Mercurial > repos > rnateam > rcas
changeset 0:aa9579837a2e draft
planemo upload for repository https://github.com/bgruening/galaxytools/tree/master/tools/rna_tools/rcas/ commit 3b9aec9beb72407e01f4a0c5b31c17ac3f92a851
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--- /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
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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";
--- /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 - 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--- /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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this.options[e]=t,"disabled"===e&&(this.widget().toggleClass(this.widgetFullName+"-disabled",!!t),t&&(this.hoverable.removeClass("ui-state-hover"),this.focusable.removeClass("ui-state-focus"))),this},enable:function(){return this._setOptions({disabled:!1})},disable:function(){return this._setOptions({disabled:!0})},_on:function(t,i,s){var n,a=this;"boolean"!=typeof t&&(s=i,i=t,t=!1),s?(i=n=e(i),this.bindings=this.bindings.add(i)):(s=i,i=this.element,n=this.widget()),e.each(s,function(s,o){function r(){return t||a.options.disabled!==!0&&!e(this).hasClass("ui-state-disabled")?("string"==typeof o?a[o]:o).apply(a,arguments):void 0}"string"!=typeof o&&(r.guid=o.guid=o.guid||r.guid||e.guid++);var h=s.match(/^([\w:-]*)\s*(.*)$/),l=h[1]+a.eventNamespace,u=h[2];u?n.delegate(u,l,r):i.bind(l,r)})},_off:function(t,i){i=(i||"").split(" ").join(this.eventNamespace+" ")+this.eventNamespace,t.unbind(i).undelegate(i),this.bindings=e(this.bindings.not(t).get()),this.focusable=e(this.focusable.not(t).get()),this.hoverable=e(this.hoverable.not(t).get())},_delay:function(e,t){function i(){return("string"==typeof e?s[e]:e).apply(s,arguments)}var s=this;return setTimeout(i,t||0)},_hoverable:function(t){this.hoverable=this.hoverable.add(t),this._on(t,{mouseenter:function(t){e(t.currentTarget).addClass("ui-state-hover")},mouseleave:function(t){e(t.currentTarget).removeClass("ui-state-hover")}})},_focusable:function(t){this.focusable=this.focusable.add(t),this._on(t,{focusin:function(t){e(t.currentTarget).addClass("ui-state-focus")},focusout:function(t){e(t.currentTarget).removeClass("ui-state-focus")}})},_trigger:function(t,i,s){var n,a,o=this.options[t];if(s=s||{},i=e.Event(i),i.type=(t===this.widgetEventPrefix?t:this.widgetEventPrefix+t).toLowerCase(),i.target=this.element[0],a=i.originalEvent)for(n in a)n in i||(i[n]=a[n]);return this.element.trigger(i,s),!(e.isFunction(o)&&o.apply(this.element[0],[i].concat(s))===!1||i.isDefaultPrevented())}},e.each({show:"fadeIn",hide:"fadeOut"},function(t,i){e.Widget.prototype["_"+t]=function(s,n,a){"string"==typeof n&&(n={effect:n});var o,r=n?n===!0||"number"==typeof n?i:n.effect||i:t;n=n||{},"number"==typeof n&&(n={duration:n}),o=!e.isEmptyObject(n),n.complete=a,n.delay&&s.delay(n.delay),o&&e.effects&&e.effects.effect[r]?s[t](n):r!==t&&s[r]?s[r](n.duration,n.easing,a):s.queue(function(i){e(this)[t](),a&&a.call(s[0]),i()})}}),e.widget;var o=!1;e(document).mouseup(function(){o=!1}),e.widget("ui.mouse",{version:"1.11.4",options:{cancel:"input,textarea,button,select,option",distance:1,delay:0},_mouseInit:function(){var t=this;this.element.bind("mousedown."+this.widgetName,function(e){return t._mouseDown(e)}).bind("click."+this.widgetName,function(i){return!0===e.data(i.target,t.widgetName+".preventClickEvent")?(e.removeData(i.target,t.widgetName+".preventClickEvent"),i.stopImmediatePropagation(),!1):void 0}),this.started=!1},_mouseDestroy:function(){this.element.unbind("."+this.widgetName),this._mouseMoveDelegate&&this.document.unbind("mousemove."+this.widgetName,this._mouseMoveDelegate).unbind("mouseup."+this.widgetName,this._mouseUpDelegate)},_mouseDown:function(t){if(!o){this._mouseMoved=!1,this._mouseStarted&&this._mouseUp(t),this._mouseDownEvent=t;var i=this,s=1===t.which,n="string"==typeof this.options.cancel&&t.target.nodeName?e(t.target).closest(this.options.cancel).length:!1;return s&&!n&&this._mouseCapture(t)?(this.mouseDelayMet=!this.options.delay,this.mouseDelayMet||(this._mouseDelayTimer=setTimeout(function(){i.mouseDelayMet=!0},this.options.delay)),this._mouseDistanceMet(t)&&this._mouseDelayMet(t)&&(this._mouseStarted=this._mouseStart(t)!==!1,!this._mouseStarted)?(t.preventDefault(),!0):(!0===e.data(t.target,this.widgetName+".preventClickEvent")&&e.removeData(t.target,this.widgetName+".preventClickEvent"),this._mouseMoveDelegate=function(e){return i._mouseMove(e)},this._mouseUpDelegate=function(e){return i._mouseUp(e)},this.document.bind("mousemove."+this.widgetName,this._mouseMoveDelegate).bind("mouseup."+this.widgetName,this._mouseUpDelegate),t.preventDefault(),o=!0,!0)):!0}},_mouseMove:function(t){if(this._mouseMoved){if(e.ui.ie&&(!document.documentMode||9>document.documentMode)&&!t.button)return this._mouseUp(t);if(!t.which)return this._mouseUp(t)}return(t.which||t.button)&&(this._mouseMoved=!0),this._mouseStarted?(this._mouseDrag(t),t.preventDefault()):(this._mouseDistanceMet(t)&&this._mouseDelayMet(t)&&(this._mouseStarted=this._mouseStart(this._mouseDownEvent,t)!==!1,this._mouseStarted?this._mouseDrag(t):this._mouseUp(t)),!this._mouseStarted)},_mouseUp:function(t){return this.document.unbind("mousemove."+this.widgetName,this._mouseMoveDelegate).unbind("mouseup."+this.widgetName,this._mouseUpDelegate),this._mouseStarted&&(this._mouseStarted=!1,t.target===this._mouseDownEvent.target&&e.data(t.target,this.widgetName+".preventClickEvent",!0),this._mouseStop(t)),o=!1,!1},_mouseDistanceMet:function(e){return Math.max(Math.abs(this._mouseDownEvent.pageX-e.pageX),Math.abs(this._mouseDownEvent.pageY-e.pageY))>=this.options.distance},_mouseDelayMet:function(){return this.mouseDelayMet},_mouseStart:function(){},_mouseDrag:function(){},_mouseStop:function(){},_mouseCapture:function(){return!0}}),function(){function t(e,t,i){return[parseFloat(e[0])*(p.test(e[0])?t/100:1),parseFloat(e[1])*(p.test(e[1])?i/100:1)]}function i(t,i){return parseInt(e.css(t,i),10)||0}function s(t){var i=t[0];return 9===i.nodeType?{width:t.width(),height:t.height(),offset:{top:0,left:0}}:e.isWindow(i)?{width:t.width(),height:t.height(),offset:{top:t.scrollTop(),left:t.scrollLeft()}}:i.preventDefault?{width:0,height:0,offset:{top:i.pageY,left:i.pageX}}:{width:t.outerWidth(),height:t.outerHeight(),offset:t.offset()}}e.ui=e.ui||{};var n,a,o=Math.max,r=Math.abs,h=Math.round,l=/left|center|right/,u=/top|center|bottom/,d=/[\+\-]\d+(\.[\d]+)?%?/,c=/^\w+/,p=/%$/,f=e.fn.position;e.position={scrollbarWidth:function(){if(void 0!==n)return n;var t,i,s=e("<div style='display:block;position:absolute;width:50px;height:50px;overflow:hidden;'><div style='height:100px;width:auto;'></div></div>"),a=s.children()[0];return e("body").append(s),t=a.offsetWidth,s.css("overflow","scroll"),i=a.offsetWidth,t===i&&(i=s[0].clientWidth),s.remove(),n=t-i},getScrollInfo:function(t){var i=t.isWindow||t.isDocument?"":t.element.css("overflow-x"),s=t.isWindow||t.isDocument?"":t.element.css("overflow-y"),n="scroll"===i||"auto"===i&&t.width<t.element[0].scrollWidth,a="scroll"===s||"auto"===s&&t.height<t.element[0].scrollHeight;return{width:a?e.position.scrollbarWidth():0,height:n?e.position.scrollbarWidth():0}},getWithinInfo:function(t){var i=e(t||window),s=e.isWindow(i[0]),n=!!i[0]&&9===i[0].nodeType;return{element:i,isWindow:s,isDocument:n,offset:i.offset()||{left:0,top:0},scrollLeft:i.scrollLeft(),scrollTop:i.scrollTop(),width:s||n?i.width():i.outerWidth(),height:s||n?i.height():i.outerHeight()}}},e.fn.position=function(n){if(!n||!n.of)return f.apply(this,arguments);n=e.extend({},n);var p,m,g,v,y,b,_=e(n.of),x=e.position.getWithinInfo(n.within),w=e.position.getScrollInfo(x),k=(n.collision||"flip").split(" "),T={};return b=s(_),_[0].preventDefault&&(n.at="left top"),m=b.width,g=b.height,v=b.offset,y=e.extend({},v),e.each(["my","at"],function(){var e,t,i=(n[this]||"").split(" ");1===i.length&&(i=l.test(i[0])?i.concat(["center"]):u.test(i[0])?