=n(10),r=n(34),i=n(79),NameTable=n(80),e=function(){function t(t){this.contents=new r(t),this.parse(this.contents)}return t.open=function(e){var n;return n=o.readFileSync(e),new t(n)},t.prototype.parse=function(t){var 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t,i,a,s,h,u,l,c,f,d,p,g,v,m;f={},m=this.strings;for(t in m)p=m[t],f[t]=p;h=new r(""+n+"+"+this.postscriptName,{platformID:1,encodingID:0,languageID:0}),f[6]=[h],n=o.successorOf(n),u=0;for(t in f)i=f[t],null!=i&&(u+=i.length);d=new e,l=new e,d.writeShort(0),d.writeShort(u),d.writeShort(6+12*u);for(a in f)if(i=f[a],null!=i)for(g=0,v=i.length;v>g;g++)c=i[g],d.writeShort(c.platformID),d.writeShort(c.encodingID),d.writeShort(c.languageID),d.writeShort(a),d.writeShort(c.length),d.writeShort(l.pos),l.writeString(c.raw);return s={postscriptName:h.raw,table:d.data.concat(l.data)}},NameTable}(i),t.exports=NameTable,r=function(){function t(t,e){this.raw=t,this.length=this.raw.length,this.platformID=e.platformID,this.encodingID=e.encodingID,this.languageID=e.languageID}return t}()}).call(this)},function(t,e,n){(function(){var e,HeadTable,r,i={}.hasOwnProperty,o=function(t,e){function n(){this.constructor=t}for(var r in e)i.call(e,r)&&(t[r]=e[r]);return n.prototype=e.prototype,t.prototype=new 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e,n.writeInt(this.version),n.writeInt(this.revision),n.writeInt(this.checkSumAdjustment),n.writeInt(this.magicNumber),n.writeShort(this.flags),n.writeShort(this.unitsPerEm),n.writeLongLong(this.created),n.writeLongLong(this.modified),n.writeShort(this.xMin),n.writeShort(this.yMin),n.writeShort(this.xMax),n.writeShort(this.yMax),n.writeShort(this.macStyle),n.writeShort(this.lowestRecPPEM),n.writeShort(this.fontDirectionHint),n.writeShort(t.type),n.writeShort(this.glyphDataFormat),n.data},HeadTable}(r),t.exports=HeadTable}).call(this)},function(t,e,n){(function(){var e,CmapTable,r,i,o={}.hasOwnProperty,a=function(t,e){function n(){this.constructor=t}for(var r in e)o.call(e,r)&&(t[r]=e[r]);return n.prototype=e.prototype,t.prototype=new n,t.__super__=e.prototype,t};i=n(99),r=n(34),CmapTable=function(t){function CmapTable(){return CmapTable.__super__.constructor.apply(this,arguments)}return a(CmapTable,t),CmapTable.prototype.tag="cmap",CmapTable.prototype.parse=function(t){var n,r,i,o;for(t.pos=this.offset,this.version=t.readUInt16(),i=t.readUInt16(),this.tables=[],this.unicode=null,r=o=0;i>=0?i>o:o>i;r=i>=0?++o:--o)n=new e(t,this.offset),this.tables.push(n),n.isUnicode&&null==this.unicode&&(this.unicode=n);return!0},CmapTable.encode=function(t,n){var i,o;return null==n&&(n="macroman"),i=e.encode(t,n),o=new r,o.writeUInt16(0),o.writeUInt16(1),i.table=o.data.concat(i.subtable),i},CmapTable}(i),e=function(){function t(t,e){var n,r,i,o,a,s,h,u,l,c,f,d,p,g,v,m,y,w,_;switch(this.platformID=t.readUInt16(),this.encodingID=t.readShort(),this.offset=e+t.readInt(),c=t.pos,t.pos=this.offset,this.format=t.readUInt16(),this.length=t.readUInt16(),this.language=t.readUInt16(),this.isUnicode=3===this.platformID&&1===this.encodingID&&4===this.format||0===this.platformID&&4===this.format,this.codeMap={},this.format){case 0:for(s=m=0;256>m;s=++m)this.codeMap[s]=t.readByte();break;case 4:for(d=t.readUInt16(),f=d/2,t.pos+=6,i=function(){var e,n;for(n=[],s=e=0;f>=0?f>e:e>f;s=f>=0?++e:--e)n.push(t.readUInt16());return n}(),t.pos+=2,g=function(){var e,n;for(n=[],s=e=0;f>=0?f>e:e>f;s=f>=0?++e:--e)n.push(t.readUInt16());return n}(),h=function(){var e,n;for(n=[],s=e=0;f>=0?f>e:e>f;s=f>=0?++e:--e)n.push(t.readUInt16());return n}(),u=function(){var e,n;for(n=[],s=e=0;f>=0?f>e:e>f;s=f>=0?++e:--e)n.push(t.readUInt16());return n}(),r=(this.length-t.pos+this.offset)/2,a=function(){var e,n;for(n=[],s=e=0;r>=0?r>e:e>r;s=r>=0?++e:--e)n.push(t.readUInt16());return n}(),s=y=0,_=i.length;_>y;s=++y)for(v=i[s],p=g[s],n=w=p;v>=p?v>=w:w>=v;n=v>=p?++w:--w)0===u[s]?o=n+h[s]:(l=u[s]/2+(n-p)-(f-s),o=a[l]||0,0!==o&&(o+=h[s])),this.codeMap[n]=65535&o}t.pos=c}return t.encode=function(t,e){var n,i,o,a,s,h,u,l,c,f,d,p,g,v,m,y,w,_,b,x,S,k,E,C,I,A,L,R,B,T,M,O,D,U,P,F,z,W,N,j,H,Z,G,q,Y,K,X;switch(B=new r,a=Object.keys(t).sort(function(t,e){return t-e}),e){case"macroman":for(g=0,v=function(){var t,e;for(e=[],p=t=0;256>t;p=++t)e.push(0);return 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B.writeUInt16(262),B.writeUInt16(0),B.write(v),k={charMap:o,subtable:B.data,maxGlyphID:g+1};case"unicode":for(L=[],c=[],w=0,y={},n={},m=u=null,M=0,P=a.length;P>M;M++)i=a[M],b=t[i],null==y[b]&&(y[b]=++w),n[i]={old:b,"new":y[b]},s=y[b]-i,(null==m||s!==u)&&(m&&c.push(m),L.push(i),u=s),m=i;for(m&&c.push(m),c.push(65535),L.push(65535),C=L.length,I=2*C,E=2*Math.pow(Math.log(C)/Math.LN2,2),f=Math.log(E/2)/Math.LN2,S=2*C-E,h=[],x=[],d=[],p=O=0,F=L.length;F>O;p=++O){if(A=L[p],l=c[p],65535===A){h.push(0),x.push(0);break}if(R=n[A]["new"],A-R>=32768)for(h.push(0),x.push(2*(d.length+C-p)),i=D=A;l>=A?l>=D:D>=l;i=l>=A?++D:--D)d.push(n[i]["new"]);else h.push(R-A),x.push(0)}for(B.writeUInt16(3),B.writeUInt16(1),B.writeUInt32(12),B.writeUInt16(4),B.writeUInt16(16+8*C+2*d.length),B.writeUInt16(0),B.writeUInt16(I),B.writeUInt16(E),B.writeUInt16(f),B.writeUInt16(S),Z=0,z=c.length;z>Z;Z++)i=c[Z],B.writeUInt16(i);for(B.writeUInt16(0),G=0,W=L.length;W>G;G++)i=L[G],B.writeUInt16(i);for(Y=0,N=h.length;N>Y;Y++)s=h[Y],B.writeUInt16(s);for(K=0,j=x.length;j>K;K++)_=x[K],B.writeUInt16(_);for(X=0,H=d.length;H>X;X++)g=d[X],B.writeUInt16(g);return k={charMap:n,subtable:B.data,maxGlyphID:w+1}}},t}(),t.exports=CmapTable}).call(this)},function(t,e,n){(function(){var e,HmtxTable,r,i={}.hasOwnProperty,o=function(t,e){function n(){this.constructor=t}for(var r in e)i.call(e,r)&&(t[r]=e[r]);return n.prototype=e.prototype,t.prototype=new n,t.__super__=e.prototype,t};r=n(99),e=n(34),HmtxTable=function(t){function HmtxTable(){return HmtxTable.__super__.constructor.apply(this,arguments)}return o(HmtxTable,t),HmtxTable.prototype.tag="hmtx",HmtxTable.prototype.parse=function(t){var e,n,r,i,o,a,s,h;for(t.pos=this.offset,this.metrics=[],e=o=0,s=this.file.hhea.numberOfMetrics;s>=0?s>o:o>s;e=s>=0?++o:--o)this.metrics.push({advance:t.readUInt16(),lsb:t.readInt16()});for(r=this.file.maxp.numGlyphs-this.file.hhea.numberOfMetrics,this.leftSideBearings=function(){var n,i;for(i=[],e=n=0;r>=0?r>n:n>r;e=r>=0?++n:--n)i.push(t.readInt16());return i}(),this.widths=function(){var t,e,n,r;for(n=this.metrics,r=[],t=0,e=n.length;e>t;t++)i=n[t],r.push(i.advance);return r}.call(this),n=this.widths[this.widths.length-1],h=[],e=a=0;r>=0?r>a:a>r;e=r>=0?++a:--a)h.push(this.widths.push(n));return h},HmtxTable.prototype.forGlyph=function(t){var e;return t in this.metrics?this.metrics[t]:e={advance:this.metrics[this.metrics.length-1].advance,lsb:this.leftSideBearings[t-this.metrics.length]}},HmtxTable.prototype.encode=function(t){var n,r,i,o,a;for(i=new 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t.pos=this.offset,this.version=t.readInt(),this.ascender=t.readShort(),this.decender=t.readShort(),this.lineGap=t.readShort(),this.advanceWidthMax=t.readShort(),this.minLeftSideBearing=t.readShort(),this.minRightSideBearing=t.readShort(),this.xMaxExtent=t.readShort(),this.caretSlopeRise=t.readShort(),this.caretSlopeRun=t.readShort(),this.caretOffset=t.readShort(),t.pos+=8,this.metricDataFormat=t.readShort(),this.numberOfMetrics=t.readUInt16()},HheaTable.prototype.encode=function(t){var n,r,i,o;for(r=new e,r.writeInt(this.version),r.writeShort(this.ascender),r.writeShort(this.decender),r.writeShort(this.lineGap),r.writeShort(this.advanceWidthMax),r.writeShort(this.minLeftSideBearing),r.writeShort(this.minRightSideBearing),r.writeShort(this.xMaxExtent),r.writeShort(this.caretSlopeRise),r.writeShort(this.caretSlopeRun),r.writeShort(this.caretOffset),n=i=0,o=8;o>=0?o>i:i>o;n=o>=0?++i:--i)r.writeByte(0);return r.writeShort(this.metricDataFormat),r.writeUInt16(t.length),r.data},HheaTable}(r),t.exports=HheaTable}).call(this)},function(t,e,n){(function(){var e,MaxpTable,r,i={}.hasOwnProperty,o=function(t,e){function n(){this.constructor=t}for(var r in e)i.call(e,r)&&(t[r]=e[r]);return n.prototype=e.prototype,t.prototype=new n,t.__super__=e.prototype,t};r=n(99),e=n(34),MaxpTable=function(t){function MaxpTable(){return MaxpTable.__super__.constructor.apply(this,arguments)}return o(MaxpTable,t),MaxpTable.prototype.tag="maxp",MaxpTable.prototype.parse=function(t){return t.pos=this.offset,this.version=t.readInt(),this.numGlyphs=t.readUInt16(),this.maxPoints=t.readUInt16(),this.maxContours=t.readUInt16(),this.maxCompositePoints=t.readUInt16(),this.maxComponentContours=t.readUInt16(),this.maxZones=t.readUInt16(),this.maxTwilightPoints=t.readUInt16(),this.maxStorage=t.readUInt16(),this.maxFunctionDefs=t.readUInt16(),this.maxInstructionDefs=t.readUInt16(),this.maxStackElements=t.readUInt16(),this.maxSizeOfInstructions=t.readUInt16(),this.maxComponentElements=t.readUInt16(),this.maxComponentDepth=t.readUInt16()},MaxpTable.prototype.encode=function(t){var n;return n=new e,n.writeInt(this.version),n.writeUInt16(t.length),n.writeUInt16(this.maxPoints),n.writeUInt16(this.maxContours),n.writeUInt16(this.maxCompositePoints),n.writeUInt16(this.maxComponentContours),n.writeUInt16(this.maxZones),n.writeUInt16(this.maxTwilightPoints),n.writeUInt16(this.maxStorage),n.writeUInt16(this.maxFunctionDefs),n.writeUInt16(this.maxInstructionDefs),n.writeUInt16(this.maxStackElements),n.writeUInt16(this.maxSizeOfInstructions),n.writeUInt16(this.maxComponentElements),n.writeUInt16(this.maxComponentDepth),n.data},MaxpTable}(r),t.exports=MaxpTable}).call(this)},function(t,e,n){(function(){var e,PostTable,r,i={}.hasOwnProperty,o=function(t,e){function n(){this.constructor=t}for(var r in e)i.call(e,r)&&(t[r]=e[r]);return n.prototype=e.prototype,t.prototype=new n,t.