["center"].concat(i):["center","center"]),i[0]=l.test(i[0])?i[0]:"center",i[1]=u.test(i[1])?i[1]:"center",e=d.exec(i[0]),t=d.exec(i[1]),T[this]=[e?e[0]:0,t?t[0]:0],n[this]=[c.exec(i[0])[0],c.exec(i[1])[0]]}),1===k.length&&(k[1]=k[0]),"right"===n.at[0]?y.left+=m:"center"===n.at[0]&&(y.left+=m/2),"bottom"===n.at[1]?y.top+=g:"center"===n.at[1]&&(y.top+=g/2),p=t(T.at,m,g),y.left+=p[0],y.top+=p[1],this.each(function(){var 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 d&&(n=d),n=n||d.easing||u.easing,a=a||d.duration||u.duration,t.length?e.length?(s=e.show().outerHeight(),t.animate(this.hideProps,{duration:a,easing:n,step:function(e,t){t.now=Math.round(e)}}),e.hide().animate(this.showProps,{duration:a,easing:n,complete:c,step:function(e,i){i.now=Math.round(e),"height"!==i.prop?"content-box"===h&&(r+=i.now):"content"!==o.options.heightStyle&&(i.now=Math.round(s-t.outerHeight()-r),r=0)}}),void 0):t.animate(this.hideProps,a,n,c):e.animate(this.showProps,a,n,c)},_toggleComplete:function(e){var t=e.oldPanel;t.removeClass("ui-accordion-content-active").prev().removeClass("ui-corner-top").addClass("ui-corner-all"),t.length&&(t.parent()[0].className=t.parent()[0].className),this._trigger("activate",null,e)}}),e.widget("ui.menu",{version:"1.11.4",defaultElement:"<ul>",delay:300,options:{icons:{submenu:"ui-icon-carat-1-e"},items:"> *",menus:"ul",position:{my:"left-1 top",at:"right top"},role:"menu",blur:null,focus:null,select:null},_create:function(){this.activeMenu=this.element,this.mouseHandled=!1,this.element.uniqueId().addClass("ui-menu ui-widget ui-widget-content").toggleClass("ui-menu-icons",!!this.element.find(".ui-icon").length).attr({role:this.options.role,tabIndex:0}),this.options.disabled&&this.element.addClass("ui-state-disabled").attr("aria-disabled","true"),this._on({"mousedown .ui-menu-item":function(e){e.preventDefault()},"click .ui-menu-item":function(t){var i=e(t.target);!this.mouseHandled&&i.not(".ui-state-disabled").length&&(this.select(t),t.isPropagationStopped()||(this.mouseHandled=!0),i.has(".ui-menu").length?this.expand(t):!this.element.is(":focus")&&e(this.document[0].activeElement).closest(".ui-menu").length&&(this.element.trigger("focus",[!0]),this.active&&1===this.active.parents(".ui-menu").length&&clearTimeout(this.timer)))},"mouseenter .ui-menu-item":function(t){if(!this.previousFilter){var i=e(t.currentTarget);i.siblings(".ui-state-active").removeClass("ui-state-active"),this.focus(t,i)}},mouseleave:"collapseAll","mouseleave .ui-menu":"collapseAll",focus:function(e,t){var i=this.active||this.element.find(this.options.items).eq(0);t||this.focus(e,i)},blur:function(t){this._delay(function(){e.contains(this.element[0],this.document[0].activeElement)||this.collapseAll(t)})},keydown:"_keydown"}),this.refresh(),this._on(this.document,{click:function(e){this._closeOnDocumentClick(e)&&this.collapseAll(e),this.mouseHandled=!1}})},_destroy:function(){this.element.removeAttr("aria-activedescendant").find(".ui-menu").addBack().removeClass("ui-menu ui-widget ui-widget-content ui-menu-icons ui-front").removeAttr("role").removeAttr("tabIndex").removeAttr("aria-labelledby").removeAttr("aria-expanded").removeAttr("aria-hidden").removeAttr("aria-disabled").removeUniqueId().show(),this.element.find(".ui-menu-item").removeClass("ui-menu-item").removeAttr("role").removeAttr("aria-disabled").removeUniqueId().removeClass("ui-state-hover").removeAttr("tabIndex").removeAttr("role").removeAttr("aria-haspopup").children().each(function(){var t=e(this);t.data("ui-menu-submenu-carat")&&t.remove()}),this.element.find(".ui-menu-divider").removeClass("ui-menu-divider ui-widget-content")},_keydown:function(t){var i,s,n,a,o=!0;switch(t.keyCode){case e.ui.keyCode.PAGE_UP:this.previousPage(t);break;case e.ui.keyCode.PAGE_DOWN:this.nextPage(t);break;case e.ui.keyCode.HOME:this._move("first","first",t);break;case e.ui.keyCode.END:this._move("last","last",t);break;case e.ui.keyCode.UP:this.previous(t);break;case e.ui.keyCode.DOWN:this.next(t);break;case e.ui.keyCode.LEFT:this.collapse(t);break;case e.ui.keyCode.RIGHT:this.active&&!this.active.is(".ui-state-disabled")&&this.expand(t);break;case e.ui.keyCode.ENTER:case e.ui.keyCode.SPACE:this._activate(t);break;case e.ui.keyCode.ESCAPE:this.collapse(t);break;default:o=!1,s=this.previousFilter||"",n=String.fromCharCode(t.keyCode),a=!1,clearTimeout(this.filterTimer),n===s?a=!0:n=s+n,i=this._filterMenuItems(n),i=a&&-1!==i.index(this.active.next())?this.active.nextAll(".ui-menu-item"):i,i.length||(n=String.fromCharCode(t.keyCode),i=this._filterMenuItems(n)),i.length?(this.focus(t,i),this.previousFilter=n,this.filterTimer=this._delay(function(){delete this.previousFilter},1e3)):delete this.previousFilter}o&&t.preventDefault()},_activate:function(e){this.active.is(".ui-state-disabled")||(this.active.is("[aria-haspopup='true']")?this.expand(e):this.select(e))},refresh:function(){var 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, .ui-menu-divider").addClass("ui-menu-item").uniqueId().attr({tabIndex:-1,role:this._itemRole()}),i.filter(".ui-state-disabled").attr("aria-disabled","true"),this.active&&!e.contains(this.element[0],this.active[0])&&this.blur()},_itemRole:function(){return{menu:"menuitem",listbox:"option"}[this.options.role]},_setOption:function(e,t){"icons"===e&&this.element.find(".ui-menu-icon").removeClass(this.options.icons.submenu).addClass(t.submenu),"disabled"===e&&this.element.toggleClass("ui-state-disabled",!!t).attr("aria-disabled",t),this._super(e,t)},focus:function(e,t){var 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 this.active?(this.isLastItem()||(this._hasScroll()?(s=this.active.offset().top,n=this.element.height(),this.active.nextAll(".ui-menu-item").each(function(){return i=e(this),0>i.offset().top-s-n}),this.focus(t,i)):this.focus(t,this.activeMenu.find(this.options.items)[this.active?"last":"first"]())),void 0):(this.next(t),void 0)},previousPage:function(t){var i,s,n;return this.active?(this.isFirstItem()||(this._hasScroll()?(s=this.active.offset().top,n=this.element.height(),this.active.prevAll(".ui-menu-item").each(function(){return i=e(this),i.offset().top-s+n>0}),this.focus(t,i)):this.focus(t,this.activeMenu.find(this.options.items).first())),void 0):(this.next(t),void 0)},_hasScroll:function(){return this.element.outerHeight()<this.element.prop("scrollHeight")},select:function(t){this.active=this.active||e(t.target).closest(".ui-menu-item");var i={item:this.active};this.active.has(".ui-menu").length||this.collapseAll(t,!0),this._trigger("select",t,i)},_filterMenuItems:function(t){var 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 a.PAGE_UP:t=!0,this._move("previousPage",n);break;case a.PAGE_DOWN:t=!0,this._move("nextPage",n);break;case a.UP:t=!0,this._keyEvent("previous",n);break;case a.DOWN:t=!0,this._keyEvent("next",n);break;case a.ENTER:this.menu.active&&(t=!0,n.preventDefault(),this.menu.select(n));break;case a.TAB:this.menu.active&&this.menu.select(n);break;case a.ESCAPE:this.menu.element.is(":visible")&&(this.isMultiLine||this._value(this.term),this.close(n),n.preventDefault());break;default:i=!0,this._searchTimeout(n)}},keypress:function(s){if(t)return t=!1,(!this.isMultiLine||this.menu.element.is(":visible"))&&s.preventDefault(),void 0;if(!i){var n=e.ui.keyCode;switch(s.keyCode){case n.PAGE_UP:this._move("previousPage",s);break;case n.PAGE_DOWN:this._move("nextPage",s);break;case n.UP:this._keyEvent("previous",s);break;case n.DOWN:this._keyEvent("next",s)}}},input:function(e){return s?(s=!1,e.preventDefault(),void 0):(this._searchTimeout(e),void 0)},focus:function(){this.selectedItem=null,this.previous=this._value()},blur:function(e){return this.cancelBlur?(delete this.cancelBlur,void 0):(clearTimeout(this.searching),this.close(e),this._change(e),void 0)}}),this._initSource(),this.menu=e("<ul>").addClass("ui-autocomplete ui-front").appendTo(this._appendTo()).menu({role:null}).hide().menu("instance"),this._on(this.menu.element,{mousedown:function(t){t.preventDefault(),this.cancelBlur=!0,this._delay(function(){delete this.cancelBlur});var i=this.menu.element[0];e(t.target).closest(".ui-menu-item").length||this._delay(function(){var t=this;this.document.one("mousedown",function(s){s.target===t.element[0]||s.target===i||e.contains(i,s.target)||t.close()})})},menufocus:function(t,i){var s,n;return this.isNewMenu&&(this.isNewMenu=!1,t.originalEvent&&/^mouse/.test(t.originalEvent.type))?(this.menu.blur(),this.document.one("mousemove",function(){e(t.target).trigger(t.originalEvent)}),void 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 e=null!=e?e:this._value(),this.term=this._value(),e.length<this.options.minLength?this.close(t):this._trigger("search",t)!==!1?this._search(e):void 0},_search:function(e){this.pending++,this.element.addClass("ui-autocomplete-loading"),this.cancelSearch=!1,this.source({term:e},this._response())},_response:function(){var t=++this.requestIndex;return 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 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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 ui-spinner-down ui-corner-br'>"+"<span class='ui-icon "+this.options.icons.down+"'>&#9660;</span>"+"</a>"},_start:function(e){return this.spinning||this._trigger("start",e)!==!1?(this.counter||(this.counter=1),this.spinning=!0,!0):!1},_repeat:function(e,t,i){e=e||500,clearTimeout(this.timer),this.timer=this._delay(function(){this._repeat(40,t,i)},e),this._spin(t*this.options.step,i)},_spin:function(e,t){var i=this.value()||0;this.counter||(this.counter=1),i=this._adjustValue(i+e*this._increment(this.counter)),this.spinning&&this._trigger("spin",t,{value:i})===!1||(this._value(i),this.counter++)},_increment:function(t){var i=this.options.incremental;return i?e.isFunction(i)?i(t):Math.floor(t*t*t/5e4-t*t/500+17*t/200+1):1},_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},_adjustValue:function(e){var t,i,s=this.options;return t=null!==s.min?s.min:0,i=e-t,i=Math.round(i/s.step)*s.step,e=t+i,e=parseFloat(e.toFixed(this._precision())),null!==s.max&&e>s.max?s.max:null!==s.min&&s.min>e?s.min:e},_stop:function(e){this.spinning&&(clearTimeout(this.timer),clearTimeout(this.mousewheelTimer),this.counter=0,this.spinning=!1,this._trigger("stop",e))},_setOption:function(e,t){if("culture"===e||"numberFormat"===e){var i=this._parse(this.element.val());return this.options[e]=t,this.element.val(this._format(i)),void 0}("max"===e||"min"===e||"step"===e)&&"string"==typeof t&&(t=this._parse(t)),"icons"===e&&(this.buttons.first().find(".ui-icon").removeClass(this.options.icons.up).addClass(t.up),this.buttons.last().find(".ui-icon").removeClass(this.options.icons.down).addClass(t.down)),this._super(e,t),"disabled"===e&&(this.widget().toggleClass("ui-state-disabled",!!t),this.element.prop("disabled",!!t),this.buttons.button(t?"disable":"enable"))},_setOptions:s(function(e){this._super(e)}),_parse:function(e){return"string"==typeof e&&""!==e&&(e=window.Globalize&&this.options.numberFormat?Globalize.parseFloat(e,10,this.options.culture):+e),""===e||isNaN(e)?null:e
},_format:function(e){return""===e?"":window.Globalize&&this.options.numberFormat?Globalize.format(e,this.options.numberFormat,this.options.culture):e},_refresh:function(){this.element.attr({"aria-valuemin":this.options.min,"aria-valuemax":this.options.max,"aria-valuenow":this._parse(this.element.val())})},isValid:function(){var e=this.value();return null===e?!1:e===this._adjustValue(e)},_value:function(e,t){var i;""!==e&&(i=this._parse(e),null!==i&&(t||(i=this._adjustValue(i)),e=this._format(i))),this.element.val(e),this._refresh()},_destroy:function(){this.element.removeClass("ui-spinner-input").prop("disabled",!1).removeAttr("autocomplete").removeAttr("role").removeAttr("aria-valuemin").removeAttr("aria-valuemax").removeAttr("aria-valuenow"),this.uiSpinner.replaceWith(this.element)},stepUp:s(function(e){this._stepUp(e)}),_stepUp:function(e){this._start()&&(this._spin((e||1)*this.options.step),this._stop())},stepDown:s(function(e){this._stepDown(e)}),_stepDown:function(e){this._start()&&(this._spin((e||1)*-this.options.step),this._stop())},pageUp:s(function(e){this._stepUp((e||1)*this.options.page)}),pageDown:s(function(e){this._stepDown((e||1)*this.options.page)}),value:function(e){return arguments.length?(s(this._value).call(this,e),void 0):this._parse(this.element.val())},widget:function(){return this.uiSpinner}}),e.widget("ui.tabs",{version:"1.11.4",delay:300,options:{active:null,collapsible:!1,event:"click",heightStyle:"content",hide:null,show:null,activate:null,beforeActivate:null,beforeLoad:null,load:null},_isLocal:function(){var e=/#.*$/;return function(t){var i,s;t=t.cloneNode(!1),i=t.href.replace(e,""),s=location.href.replace(e,"");try{i=decodeURIComponent(i)}catch(n){}try{s=decodeURIComponent(s)}catch(n){}return t.hash.length>1&&i===s}}(),_create:function(){var t=this,i=this.options;this.running=!1,this.element.addClass("ui-tabs ui-widget ui-widget-content ui-corner-all").toggleClass("ui-tabs-collapsible",i.collapsible),this._processTabs(),i.active=this._initialActive(),e.isArray(i.disabled)&&(i.disabled=e.unique(i.disabled.concat(e.map(this.tabs.filter(".ui-state-disabled"),function(e){return t.tabs.index(e)}))).sort()),this.active=this.options.active!==!1&&this.anchors.length?this._findActive(i.active):e(),this._refresh(),this.active.length&&this.load(i.active)},_initialActive:function(){var t=this.options.active,i=this.options.collapsible,s=location.hash.substring(1);return null===t&&(s&&this.tabs.each(function(i,n){return e(n).attr("aria-controls")===s?(t=i,!1):void 0}),null===t&&(t=this.tabs.index(this.tabs.filter(".ui-tabs-active"))),(null===t||-1===t)&&(t=this.tabs.length?0:!1)),t!==!1&&(t=this.tabs.index(this.tabs.eq(t)),-1===t&&(t=i?!1:0)),!i&&t===!1&&this.anchors.length&&(t=0),t},_getCreateEventData:function(){return{tab:this.active,panel:this.active.length?this._getPanelForTab(this.active):e()}},_tabKeydown:function(t){var i=e(this.document[0].activeElement).closest("li"),s=this.tabs.index(i),n=!0;if(!this._handlePageNav(t)){switch(t.keyCode){case e.ui.keyCode.RIGHT:case e.ui.keyCode.DOWN:s++;break;case e.ui.keyCode.UP:case e.ui.keyCode.LEFT:n=!1,s--;break;case e.ui.keyCode.END:s=this.anchors.length-1;break;case e.ui.keyCode.HOME:s=0;break;case e.ui.keyCode.SPACE:return t.preventDefault(),clearTimeout(this.activating),this._activate(s),void 0;case e.ui.keyCode.ENTER:return t.preventDefault(),clearTimeout(this.activating),this._activate(s===this.options.active?!1:s),void 0;default:return}t.preventDefault(),clearTimeout(this.activating),s=this._focusNextTab(s,n),t.ctrlKey||t.metaKey||(i.attr("aria-selected","false"),this.tabs.eq(s).attr("aria-selected","true"),this.activating=this._delay(function(){this.option("active",s)},this.delay))}},_panelKeydown:function(t){this._handlePageNav(t)||t.ctrlKey&&t.keyCode===e.ui.keyCode.UP&&(t.preventDefault(),this.active.focus())},_handlePageNav:function(t){return t.altKey&&t.keyCode===e.ui.keyCode.PAGE_UP?(this._activate(this._focusNextTab(this.options.active-1,!1)),!0):t.altKey&&t.keyCode===e.ui.keyCode.PAGE_DOWN?(this._activate(this._focusNextTab(this.options.active+1,!0)),!0):void 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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