__super__=e.prototype,t};r=n(99),e=n(34),PostTable=function(t){function PostTable(){return PostTable.__super__.constructor.apply(this,arguments)}var n;return 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at A B C D E F G H I J K L M N O P Q R S T U V W X Y Z\nbracketleft backslash bracketright asciicircum underscore grave\na b c d e f g h i j k l m n o p q r s t u v w x y z\nbraceleft bar braceright asciitilde Adieresis Aring Ccedilla Eacute Ntilde Odieresis\nUdieresis aacute agrave acircumflex adieresis atilde aring ccedilla eacute egrave\necircumflex edieresis iacute igrave icircumflex idieresis ntilde oacute ograve\nocircumflex odieresis otilde uacute ugrave ucircumflex udieresis dagger degree cent\nsterling section bullet paragraph germandbls registered copyright trademark acute\ndieresis notequal AE Oslash infinity plusminus lessequal greaterequal yen mu\npartialdiff summation product pi integral ordfeminine ordmasculine Omega ae oslash\nquestiondown exclamdown logicalnot radical florin approxequal Delta guillemotleft\nguillemotright ellipsis nonbreakingspace Agrave Atilde Otilde OE oe endash emdash\nquotedblleft quotedblright quoteleft quoteright divide lozenge ydieresis 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OS2Table.__super__.constructor.apply(this,arguments)}return i(OS2Table,t),OS2Table.prototype.tag="OS/2",OS2Table.prototype.parse=function(t){var e;return t.pos=this.offset,this.version=t.readUInt16(),this.averageCharWidth=t.readShort(),this.weightClass=t.readUInt16(),this.widthClass=t.readUInt16(),this.type=t.readShort(),this.ySubscriptXSize=t.readShort(),this.ySubscriptYSize=t.readShort(),this.ySubscriptXOffset=t.readShort(),this.ySubscriptYOffset=t.readShort(),this.ySuperscriptXSize=t.readShort(),this.ySuperscriptYSize=t.readShort(),this.ySuperscriptXOffset=t.readShort(),this.ySuperscriptYOffset=t.readShort(),this.yStrikeoutSize=t.readShort(),this.yStrikeoutPosition=t.readShort(),this.familyClass=t.readShort(),this.panose=function(){var n,r;for(r=[],e=n=0;10>n;e=++n)r.push(t.readByte());return r}(),this.charRange=function(){var n,r;for(r=[],e=n=0;4>n;e=++n)r.push(t.readInt());return r}(),this.vendorID=t.readString(4),this.selection=t.readShort(),this.firstCharIndex=t.readShort(),this.lastCharIndex=t.readShort(),this.version>0&&(this.ascent=t.readShort(),this.descent=t.readShort(),this.lineGap=t.readShort(),this.winAscent=t.readShort(),this.winDescent=t.readShort(),this.codePageRange=function(){var n,r;for(r=[],e=n=0;2>n;e=++n)r.push(t.readInt());return r}(),this.version>1)?(this.xHeight=t.readShort(),this.capHeight=t.readShort(),this.defaultChar=t.readShort(),this.breakChar=t.readShort(),this.maxContext=t.readShort()):void 0},OS2Table.prototype.encode=function(){return this.raw()},OS2Table}(e),t.exports=OS2Table}).call(this)},function(t,e,n){(function(){var e,LocaTable,r,i={}.hasOwnProperty,o=function(t,e){function n(){this.constructor=t}for(var r in e)i.call(e,r)&&(t[r]=e[r]);return n.prototype=e.prototype,t.prototype=new n,t.__super__=e.prototype,t};r=n(99),e=n(34),LocaTable=function(t){function LocaTable(){return 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i={format:0,table:o.data}},LocaTable}(r),t.exports=LocaTable}).call(this)},function(t,e,n){(function(){e.successorOf=function(t){var e,n,r,i,o,a,s,h,u,l;for(n="abcdefghijklmnopqrstuvwxyz",h=n.length,l=t,i=t.length;i>=0;){if(s=t.charAt(--i),isNaN(s)){if(o=n.indexOf(s.toLowerCase()),-1===o)u=s,r=!0;else if(u=n.charAt((o+1)%h),a=s===s.toUpperCase(),a&&(u=u.toUpperCase()),r=o+1>=h,r&&0===i){e=a?"A":"a",l=e+u+l.slice(1);break}}else if(u=+s+1,r=u>9,r&&(u=0),r&&0===i){l="1"+u+l.slice(1);break}if(l=l.slice(0,i)+u+l.slice(i+1),!r)break}return l},e.invert=function(t){var e,n,r;n={};for(e in t)r=t[e],n[r]=e;return n}}).call(this)},function(t,e,n){(function(){var e,r,GlyfTable,i,o,a={}.hasOwnProperty,s=function(t,e){function n(){this.constructor=t}for(var r in e)a.call(e,r)&&(t[r]=e[r]);return n.prototype=e.prototype,t.prototype=new n,t.__super__=e.prototype,t},h=[].slice;o=n(99),r=n(34),GlyfTable=function(t){function GlyfTable(){return GlyfTable.__super__.constructor.apply(this,arguments)}return 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l,c;for(this.raw=t,this.xMin=r,this.yMin=s,this.xMax=h,this.yMax=u,this.compound=!0,this.glyphIDs=[],this.glyphOffsets=[],l=this.raw;;){if(c=l.readShort(),this.glyphOffsets.push(l.pos),this.glyphIDs.push(l.readShort()),!(c&n))break;l.pos+=c&e?4:2,c&a?l.pos+=8:c&i?l.pos+=4:c&o&&(l.pos+=2)}}var e,n,i,o,a,s;return e=1,o=8,n=32,i=64,a=128,s=256,t.prototype.encode=function(t){var e,n,i,o,a,s;for(i=new r(h.call(this.raw.data)),s=this.glyphIDs,e=o=0,a=s.length;a>o;e=++o)n=s[e],i.pos=this.glyphOffsets[e],i.writeShort(t[n]);return i.data},t}(),t.exports=GlyfTable}).call(this)},function(t,e,n){(function(){var t,n,r,i,o;e.DI_BRK=r=0,e.IN_BRK=i=1,e.CI_BRK=t=2,e.CP_BRK=n=3,e.PR_BRK=o=4,e.pairTable=[[o,o,o,o,o,o,o,o,o,o,o,o,o,o,o,o,o,o,o,o,o,n,o,o,o,o,o,o,o],[r,o,o,i,i,o,o,o,o,i,i,r,r,r,r,r,i,i,r,r,o,t,o,r,r,r,r,r,r],[r,o,o,i,i,o,o,o,o,i,i,i,i,i,r,r,i,i,r,r,o,t,o,r,r,r,r,r,r],[o,o,o,i,i,i,o,o,o,i,i,i,i,i,i,i,i,i,i,i,o,t,o,i,i,i,i,i,i],[i,o,o,i,i,i,o,o,o,i,i,i,i,i,i,i,i,i,i,i,o,t,o,i,i,i,i,i,i],[r,o,o,i,i,i,o,o,o,r,r,r,r,r,r,r,i,i,r,r,o,t,o,r,r,r,r,r,r],[r,o,o,i,i,i,o,o,o,r,r,r,r,r,r,r,i,i,r,r,o,t,o,r,r,r,r,r,r],[r,o,o,i,i,i,o,o,o,r,r,i,r,r,r,r,i,i,r,r,o,t,o,r,r,r,r,r,r],[r,o,o,i,i,i,o,o,o,r,r,i,i,i,r,r,i,i,r,r,o,t,o,r,r,r,r,r,r],[i,o,o,i,i,i,o,o,o,r,r,i,i,i,i,r,i,i,r,r,o,t,o,i,i,i,i,i,r],[i,o,o,i,i,i,o,o,o,r,r,i,i,i,r,r,i,i,r,r,o,t,o,r,r,r,r,r,r],[i,o,o,i,i,i,o,o,o,i,i,i,i,i,r,i,i,i,r,r,o,t,o,r,r,r,r,r,r],[i,o,o,i,i,i,o,o,o,r,r,i,i,i,r,i,i,i,r,r,o,t,o,r,r,r,r,r,r],[i,o,o,i,i,i,o,o,o,r,r,i,i,i,r,i,i,i,r,r,o,t,o,r,r,r,r,r,r],[r,o,o,i,i,i,o,o,o,r,i,r,r,r,r,i,i,i,r,r,o,t,o,r,r,r,r,r,r],[r,o,o,i,i,i,o,o,o,r,r,r,r,r,r,i,i,i,r,r,o,t,o,r,r,r,r,r,r],[r,o,o,i,r,i,o,o,o,r,r,i,r,r,r,r,i,i,r,r,o,t,o,r,r,r,r,r,r],[r,o,o,i,r,i,o,o,o,r,r,r,r,r,r,r,i,i,r,r,o,t,o,r,r,r,r,r,r],[i,o,o,i,i,i,o,o,o,i,i,i,i,i,i,i,i,i,i,i,o,t,o,i,i,i,i,i,i],[r,o,o,i,i,i,o,o,o,r,r,r,r,r,r,r,i,i,r,o,o,t,o,r,r,r,r,r,r],[r,r,r,r,r,r,r,r,r,r,r,r,r,r,r,r,r,r,r,r,o,r,r,r,r,r,r,r,r],[i,o,o,i,i,i,o,o,o,r,r,i,i,i,r,i,i,i,r,r,o,t,o,r,r,r,r,r,r],[i,o,o,i,i,i,o,o,o,i,i,i,i,i,i,i,i,i,i,i,o,t,o,i,i,i,i,i,i],[r,o,o,i,i,i,o,o,o,r,i,r,r,r,r,i,i,i,r,r,o,t,o,r,r,r,i,i,r],[r,o,o,i,i,i,o,o,o,r,i,r,r,r,r,i,i,i,r,r,o,t,o,r,r,r,r,i,r],[r,o,o,i,i,i,o,o,o,r,i,r,r,r,r,i,i,i,r,r,o,t,o,i,i,i,i,r,r],[r,o,o,i,i,i,o,o,o,r,i,r,r,r,r,i,i,i,r,r,o,t,o,r,r,r,i,i,r],[r,o,o,i,i,i,o,o,o,r,i,r,r,r,r,i,i,i,r,r,o,t,o,r,r,r,r,i,r],[r,o,o,i,i,i,o,o,o,r,r,r,r,r,r,r,i,i,r,r,o,t,o,r,r,r,r,r,i]]}).call(this)},function(t,e,n){(function(){var t,n,r,i,o,a,s,h,u,l,c,f,d,p,g,v,m,y,w,_,b,x,S,k,E,C,I,A,L,R,B,T,M,O,D,U,P,F,z,W;e.OP=L=0,e.CL=u=1,e.CP=c=2,e.QU=T=3,e.GL=p=4,e.NS=I=5,e.EX=d=6,e.SY=P=7,e.IS=b=8,e.PR=B=9,e.PO=R=10,e.NU=A=11,e.AL=n=12,e.HL=m=13,e.ID=w=14,e.IN=_=15,e.HY=y=16,e.BA=i=17,e.BB=o=18,e.B2=r=19,e.ZW=W=20,e.CM=l=21,e.WJ=F=22,e.H2=g=23,e.H3=v=24,e.JL=x=25,e.JV=k=26,e.JT=S=27,e.RI=M=28,e.AI=t=29,e.BK=a=30,e.CB=s=31,e.CJ=h=32,e.CR=f=33,e.LF=E=34,e.NL=C=35,e.SA=O=36,e.SG=D=37,e.SP=U=38,e.XX=z=39}).call(this)},function(t,e,n){},function(t,e,n){t.exports="function"==typeof Object.create?function(t,e){t.super_=e,t.prototype=Object.create(e.prototype,{constructor:{value:t,enumerable:!1,writable:!0,configurable:!0}})}:function(t,e){t.super_=e;var n=function(){};n.prototype=e.prototype,t.prototype=new n,t.prototype.constructor=t}},function(t,e,n){"use strict";function r(t){for(var e=t.length;--e>=0;)t[e]=0}function i(t){return 256>t?at[t]:at[256+(t>>>7)]}function 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e;for(_(t,t.dyn_ltree,t.l_desc.max_code),_(t,t.dyn_dtree,t.d_desc.max_code),w(t,t.bl_desc),e=Z-1;e>=3&&0===t.bl_tree[2*nt[e]+1];e--);return t.opt_len+=3*(e+1)+5+5+4,e}function S(t,e,n,r){var i;for(a(t,e-257,5),a(t,n-1,5),a(t,r-4,4),i=0;r>i;i++)a(t,t.bl_tree[2*nt[i]+1],3);b(t,t.dyn_ltree,e-1),b(t,t.dyn_dtree,n-1)}function k(t){var e,n=4093624447;for(e=0;31>=e;e++,n>>>=1)if(1&n&&0!==t.dyn_ltree[2*e])return T;if(0!==t.dyn_ltree[18]||0!==t.dyn_ltree[20]||0!==t.dyn_ltree[26])return M;for(e=32;N>e;e++)if(0!==t.dyn_ltree[2*e])return M;return T}function E(t){gt||(f(),gt=!0),t.l_desc=new pt(t.dyn_ltree,lt),t.d_desc=new pt(t.dyn_dtree,ct),t.bl_desc=new pt(t.bl_tree,ft),t.bi_buf=0,t.bi_valid=0,d(t)}function C(t,e,n,r){a(t,(D<<1)+(r?1:0),3),g(t,e,n,!0)}function I(t){a(t,U<<1,3),s(t,X,it),u(t)}function A(t,e,n,r){var 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+<script src="data:application/x-javascript;base64,/*!