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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%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%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%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%2BAYiMgECOKsQwMinBFYCCwAFBYsAFhuP%2B6ixuwRoxZsBBgaAE6WS0sIEWwAyVGUkuwE1FbWLACJUYgaGGwAyWwAyU%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%2F%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%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%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%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%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%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%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%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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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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDM5OyIgZD0iTTUwMCA5MDBoMTAwdi0xMDBoLTEwMHYtMTAwaC00MDB2LTEwMGgtMTAwdjYwMGg1MDB2LTMwMHpNMTIwMCA3MDBoLTIwMHYtMTAwaDIwMHYtMjAwaC0zMDB2MzAwaC0yMDB2MzAwaC0xMDB2MjAwaDYwMHYtNTAwek0xMDAgMTEwMHYtMzAwaDMwMHYzMDBoLTMwMHpNODAwIDExMDB2LTMwMGgzMDB2MzAwaC0zMDB6TTMwMCA5MDBoLTEwMHYxMDBoMTAwdi0xMDB6TTEwMDAgOTAwaC0xMDB2MTAwaDEwMHYtMTAwek0zMDAgNTAwaDIwMHYtNTAwIGgtNTAwdjUwMGgyMDB2MTAwaDEwMHYtMTAwek04MDAgMzAwaDIwMHYtMTAwaC0xMDB2LTEwMGgtMjAwdjEwMGgtMTAwdjEwMGgxMDB2MjAwaC0yMDB2MTAwaDMwMHYtMzAwek0xMDAgNDAwdi0zMDBoMzAwdjMwMGgtMzAwek0zMDAgMjAwaC0xMDB2MTAwaDEwMHYtMTAwek0xMjAwIDIwMGgtMTAwdjEwMGgxMDB2LTEwMHpNNzAwIDBoLTEwMHYxMDBoMTAwdi0xMDB6TTEyMDAgMGgtMzAwdjEwMGgzMDB2LTEwMHoiIC8%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDQyOyIgZD0iTTUwMCAxMjAwbDY4MiAtNjgycTggLTggOCAtMTh0LTggLTE4bC00NjQgLTQ2NHEtOCAtOCAtMTggLTh0LTE4IDhsLTY4MiA2ODJsMSA0NzVxMCAxMCA3LjUgMTcuNXQxNy41IDcuNWg0NzR6TTgwMCAxMjAwbDY4MiAtNjgycTggLTggOCAtMTh0LTggLTE4bC00NjQgLTQ2NHEtOCAtOCAtMTggLTh0LTE4IDhsLTU2IDU2bDQyNCA0MjZsLTcwMCA3MDBoMTUwek0zMTkuNSAxMDI0LjVxLTI5LjUgMjkuNSAtNzEgMjkuNXQtNzEgLTI5LjUgdC0yOS41IC03MS41dDI5LjUgLTcxLjV0NzEgLTI5LjV0NzEgMjkuNXQyOS41IDcxLjV0LTI5LjUgNzEuNXoiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDQzOyIgZD0iTTMwMCAxMjAwaDgyNXE3NSAwIDc1IC03NXYtOTAwcTAgLTI1IC0xOCAtNDNsLTY0IC02NHEtOCAtOCAtMTMgLTUuNXQtNSAxMi41djk1MHEwIDEwIC03LjUgMTcuNXQtMTcuNSA3LjVoLTcwMHEtMjUgMCAtNDMgLTE4bC02NCAtNjRxLTggLTggLTUuNSAtMTN0MTIuNSAtNWg3MDBxMTAgMCAxNy41IC03LjV0Ny41IC0xNy41di05NTBxMCAtMTAgLTcuNSAtMTcuNXQtMTcuNSAtNy41aC04NTBxLTEwIDAgLTE3LjUgNy41dC03LjUgMTcuNXY5NzUgcTAgMjUgMTggNDNsMTM5IDEzOXExOCAxOCA0MyAxOHoiIC8%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDQ5OyIgZD0iTTg3NyAxMjAwbDIgLTU3cS04MyAtMTkgLTExNiAtNDUuNXQtNDAgLTY2LjVsLTEzMiAtODM5cS05IC00OSAxMyAtNjl0OTYgLTI2di05N2gtNTAwdjk3cTE4NiAxNiAyMDAgOThsMTczIDgzMnEzIDE3IDMgMzB0LTEuNSAyMi41dC05IDE3LjV0LTEzLjUgMTIuNXQtMjEuNSAxMHQtMjYgOC41dC0zMy41IDEwcS0xMyAzIC0xOSA1djU3aDQyNXoiIC8%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDU0OyIgZD0iTTUwMCA5NTB2MTAwcTAgMjEgMTQuNSAzNS41dDM1LjUgMTQuNWg2MDBxMjEgMCAzNS41IC0xNC41dDE0LjUgLTM1LjV2LTEwMHEwIC0yMSAtMTQuNSAtMzUuNXQtMzUuNSAtMTQuNWgtNjAwcS0yMSAwIC0zNS41IDE0LjV0LTE0LjUgMzUuNXpNMTAwIDY1MHYxMDBxMCAyMSAxNC41IDM1LjV0MzUuNSAxNC41aDEwMDBxMjEgMCAzNS41IC0xNC41dDE0LjUgLTM1LjV2LTEwMHEwIC0yMSAtMTQuNSAtMzUuNXQtMzUuNSAtMTQuNWgtMTAwMCBxLTIxIDAgLTM1LjUgMTQuNXQtMTQuNSAzNS41ek0zMDAgMzUwdjEwMHEwIDIxIDE0LjUgMzUuNXQzNS41IDE0LjVoODAwcTIxIDAgMzUuNSAtMTQuNXQxNC41IC0zNS41di0xMDBxMCAtMjEgLTE0LjUgLTM1LjV0LTM1LjUgLTE0LjVoLTgwMHEtMjEgMCAtMzUuNSAxNC41dC0xNC41IDM1LjV6TTAgNTB2MTAwcTAgMjEgMTQuNSAzNS41dDM1LjUgMTQuNWgxMTAwcTIxIDAgMzUuNSAtMTQuNXQxNC41IC0zNS41di0xMDAgcTAgLTIxIC0xNC41IC0zNS41dC0zNS41IC0xNC41aC0xMTAwcS0yMSAwIC0zNS41IDE0LjV0LTE0LjUgMzUuNXoiIC8%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%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDY5OyIgZD0iTTI1MCAxMTAwaDEwMHEyMSAwIDM1LjUgLTE0LjV0MTQuNSAtMzUuNXYtNDM4bDQ2NCA0NTNxMTUgMTQgMjUuNSAxMHQxMC41IC0yNXYtMTAwMHEwIC0yMSAtMTAuNSAtMjV0LTI1LjUgMTBsLTQ2NCA0NTN2LTQzOHEwIC0yMSAtMTQuNSAtMzUuNXQtMzUuNSAtMTQuNWgtMTAwcS0yMSAwIC0zNS41IDE0LjV0LTE0LjUgMzUuNXYxMDAwcTAgMjEgMTQuNSAzNS41dDM1LjUgMTQuNXoiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDcwOyIgZD0iTTUwIDExMDBoMTAwcTIxIDAgMzUuNSAtMTQuNXQxNC41IC0zNS41di00MzhsNDY0IDQ1M3ExNSAxNCAyNS41IDEwdDEwLjUgLTI1di00MzhsNDY0IDQ1M3ExNSAxNCAyNS41IDEwdDEwLjUgLTI1di0xMDAwcTAgLTIxIC0xMC41IC0yNXQtMjUuNSAxMGwtNDY0IDQ1M3YtNDM4cTAgLTIxIC0xMC41IC0yNXQtMjUuNSAxMGwtNDY0IDQ1M3YtNDM4cTAgLTIxIC0xNC41IC0zNS41dC0zNS41IC0xNC41aC0xMDBxLTIxIDAgLTM1LjUgMTQuNSB0LTE0LjUgMzUuNXYxMDAwcTAgMjEgMTQuNSAzNS41dDM1LjUgMTQuNXoiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDcxOyIgZD0iTTEyMDAgMTA1MHYtMTAwMHEwIC0yMSAtMTAuNSAtMjV0LTI1LjUgMTBsLTQ2NCA0NTN2LTQzOHEwIC0yMSAtMTAuNSAtMjV0LTI1LjUgMTBsLTQ5MiA0ODBxLTE1IDE0IC0xNSAzNXQxNSAzNWw0OTIgNDgwcTE1IDE0IDI1LjUgMTB0MTAuNSAtMjV2LTQzOGw0NjQgNDUzcTE1IDE0IDI1LjUgMTB0MTAuNSAtMjV6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTA3MjsiIGQ9Ik0yNDMgMTA3NGw4MTQgLTQ5OHExOCAtMTEgMTggLTI2dC0xOCAtMjZsLTgxNCAtNDk4cS0xOCAtMTEgLTMwLjUgLTR0LTEyLjUgMjh2MTAwMHEwIDIxIDEyLjUgMjh0MzAuNSAtNHoiIC8%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDc5OyIgZD0iTTg4NSA5MDBsLTM1MiAtMzUzbDM1MiAtMzUzbC0xOTcgLTE5OGwtNTUyIDU1Mmw1NTIgNTUweiIgLz4KPGdseXBoIHVuaWNvZGU9IiYjeGUwODA7IiBkPSJNMTA2NCA1NDdsLTU1MSAtNTUxbC0xOTggMTk4bDM1MyAzNTNsLTM1MyAzNTNsMTk4IDE5OHoiIC8%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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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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDk2OyIgZD0iTTg1MCAxMjAwaDMwMHEyMSAwIDM1LjUgLTE0LjV0MTQuNSAtMzUuNXYtMzAwcTAgLTIxIC0xMC41IC0yNXQtMjQuNSAxMGwtOTQgOTRsLTI0OSAtMjQ5cS04IC03IC0xOCAtN3QtMTggN2wtMTA2IDEwNnEtNyA4IC03IDE4dDcgMThsMjQ5IDI0OWwtOTQgOTRxLTE0IDE0IC0xMCAyNC41dDI1IDEwLjV6TTM1MCAwaC0zMDBxLTIxIDAgLTM1LjUgMTQuNXQtMTQuNSAzNS41djMwMHEwIDIxIDEwLjUgMjV0MjQuNSAtMTBsOTQgLTk0bDI0OSAyNDkgcTggNyAxOCA3dDE4IC03bDEwNiAtMTA2cTcgLTggNyAtMTh0LTcgLTE4bC0yNDkgLTI0OWw5NCAtOTRxMTQgLTE0IDEwIC0yNC41dC0yNSAtMTAuNXoiIC8%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMDk3OyIgZD0iTTEwMTQgMTEyMGwxMDYgLTEwNnE3IC04IDcgLTE4dC03IC0xOGwtMjQ5IC0yNDlsOTQgLTk0cTE0IC0xNCAxMCAtMjQuNXQtMjUgLTEwLjVoLTMwMHEtMjEgMCAtMzUuNSAxNC41dC0xNC41IDM1LjV2MzAwcTAgMjEgMTAuNSAyNXQyNC41IC0xMGw5NCAtOTRsMjQ5IDI0OXE4IDcgMTggN3QxOCAtN3pNMjUwIDYwMGgzMDBxMjEgMCAzNS41IC0xNC41dDE0LjUgLTM1LjV2LTMwMHEwIC0yMSAtMTAuNSAtMjV0LTI0LjUgMTBsLTk0IDk0IGwtMjQ5IC0yNDlxLTggLTcgLTE4IC03dC0xOCA3bC0xMDYgMTA2cS03IDggLTcgMTh0NyAxOGwyNDkgMjQ5bC05NCA5NHEtMTQgMTQgLTEwIDI0LjV0MjUgMTAuNXoiIC8%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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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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMTMyOyIgZD0iTTYwMCAxMTc4cTExOCAwIDIyNSAtNDUuNXQxODQuNSAtMTIzdDEyMyAtMTg0LjV0NDUuNSAtMjI1dC00NS41IC0yMjV0LTEyMyAtMTg0LjV0LTE4NC41IC0xMjN0LTIyNSAtNDUuNXQtMjI1IDQ1LjV0LTE4NC41IDEyM3QtMTIzIDE4NC41dC00NS41IDIyNXQ0NS41IDIyNXQxMjMgMTg0LjV0MTg0LjUgMTIzdDIyNSA0NS41ek01NjEgODU1bC0yNzUgLTIyM3EtMTYgLTEzIC0xNiAtMzJ0MTYgLTMybDI3NSAtMjIzcTE2IC0xMyAyNy41IC04IHQxMS41IDI2djEzN2gyNzVxMTAgMCAxNy41IDcuNXQ3LjUgMTcuNXYxNTBxMCAxMCAtNy41IDE3LjV0LTE3LjUgNy41aC0yNzV2MTM3cTAgMjEgLTExLjUgMjZ0LTI3LjUgLTh6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTEzMzsiIGQ9Ik02MDAgMTE3OHExMTggMCAyMjUgLTQ1LjV0MTg0LjUgLTEyM3QxMjMgLTE4NC41dDQ1LjUgLTIyNXQtNDUuNSAtMjI1dC0xMjMgLTE4NC41dC0xODQuNSAtMTIzdC0yMjUgLTQ1LjV0LTIyNSA0NS41dC0xODQuNSAxMjN0LTEyMyAxODQuNXQtNDUuNSAyMjV0NDUuNSAyMjV0MTIzIDE4NC41dDE4NC41IDEyM3QyMjUgNDUuNXpNODU1IDYzOWwtMjIzIDI3NXEtMTMgMTYgLTMyIDE2dC0zMiAtMTZsLTIyMyAtMjc1cS0xMyAtMTYgLTggLTI3LjUgdDI2IC0xMS41aDEzN3YtMjc1cTAgLTEwIDcuNSAtMTcuNXQxNy41IC03LjVoMTUwcTEwIDAgMTcuNSA3LjV0Ny41IDE3LjV2Mjc1aDEzN3EyMSAwIDI2IDExLjV0LTggMjcuNXoiIC8%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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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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMTk5OyIgZD0iTTcwMCAxMDB2MTAwaDQwMGwtMjcwIDMwMGgxNzBsLTI3MCAzMDBoMTcwbC0zMDAgMzMzbC0zMDAgLTMzM2gxNzBsLTI3MCAtMzAwaDE3MGwtMjcwIC0zMDBoNDAwdi0xMDBoLTUwcS0yMSAwIC0zNS41IC0xNC41dC0xNC41IC0zNS41di01MGg0MDB2NTBxMCAyMSAtMTQuNSAzNS41dC0zNS41IDE0LjVoLTUweiIgLz4KPGdseXBoIHVuaWNvZGU9IiYjeGUyMDA7IiBkPSJNNjAwIDExNzlxOTQgMCAxNjcuNSAtNTYuNXQ5OS41IC0xNDUuNXE4OSAtNiAxNTAuNSAtNzEuNXQ2MS41IC0xNTUuNXEwIC02MSAtMjkuNSAtMTEyLjV0LTc5LjUgLTgyLjVxOSAtMjkgOSAtNTVxMCAtNzQgLTUyLjUgLTEyNi41dC0xMjYuNSAtNTIuNXEtNTUgMCAtMTAwIDMwdi0yNTFxMjEgMCAzNS41IC0xNC41dDE0LjUgLTM1LjV2LTUwaC0zMDB2NTBxMCAyMSAxNC41IDM1LjV0MzUuNSAxNC41djI1MXEtNDUgLTMwIC0xMDAgLTMwIHEtNzQgMCAtMTI2LjUgNTIuNXQtNTIuNSAxMjYuNXEwIDE4IDQgMzhxLTQ3IDIxIC03NS41IDY1dC0yOC41IDk3cTAgNzQgNTIuNSAxMjYuNXQxMjYuNSA1Mi41cTUgMCAyMyAtMnEwIDIgLTEgMTB0LTEgMTNxMCAxMTYgODEuNSAxOTcuNXQxOTcuNSA4MS41eiIgLz4KPGdseXBoIHVuaWNvZGU9IiYjeGUyMDE7IiBkPSJNMTAxMCAxMDEwcTExMSAtMTExIDE1MC41IC0yNjAuNXQwIC0yOTl0LTE1MC41IC0yNjAuNXEtODMgLTgzIC0xOTEuNSAtMTI2LjV0LTIxOC41IC00My41dC0yMTguNSA0My41dC0xOTEuNSAxMjYuNXEtMTExIDExMSAtMTUwLjUgMjYwLjV0MCAyOTl0MTUwLjUgMjYwLjVxODMgODMgMTkxLjUgMTI2LjV0MjE4LjUgNDMuNXQyMTguNSAtNDMuNXQxOTEuNSAtMTI2LjV6TTQ3NiAxMDY1cS00IDAgLTggLTFxLTEyMSAtMzQgLTIwOS41IC0xMjIuNSB0LTEyMi41IC0yMDkuNXEtNCAtMTIgMi41IC0yM3QxOC41IC0xNGwzNiAtOXEzIC0xIDcgLTFxMjMgMCAyOSAyMnEyNyA5NiA5OCAxNjZxNzAgNzEgMTY2IDk4cTExIDMgMTcuNSAxMy41dDMuNSAyMi41bC05IDM1cS0zIDEzIC0xNCAxOXEtNyA0IC0xNSA0ek01MTIgOTIwcS00IDAgLTkgLTJxLTgwIC0yNCAtMTM4LjUgLTgyLjV0LTgyLjUgLTEzOC41cS00IC0xMyAyIC0yNHQxOSAtMTRsMzQgLTlxNCAtMSA4IC0xcTIyIDAgMjggMjEgcTE4IDU4IDU4LjUgOTguNXQ5Ny41IDU4LjVxMTIgMyAxOCAxMy41dDMgMjEuNWwtOSAzNXEtMyAxMiAtMTQgMTlxLTcgNCAtMTUgNHpNNzE5LjUgNzE5LjVxLTQ5LjUgNDkuNSAtMTE5LjUgNDkuNXQtMTE5LjUgLTQ5LjV0LTQ5LjUgLTExOS41dDQ5LjUgLTExOS41dDExOS41IC00OS41dDExOS41IDQ5LjV0NDkuNSAxMTkuNXQtNDkuNSAxMTkuNXpNODU1IDU1MXEtMjIgMCAtMjggLTIxcS0xOCAtNTggLTU4LjUgLTk4LjV0LTk4LjUgLTU3LjUgcS0xMSAtNCAtMTcgLTE0LjV0LTMgLTIxLjVsOSAtMzVxMyAtMTIgMTQgLTE5cTcgLTQgMTUgLTRxNCAwIDkgMnE4MCAyNCAxMzguNSA4Mi41dDgyLjUgMTM4LjVxNCAxMyAtMi41IDI0dC0xOC41IDE0bC0zNCA5cS00IDEgLTggMXpNMTAwMCA1MTVxLTIzIDAgLTI5IC0yMnEtMjcgLTk2IC05OCAtMTY2cS03MCAtNzEgLTE2NiAtOThxLTExIC0zIC0xNy41IC0xMy41dC0zLjUgLTIyLjVsOSAtMzVxMyAtMTMgMTQgLTE5cTcgLTQgMTUgLTQgcTQgMCA4IDFxMTIxIDM0IDIwOS41IDEyMi41dDEyMi41IDIwOS41cTQgMTIgLTIuNSAyM3QtMTguNSAxNGwtMzYgOXEtMyAxIC03IDF6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTIwMjsiIGQ9Ik03MDAgODAwaDMwMHYtMzgwaC0xODB2MjAwaC0zNDB2LTIwMGgtMzgwdjc1NXEwIDEwIDcuNSAxNy41dDE3LjUgNy41aDU3NXYtNDAwek0xMDAwIDkwMGgtMjAwdjIwMHpNNzAwIDMwMGgxNjJsLTIxMiAtMjEybC0yMTIgMjEyaDE2MnYyMDBoMTAwdi0yMDB6TTUyMCAwaC0zOTVxLTEwIDAgLTE3LjUgNy41dC03LjUgMTcuNXYzOTV6TTEwMDAgMjIwdi0xOTVxMCAtMTAgLTcuNSAtMTcuNXQtMTcuNSAtNy41aC0xOTV6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTIwMzsiIGQ9Ik03MDAgODAwaDMwMHYtNTIwbC0zNTAgMzUwbC01NTAgLTU1MHYxMDk1cTAgMTAgNy41IDE3LjV0MTcuNSA3LjVoNTc1di00MDB6TTEwMDAgOTAwaC0yMDB2MjAwek04NjIgMjAwaC0xNjJ2LTIwMGgtMTAwdjIwMGgtMTYybDIxMiAyMTJ6TTQ4MCAwaC0zNTVxLTEwIDAgLTE3LjUgNy41dC03LjUgMTcuNXY1NWgzODB2LTgwek0xMDAwIDgwdi01NXEwIC0xMCAtNy41IC0xNy41dC0xNy41IC03LjVoLTE1NXY4MGgxODB6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTIwNDsiIGQ9Ik0xMTYyIDgwMGgtMTYydi0yMDBoMTAwbDEwMCAtMTAwaC0zMDB2MzAwaC0xNjJsMjEyIDIxMnpNMjAwIDgwMGgyMDBxMjcgMCA0MCAtMnQyOS41IC0xMC41dDIzLjUgLTMwdDcgLTU3LjVoMzAwdi0xMDBoLTYwMGwtMjAwIC0zNTB2NDUwaDEwMHEwIDM2IDcgNTcuNXQyMy41IDMwdDI5LjUgMTAuNXQ0MCAyek04MDAgNDAwaDI0MGwtMjQwIC00MDBoLTgwMGwzMDAgNTAwaDUwMHYtMTAweiIgLz4KPGdseXBoIHVuaWNvZGU9IiYjeGUyMDU7IiBkPSJNNjUwIDExMDBoMTAwcTIxIDAgMzUuNSAtMTQuNXQxNC41IC0zNS41di01MGg1MHEyMSAwIDM1LjUgLTE0LjV0MTQuNSAtMzUuNXYtMTAwcTAgLTIxIC0xNC41IC0zNS41dC0zNS41IC0xNC41aC0zMDBxLTIxIDAgLTM1LjUgMTQuNXQtMTQuNSAzNS41djEwMHEwIDIxIDE0LjUgMzUuNXQzNS41IDE0LjVoNTB2NTBxMCAyMSAxNC41IDM1LjV0MzUuNSAxNC41ek0xMDAwIDg1MHYxNTBxNDEgMCA3MC41IC0yOS41dDI5LjUgLTcwLjV2LTgwMCBxMCAtNDEgLTI5LjUgLTcwLjV0LTcwLjUgLTI5LjVoLTYwMHEtMSAwIC0yMCA0bDI0NiAyNDZsLTMyNiAzMjZ2MzI0cTAgNDEgMjkuNSA3MC41dDcwLjUgMjkuNXYtMTUwcTAgLTYyIDQ0IC0xMDZ0MTA2IC00NGgzMDBxNjIgMCAxMDYgNDR0NDQgMTA2ek00MTIgMjUwbC0yMTIgLTIxMnYxNjJoLTIwMHYxMDBoMjAwdjE2MnoiIC8%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%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMjIxOyIgZD0iTTQ4MCAxMTY1bDY4MiAtNjgzcTMxIC0zMSAzMSAtNzUuNXQtMzEgLTc1LjVsLTEzMSAtMTMxaC00ODFsLTUxNyA1MThxLTMyIDMxIC0zMiA3NS41dDMyIDc1LjVsMjk1IDI5NnEzMSAzMSA3NS41IDMxdDc2LjUgLTMxek0xMDggNzk0bDM0MiAtMzQybDMwMyAzMDRsLTM0MSAzNDF6TTI1MCAxMDBoODAwcTIxIDAgMzUuNSAtMTQuNXQxNC41IC0zNS41di01MGgtOTAwdjUwcTAgMjEgMTQuNSAzNS41dDM1LjUgMTQuNXoiIC8%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMjI3OyIgZD0iTTYyNSAxMjAwaDE1MHExMCAwIDE3LjUgLTcuNXQ3LjUgLTE3LjV2LTEwOXE3OSAtMzMgMTMxIC04Ny41dDUzIC0xMjguNXExIC00NiAtMTUgLTg0LjV0LTM5IC02MXQtNDYgLTM4dC0zOSAtMjEuNWwtMTcgLTZxNiAwIDE1IC0xLjV0MzUgLTl0NTAgLTE3LjV0NTMgLTMwdDUwIC00NXQzNS41IC02NHQxNC41IC04NHEwIC01OSAtMTEuNSAtMTA1LjV0LTI4LjUgLTc2LjV0LTQ0IC01MXQtNDkuNSAtMzEuNXQtNTQuNSAtMTZ0LTQ5LjUgLTYuNSB0LTQzLjUgLTF2LTc1cTAgLTEwIC03LjUgLTE3LjV0LTE3LjUgLTcuNWgtMTUwcS0xMCAwIC0xNy41IDcuNXQtNy41IDE3LjV2NzVoLTEwMHYtNzVxMCAtMTAgLTcuNSAtMTcuNXQtMTcuNSAtNy41aC0xNTBxLTEwIDAgLTE3LjUgNy41dC03LjUgMTcuNXY3NWgtMTc1cS0xMCAwIC0xNy41IDcuNXQtNy41IDE3LjV2MTUwcTAgMTAgNy41IDE3LjV0MTcuNSA3LjVoNzV2NjAwaC03NXEtMTAgMCAtMTcuNSA3LjV0LTcuNSAxNy41djE1MCBxMCAxMCA3LjUgMTcuNXQxNy41IDcuNWgxNzV2NzVxMCAxMCA3LjUgMTcuNXQxNy41IDcuNWgxNTBxMTAgMCAxNy41IC03LjV0Ny41IC0xNy41di03NWgxMDB2NzVxMCAxMCA3LjUgMTcuNXQxNy41IDcuNXpNNDAwIDkwMHYtMjAwaDI2M3EyOCAwIDQ4LjUgMTAuNXQzMCAyNXQxNSAyOXQ1LjUgMjUuNWwxIDEwcTAgNCAtMC41IDExdC02IDI0dC0xNSAzMHQtMzAgMjR0LTQ4LjUgMTFoLTI2M3pNNDAwIDUwMHYtMjAwaDM2M3EyOCAwIDQ4LjUgMTAuNSB0MzAgMjV0MTUgMjl0NS41IDI1LjVsMSAxMHEwIDQgLTAuNSAxMXQtNiAyNHQtMTUgMzB0LTMwIDI0dC00OC41IDExaC0zNjN6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTIzMDsiIGQ9Ik0yMTIgMTE5OGg3ODBxODYgMCAxNDcgLTYxdDYxIC0xNDd2LTQxNnEwIC01MSAtMTggLTE0Mi41dC0zNiAtMTU3LjVsLTE4IC02NnEtMjkgLTg3IC05My41IC0xNDYuNXQtMTQ2LjUgLTU5LjVoLTU3MnEtODIgMCAtMTQ3IDU5dC05MyAxNDdxLTggMjggLTIwIDczdC0zMiAxNDMuNXQtMjAgMTQ5LjV2NDE2cTAgODYgNjEgMTQ3dDE0NyA2MXpNNjAwIDEwNDVxLTcwIDAgLTEzMi41IC0xMS41dC0xMDUuNSAtMzAuNXQtNzguNSAtNDEuNSB0LTU3IC00NXQtMzYgLTQxdC0yMC41IC0zMC41bC02IC0xMmwxNTYgLTI0M2g1NjBsMTU2IDI0M3EtMiA1IC02IDEyLjV0LTIwIDI5LjV0LTM2LjUgNDJ0LTU3IDQ0LjV0LTc5IDQydC0xMDUgMjkuNXQtMTMyLjUgMTJ6TTc2MiA3MDNoLTE1N2wxOTUgMjYxeiIgLz4KPGdseXBoIHVuaWNvZGU9IiYjeGUyMzE7IiBkPSJNNDc1IDEzMDBoMTUwcTEwMyAwIDE4OSAtODZ0ODYgLTE4OXYtNTAwcTAgLTQxIC00MiAtODN0LTgzIC00MmgtNDUwcS00MSAwIC04MyA0MnQtNDIgODN2NTAwcTAgMTAzIDg2IDE4OXQxODkgODZ6TTcwMCAzMDB2LTIyNXEwIC0yMSAtMjcgLTQ4dC00OCAtMjdoLTE1MHEtMjEgMCAtNDggMjd0LTI3IDQ4djIyNWgzMDB6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTIzMjsiIGQ9Ik00NzUgMTMwMGg5NnEwIC0xNTAgODkuNSAtMjM5LjV0MjM5LjUgLTg5LjV2LTQ0NnEwIC00MSAtNDIgLTgzdC04MyAtNDJoLTQ1MHEtNDEgMCAtODMgNDJ0LTQyIDgzdjUwMHEwIDEwMyA4NiAxODl0MTg5IDg2ek03MDAgMzAwdi0yMjVxMCAtMjEgLTI3IC00OHQtNDggLTI3aC0xNTBxLTIxIDAgLTQ4IDI3dC0yNyA0OHYyMjVoMzAweiIgLz4KPGdseXBoIHVuaWNvZGU9IiYjeGUyMzM7IiBkPSJNMTI5NCA3NjdsLTYzOCAtMjgzbC0zNzggMTcwbC03OCAtNjB2LTIyNGwxMDAgLTE1MHYtMTk5bC0xNTAgMTQ4bC0xNTAgLTE0OXYyMDBsMTAwIDE1MHYyNTBxMCA0IC0wLjUgMTAuNXQwIDkuNXQxIDh0MyA4dDYuNSA2bDQ3IDQwbC0xNDcgNjVsNjQyIDI4M3pNMTAwMCAzODBsLTM1MCAtMTY2bC0zNTAgMTY2djE0N2wzNTAgLTE2NWwzNTAgMTY1di0xNDd6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTIzNDsiIGQ9Ik0yNTAgODAwcTYyIDAgMTA2IC00NHQ0NCAtMTA2dC00NCAtMTA2dC0xMDYgLTQ0dC0xMDYgNDR0LTQ0IDEwNnQ0NCAxMDZ0MTA2IDQ0ek02NTAgODAwcTYyIDAgMTA2IC00NHQ0NCAtMTA2dC00NCAtMTA2dC0xMDYgLTQ0dC0xMDYgNDR0LTQ0IDEwNnQ0NCAxMDZ0MTA2IDQ0ek0xMDUwIDgwMHE2MiAwIDEwNiAtNDR0NDQgLTEwNnQtNDQgLTEwNnQtMTA2IC00NHQtMTA2IDQ0dC00NCAxMDZ0NDQgMTA2dDEwNiA0NHoiIC8%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%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%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%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%2BCjxnbHlwaCB1bmljb2RlPSImI3hlMjQ2OyIgZD0iTTUwIDEwMDBoNDAwcTIxIDAgMzUuNSAtMTQuNXQxNC41IC0zNS41di0zNTBoMTAwdjE1MHEwIDIxIDE0LjUgMzUuNXQzNS41IDE0LjVoNDAwcTIxIDAgMzUuNSAtMTQuNXQxNC41IC0zNS41di0xNTBoMTAwdi0xMDBoLTEwMHYtMTUwcTAgLTIxIC0xNC41IC0zNS41dC0zNS41IC0xNC41aC00MDBxLTIxIDAgLTM1LjUgMTQuNXQtMTQuNSAzNS41djE1MGgtMTAwdi0zNTBxMCAtMjEgLTE0LjUgLTM1LjV0LTM1LjUgLTE0LjVoLTQwMCBxLTIxIDAgLTM1LjUgMTQuNXQtMTQuNSAzNS41djgwMHEwIDIxIDE0LjUgMzUuNXQzNS41IDE0LjV6TTcwMCA3MDB2LTMwMGgzMDB2MzAwaC0zMDB6IiAvPgo8Z2x5cGggdW5pY29kZT0iJiN4ZTI0NzsiIGQ9Ik0xMDAgMGgtMTAwdjEyMDBoMTAwdi0xMjAwek0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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);