 Buttons for DataTables 1.2.0
 ©2016 SpryMedia Ltd - datatables.net/license
*/
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c=a.fn.selectize.defaults,d=a.extend({},c,b),e=d.dataAttr,f=d.labelField,g=d.valueField,h=d.optgroupField,i=d.optgroupLabelField,j=d.optgroupValueField,k=function(b,c){var h,i,j,k,l=b.attr(e);if(l)for(c.options=JSON.parse(l),h=0,i=c.options.length;i>h;h++)c.items.push(c.options[h][g]);else{var m=a.trim(b.val()||"");if(!d.allowEmptyOption&&!m.length)return;for(j=m.split(d.delimiter),h=0,i=j.length;i>h;h++)k={},k[f]=j[h],k[g]=j[h],c.options.push(k);c.items=j}},l=function(b,c){var k,l,m,n,o=c.options,p={},q=function(a){var b=e&&a.attr(e);return"string"==typeof b&&b.length?JSON.parse(b):null},r=function(b,e){b=a(b);var i=z(b.attr("value"));if(i||d.allowEmptyOption)if(p.hasOwnProperty(i)){if(e){var j=p[i][h];j?a.isArray(j)?j.push(e):p[i][h]=[j,e]:p[i][h]=e}}else{var k=q(b)||{};k[f]=k[f]||b.text(),k[g]=k[g]||i,k[h]=k[h]||e,p[i]=k,o.push(k),b.is(":selected")&&c.items.push(i)}},s=function(b){var d,e,f,g,h;for(b=a(b),f=b.attr("label"),f&&(g=q(b)||{},g[i]=f,g[j]=f,c.optgroups.push(g)),h=a("option",b),d=0,e=h.length;e>d;d++)r(h[d],f)};for(c.maxItems=b.attr("multiple")?null:1,n=b.children(),k=0,l=n.length;l>k;k++)m=n[k].tagName.toLowerCase(),"optgroup"===m?s(n[k]):"option"===m&&r(n[k])};return this.each(function(){if(!this.selectize){var e,f=a(this),g=this.tagName.toLowerCase(),h=f.attr("placeholder")||f.attr("data-placeholder");h||d.allowEmptyOption||(h=f.children('option[value=""]').text());var i={placeholder:h,options:[],optgroups:[],items:[]};"select"===g?l(f,i):k(f,i),e=new L(f,a.extend(!0,{},c,i,b))}})},a.fn.selectize.defaults=L.defaults,a.fn.selectize.support={validity:x},L.define("drag_drop",function(){if(!a.fn.sortable)throw new Error('The "drag_drop" plugin requires jQuery UI "sortable".');if("multi"===this.settings.mode){var b=this;b.lock=function(){var a=b.lock;return function(){var c=b.$control.data("sortable");return c&&c.disable(),a.apply(b,arguments)}}(),b.unlock=function(){var a=b.unlock;return function(){var c=b.$control.data("sortable");return c&&c.enable(),a.apply(b,arguments)}}(),b.setup=function(){var c=b.setup;return function(){c.apply(this,arguments);var d=b.$control.sortable({items:"[data-value]",forcePlaceholderSize:!0,disabled:b.isLocked,start:function(a,b){b.placeholder.css("width",b.helper.css("width")),d.css({overflow:"visible"})},stop:function(){d.css({overflow:"hidden"});var c=b.$activeItems?b.$activeItems.slice():null,e=[];d.children("[data-value]").each(function(){e.push(a(this).attr("data-value"))}),b.setValue(e),b.setActiveItem(c)}})}}()}}),L.define("dropdown_header",function(b){var c=this;b=a.extend({title:"Untitled",headerClass:"selectize-dropdown-header",titleRowClass:"selectize-dropdown-header-title",labelClass:"selectize-dropdown-header-label",closeClass:"selectize-dropdown-header-close",html:function(a){return'<div class="'+a.headerClass+'"><div 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+    <div id="navbar" class="navbar-collapse collapse">
+      <ul class="nav navbar-nav">
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+                <li><a href="https://www.mdc-berlin.de/20902467/en/research/core_facilities/cf_bioinformatic">Bioinformatics Platform</a></li>
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+              <span class="caret"></span></a>
+              <ul class="dropdown-menu">
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+                <li><a href="http://bioinformatics.mdc-berlin.de/team.html#dilmurat-yusuf-phd">Dilmurat Yusuf</a></li>
+                <li><a href="http://bioinformatics.mdc-berlin.de/team.html#ricardo-wurmus">Ricardo Wurmus</a></li>
+                <li><a href="http://bioinformatics.mdc-berlin.de/team.html#bora-uyar-phd">Bora Uyar</a></li>
+              </ul>
+        </li>
+        <li><a href="https://github.com/BIMSBbioinfo/RCAS">GitHUB</a></li>
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+<div class="fluid-row" id="header">
+
+
+<h1 class="title">The RNA Centric Analysis System Report</h1>
+<h4 class="author"><em>Bora Uyar, Dilmurat Yusuf, Ricardo Wurmus, Altuna Akalin</em></h4>
+<h4 class="date"><em>2017-04-07</em></h4>
+
+</div>
+
+
+<div id="introduction" class="section level1">
+<h1><span class="header-section-number">1</span> Introduction</h1>
+<p>RCAS is an automated system that provides dynamic genome annotations for custom input files that contain transcriptomic regions. Such transcriptomic regions could be, for instance, peak regions detected by CLIP-Seq analysis that detect protein-RNA interactions, RNA modifications (alias the epitranscriptome), CAGE-tag locations, or any other collection of target regions at the level of the transcriptome.</p>
+<p>RCAS is designed as a reporting tool for the functional analysis of RNA-binding sites detected by high-throughput experiments. It takes as input a BED format file containing the genomic coordinates of the RNA binding sites and a GTF file that contains the genomic annotation features usually provided by publicly available databases such as Ensembl and UCSC. RCAS performs overlap operations between the genomic coordinates of the RNA binding sites and the genomic annotation features and produces in-depth annotation summaries such as the distribution of binding sites with respect to gene features (exons, introns, 5’/3’ UTR regions, exon-intron boundaries, promoter regions, and whole transcripts). Moreover, by detecting the collection of targeted transcripts, RCAS can carry out functional annotation tables for enriched gene sets (annotated by the Molecular Signatures Database) and GO terms. As one of the most important questions that arise during protein-RNA interaction analysis; RCAS has a module for detecting sequence motifs enriched in the targeted regions of the transcriptome. The final report of RCAS consists of high-quality dynamic figures and tables, which are readily applicable for publications or other academic usage.</p>
+</div>
+<div id="input-settings" class="section level1">
+<h1><span class="header-section-number">2</span> Input Settings</h1>
+<p><div id="htmlwidget-3fb5dcf2cea84bf571d8" style="width:100%;height:auto;" class="datatables html-widget"></div>
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+</div>
+<div id="annotation-summary-for-query-regions" class="section level1">
+<h1><span class="header-section-number">3</span> Annotation Summary for Query Regions</h1>
+<div id="distribution-of-query-regions-across-gene-features" class="section level2">
+<h2><span class="header-section-number">3.1</span> Distribution of query regions across gene features</h2>
+<p><strong>Figure 1 :</strong> The number of query regions that overlap different kinds of gene features are counted. The ‘y’ axis denotes the types of gene features included in the analysis and the ‘x’ axis denotes the percentage of query regions (out of total number of query regions denoted with ‘n’) that overlap at least one genomic interval that host the corresponding feature. Notice that the sum of the percentage values for different features don’t add up to 100%, because some query regions may overlap multiple kinds of features</p>
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+</div>