    }
  });

})();
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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,
f,g,h){if(a===f){e=c.idx;b.removeClass(d.sSortAsc+" "+d.sSortDesc).addClass(h[e]=="asc"?d.sSortAsc:h[e]=="desc"?d.sSortDesc:c.sSortingClass);b.find("span."+d.sSortIcon).removeClass(d.sSortJUIAsc+" "+d.sSortJUIDesc+" "+d.sSortJUI+" "+d.sSortJUIAscAllowed+" "+d.sSortJUIDescAllowed).addClass(h[e]=="asc"?d.sSortJUIAsc:h[e]=="desc"?d.sSortJUIDesc:c.sSortingClassJUI)}})}}});var Yb=function(a){return"string"===typeof a?a.replace(/</g,"&lt;").replace(/>/g,"&gt;").replace(/"/g,"&quot;"):a};m.render={number:function(a,
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 FixedColumns 3.2.2
 ©2010-2016 SpryMedia Ltd - datatables.net/license
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(function(d){"function"===typeof define&&define.amd?define(["jquery","datatables.net"],function(q){return d(q,window,document)}):"object"===typeof exports?module.exports=function(q,r){q||(q=window);if(!r||!r.fn.dataTable)r=require("datatables.net")(q,r).$;return d(r,q,q.document)}:d(jQuery,window,document)})(function(d,q,r,t){var s=d.fn.dataTable,u,m=function(a,b){var c=this;if(this instanceof m){if(b===t||!0===b)b={};var e=d.fn.dataTable.camelToHungarian;e&&(e(m.defaults,m.defaults,!0),e(m.defaults,
b));e=(new d.fn.dataTable.Api(a)).settings()[0];this.s={dt:e,iTableColumns:e.aoColumns.length,aiOuterWidths:[],aiInnerWidths:[],rtl:"rtl"===d(e.nTable).css("direction")};this.dom={scroller:null,header:null,body:null,footer:null,grid:{wrapper:null,dt:null,left:{wrapper:null,head:null,body:null,foot:null},right:{wrapper:null,head:null,body:null,foot:null}},clone:{left:{header:null,body:null,footer:null},right:{header:null,body:null,footer:null}}};if(e._oFixedColumns)throw"FixedColumns already initialised on this table";
e._oFixedColumns=this;e._bInitComplete?this._fnConstruct(b):e.oApi._fnCallbackReg(e,"aoInitComplete",function(){c._fnConstruct(b)},"FixedColumns")}else alert("FixedColumns warning: FixedColumns must be initialised with the 'new' keyword.")};d.extend(m.prototype,{fnUpdate:function(){this._fnDraw(!0)},fnRedrawLayout:function(){this._fnColCalc();this._fnGridLayout();this.fnUpdate()},fnRecalculateHeight:function(a){delete a._DTTC_iHeight;a.style.height="auto"},fnSetRowHeight:function(a,b){a.style.height=
b+"px"},fnGetPosition:function(a){var b=this.s.dt.oInstance;if(d(a).parents(".DTFC_Cloned").length){if("tr"===a.nodeName.toLowerCase())return a=d(a).index(),b.fnGetPosition(d("tr",this.s.dt.nTBody)[a]);var c=d(a).index(),a=d(a.parentNode).index();return[b.fnGetPosition(d("tr",this.s.dt.nTBody)[a]),c,b.oApi._fnVisibleToColumnIndex(this.s.dt,c)]}return b.fnGetPosition(a)},_fnConstruct:function(a){var b=this;if("function"!=typeof this.s.dt.oInstance.fnVersionCheck||!0!==this.s.dt.oInstance.fnVersionCheck("1.8.0"))alert("FixedColumns "+
m.VERSION+" required DataTables 1.8.0 or later. Please upgrade your DataTables installation");else if(""===this.s.dt.oScroll.sX)this.s.dt.oInstance.oApi._fnLog(this.s.dt,1,"FixedColumns is not needed (no x-scrolling in DataTables enabled), so no action will be taken. Use 'FixedHeader' for column fixing when scrolling is not enabled");else{this.s=d.extend(!0,this.s,m.defaults,a);a=this.s.dt.oClasses;this.dom.grid.dt=d(this.s.dt.nTable).parents("div."+a.sScrollWrapper)[0];this.dom.scroller=d("div."+
a.sScrollBody,this.dom.grid.dt)[0];this._fnColCalc();this._fnGridSetup();var c,e=!1;d(this.s.dt.nTableWrapper).on("mousedown.DTFC",function(){e=!0;d(r).one("mouseup",function(){e=!1})});d(this.dom.scroller).on("mouseover.DTFC touchstart.DTFC",function(){e||(c="main")}).on("scroll.DTFC",function(a){!c&&a.originalEvent&&(c="main");if("main"===c&&(0<b.s.iLeftColumns&&(b.dom.grid.left.liner.scrollTop=b.dom.scroller.scrollTop),0<b.s.iRightColumns))b.dom.grid.right.liner.scrollTop=b.dom.scroller.scrollTop});
var f="onwheel"in r.createElement("div")?"wheel.DTFC":"mousewheel.DTFC";if(0<b.s.iLeftColumns)d(b.dom.grid.left.liner).on("mouseover.DTFC touchstart.DTFC",function(){e||(c="left")}).on("scroll.DTFC",function(a){!c&&a.originalEvent&&(c="left");"left"===c&&(b.dom.scroller.scrollTop=b.dom.grid.left.liner.scrollTop,0<b.s.iRightColumns&&(b.dom.grid.right.liner.scrollTop=b.dom.grid.left.liner.scrollTop))}).on(f,function(a){b.dom.scroller.scrollLeft-="wheel"===a.type?-a.originalEvent.deltaX:a.originalEvent.wheelDeltaX});
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var g=!0,h=d(this.s.dt.nTable);h.on("draw.dt.DTFC",function(){b._fnColCalc();b._fnDraw.call(b,g);g=!1}).on("column-sizing.dt.DTFC",function(){b._fnColCalc();b._fnGridLayout(b)}).on("column-visibility.dt.DTFC",function(a,c,d,e,f){if(f===t||f)b._fnColCalc(),b._fnGridLayout(b),b._fnDraw(!0)}).on("select.dt.DTFC deselect.dt.DTFC",function(a){"dt"===a.namespace&&b._fnDraw(!1)}).on("destroy.dt.DTFC",function(){h.off(".DTFC");d(b.dom.scroller).off(".DTFC");d(q).off(".DTFC");d(b.s.dt.nTableWrapper).off(".DTFC");
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typeof h?1:parseInt(h,10));a.s.aiOuterWidths.length===a.s.dt.aoColumns.length-1&&(h=d(a.s.dt.nTable).css("border-right-width"),i+="string"===typeof h?1:parseInt(h,10));a.s.aiOuterWidths.push(i);a.s.aiInnerWidths.push(g.width());e<a.s.iLeftColumns&&(b+=i);a.s.iTableColumns-a.s.iRightColumns<=e&&(c+=i)}else a.s.aiInnerWidths.push(0),a.s.aiOuterWidths.push(0)});this.s.iLeftWidth=b;this.s.iRightWidth=c},_fnGridSetup:function(){var a=this._fnDTOverflow(),b;this.dom.body=this.s.dt.nTable;this.dom.header=
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e=c.childNodes[0],f=c.childNodes[1];this.dom.grid.dt.parentNode.insertBefore(c,this.dom.grid.dt);c.appendChild(this.dom.grid.dt);this.dom.grid.wrapper=c;0<this.s.iLeftColumns&&(this.dom.grid.left.wrapper=e,this.dom.grid.left.head=e.childNodes[0],this.dom.grid.left.body=e.childNodes[1],this.dom.grid.left.liner=d("div.DTFC_LeftBodyLiner",c)[0],c.appendChild(e));0<this.s.iRightColumns&&(this.dom.grid.right.wrapper=f,this.dom.grid.right.head=f.childNodes[0],this.dom.grid.right.body=f.childNodes[1],this.dom.grid.right.liner=
d("div.DTFC_RightBodyLiner",c)[0],f.style.right=a.bar+"px",b=d("div.DTFC_RightHeadBlocker",c)[0],b.style.width=a.bar+"px",b.style.right=-a.bar+"px",this.dom.grid.right.headBlock=b,b=d("div.DTFC_RightFootBlocker",c)[0],b.style.width=a.bar+"px",b.style.right=-a.bar+"px",this.dom.grid.right.footBlock=b,c.appendChild(f));if(this.s.dt.nTFoot&&(this.dom.footer=this.s.dt.nTFoot.parentNode,0<this.s.iLeftColumns&&(this.dom.grid.left.foot=e.childNodes[2]),0<this.s.iRightColumns))this.dom.grid.right.foot=f.childNodes[2];
this.s.rtl&&d("div.DTFC_RightHeadBlocker",c).css({left:-a.bar+"px",right:""})},_fnGridLayout:function(){var a=this,b=this.dom.grid;d(b.wrapper).width();var c=d(this.s.dt.nTable.parentNode).outerHeight(),e=d(this.s.dt.nTable.parentNode.parentNode).outerHeight(),f=this._fnDTOverflow(),g=this.s.iLeftWidth,h=this.s.iRightWidth,i="rtl"===d(this.dom.body).css("direction"),j=function(b,c){f.bar?a._firefoxScrollError()?34<d(b).height()&&(b.style.width=c+f.bar+"px"):b.style.width=c+f.bar+"px":(b.style.width=
c+20+"px",b.style.paddingRight="20px",b.style.boxSizing="border-box")};f.x&&(c-=f.bar);b.wrapper.style.height=e+"px";0<this.s.iLeftColumns&&(e=b.left.wrapper,e.style.width=g+"px",e.style.height="1px",i?(e.style.left="",e.style.right=0):(e.style.left=0,e.style.right=""),b.left.body.style.height=c+"px",b.left.foot&&(b.left.foot.style.top=(f.x?f.bar:0)+"px"),j(b.left.liner,g),b.left.liner.style.height=c+"px");0<this.s.iRightColumns&&(e=b.right.wrapper,e.style.width=h+"px",e.style.height="1px",this.s.rtl?
(e.style.left=f.y?f.bar+"px":0,e.style.right=""):(e.style.left="",e.style.right=f.y?f.bar+"px":0),b.right.body.style.height=c+"px",b.right.foot&&(b.right.foot.style.top=(f.x?f.bar:0)+"px"),j(b.right.liner,h),b.right.liner.style.height=c+"px",b.right.headBlock.style.display=f.y?"block":"none",b.right.footBlock.style.display=f.y?"block":"none")},_fnDTOverflow:function(){var a=this.s.dt.nTable,b=a.parentNode,c={x:!1,y:!1,bar:this.s.dt.oScroll.iBarWidth};a.offsetWidth>b.clientWidth&&(c.x=!0);a.offsetHeight>
b.clientHeight&&(c.y=!0);return c},_fnDraw:function(a){this._fnGridLayout();this._fnCloneLeft(a);this._fnCloneRight(a);null!==this.s.fnDrawCallback&&this.s.fnDrawCallback.call(this,this.dom.clone.left,this.dom.clone.right);d(this).trigger("draw.dtfc",{leftClone:this.dom.clone.left,rightClone:this.dom.clone.right})},_fnCloneRight:function(a){if(!(0>=this.s.iRightColumns)){var b,c=[];for(b=this.s.iTableColumns-this.s.iRightColumns;b<this.s.iTableColumns;b++)this.s.dt.aoColumns[b].bVisible&&c.push(b);
this._fnClone(this.dom.clone.right,this.dom.grid.right,c,a)}},_fnCloneLeft:function(a){if(!(0>=this.s.iLeftColumns)){var b,c=[];for(b=0;b<this.s.iLeftColumns;b++)this.s.dt.aoColumns[b].bVisible&&c.push(b);this._fnClone(this.dom.clone.left,this.dom.grid.left,c,a)}},_fnCopyLayout:function(a,b,c){for(var e=[],f=[],g=[],h=0,i=a.length;h<i;h++){var j=[];j.nTr=d(a[h].nTr).clone(c,!1)[0];for(var l=0,o=this.s.iTableColumns;l<o;l++)if(-1!==d.inArray(l,b)){var p=d.inArray(a[h][l].cell,g);-1===p?(p=d(a[h][l].cell).clone(c,
!1)[0],f.push(p),g.push(a[h][l].cell),j.push({cell:p,unique:a[h][l].unique})):j.push({cell:f[p],unique:a[h][l].unique})}e.push(j)}return e},_fnClone:function(a,b,c,e){var f=this,g,h,i,j,l,o,p,n,m,k=this.s.dt;if(e){d(a.header).remove();a.header=d(this.dom.header).clone(!0,!1)[0];a.header.className+=" DTFC_Cloned";a.header.style.width="100%";b.head.appendChild(a.header);n=this._fnCopyLayout(k.aoHeader,c,!0);j=d(">thead",a.header);j.empty();g=0;for(h=n.length;g<h;g++)j[0].appendChild(n[g].nTr);k.oApi._fnDrawHead(k,
n,!0)}else{n=this._fnCopyLayout(k.aoHeader,c,!1);m=[];k.oApi._fnDetectHeader(m,d(">thead",a.header)[0]);g=0;for(h=n.length;g<h;g++){i=0;for(j=n[g].length;i<j;i++)m[g][i].cell.className=n[g][i].cell.className,d("span.DataTables_sort_icon",m[g][i].cell).each(function(){this.className=d("span.DataTables_sort_icon",n[g][i].cell)[0].className})}}this._fnEqualiseHeights("thead",this.dom.header,a.header);"auto"==this.s.sHeightMatch&&d(">tbody>tr",f.dom.body).css("height","auto");null!==a.body&&(d(a.body).remove(),
a.body=null);a.body=d(this.dom.body).clone(!0)[0];a.body.className+=" DTFC_Cloned";a.body.style.paddingBottom=k.oScroll.iBarWidth+"px";a.body.style.marginBottom=2*k.oScroll.iBarWidth+"px";null!==a.body.getAttribute("id")&&a.body.removeAttribute("id");d(">thead>tr",a.body).empty();d(">tfoot",a.body).remove();var q=d("tbody",a.body)[0];d(q).empty();if(0<k.aiDisplay.length){h=d(">thead>tr",a.body)[0];for(p=0;p<c.length;p++)l=c[p],o=d(k.aoColumns[l].nTh).clone(!0)[0],o.innerHTML="",j=o.style,j.paddingTop=
"0",j.paddingBottom="0",j.borderTopWidth="0",j.borderBottomWidth="0",j.height=0,j.width=f.s.aiInnerWidths[l]+"px",h.appendChild(o);d(">tbody>tr",f.dom.body).each(function(a){var a=f.s.dt.oFeatures.bServerSide===false?f.s.dt.aiDisplay[f.s.dt._iDisplayStart+a]:a,b=f.s.dt.aoData[a].anCells||d(this).children("td, th"),e=this.cloneNode(false);e.removeAttribute("id");e.setAttribute("data-dt-row",a);for(p=0;p<c.length;p++){l=c[p];if(b.length>0){o=d(b[l]).clone(true,true)[0];o.setAttribute("data-dt-row",
a);o.setAttribute("data-dt-column",p);e.appendChild(o)}}q.appendChild(e)})}else d(">tbody>tr",f.dom.body).each(function(){o=this.cloneNode(true);o.className=o.className+" DTFC_NoData";d("td",o).html("");q.appendChild(o)});a.body.style.width="100%";a.body.style.margin="0";a.body.style.padding="0";k.oScroller!==t&&(h=k.oScroller.dom.force,b.forcer?b.forcer.style.height=h.style.height:(b.forcer=h.cloneNode(!0),b.liner.appendChild(b.forcer)));b.liner.appendChild(a.body);this._fnEqualiseHeights("tbody",
f.dom.body,a.body);if(null!==k.nTFoot){if(e){null!==a.footer&&a.footer.parentNode.removeChild(a.footer);a.footer=d(this.dom.footer).clone(!0,!0)[0];a.footer.className+=" DTFC_Cloned";a.footer.style.width="100%";b.foot.appendChild(a.footer);n=this._fnCopyLayout(k.aoFooter,c,!0);b=d(">tfoot",a.footer);b.empty();g=0;for(h=n.length;g<h;g++)b[0].appendChild(n[g].nTr);k.oApi._fnDrawHead(k,n,!0)}else{n=this._fnCopyLayout(k.aoFooter,c,!1);b=[];k.oApi._fnDetectHeader(b,d(">tfoot",a.footer)[0]);g=0;for(h=n.length;g<
h;g++){i=0;for(j=n[g].length;i<j;i++)b[g][i].cell.className=n[g][i].cell.className}}this._fnEqualiseHeights("tfoot",this.dom.footer,a.footer)}b=k.oApi._fnGetUniqueThs(k,d(">thead",a.header)[0]);d(b).each(function(a){l=c[a];this.style.width=f.s.aiInnerWidths[l]+"px"});null!==f.s.dt.nTFoot&&(b=k.oApi._fnGetUniqueThs(k,d(">tfoot",a.footer)[0]),d(b).each(function(a){l=c[a];this.style.width=f.s.aiInnerWidths[l]+"px"}))},_fnGetTrNodes:function(a){for(var b=[],c=0,d=a.childNodes.length;c<d;c++)"TR"==a.childNodes[c].nodeName.toUpperCase()&&
b.push(a.childNodes[c]);return b},_fnEqualiseHeights:function(a,b,c){if(!("none"==this.s.sHeightMatch&&"thead"!==a&&"tfoot"!==a)){var e,f,g=b.getElementsByTagName(a)[0],c=c.getElementsByTagName(a)[0],a=d(">"+a+">tr:eq(0)",b).children(":first");a.outerHeight();a.height();for(var g=this._fnGetTrNodes(g),b=this._fnGetTrNodes(c),h=[],c=0,a=b.length;c<a;c++)e=g[c].offsetHeight,f=b[c].offsetHeight,e=f>e?f:e,"semiauto"==this.s.sHeightMatch&&(g[c]._DTTC_iHeight=e),h.push(e);c=0;for(a=b.length;c<a;c++)b[c].style.height=
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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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rel="stylesheet" /> +<script src="data:application/x-javascript;base64,/*!
 Buttons for DataTables 1.2.0
 ©2016 SpryMedia Ltd - datatables.net/license
*/
(function(d){"function"===typeof define&&define.amd?define(["jquery","datatables.net"],function(o){return d(o,window,document)}):"object"===typeof exports?module.exports=function(o,n){o||(o=window);if(!n||!n.fn.dataTable)n=require("datatables.net")(o,n).$;return d(n,o,o.document)}:d(jQuery,window,document)})(function(d,o,n,l){var i=d.fn.dataTable,u=0,v=0,k=i.ext.buttons,m=function(a,b){!0===b&&(b={});d.isArray(b)&&(b={buttons:b});this.c=d.extend(!0,{},m.defaults,b);b.buttons&&(this.c.buttons=b.buttons);
this.s={dt:new i.Api(a),buttons:[],listenKeys:"",namespace:"dtb"+u++};this.dom={container:d("<"+this.c.dom.container.tag+"/>").addClass(this.c.dom.container.className)};this._constructor()};d.extend(m.prototype,{action:function(a,b){var c=this._nodeToButton(a);if(b===l)return c.conf.action;c.conf.action=b;return this},active:function(a,b){var c=this._nodeToButton(a),e=this.c.dom.button.active,c=d(c.node);if(b===l)return c.hasClass(e);c.toggleClass(e,b===l?!0:b);return this},add:function(a,b){var c=
this.s.buttons;if("string"===typeof b){for(var e=b.split("-"),c=this.s,d=0,h=e.length-1;d<h;d++)c=c.buttons[1*e[d]];c=c.buttons;b=1*e[e.length-1]}this._expandButton(c,a,!1,b);this._draw();return this},container:function(){return this.dom.container},disable:function(a){a=this._nodeToButton(a);d(a.node).addClass(this.c.dom.button.disabled);return this},destroy:function(){d("body").off("keyup."+this.s.namespace);var a=this.s.buttons,b,c;b=0;for(c=a.length;b<c;b++)this.remove(a[b].node);this.dom.container.remove();
a=this.s.dt.settings()[0];b=0;for(c=a.length;b<c;b++)if(a.inst===this){a.splice(b,1);break}return this},enable:function(a,b){if(!1===b)return this.disable(a);var c=this._nodeToButton(a);d(c.node).removeClass(this.c.dom.button.disabled);return this},name:function(){return this.c.name},node:function(a){a=this._nodeToButton(a);return d(a.node)},remove:function(a){var b=this._nodeToButton(a),c=this._nodeToHost(a),e=this.s.dt;if(b.buttons.length)for(var g=b.buttons.length-1;0<=g;g--)this.remove(b.buttons[g].node);
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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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+ max-width: none; + } +} + +.tocify ul, .tocify li { + line-height: 20px; +} + +.tocify-subheader .tocify-item { + font-size: 0.9em; + padding-left: 5px; +} + +.tocify .list-group-item { + border-radius: 0px; +} + + +</style> + +<!-- setup 3col/9col grid for toc_float and main content --> +<div class="row-fluid"> +<div class="col-xs-12 col-sm-4 col-md-3"> +<div id="TOC" class="tocify"> +</div> +</div> + +<div class="toc-content col-xs-12 col-sm-8 col-md-9"> + + + + +<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> +<script type="application/json" data-for="htmlwidget-3fb5dcf2cea84bf571d8">{"x":{"filter":"none","extensions":["FixedColumns"],"data":[["1","2","3","4","5","6","7","8","9","10","11","12"],["Query BED file","Target GTF file","Gene set Annotations","Annotation Summary Module","GO Analysis Module","Gene Set Enrichment Analysis Module","Motif Analysis Module","Genome Version","Species","Print Processed Tables?","Randomly sample query regions down to (N)","Working Directory"],["/home/ydilimu/workspace/galaxy_wrapper/galaxytools/tools/rna_tools/rcas/test-data/test_RCAS/input.TIA1.bed","/home/ydilimu/workspace/galaxy_wrapper/galaxytools/tools/rna_tools/rcas/test-data/test_RCAS/input.Homo_sapiens.GRCh37-chr1-f10k.75.gtf","/home/ydilimu/workspace/galaxy_wrapper/galaxytools/tools/rna_tools/rcas/test-data/test_RCAS/input.msigdb_test.gmt","TRUE","TRUE","TRUE","TRUE","hg19","human","TRUE","0","/home/ydilimu/workspace/galaxy_wrapper/galaxytools/tools/rna_tools/rcas/test-data/test_RCAS"]],"container":"<table class=\"display\">\n <thead>\n <tr>\n <th> \u003c/th>\n <th>parameters\u003c/th>\n <th>values\u003c/th>\n \u003c/tr>\n \u003c/thead>\n\u003c/table>","options":{"fixedColumns":true,"scrollX":true,"pageLength":20,"dom":"t","order":[],"autoWidth":false,"orderClasses":false,"columnDefs":[{"orderable":false,"targets":0}],"lengthMenu":[10,20,25,50,100]}},"evals":[],"jsHooks":[]}</script></p> +</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> +<p><div id="htmlwidget-fdf2747d62453e52ff34" style="width:768px;height:432px;" class="plotly html-widget"></div> +<script type="application/json" data-for="htmlwidget-fdf2747d62453e52ff34">{"x":{"layout":{"margin":{"b":150,"l":60,"t":25,"r":50},"xaxis":{"domain":[0,1],"title":"features","type":"category","categoryorder":"array","categoryarray":["cds","exons","fiveUTRs","introns","promoters","threeUTRs","transcripts"]},"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":["cds"],"y":[0],"text":"count: 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class=\"display\">\n <thead>\n <tr>\n <th> \u003c/th>\n <th>tx_name\u003c/th>\n <th>transcripts\u003c/th>\n <th>exons\u003c/th>\n <th>promoters\u003c/th>\n <th>fiveUTRs\u003c/th>\n <th>introns\u003c/th>\n <th>cds\u003c/th>\n <th>threeUTRs\u003c/th>\n \u003c/tr>\n \u003c/thead>\n\u003c/table>","options":{"fixedColumns":true,"scrollX":true,"dom":"Bfrtip","buttons":["copy","print","csv","excel","pdf"],"columnDefs":[{"className":"dt-right","targets":[2,3,4,5,6,7,8]},{"orderable":false,"targets":0}],"order":[],"autoWidth":false,"orderClasses":false}},"evals":[],"jsHooks":[]}</script></p> +</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> +<script