+<div id="interactive-table-of-genes-that-overlap-query-regions" class="section level2">
+<h2><span class="header-section-number">3.2</span> Interactive table of genes that overlap query regions</h2>
+<p><strong>Table 1 :</strong> Interactive table of top 100 genes that overlap query regions, grouped by gene features such as introns, exons, UTRs, etc.</p>
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+</div>
+<div id="distribution-of-query-regions-in-the-genome-grouped-by-gene-types" class="section level2">
+<h2><span class="header-section-number">3.3</span> Distribution of query regions in the genome grouped by gene types</h2>
+<p><strong>Figure 2 :</strong> The number of query regions that overlap different kinds of gene types are counted. The ‘x’ axis denotes the types of genes included in the analysis and the ‘y’ axis denotes the percentage of query regions (out of total number of query regions denoted with ‘n’) that overlap at least one genomic interval that host the corresponding gene type. If the query regions don’t overlap any known genes, they are classified as ‘Unknown’.</p>
+<p><div id="htmlwidget-b81d284a5b809992de82" style="width:768px;height:432px;" class="plotly html-widget"></div>
+<script type="application/json" data-for="htmlwidget-b81d284a5b809992de82">{"x":{"layout":{"margin":{"b":150,"l":100,"t":25,"r":100},"xaxis":{"domain":[0,1],"showticklabels":true,"tickangle":90,"type":"category","categoryorder":"array","categoryarray":["protein_coding"]},"yaxis":{"domain":[0,1],"title":"percentage of query regions, n = 9995"},"font":{"size":14}},"config":{"modeBarButtonsToRemove":["sendDataToCloud"]},"base_url":"https://plot.ly","source":"A","data":[{"x":["protein_coding"],"y":[0.2],"text":"count: 18","type":"bar","name":"protein_coding","marker":{"fillcolor":"rgba(252,141,98,0.5)","color":"rgba(252,141,98,1)","line":{"color":"transparent"}},"xaxis":"x","yaxis":"y"}]},"evals":[],"jsHooks":[]}</script></p>
+</div>
+<div id="coverage-profile-of-query-regions-ataround-transcription-startend-sites" class="section level2">
+<h2><span class="header-section-number">3.4</span> Coverage profile of query regions at/around Transcription Start/End Sites</h2>
+<p><strong>Figure 3 :</strong> The depth of coverage of query regions at and around Transcription Start/End Sites</p>
+<p><div id="htmlwidget-030561e52758cd3582c3" style="width:768px;height:432px;" class="plotly html-widget"></div>
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+</div>
+<div id="coverage-profile-of-query-regions-at-exon---intron-boundaries" class="section level2">
+<h2><span class="header-section-number">3.5</span> Coverage profile of query regions at Exon - Intron Boundaries</h2>
+<p><strong>Figure 4 :</strong> The depth of coverage of query regions at exon - intron junctions</p>
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+</div>
+<div id="coverage-profile-of-query-regions-across-the-length-of-different-gene-features" class="section level2">
+<h2><span class="header-section-number">3.6</span> Coverage profile of query regions across the length of different gene features</h2>
+<p><strong>Figure 5 :</strong> The query regions are overlaid with the genomic coordinates of features. Each entry corresponding to a feature is divided into 100 bins of equal length and for each bin the number of query regions that cover the corresponding bin is counted. Features shorter than 100bp are excluded. Thus, a coverage profile is obtained based on the distribution of the query regions. Mean coverage score for each bin is represented with ribbons where the thickness of the ribbon indicates the 95% confidence interval (mean +- standard error of the mean x 1.96). The strandedness of the features are taken into account. The coverage profile is plotted in the 5’ to 3’ direction.</p>
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+</div>
+</div>
+<div id="motifrg-analysis-results" class="section level1">
+<h1><span class="header-section-number">4</span> motifRG analysis results</h1>
+<div id="top-motifs-discovered-using-motifrg" class="section level2">
+<h2><span class="header-section-number">4.1</span> Top motifs discovered using motifRG</h2>
+<p><strong>Figure 6 :</strong> Top motifs discovered in the sequences of the query regions</p>
+<p><strong>Motif 1 :</strong> Consensus: ATTTTT <img src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAABgAAAANgCAIAAABlQDTBAAAACXBIWXMAAB2HAAAdhwGP5fFlAAAgAElEQVR4nOzda3RV9Z038H24iZAiF0EqFSIBUQQECZAqZRB1IZdqwVsVWaKrSgsy2o616IMVKxYd2qKz6gCjWFGcqkutVUHxBkRQKEYKGLnITa7FcI1ggQDnebFnzpBjCIGc5ITN57N88TtnX/JNq0v5rv9/71g8Hg8AAAAAiK5q6Q4AAAAAQMVSAAEAAABEnAIIAAAAIOIUQAAAAAARpwACAAAAiDgFEAAAAEDEKYAAAAAAIk4BBAAAABBxCiAAAACAiFMAAQAAAEScAggAAAAg4hRAAAAAABGnAAIAAACIOAUQAAAAQMQpgAAAAAAiTgEEAAAAEHEKIAAAAICIUwABAAAARJwCCAAAACDiFEAAAAAAEacAAgAAAIg4BRAAAABAxCmAAAAAACJOAQQAAAAQcQogAAAAgIhTAAEAAABEnAIIAAAAIOIUQAAAAAARpwACAAAAiDgFEAAAAEDEKYAAAAAAIk4BBAAAABBxCiAAAACAiFMAAQAAAEScAggAAAAg4hRAAAAAABGnAAIAAACIOAUQAAAAQMQpgAAAAAAiTgEEAAAAEHEKIAAAAICIUwABAAAARJwCCAAAACDiFEAAAAAAEacAAgAAAIg4BRAAAABAxCmAAAAAACJOAQQAAAAQcQogAAAAgIhTAAEAAABEnAIIAAAAIOIUQAAAAAARpwACAAAAiDgFEAAAAEDEKYAAAAAAIk4BBAAAABBxCiAAAACAiFMAAQAAAEScAggAAAAg4hRAAAAAABGnAAIAAACIOAUQAAAAQMQpgAAAAAAiTgEEAAAAEHEKIAAAAICIUwABAAAARJwCCAAAACDiFEAAAAAAEacAAgAAAIg4BRAAAABAxCmAAAAAACJOAQQAAAAQcQogAAAAgIhTAAEAAABEnAIIAAAAIOIUQAAAAAARpwACAAAAiDgFEAAAAEDEKYAAAAAAIk4BBAAAABBxCiAAAACAiFMAAQAAAEScAggAAAAg4hRAAAAAABGnAAIAAACIOAUQAAAAQMQpgAAAAAAirka6A1DlfPPNN88///x7772Xl5e3devWb7755vTTT2/ZsuVll102aNCg1q1bpzsgAAAAcGxi8Xg83RmoQv77v//7zjvv3Lp1a4lHq1WrNmTIkMcee+w73/lOJQcDAAAAjpsCiP/zyCOP3HvvvUc9rU2bNjNnzvzud79bCZEAAACA8lMA8T/efffd3r17J/5+uPjii6+++up27do1aNBgyZIlM2fOfO655xInZ2dnz507t1atWmkKCwAAABwDBRBBEATxePzCCy/8+9//Hn4cPXr0r3/961gsdvg5c+bMGTRo0Lp168KPjz322J133lnZQQEAAIBjpwAiCILgww8/7NGjRzhnZ2f/7W9/S2p/QnPnzv3BD34Q/j1z1llnffnllyWeBgAAAFQpXgNPEATBO++8k5jHjh17pFrn4osvHjJkSDivX79+0aJFlZANAAAAKCcFEEEQBHPmzAmHevXqXXrppaWcmVgoFATB8uXLKzYWAAAAkAoKIIIgCBJP9mnbtm3pu7rOP//8xLxjx46KjQUAAACkggKIIAiCLVu2hMPh/U7pZwZB0KJFiwrMBAAAAKRIjXQHoErYsGFDOJxyyimlnzl79uzEfM4551RgJgAAACBFvAWMY1BQUNCyZcvdu3cHQXDuuefm5+dXq2YRGQAAAFR1VgBRVv/85z8HDBgQtj9BENx3330pbH+2b9/+l7/85eDBg+W8z549e7788st///d/r1WrVkqCAQAAQAQogCiTdevWDRo0aO7cueHH7OzsG264IYX3f+ihhx577LFU3a1OnTq//e1vU3U3AAAAONEpgDiKgwcPTp48+Ve/+tXOnTvDb1q1ajVt2rQaNVL5N8+tt966d+/eQ4cOlfM+s2bNWrFiRfPmzVOSCgAAAKJBAURpZs2adeeddy5evDjxTdu2bd94440mTZqk9ge1b99+woQJ5b/PkCFDVqxYceqpp5b/VgAAABAZnuBLybZs2XLttddecsklifYnFovdfffdeXl5LVu2TG82AAAA4JhYAUQJXnnllaFDh27bti3xTbdu3caPH//9738/jakAAACA42MFEMXs2LFj8ODB11xzTaL9admy5Ysvvvjxxx9rfwAAAOAEZQUQ/2fTpk2XXnrpsmXLwo+nnnrqQw89NGLECK9UBwAAgBOaAoj/UVhY2KtXr+XLl4cfu3fv/qc//alVq1bpTQUAAACUny1g/I+f/vSnifbnlltumTlzpvYHAAAAosEKIIIgCObPn//nP/85nAcNGjR58uRYLJbeSAAAAECqWAFEEATBH/7wh3A4/fTT/+M//kP7AwAAAFGiACLYu3fvtGnTwvm6665r2LBhevMAAAAAqWULGMHy5cv37NkTzqtWrbr77rvLeOHw4cPPPvvsCssFAAAApIYCiGD16tWJecaMGTNmzCjjhT/60Y8UQAAAAFD12QJGsGbNmnRHAAAAACqQAohiK4AAAACA6FEAEfzxj3+MH5fu3bunOzsAAABwdAogAAAAgIhTAAEAAABEnAIIAAAAIOIUQAAAAAARpwACAAAAiDgFEAAAAEDEKYAAAAAAIk4BBAAAABBxCiAAAACAiFMAAQAAAEScAggAAAAg4hRAAAAAABGnAAIAAACIOAUQAAAAQMQpgAAAAAAiTgEEAAAAEHEKIAAAAICIUwABAAAARJwCCAAAACDiFEAAAAAAEacAAgAAAIg4BRAAAABAxCmAAAAAACJOAQQAAAAQcQogAAAAgIhTAAEAAABEnAIIAAAAIOIUQAAAAAARpwACAAAAiDgFEAAAAEDEKYAAAAAAIk4BBAAAABBxCiAAAACAiFMAAQAAAEScAggAAAAg4hRAAAAAABGnAAIAAACIOAUQAAAAQMQpgAAAAAAiTgEEAAAAEHEKIAAAAICIUwABAAAARJwCCAAAACDiFEAAAAAAEacAAgAAAIg4BRAAAABAxCmAAAAAACJOAQQAAAAQcQogAAAAgIhTAAEAAABEnAIIAAAAIOIUQAAAAAARpwACAAAAiDgFEAAAAEDEKYAAAAAAIk4BBAAAABBxCiAAAACAiFMAAQAAAEScAggAAAAg4hRAAAAAABGnAAIAAACIOAUQAAAAQMTVSHeAKmfZsmVBENSuXTszM7OMlxQVFa1atSoIgjp16jRv3rzisgEAAAAcBwVQsvPOOy8Igm7dus2bN6+Ml+zZsye8qmvXrvPnz6/AcAAAAADHzhawFKhXr14sFguCYOPGjenOAgAAAJBMAZQC+fn58Xg8CIKCgoJ0ZwEAAABIdlJvAZs6derUqVNLPLR06dIrrriiLDfZu3dvXl5eODdt2jRl4QAAAABS5KQugFauXDljxowSDxUWFh7pUClycnLKHQoAAAAgxWwBS5kGDRrcf//96U4BAAAAkOykXgGUnZ09dOjQpC8nTZoUBEHjxo0HDhxYxvvEYrGsrKzrrrvOO+ABAACAKuikLoD69+/fv3//pC/DAqhly5YTJ05MRygAAACAFLMFDAAAACDiTuoVQCUaP3584H1eAAAAQIQogJLddddd6Y4AAAAAkEq2gAEAAABEnBVAJTt06NCqVavy8vJWrVoVj8fLfuGoUaMqLhUAAADAcVAAlWDTpk2DBg2aNWvWcVyrAAIAAACqGgVQss2bN3fs2LGgoCDdQQAAAABSQwGUbPTo0UntT4sWLWrXrp2uPAAAAADlpAAq5h//+MdTTz0VzhkZGePGjbvpppsyMjLSmwoAAACgPBRAxeTn5x86dCicX3jhhX79+qU3DwAAAED5eQ18MV988UU45OTkaH8AAACAaFAAFVNYWBgOnTp1Sm8SAAAAgFRRABXTrFmzcKhfv356kwAAAACkigKomA4dOoRDYi8YAAAAwIlOAVRM+/btu3XrFgTBW2+9tW3btnTHAQAAAEgBBVCy3/3udzVq1NizZ8/w4cMTbwQDAAAAOHEpgJJ179590qRJsVjsxRdfHDBgwIoVK9KdCAAAAKBcaqQ7QFV06623tmjRYtCgQa+//vq0adNuvPHGnJyc1q1bZ2Zm1qxZs/RrMzMzKyUjAAAAQFkpgJIlGpz9+/cHQXDw4MHnnnvuueeeK+Pl8Xi8goIBAAAAHB8FULIvv/wy3REAAAAAUskzgAAAAAAizgqgZAsWLEh3BAAAAIBUUgAly87OTncEAAAAgFRSAJ3Y7rzzzilTpjRv3nzx4sXlv9vUqVM/+eSTMp786KOPnnLKKeX/oQAAAEBFUwCdwIqKip5//vldu3YVFham5IaTJ0+eNWtWGU8eM2aMAggAAABOCAqgo1u/fv2CBQt27txZWFj49ddf33///eH3Bw8erF69ehqDvf3229u2bUvhDVetWpXCuwEAAABVhALoiL755ptHHnnk+eefX7169eHfJwqgH//4xwUFBbfddtt1111Xs2bNSo63devW4cOHp/CGe/fu3bBhQwpvCAAAAFQRXgNfspkzZ55//vkPPfRQUvtzuKKiotmzZ990002dO3f+7LPPKi1bPB6fNWtW//79169fn8Lbrl69Oh6Ph/Pnn38eP5qMjIwU/nQAAACg4lgBVIK8vLz+/ft/8803ZTx/yZIl3bt3f++99yr0DWKzZ89etGhRfn7+Rx99VBF9U2L/V7Vq1Vq2bJny+wMAAADpogBKVlBQ8MMf/jDR/nTo0GHEiBFdu3a94oorNm/efPiZt9xyy/Lly5ctWxYEwa5duwYOHPjZZ5/Vq1evgoJdffXVqX3iT5KVK1eGQ4sWLTzdGQAAAKLEFrBkEydOTBQ9I0aM+Nvf/vaTn/ykQ4cO1aol/2911VVX5efnjx49Ovy4fv36Rx55pDKjplaiADrnnHPSmwQAAABILSuAitm/f/+ECRPCuWfPno8//ngsFivl/GrVqj3wwAM7dux4/PHHgyCYNGnSgw8+WEEPhB4/fvy+ffsO/+app56aP39+qu6f2ALWunXrVN0TAAAAqAoUQMUsWrQosfxn4sSJpbc/CSNHjpwwYcL+/fu3b9++cOHCrl27VkS2wYMHJ30za9asFBZAJa4A2rVr16ZNm04//fRGjRp9ew0UAAAAcELwR/pi1qxZEw7NmjVr06ZNGa9q2rRpu3btwnnRokUVkqyCFRUVrV27Npxbt269aNGiAQMGNG3atH79+m3btm3SpEmDBg2uueaa6dOnJ94UBgAAAJwoFEDFJEqQDh06HNOFzZs3D4cKfU5zxVm3bt3BgwfDedy4cZ06dXrttde2bNmSOKGwsPCVV17p169fr169kh6GDQAAAFRxtoAVU6tWrXAo+zvgQ4lO5AR9f1Zi/1cQBB988EEpZ86aNatLly5z5szJzMxMYYCvv/76nXfeOXToUDnvE1Z4likBAADA4RRAxTRt2jQcPvvss3g8XsZnAB08eHDJkiXhfMYZZ1RUuIp0eAEUBEGbNm3uvvvuyy+/vEmTJhs3bly8ePG77747efLkoqKiIAg2btx4zTXXzJ07N4Vt1+jRo//whz+k6m6LFy9O1a0AAAAgAhRAxeTk5ITDtm3bZs+e3bNnz7JcNXPmzMSKoQsvvLCCslWoxCvAgiC44YYbnnrqqTp16oQfW7Vq1apVq4EDB/7kJz/p169fuC8sLy/vmWeeGTp0aKoC3HDDDRs3biz/CqAFCxasXbs2KysrJakAAAAgGhRAxWRmZnbq1GnhwoVBEAwfPnzhwoWJTWFHsnPnzhEjRoRzVlZW2R8dXaWcccYZV111VRAELVq0+P3vf1+jRgl/Y3Tu3PmFF1645JJLwo/jxo27/fbby7hI6qiys7NfeOGF8t9nyJAha9euzcjIKP+tAAAAIDI8BDrZAw88EA6ff/75FVdcsWnTplJOzs/P79mz57Jly8KP99xzT6oKkUr2q1/96rXXXnvttdcef/zxEtufUM+ePfv27RvOq1atSto4BgAAAFRNCqBkV1555cCBA8N55syZHTp0uOOOO/7yl7+Ej78JgmDdunWffPLJk08+edVVV7Vv3z7x3vcuXbrceuut6QldiXr37p2Y582bl8YkAAAAQBnZApYsFotNnTq1f//+4cuwtm3b9sQTTzzxxBOJE1q0aPHtq1q3bv3mm2+WsnYmMg7f4/bVV1+lMQkAAABQRlYAleDUU099++23H3jggTIWOoMGDfrb3/7WpEmTig5WFbRu3Tox79mzJ41JAAAAgDJSAJWsZs2ao0ePXrNmzX333Xd45XG4Jk2aDBky5NNPP506dWr9+vUrOWG67Nq1KzGffvrpaUwCAAAAlFH0tyyVx/e+972HH3744YcfLigoWLJkyfbt23fu3FmnTp2GDRu2atUqKyvrBH3kc5K333571qxZQRBUq1Zt9OjRpb/4bPny5Ym5WbNmFZ0NAAAAKD8FUJk0bty4V69e6U5RUfbs2fPoo4+Gc3Z2duIZ2CVKPPQ6Fov94Ac/qPBwAAAAQLnZApZs2bJly5YtW7t2bdkvKSoqCq9at25dheWqQL169Uqs+nniiSfi8fiRzvz6668nT54czhdffHHDhg0rIx8AAABQPgqgZOedd95555334x//uOyX7NmzJ7zq2muvrbhg5bRmzZpZ/2vp0qWHH2rQoMH1118fzh988MHYsWNLvENRUdEtt9xSUFAQfhw5cmSFBgYAAABSRQGUAvXq1QsfBrRx48Z0ZzmiyZMnX/K/Hn744aSj9913X2IR0KhRo4YOHbp58+bE0QMHDsydO7dXr16vvPJK+M0VV1zRt2/fykkOAAAAlJMCKAXy8/PDbVOJ1TEnnHPPPfeRRx4J53g8/l//9V9nnXVW69atL7/88gsuuKBu3brdu3efM2dOeEJWVtbUqVOj8QBsAAAAOBmc1A+Bnjp16tSpU0s8tHTp0iuuuKIsN9m7d29eXl44N23aNGXhKt3Pf/7zvXv3jho16tChQ0EQHDx4cOXKlStXrkw6rXv37q+++mqjRo3SkREAAAA4Hid1AbRy5coZM2aUeKiwsPBIh0qRk5NT7lDpdO+99/bq1evBBx98++23v/0o6PPPP3/kyJE33HBD9erV0xIPAAAAOD4ndQGUWg0aNLj//vsr8yeWsoLp28aMGTNmzJijntatW7fp06fv2LFj5cqVa9asWbt2bc2aNZs2bdqtW7eWLVuWLy8AAACQHid1AZSdnT106NCkLydNmhQEQePGjQcOHFjG+8RisaysrOuuu6558+YpjpgmDRo06NKlS5cuXdIdBAAAAEiBk7oA6t+/f//+/ZO+DAugli1bTpw4MR2hAAAAAFLMW8AAAAAAIu6kXgFUovHjxwcn+Pu8AAAAAA6nAEp21113pTsCAAAAQCrZAgYAAAAQcVYAlezQoUOrVq3Ky8tbtWpVPB4v+4WjRo2quFQAAAAAx0EBVIJNmzYNGjRo1qxZx3GtAggAAACoahRAyTZv3tyxY8eCgoJ0BwEAAABIDQVQstGjRye1Py1atKhdu3a68gAAAACUkwKomH/84x9PPfVUOGdkZIwbN+6mm27KyMhIbyoAAACA8lAAFZOfn3/o0KFwfuGFF/r165fePAAAAADl5zXwxXzxxRfhkJOTo/0BAAAAokEBVExhYWE4dOrUKb1JAAAAAFJFAVRMs2bNwqF+/frpTQIAAACQKgqgYjp06BAOib1gAAAAACc6BVAx7du379atWxAEb7311rZt29IdBwAAACAFFEDJfve739WoUWPPnj3Dhw9PvBEMAAAA4MSlAErWvXv3SZMmxWKxF198ccCAAStWrEh3IgAAAIByqZHuAFXRrbfe2qJFi0GDBr3++uvTpk278cYbc3JyWrdunZmZWbNmzdKvzczMrJSMAAAAAGWlAEqWaHD2798fBMHBgwefe+655557royXx+PxCgoGAAAAcHwUQMm+/PLLdEcAAAAASCXPAAIAAACIOCuAki1YsCDdEQAAAABSSQGULDs7O90RAAAAAFLJFjAAAACAiFMAAQAAAEScLWBHF4/HN2zYsHz58h07duzatSsjI6Nhw4YtW7bMysqKxWLpTgcAAABwFAqg0uTl5U2YMGH69OmbN2/+9tEmTZr06dNnxIgRnTt3rvxsAAAAAGVkC1jJtm7deu2112ZnZ0+ePLnE9icIgq+++mrKlCnZ2dnXX3/99u3bKzkhAAAAQBkpgEqwfv36zp07v/zyy2U8/6WXXsrOzj5STwQAAACQXraAJdu3b1+fPn3WrVuX+KZHjx79+vXLzMxs3rx5s2bNCgoKVq9evXr16mnTpuXm5obnrFmzpl+/fvPnz69Zs2aaggMAAACUTAGU7IknnsjPzw/ndu3aPf300126dDn8hLPOOuvCCy8MguCee+6ZN2/eLbfcsmzZsiAIFi5c+OSTTw4bNqzyM3NC8gTxVInH050AAACgqrMFrJh4PD5+/PhwPv/883Nzc5PanyQ5OTm5ubmtW7cOP44bNy7uz6IAAABAFaMAKmbx4sUbNmwI50mTJjVo0OColzRu3HjixInhvHbt2qVLl1ZgPgAAAIBjpwAqZtGiReGQlZV10UUXlfGqSy65pEWLFuG8cOHCCkkGAAAAcLwUQMUUFBSEQ9u2bWNlfkRLLBZr165dOG/ZsqVCkgEAAAAcLwVQMUVFReFQvXr1Y7qwRo3/eZz2gQMHUpwJAAAAoHwUQMU0adIkHFauXHlMF37xxRfhcMYZZ6Q4EwAAAED5KICKadOmTTh89tlniZfBH1V+fv7nn3+edAcAAACAKkIBVEy3bt0aNmwYzsOGDdu/f/9RL9m/f/+wYcPCuVGjRqW/Nh4AAACg8imAiqlRo8Ztt90Wzrm5uf3799+0aVMp52/evPnKK6/Mzc0NP952223H+vAgAAAAgIqmAEp27733Nm3aNJzffffdNm3aDBs27I033sjPz9+9e3cQBLt3787Pz3/zzTeHDx/epk2bGTNmhCc3bdp05MiRacsNAAAAcAQ10h2gyjnttNOmT5/es2fPwsLCIAh27949YcKECRMmhEfr1q27Z8+eb19Vr1696dOnn3baaZWaFQAAAKAMrAAqQadOnT7++ONOnTp9+1CJ7U/Hjh3nzp1b4vkAAAAAaacAKlnbtm3nzZv37LPP5uTklHJa165dn3nmmfnz57dr167SsgEAAAAcE1vAjqhWrVqDBw8ePHjw9u3b582bt2LFip07d+7evTsjI6N+/frnnHNOt27dGjVqlO6YAAAAAEehADq6hg0b9u3bt2/fvukOAgAAAHA8bAE7TgcOHIjH4+lOAQAAAHB0CqAjKioqmjFjxh133NGrV6+NGzcmHX3vvffq1avXo0ePxx9/PHxfGAAAAEDVZAtYyd5555077rjjiy++CD8WFRV9+5zdu3d/+OGHH3744dixYydMmDBgwIDKzQgAAABQJlYAleDpp5/u06dPov05qi1btlx99dVPP/10haYCAAAAOD4KoGSffvrp0KFDDx06FH489dRT+/fvX69evaTTOnbseN99951//vnhx3g8PmzYsCVLllRqVgAAAIAyUAAlGzVq1IEDB8J56NChBQUFb7zxRsOGDZNOa9q06cMPP7xkyZI//vGPtWrVCoJg3759Dz74YGXHBQAAADgaBVAx27dvf+utt8J5+PDhEydOrFu3binnx2Kx4cOH//a3vw0/vvrqqzt27KjwlAAAAADHQgFUzIoVK8KhTp06Dz30UBmvGj58eIMGDYIgiMfjc+bMqahwAAAAAMdFAVRMogBq27Zt2OmURe3atc8777xw/vLLLyskGQAAAMDxUgAVs3HjxnBo0aLFMV343e9+Nxx27dqV4kwAAAAA5VMj3QGqlsTDnrdu3XpMF27ZsiUcTj/99BRnIqri8XQnCIJYrLx3qAq/BQAAAEdjBVAxZ599djjMmzev7Gt5du7cOX/+/HBu3rx5hSQDAAAAOF4KoGJ69OiRkZERBMG+fft+85vflPGqMWPGFBUVBUFQu3btHj16VGA+AAAAgGOnACqmdu3agwcPDuc//OEPY8aM2b9/fynnHzx48Pe///3vf//78OPVV19d+mvjAQAAACqfAijZb37zm8T7v+6///6WLVuOGzdu8+bN8eLPOtm