type="application/json" 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3' standard error (95% conf. int.)","type":"scatter","hoveron":"points","fill":"toself","line":{"fillcolor":"rgba(255,127,14,1)","color":"rgba(7, 164, 181, 0.05)"},"fillcolor":"rgba(7, 164, 181, 0.2)","xaxis":"x2","yaxis":"y"}],"layout":{"xaxis":{"domain":[0,0.48],"anchor":"y","title":"Distance (bp) to 5' boundary"},"xaxis2":{"domain":[0.52,1],"anchor":"y","title":"Distance (bp) to 3' boundary"},"yaxis":{"domain":[0,1],"title":"Mean Coverage Score","anchor":"x"},"margin":{"b":100,"l":100,"t":25,"r":10},"legend":{"x":0,"y":100,"orientation":"h"},"font":{"size":14}},"config":{"modeBarButtonsToRemove":["sendDataToCloud"]},"source":"A","subplot":true},"evals":[],"jsHooks":[]}</script></p> +</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> +<p><div id="htmlwidget-a1c856db045004f40208" style="width:768px;height:432px;" class="plotly html-widget"></div> +<script type="application/json" 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Exons 3' standard error (95% conf. int.)","type":"scatter","hoveron":"points","fill":"toself","line":{"fillcolor":"rgba(255,127,14,1)","color":"rgba(7, 164, 181, 0.05)"},"fillcolor":"rgba(7, 164, 181, 0.2)","xaxis":"x2","yaxis":"y"}],"layout":{"xaxis":{"domain":[0,0.48],"anchor":"y","title":"Distance (bp) to 5' boundary"},"xaxis2":{"domain":[0.52,1],"anchor":"y","title":"Distance (bp) to 3' boundary"},"yaxis":{"domain":[0,1],"title":"Mean Coverage Score","anchor":"x"},"margin":{"b":100,"l":100,"t":25,"r":10},"legend":{"x":0,"y":100,"orientation":"h"},"font":{"size":14}},"config":{"modeBarButtonsToRemove":["sendDataToCloud"]},"source":"A","subplot":true},"evals":[],"jsHooks":[]}</script></p> +</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> +<p><div id="htmlwidget-d87f31d1d970df034989" style="width:768px;height:432px;" class="plotly html-widget"></div> +<script type="application/json" 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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 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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 src="data:image/png;base64,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DkBBAAAADAngAAAAADmBBAAAADAnAACAAAAmBNAAAAAAHMCCAAAAGBOAAEAAADMCSAAAACAOQEEAAAAMCeAAAAAAOYEEAAAAMCcAAIAAACYE0AAAAAAcwIIAAAAYE4AAQAAAMwJIAAAAIA5AQQAAAAwJ4AAAAAA5gQQAAAAwJwAAgAAAJgTQAAAAABzAggAAABgTgABAAAAzAkgAAAAgDkBBAAAADAngAAAAADmBBAAAADAnAACAAAAmBNAAAAAAHMCCAAAAGBOAAEAAADMCSAAAACAOQEEAAAAMCeAAAAAAOYEEAAAAMCcAAIAAACYE0AAAAAAcwF9rco0SXEW0gAAAABJRU5ErkJggg==" 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> +<script type="application/json" data-for="htmlwidget-40217ac6bfc39f0c0b8c">{"x":{"filter":"bottom","filterHTML":"<tr>\n <td>\u003c/td>\n <td data-type=\"factor\" style=\"vertical-align: top;\">\n <div class=\"form-group has-feedback\" style=\"margin-bottom: auto;\">\n <input type=\"search\" placeholder=\"All\" class=\"form-control\" style=\"width: 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glyphicon-remove-circle form-control-feedback\">\u003c/span>\n \u003c/div>\n <div style=\"display: none; position: absolute; width: 200px;\">\n <div data-min=\"0.1201\" data-max=\"0.1747\" data-scale=\"4\">\u003c/div>\n <span style=\"float: left;\">\u003c/span>\n <span style=\"float: right;\">\u003c/span>\n \u003c/div>\n \u003c/td>\n <td data-type=\"number\" style=\"vertical-align: top;\">\n <div class=\"form-group has-feedback\" style=\"margin-bottom: auto;\">\n <input type=\"search\" placeholder=\"All\" class=\"form-control\" style=\"width: 100%;\"/>\n <span class=\"glyphicon glyphicon-remove-circle form-control-feedback\">\u003c/span>\n \u003c/div>\n <div style=\"display: none; position: absolute; width: 200px;\">\n <div data-min=\"0.0282\" data-max=\"0.0393\" data-scale=\"4\">\u003c/div>\n <span style=\"float: left;\">\u003c/span>\n <span style=\"float: right;\">\u003c/span>\n \u003c/div>\n 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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 < 0.1) enriched for genes that overlap query regions <div id="htmlwidget-fcb926654e5855b232ce" style="width:100%;height:auto;" class="datatables html-widget"></div> +<script type="application/json" data-for="htmlwidget-fcb926654e5855b232ce">{"x":{"filter":"bottom","filterHTML":"<tr>\n <td>\u003c/td>\n <td data-type=\"disabled\" style=\"vertical-align: top;\">\n <div class=\"form-group has-feedback\" style=\"margin-bottom: auto;\">\n <input type=\"search\" placeholder=\"All\" class=\"form-control\" style=\"width: 100%;\"/>\n <span class=\"glyphicon glyphicon-remove-circle form-control-feedback\">\u003c/span>\n \u003c/div>\n \u003c/td>\n <td data-type=\"disabled\" style=\"vertical-align: 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style=\"vertical-align: top;\">\n <div class=\"form-group has-feedback\" style=\"margin-bottom: auto;\">\n <input type=\"search\" placeholder=\"All\" class=\"form-control\" style=\"width: 100%;\"/>\n <span class=\"glyphicon glyphicon-remove-circle form-control-feedback\">\u003c/span>\n \u003c/div>\n \u003c/td>\n <td data-type=\"disabled\" style=\"vertical-align: top;\">\n <div class=\"form-group has-feedback\" style=\"margin-bottom: auto;\">\n <input type=\"search\" placeholder=\"All\" class=\"form-control\" style=\"width: 100%;\"/>\n <span class=\"glyphicon glyphicon-remove-circle form-control-feedback\">\u003c/span>\n \u003c/div>\n \u003c/td>\n\u003c/tr>","extensions":["Buttons","FixedColumns"],"data":[[],[],[],[],[],[],[]],"container":"<table class=\"display\">\n <thead>\n <tr>\n <th> \u003c/th>\n <th>Term\u003c/th>\n <th>Significant\u003c/th>\n <th>Expected\u003c/th>\n <th>bonferroni\u003c/th>\n <th>bh\u003c/th>\n <th>foldEnrichment\u003c/th>\n \u003c/tr>\n \u003c/thead>\n\u003c/table>","options":{"fixedColumns":true,"scrollX":true,"dom":"Bfrtip","buttons":["copy","print","csv","excel","pdf"],"columnDefs":[{"className":"dt-right","targets":[2,3,4,5,6]},{"orderable":false,"targets":0}],"order":[],"autoWidth":false,"orderClasses":false}},"evals":[],"jsHooks":[]}</script></p> +</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 < 0.1) enriched for genes that overlap query regions <div id="htmlwidget-01627777789ec9a5ee6d" style="width:100%;height:auto;" class="datatables html-widget"></div> +<script type="application/json" data-for="htmlwidget-01627777789ec9a5ee6d">{"x":{"filter":"bottom","filterHTML":"<tr>\n <td>\u003c/td>\n <td data-type=\"disabled\" style=\"vertical-align: top;\">\n <div class=\"form-group has-feedback\" style=\"margin-bottom: auto;\">\n <input type=\"search\" 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class=\"display\">\n <thead>\n <tr>\n <th> \u003c/th>\n <th>Term\u003c/th>\n <th>Significant\u003c/th>\n <th>Expected\u003c/th>\n <th>bonferroni\u003c/th>\n <th>bh\u003c/th>\n <th>foldEnrichment\u003c/th>\n \u003c/tr>\n \u003c/thead>\n\u003c/table>","options":{"fixedColumns":true,"scrollX":true,"dom":"Bfrtip","buttons":["copy","print","csv","excel","pdf"],"columnDefs":[{"className":"dt-right","targets":[2,3,4,5,6]},{"orderable":false,"targets":0}],"order":[],"autoWidth":false,"orderClasses":false}},"evals":[],"jsHooks":[]}</script></p> +</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 < 0.1) enriched for genes that overlap query regions <div id="htmlwidget-094df49baa235f29e311" style="width:100%;height:auto;" class="datatables html-widget"></div> +<script type="application/json" 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data-min=\"0.001054\" data-max=\"0.21097\" data-scale=\"15\">\u003c/div>\n <span style=\"float: left;\">\u003c/span>\n <span style=\"float: right;\">\u003c/span>\n \u003c/div>\n \u003c/td>\n <td data-type=\"number\" style=\"vertical-align: top;\">\n <div class=\"form-group has-feedback\" style=\"margin-bottom: auto;\">\n <input type=\"search\" placeholder=\"All\" class=\"form-control\" style=\"width: 100%;\"/>\n <span class=\"glyphicon glyphicon-remove-circle form-control-feedback\">\u003c/span>\n \u003c/div>\n <div style=\"display: none; position: absolute; width: 200px;\">\n <div data-min=\"0.000935\" data-max=\"0.023441111111112\" data-scale=\"15\">\u003c/div>\n <span style=\"float: left;\">\u003c/span>\n <span style=\"float: right;\">\u003c/span>\n \u003c/div>\n \u003c/td>\n <td data-type=\"number\" style=\"vertical-align: top;\">\n <div class=\"form-group has-feedback\" style=\"margin-bottom: auto;\">\n <input type=\"search\" placeholder=\"All\" class=\"form-control\" style=\"width: 100%;\"/>\n <span class=\"glyphicon glyphicon-remove-circle form-control-feedback\">\u003c/span>\n \u003c/div>\n <div style=\"display: none; position: absolute; width: 200px;\">\n <div data-min=\"1.45\" data-max=\"2.52\" data-scale=\"2\">\u003c/div>\n <span style=\"float: left;\">\u003c/span>\n <span style=\"float: right;\">\u003c/span>\n \u003c/div>\n \u003c/td>\n\u003c/tr>","extensions":["Buttons","FixedColumns"],"data":[["GO:0044446","GO:0044422","GO:0043231","GO:0043227","GO:0043229","GO:0005737","GO:0043226","GO:0005622","GO:0044424"],["intracellular organelle part","organelle part","intracellular membrane-bounded organelle","membrane-bounded organelle","intracellular organelle","cytoplasm","organelle","intracellular","intracellular 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class="header-section-number">6</span> Gene Set Enrichment Analysis Results</h1> +<p><strong>Table 6 :</strong> Significant MSigDB Gene Sets (FDR < 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> +<script type="application/json" data-for="htmlwidget-04cfc9c557834f0fe974">{"x":{"filter":"bottom","filterHTML":"<tr>\n <td>\u003c/td>\n <td data-type=\"disabled\" style=\"vertical-align: top;\">\n <div class=\"form-group has-feedback\" style=\"margin-bottom: auto;\">\n <input type=\"search\" placeholder=\"All\" class=\"form-control\" style=\"width: 100%;\"/>\n <span class=\"glyphicon glyphicon-remove-circle form-control-feedback\">\u003c/span>\n \u003c/div>\n \u003c/td>\n <td data-type=\"disabled\" style=\"vertical-align: top;\">\n <div class=\"form-group has-feedback\" style=\"margin-bottom: auto;\">\n <input type=\"search\" placeholder=\"All\" class=\"form-control\" 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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 @@ +bases meanCoverage standardError +1 -1000 0 0 +2 -999 0 0 +3 -998 0 0 +4 -997 0 0 +5 -996 0 0 +6 -995 0 0 +7 -994 0 0 +8 -993 0 0 +9 -992 0 0 +10 -991 0 0 +11 -990 0 0 +12 -989 0 0 +13 -988 0 0 +14 -987 0 0 +15 -986 0 0 +16 -985 0 0 +17 -984 0 0 +18 -983 0 0 +19 -982 0 0 +20 -981 0 0 +21 -980 0 0 +22 -979 0 0 +23 -978 0 0 +24 -977 0 0 +25 -976 0 0 +26 -975 0 0 +27 -974 0 0 +28 -973 0 0 +29 -972 0 0 +30 -971 0 0 +31 -970 0 0 +32 -969 0 0 +33 -968 0 0 +34 -967 0 0 +35 -966 0 0 +36 -965 0 0 +37 -964 0 0 +38 -963 0 0 +39 -962 0 0 +40 -961 0 0 +41 -960 0 0 +42 -959 0 0 +43 -958 0 0 +44 -957 0 0 +45 -956 0 0 +46 -955 0 0 +47 -954 0 0 +48 -953 0 0 +49 -952 0 0 +50 -951 0 0 +51 -950 0 0 +52 -949 0 0 +53 -948 0 0 +54 -947 0 0 +55 -946 0 0 +56 -945 0 0 +57 -944 0 0 +58 -943 0 0 +59 -942 0 0 +60 -941 0 0 +61 -940 0 0 +62 -939 0 0 +63 -938 0 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