5c+ef/vSnc8899+677w6/qV279sMPP1zZcQEAAACOxkOgk51++umvv/567969v/nmmyAINm7ceM8999xzzz2nnHLKWWeddeaZZ+7cuXPt2rWFhYWHX1WtWrXnn3/+WN8dBgAAAFAJrAAqQffu3d9///1WrVod/uW+fftWrlyZm5u7ePHipPanYcOGL7/88sCBAys3JgAAAECZKIBKlpOT8/e//33s2LGlL+r5zne+M2LEiCVLlgwYMKDSsgEAAAAcE1vAjqhu3bojR4785S9/mZeX99FHHy1evHjbtm27du069dRTGzRokJWVddFFF/3gBz8I3xoGAAAAUGUpgI6ievXqXbt27dq1a7qDAAAAABwnW8AAAAAAIk4BBAAAABBxCiAAAACAiFMAAQAAAEScAggAAAAg4hRAAAAAABGnAAIAAACIOAUQAAAAQMQpgAAAAAAiTgEEAAAAEHEKIAAAAICIUwABAAAARJwCCAAAACDiaqQ7QBV16NChVatW5eXlrVq1Kh6Pl/3CUaNGVVwqAAAAgOOgACrBpk2bBg0aNGvWrOO4VgEEAAAAVDUKoGSbN2/u2LFjQUFBuoMAAAAApIYCKNno0aOT2p8WLVrUrl07XXkAAAAAykkBVMw//vGPp556KpwzMjLGjRt30003ZWRkpDcVAAAAQHkogIrJz88/dOhQOL/wwgv9+vVLbx4AAACA8vMa+GK++OKLcMjJydH+AAAAANGgACqmsLAwHDp16pTeJAAAAACpogAqplmzZuFQv3799CYBAAAASBUFUDEdOnQIh8ReMAAAAIATnQKomPbt2588ju0AACAASURBVHfr1i0Igrfeemvbtm3pjgMAAACQAgqgZL/73e9q1KixZ8+e4cOHJ94IBgAAAHDiUgAl6969+6RJk2Kx2IsvvjhgwIAVK1akOxEAAABAudRId4Cq6NZbb23RosWgQYNef/31adOm3XjjjTk5Oa1bt87MzKxZs2bp12ZmZlZKxspz5513TpkypXnz5osXL053FgAAAOB4KICSJRqc/fv3B0Fw8ODB55577rnnnivj5fF4vIKCpUVRUdHzzz+/a9euwsLCdGcBAAAAjpMCKNmXX36Z7ghVyNtvv+1h2AAAAHCi8wwgjmjr1q3Dhw9PdwoAAACgvKwASrZgwYJ0R0i/eDw+e/bskSNHrl+/Pt1ZAAAAgPJSACXLzs5Od4S0mT179qJFi/Lz8z/66KPPPvss3XEAAACA1FAA8X+uvvpqT/wBAACA6PEMIAAAAICIswLo6OLx+IYNG5YvX75jx45du3ZlZGQ0bNiwZcuWWVlZsVgs3elSafz48fv27Tv8m6eeemr+/PnpygMAAACkhAKoNHl5eRMmTJg+ffrmzZu/fbRJkyZ9+vQZMWJE586dKz9bRRg8eHDSN7NmzVIAAQAAwInOFrCSbd269dprr83Ozp48eXKJ7U8QBF999dWUKVOys7Ovv/767du3V3JCAAAAgDJSAJVg/fr1nTt3fvnll8t4/ksvvZSdnX2knggAAAAgvWwBS7Zv374+ffqsW7cu8U2PHj369euXmZnZvHnzZs2aFRQUrF69evXq1dOmTcvNzQ3PWbNmTb9+/ebPn1+zZs00BT+x/fOf//z4448PHTpUzvuo4QAAAODbFEDJnnjiifz8/HBu167d008/3aVLl8NPOOussy688MIgCO6555558+bdcssty5YtC4Jg4cKFTz755LBhwyo/cwQ88MAD48aNS9XdlixZkqpbAQAAQAQogIqJx+Pjx48P5/PPPz83N7dBgwalnJ+Tk5Obm3vxxRd/8cUXQRCMGzfuZz/7WcReDVY5rrzyyiVLlhw4cKCc98nPz9+8eXOLFi1SkgoAAACiQQFUzOLFizds2BDOkyZNKr39CTVu3HjixImXXnppEARr165dunRp27ZtKzZlFHXv3v2tt94q/32GDBkyZcqUevXqlf9WAAAAEBkeAl3MokWLwiErK+uiiy4q41WXXHJJYsnJwoULKyQZAAAAwPFSABVTUFAQDm3bti37Tq5YLNauXbtw3rJlS4UkAwAAADheCqBiioqKwqF69erHdGGNGv+zma78T7EBAAAASC0FUDFNmjQJh5UrVx7TheFDoIMgOOOMM1KcCQAAAKB8FEDFtGnTJhw+++yzxMvgjyo/P//zzz9PugMAAABAFaEAKqZbt24NGzYM52HDhu3fv/+ol+zfv3/YsGHh3KhRoy5dulRgPgAAAIBjpwAqpkaNGrfddls45+bm9u/ff9OmTaWcv3nz5iuvvDI3Nzf8eNtttx3rw4MAAAAAKpoCKNm9997btGnTcH733XfbtGkzbNiwN954Iz8/f/fu3UEQ7N69Oz8//8033xw+fHibNm1mzJgRnty0adORI0emLTcAAADAEdRId4Aq57TTTps+fXrPnj0LCwuDINi9e/eECRMmTJgQHq1bt+6ePXu+fVW9evWmT59+2mmnVWpWAAAAgDKwAqgEnTp1+vjjjzt16vTtQyW2Px07dpw7d26J5wMAAACknQKoZG3btp03b96zzz6bk5NTymldu3Z95pln5s+f365du0rLBgAAAHBMbAE7olq1ag0ePHjw4MHbt2+fN2/eihUrdu7cuXv37oyMjPr1659zzjndunVr1KhRumMCAAAAHIUC6OgaNmzYt2/fvn37pjsIAAAAwPGwBYzSTJ06NR6Px+PxtWvXpjsLAAAAcJwUQAAAAAARd/JuAbvrrrsS8x133NGqVatwLudSl8zMzPJcDgAAAJByJ28B9PjjjyfmH/3oR4kC6Oyzzy7PbePxeLliARANsVi6E0SIf7cCAJSbLWAAAAAAEacAAgAAAIi4k3cL2NChQxPzmWeemZgXLFiQjjgAAAAAFeXkLYAmTpxY4vfZ2dmVnAQAAACgQtkCBgAAABBxJ+8KoCNZtmxZEAS1a9cu+wvdi4qKVq1aFQRBnTp1mjdvXnHZAAAAAI6DAijZeeedFwRBt27d5s2bV8ZL9uzZE17VtWvX+fPnV2A4AAAAgGNnC1gK1KtXLxaLBUGwcePGdGcBAAAASKYASoH8/Px4PB4EQUFBQbqzAAAAACQ7qbeATZ06derUqSUeWrp06RVXXFGWm+zduzcvLy+cmzZtmrJwAAAAAClyUhdAK1eunDFjRomHCgsLj3SoFDk5OeUOBQAAAJBitoClTIMGDe6///50pwAAAABIdlKvAMrOzh46dGjSl5MmTQqCoHHjxgMHDizjfWKxWFZW1nXXXecd8AAAAEAVdFIXQP379+/fv3/Sl2EB1LJly4kTJ6YjFAAAAECK2QIGAAAAEHEn9QqgEo0fPz7wPi8AAAAgQhRAye66667juOqZZ57Zu3dvVlbW5ZdfnvJIAJx44vF0JwiCWKy8d6gKvwUAAKmgAEqBgwcP/uIXv9ixY8f3v/99BRAAAABQ1XgGUAq89dZbO3bsCILg888/T3cWAAAAgGRWAJVszpw5kyZNWrJkyc6dO0s/s6ioaNOmTeH8ne98p+KjAQAAABwbBVAJxo4de9999x3HhTfeeGPKwwAAAACUky1gyT766KPja3+uvvrqBx54IOV5AAAAAMrJCqBkjz32WGLu1q1b7969MzIyZs+ePW3atCAIunTpEi7z2b9//9KlS1966aVvvvkmCIKRI0eOHTs2XZnhpFb+9xyR4JVPAAAQUbG4/9w/zFdffXXmmWcePHgwCIJBgwZNmTKlevXqQRDE4/HLLrvsgw8+aNmy5cqVK2P/+wfOpUuXXnbZZZs2bapevfpf/vKXH/7wh+lMTxAMGTJkypQpzzzzzM0335zuLCeCaLwiWgGUQlXh/1BSKBr/jAMAkAq2gBWzYsWKsP2pVq3a2LFjw/YnCIJYLDZ48OAgCFavXr127drE+eedd97s2bNr1ap18ODBW265Zdu2belIDQAAAFAaBVAxGzZsCIcLLrjgrLPOOvxQx44dw2H58uWHf9+qVatwscm2bdsefPDBSokJAAAAcAwUQMVs3LgxHM4888ykQ+ecc044rFixIunQ0KFDw2Hq1Kn79++vyIAAAAAAx0wBVEzi4T41a9ZMOlSnTp3vfe97wbdWAAVBcO6554bDjh075s6dW8EZAQAAAI6NAqiYsOIJgmDz5s3fPtq6desgCBYvXpz0fd26dZs2bRrOq1atqsiAAAAAAMdMAVRMogDKz88vLCxMOhoWQAsXLgwfFH248GXwQRBs3bq1gjMCAAAAHBsFUDGtWrUKd4Ht3r37scceSzoabvXas2fPrFmzDv9+y5YtibaoRYsWlREUAAAAoMwUQMU0adKkR48e4fzAAw/84he/WLp0aTweD7+57LLLwuGRRx45fBHQpEmTEnOrVq0qKywAAABAmSiAko0ePToxjx8/vm3btrm5ueHHdu3anX322UEQvPfee1dfffXbb7/94Ycf3nfffYlLGjRocN5551V2YgAAAIBSKYCS9ezZc8yYMYd/k1gBFIvFEl3PX//61z59+vTo0WPs2LGJE0aNGpWRkVGJYQEAAACOTgFUgvvuu+/VV18tcS3PTTfddP3115d4VadOnYYNG1bB0QAAAACOmQKoBLFYbMCAAfn5+UuXLn311VfPOeecxKFq1ao9//zzDz30UMOGDRNf1q5d+2c/+9nMmTNr166djrwAAAAApamR7gBVVywWO/fcc8M3fx2uevXqo0aN+rd/+7cVK1Zs3LjxtNNO69ixY926ddMSEgAAAOCoFEDH6dRTT73gggsuuOCCdAeBk97/PoQrzWKx8t6hivwiAABAFNkCBgAAABBxCiAAAACAiLMFrGSHDh3asGHDsmXL1q5de+jQobJf+NOf/rTiUgEAAAAcBwVQCT799NPbb789Ly/vOK5VAAEAAABVjQIo2ccff9y9e/djWvUDAAAAUJUpgIo5ePDg8OHDk9qfunXr1q5dO12RAAAAqFTlf8ErCd51W2UogIpZtGjRwoULw7lRo0YPPfTQgAEDzjjjjJh//gEAAIATlgKomBUrVoRD9erVp0+f3rVr1/TmAQAAACg/r4EvZu3ateHQu3dv7Q8AAAAQDQqgYjIyMsKhbdu26U0CAAAAkCoKoGKaN28eDps2bUpvEgAAAIBUUQAVc+mll9apUycIgjlz5hw4cCDdcQAAAABSQAFUTN26de+6664gCNatW/eb3/wm3XEAAAAAUkABlOzXv/51+PjnMWPG/Pa3v92/f3+6EwEAAACUi9fAJzvllFPeeeed/v37z5kz5//9v//37LPPXnnlle3bt2/cuHFZLr/iiisqOiEAAADAMVEAlWDbtm3xeDycly9fPm7cuLJfm7gQAAAAoIpQACVbuXJl165dd+zYke4gAAAAAKmhAEp20003aX8AAABOXlVhY0csloKbVIVfhCpDAVTMokWL5s+fH86nnHLKz3/+86uuuiorK+vUU09NbzAAAACA46YAKiYvLy8x//Wvf+3du3cawwAAAACkhNfAF7Nly5Zw6NWrl/YHAAAAiAYFUDH16tULhw4dOqQ3CQAAAECqKICKyczMDIevv/46rUEAAAAAUkYBVMyll17asGHDIAjmzp0b97x0AAAAIBIUQMXUrl37nnvuCYJg2bJlTz75ZLrjAAAAAKSAAijZL3/5y/79+wdB8K//+q8vvviidUAAAMAJIBbzV8r+gijyGvhk1apVe+WVV4YNGzZ58uQf//jHTz755MCBA9u3b9+4ceOyXH7uuedWdEIAAACAY6IAShY+Bzqx8Of9999///33y365FUMAAABAVaMASvbll1+mOwIAAABAKnkGEAAAAEDEWQGUbOnSpemOAAAAAJBKCqBknuIMAAAARIwtYAAAAAARpwAq5umnnz73f23atCndcQAAAABSwBawYrZs2bJ8+fJw3rZt25lnnpnePAAAVEWxWLoTREg8nu4EACcFBVAxrVq1SszLly9v3759GsMAVDZ/nkkhf54BoJJVkX/1lP8/J6rILwKRYwtYMb17927SpEk4z5gxI71hAAAAAFJCAVRMvXr1nnjiiVgsFgTB1KlT16xZk+5EAAAAAOWlAEp2zTXXPPvsszVq1Ni7d2+fPn0SjwQCAAAAOEF5BlAJbrrpprZt2950001Lly694IILBg4c+C//8i/NmjVr1qxZ/fr1Y6Vuas3MzKysmAAAAABlogBKdu6554bD3r17gyDYt2/fn//85z//+c9lvDzuiWUAAABAFaMASmbPFwAAABAxngEEAAAAEHFWACVbsGBBuiMAAFC1VYVd/6U+mLJMqsJvAUBlUQAly87OTncEgDSpCn8SKP+fZ4Kq8YsAAEBVYgsYAAAAQMQpgAAAAAAizhawo4vH4xs2bFi+fPmOHTt27dqVkZHRsGHDli1bZmVlxVKyVQEAAACgIimASpOXlzdhwoTp06dv3rz520ebNGnSp0+fESNGdO7cufKzAQAAAJSRLWAl27p167XXXpudnT158uQS258gCL766qspU6ZkZ2dff/3127dvr+SEAAAAAGWkACrB+vXrO3fu/PLLL5fx/Jdeeik7O/tIPREAAABAetkClmzfvn19+vRZt25d4psePXr069cvMzOzefPmzZo1KygoWL169erVq6dNm5abmxues2bNmn79+s2fP79mzZppCg4AAABQMgVQsieeeCI/Pz+c27Vr9/TTT3fp0uXwE84666wLL7wwCIJ77rln3rx5t9xyy7Jly4IgWLhw4ZNPPjls2LDKzwwAAABQCgVQMfF4fPz48eF8/vnn5+bmNmjQoJTzc3JycnNzL7744i+++CIIgnHjxv3sZz+r0FeDHTp0aNasWc8880xeXt769euDIPje977XuXPnm2++uVevXtWqlWtP39SpUz/55JMynvzoo4+ecsop5flxAAAAQOVQABWzePHiDRs2hPOkSZNKb39CjRs3njhx4qWXXhoEwdq1a5cuXdq2bdsKivfVV1/dfPPNb7/99uFfLl26dOnSpVOnTu3du/eUKVPOOOOM477/5MmTZ82aVcaTx4wZowACAACAE4KHQBezaNGicMjKyrrooovKeNUll1zSokWLcF64cGGFJAuCbdu25eTkJLU/h5sxY0ZOTs7WrVuP+0esWrXquK8FAAAAqiwFUDEFBQXh0LZt27Lv5IrFYu3atQvnLVu2VESwQ4cOXX/99WvWrAk/NmvW7NFHH33//ffff//9Rx55pFmzZuH3a9euve666w4dOnQcP2Lv3r2J1U8AAABAlNgCVkxRUVE4VK9e/ZgurFHjf/6XPHDgQIozBUEQBK+//vr7778fzl27dn3rrbcaNmwYfuzVq9dPfvKTPn36LFiwIAiCmTNnvv766z/60Y+O9UesXr06Ho+H8+eff37eeeelKDsAAACQZlYAFdOkSZNwWLly5TFdGD4EOgiC8jyC50ji8fhDDz0UznXr1n3ppZcS7U+oUaNGL730Up06dcKPDz/8cKLKKbvE/q9q1aq1bNmyfJEBAACAKkQBVEybNm3C4bPPPku8DP6o8vPzP//886Q7pNCyZcs+/fTTcL799tsTzxs6XGZm5u233x7On3zySaKQKrtE59WiRQtPdwYAAIAoUQAV061bt8TimmHDhu3fv/+ol+zfv3/YsGHh3KhRoy5duqQ81fTp0xPzkCFDjnTazTffnJjfeuutY/0piQLonHPOOdZrAQAAgKpMAVRMjRo1brvttnDOzc3t37//pk2bSjl/8+bNV155ZW5ubvjxtttuO9aHB5VF4uk/p59+evv27Y902gUXXJBorxKXlF1iC1jr1q2PPSMAAABQdSmAkt17771NmzYN53fffbdNmzbDhg1744038vPzd+/eHQTB7t278/Pz33zzzeHDh7dp02bGjBnhyU2bNh05cmRFRFq2bFk4dO3atZR3k8VisW7duiVdUnYlrgDatWvX0qVLCwoKju/NYgAAAEBV4C1gyU477bTp06f37NmzsLAwCILdu3dPmDBhwoQJ4dG6devu2bPn21fVq1dv+vTpp512Wsrz7Nu3b+3ateF85plnln7yd7/73XBYs2bNgQMHEu8mO6qioqLET2nduvWiRYtGjx798ccfJ95qX69evcsvv/zWW2/t06dPKSUUAAAAUAVZAVSCTp06ffzxx506dfr2oRLbn44dO86dO7fE88tv/fr1iVd6Jb3869saNWoUDgcOHNiwYUPZf8q6desOHjwYzuPGjevUqdNrr72WaH+CICgsLHzllVf69evXq1evzZs3H8MvAAAAAKSbFUAla9u27bx581588cX//M//nDdv3pFO69q167Bhw2644YZatWpVUJKvv/46MTdo0KD0kw9viA6/8KgOf+39Bx98UMqZs2bN6tKly5w5czIzM8t+/6MqKiqaN2/evn37ynkf5RQAAAB8mwLoiGrVqjV48ODBgwdv37593rx5K1as2Llz5+7duzMyMurXr3/OOed069YtseKm4nzzzTeJ+agrgA4/ocTFSkdyeAEUBEGbNm3uvvvuyy+/vEmTJhs3bly8ePG77747efLkoqKiIAg2btx4zTXXzJ07N4Vvi3/ggQfGjh2bqrvl5+en6lYAAAAQAQqgo2vYsGHfvn379u2blp9+eAFUv3790k8+/IT/z959x0dR7f8fPxs6CZESINSEFroIISReihQFRBRBijQBC817QdEriqhYEZBLUa+XpiIgRb2UqxCBQES4SAggPUAwoQsEQicJye7vj/ne+Q2bzbLZnZ22r+cfPE6Ss7ufGaa+d+ZMoQIg+RFgQoj+/fvPnz+/dOnS0o9169atW7dur169nn/++ccee0y6L2zXrl1ff/31iBEjPP8I9zp16pScnCzf7Oa1gwcPnjt37p6DJQEAAAAAEFACNADatGmTNMbzE088ERR010BIq1atEkKUK1fuoYce0qe4uykHcs7JyXHf+fbt23Lbabrcq1y5co8ePYQQERER06dPdzl6dHR09LJlyzp06CD9OG3atOHDh6s1IHSnTp06derk+/sMHTp04cKF97xXDgAAAACAgBKgAdCQIUOkMZJzcnKcgpKePXsKIWJjY90M/aOl4OBguZ2Zmem+s7KD8oX3NH78eE+6tW/fvlu3bmvXrhVCHD9+PDU1tV69ep5/CgAAAAAA0EWAPgXs4sWLUsP4YwYrc5zLly+776wMgEJCQvxRT5cuXeS2QTIyAAAAAADgXoAGQBEREVLjrbfeysrK0rcY98LCwuR2oa4AuueI0d6pX7++3L5w4YI/PgIAAAAAAKgrQG8Ba9my5dGjR4UQ33zzzYoVK6pXr16kSBFlh99//71BgwZevHNKSoo6Jf5PpUqVQkNDpRGLPL8CqEyZMpUrV1a3Eonynq9CjTMNAAAAAAD0EqAB0Pvvv79q1SrpAVtZWVlOD0EXQmRnZx85ckSP0pzZbLaoqKjk5GQhxLFjx9x3ljs0aNBAreGZnVy9elVuK69OAgAAAAAAhhWgAVDt2rV/+umnkSNHGiTlcS86OloKgHbv3p2dnV2iRAmX3bKzs/fs2SO1mzdv7vn7x8fHJyYmCiGCgoImTZpUvHhxN52Vc6xatWqefwoAAAAAANBLgAZAQoj27dvv27cvKSnpyJEjyqGg33rrLSFEtWrVRo4cqV91d+nWrducOXOEEDk5ORs2bOjevbvLbgkJCfJz4gvq49LNmzenTJkitVu2bNmrVy83nffu3Ss1bDZb27ZtPf8UAAAAAACgF5vD4dC7BmOR7pwyzmPghRA3btyoWLGiNFj1E088s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title alt width="768" /></p>
+<p><strong>Motif 2 :</strong> Consensus: TTTTTA <img src="data:image/png;base64,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title alt width="768" /></p>
+<p><strong>Motif 3 :</strong> Consensus: TTTTCT <img 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title alt width="768" /></p>
+<p><strong>Motif 4 :</strong> Consensus: TTTATT <img src="data:image/png;base64,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title alt width="768" /></p>
+</div>
+<div id="motifrg-motif-discovery-statistics" class="section level2">
+<h2><span class="header-section-number">4.2</span> motifRG motif discovery statistics</h2>
+<p><strong>Table 2 :</strong> motifRG motif discovery statistics. fg: foreground; bg: background; hits: number of motif hits; seq: number of sequences with motifs; frac: fraction of sequences that contain the motif compared to the all sequences; ratio: ratio of foreground motif fraction versus background motif fraction</p>
+<p><div id="htmlwidget-40217ac6bfc39f0c0b8c" style="width:100%;height:auto;" class="datatables html-widget"></div>
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+</div>
+</div>
+<div id="go-term-analysis-results" class="section level1">
+<h1><span class="header-section-number">5</span> GO Term Analysis Results</h1>
+<div id="biological-processes" class="section level2">
+<h2><span class="header-section-number">5.1</span> Biological Processes</h2>
+<p><strong>Table 3 :</strong> Significant Biological Process GO terms (FDR &lt; 0.1) enriched for genes that overlap query regions <div id="htmlwidget-fcb926654e5855b232ce" style="width:100%;height:auto;" class="datatables html-widget"></div>
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+</div>
+<div id="molecular-functions" class="section level2">
+<h2><span class="header-section-number">5.2</span> Molecular Functions</h2>
+<p><strong>Table 4 :</strong> Significant Molecular Function GO terms (FDR &lt; 0.1) enriched for genes that overlap query regions <div id="htmlwidget-01627777789ec9a5ee6d" style="width:100%;height:auto;" class="datatables html-widget"></div>
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+</div>
+<div id="cellular-compartments" class="section level2">
+<h2><span class="header-section-number">5.3</span> Cellular Compartments</h2>
+<p><strong>Table 5 :</strong> Significant Cellular Compartment GO terms (FDR &lt; 0.1) enriched for genes that overlap query regions <div id="htmlwidget-094df49baa235f29e311" style="width:100%;height:auto;" class="datatables html-widget"></div>
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+</div>
+</div>
+<div id="gene-set-enrichment-analysis-results" class="section level1">
+<h1><span class="header-section-number">6</span> Gene Set Enrichment Analysis Results</h1>
+<p><strong>Table 6 :</strong> Significant MSigDB Gene Sets (FDR &lt; 0.1) enriched for genes that overlap query regions</p>
+<p><div id="htmlwidget-04cfc9c557834f0fe974" style="width:100%;height:auto;" class="datatables html-widget"></div>
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+</div>
+<div id="acknowledgements" class="section level1">
+<h1><span class="header-section-number">7</span> Acknowledgements</h1>
+<p>RCAS is developed in the group of <a href="http://bioinformatics.mdc-berlin.de/team.html#altuna-akalin-phd">Altuna Akalin</a> (head of the Scientific Bioinformatics Platform) by <a href="http://bioinformatics.mdc-berlin.de/team.html#bora-uyar-phd">Bora Uyar</a> (Bioinformatics Scientist), <a href="http://bioinformatics.mdc-berlin.de/team.html#dilmurat-yusuf-phd">Dilmurat Yusuf</a> (Bioinformatics Scientist) and <a href="http://bioinformatics.mdc-berlin.de/team.html#ricardo-wurmus">Ricardo Wurmus</a> (System Administrator) at the Berlin Institute of Medical Systems Biology (<a href="https://www.mdc-berlin.de/13800178/en/bimsb">BIMSB</a>) at the Max-Delbrueck-Center for Molecular Medicine (<a href="https://www.mdc-berlin.de">MDC</a>) in Berlin.</p>
+<p>RCAS is developed as a bioinformatics service as part of the <a href="http://www.denbi.de/index.php/rbc">RNA Bioinformatics Center</a>, which is one of the eight centers of the German Network for Bioinformatics Infrastructure (<a href="http://www.denbi.de/">de.NBI</a>).</p>
+</div>
+<div id="session-information" class="section level1">
+<h1><span class="header-section-number">8</span> Session Information</h1>
+<pre><code>## R version 3.3.1 (2016-06-21)
+## Platform: x86_64-pc-linux-gnu (64-bit)
+## Running under: Ubuntu 16.04.2 LTS
+##
+## locale:
+##  [1] LC_CTYPE=en_US.UTF-8       LC_NUMERIC=C
+##  [3] LC_TIME=de_DE.UTF-8        LC_COLLATE=en_US.UTF-8
+##  [5] LC_MONETARY=de_DE.UTF-8    LC_MESSAGES=en_US.UTF-8
+##  [7] LC_PAPER=de_DE.UTF-8       LC_NAME=C
+##  [9] LC_ADDRESS=C               LC_TELEPHONE=C
+## [11] LC_MEASUREMENT=de_DE.UTF-8 LC_IDENTIFICATION=C
+##
+## attached base packages:
+##  [1] grid      stats4    parallel  stats     graphics  grDevices utils
+##  [8] datasets  methods   base
+##
+## other attached packages:
+##  [1] org.Hs.eg.db_3.3.0                RCAS_1.1.1
+##  [3] motifRG_1.18.0                    BSgenome.Hsapiens.UCSC.hg19_1.4.0
+##  [5] BSgenome_1.42.0                   rtracklayer_1.34.1
+##  [7] GenomicRanges_1.26.1              GenomeInfoDb_1.8.7
+##  [9] seqLogo_1.38.0                    Biostrings_2.40.0
+## [11] XVector_0.12.1                    topGO_2.24.0
+## [13] SparseM_1.7                       GO.db_3.3.0
+## [15] AnnotationDbi_1.36.0              IRanges_2.8.0
+## [17] S4Vectors_0.12.0                  Biobase_2.32.0
+## [19] graph_1.50.0                      BiocGenerics_0.20.0
+## [21] data.table_1.10.0                 DT_0.2
+## [23] plotly_4.5.2                      ggplot2_2.2.0
+##
+## loaded via a namespace (and not attached):
+##  [1] Rcpp_0.12.8                lattice_0.20-34
+##  [3] tidyr_0.6.0                Rsamtools_1.26.1
+##  [5] assertthat_0.1             digest_0.6.9
+##  [7] gridBase_0.4-7             R6_2.2.0
+##  [9] plyr_1.8.4                 evaluate_0.10
+## [11] RSQLite_1.0.0              httr_1.2.1
+## [13] zlibbioc_1.18.0            GenomicFeatures_1.26.0
+## [15] lazyeval_0.2.0             Matrix_1.2-6
+## [17] rmarkdown_0.9.5            BiocParallel_1.6.6
+## [19] readr_0.2.2                stringr_1.1.0
+## [21] htmlwidgets_0.8            RCurl_1.95-4.8
+## [23] biomaRt_2.28.0             munsell_0.4.3
+## [25] base64enc_0.1-3            htmltools_0.3.5
+## [27] SummarizedExperiment_1.4.0 tibble_1.2
+## [29] matrixStats_0.51.0         XML_3.98-1.4
+## [31] viridisLite_0.1.3          dplyr_0.5.0
+## [33] GenomicAlignments_1.10.0   bitops_1.0-6
+## [35] jsonlite_0.9.19            gtable_0.2.0
+## [37] DBI_0.4-1                  formatR_1.4
+## [39] magrittr_1.5               scales_0.4.1
+## [41] KernSmooth_2.23-15         stringi_1.1.2
+## [43] impute_1.46.0              reshape2_1.4.2
+## [45] RColorBrewer_1.1-2         tools_3.3.1
+## [47] seqPattern_1.6.0           purrr_0.2.2
+## [49] yaml_2.1.13                plotrix_3.6-1
+## [51] colorspace_1.3-1           genomation_1.6.0
+## [53] knitr_1.12.3</code></pre>
+</div>
+
+<script type="text/javascript">
+var RCAS = (function () {
+    function captureSVG (that, selector) {
+        var container = document.querySelector(selector).parentNode,
+            height = container.offsetHeight,
+            width  = container.offsetWidth,
+            svgs = container.querySelectorAll('svg.main-svg'),
+            prefix = 'data:image/svg+xml;base64,',
+            data = '',
+            draglayers = [];
+
+        for (var i = 0; i < svgs.length; i++) {
+            // Remove drag layer because it looks like a black box
+            // when rendered in Inkscape.  This won't remove the
+            // element from the DOM because we use querySelectorAll,
+            // which returns a static node list.
+            draglayers = svgs[i].getElementsByClassName('draglayer');
+            while (draglayers.length > 0) {
+                draglayers[0].parentNode.removeChild(draglayers[0]);
+            }
+            // Some plots may contain non UTF-8 characters that cause
+            // btoa to fail in Firefox, so we remove them with a call
+            // to "replace".
+            data = data + svgs[i].innerHTML.replace(/[\u0100-\uFFFF]/g,'');
+        }
+        data = prefix + btoa('<?xml version="1.0" standalone="yes"?>'+
+                             '<svg xmlns="http://www.w3.org/2000/svg" version="1.1" width="' + width +'" ' +
+                             'height="' + height + '"' + '>' +
+                             data + '</svg>');
+
+        // override link target
+        that.href = data;
+        return true;
+    }
+
+    function generateModebarButton (selector) {
+        var el     = document.createElement('div'),
+            button = '<a href=# download="rcas.svg" onClick=\'RCAS.captureSVG(this, "'+
+            selector + '")\' ' +
+            'data-gravity="n" data-toggle="false" data-title="Download plot as a SVG" class="modebar-btn" rel="tooltip">' +
+            '<svg viewBox="0 0 1000 1000" width="1em" height="1em">'+
+            '<path transform="matrix(1 0 0 -1 0 850)" d="m500 450c-83 0-150-67-150-150 0-83 67-150 150-150 83 0 150 67 150 150 0 83-67 150-150 150z m400 150h-120c-16 0-34 13-39 29l-31 93c-6 15-23 28-40 28h-340c-16 0-34-13-39-28l-31-94c-6-15-23-28-40-28h-120c-55 0-100-45-100-100v-450c0-55 45-100 100-100h800c55 0 100 45 100 100v450c0 55-45 100-100 100z m-400-550c-138 0-250 112-250 250 0 138 112 250 250 250 138 0 250-112 250-250 0-138-112-250-250-250z m365 380c-19 0-35 16-35 35 0 19 16 35 35 35 19 0 35-16 35-35 0-19-16-35-35-35z"></path>'+
+            '</svg>'+
+            '</a>';
+
+        el.innerHTML = button;
+        el.className = 'modebar-group';
+        return el;
+    }
+
+    function injectLink (pathToWidget) {
+        var widget = document.getElementById(pathToWidget),
+            button = generateModebarButton('#' + pathToWidget + ' .main-svg'),
+            bar    = widget.getElementsByClassName('modebar')[0];
+        // insert at the very beginning
+        bar.insertBefore(button, bar.firstChild.nextSibling);
+    }
+
+    // inject links in every widget
+    function init () {
+        var nodes = document.getElementsByClassName('js-plotly-plot');
+        for (var i = 0; i < nodes.length; i++) {
+            injectLink(nodes[i].id);
+        }
+    }
+
+    return {
+        captureSVG: captureSVG,
+        init: init
+    };
+})();
+
+window.onload = RCAS.init;
+</script>
+
+
+</div>
+</div>
+
+</div>
+
+<script>
+
+// add bootstrap table styles to pandoc tables
+$(document).ready(function () {
+  $('tr.header').parent('thead').parent('table').addClass('table table-condensed');
+});
+
+</script>
+
+<!-- dynamically load mathjax for compatibility with self-contained -->
+<script>
+  (function () {
+    var script = document.createElement("script");
+    script.type = "text/javascript";
+    script.src  = "https://cdn.mathjax.org/mathjax/latest/MathJax.js?config=TeX-AMS-MML_HTMLorMML";
+    document.getElementsByTagName("head")[0].appendChild(script);
+  })();
+</script>
+
+</body>
+</html>
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/query_gene_types.data.tsv	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,2 @@
+feature	count	percent
+1	protein_coding	18	0.2
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/summarizeQueryRegions.data.tsv	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,8 @@
+count	percent
+transcripts	18	0.2
+exons	15	0.2
+promoters	4	0
+fiveUTRs	4	0
+introns	6	0.1
+cds	3	0
+threeUTRs	12	0.1
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/transcriptBoundaryCoverage.fiveprime.data.tsv	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,2001 @@
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/test-data/transcriptBoundaryCoverage.threeprime.data.tsv	Thu Apr 13 12:36:05 2017 -0400
@@ -0,0 +1,2001 @@
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