Mercurial > repos > iuc > pysradb_search

--- a/macros.xml	Fri Nov 11 07:35:39 2022 +0000
+++ b/macros.xml	Wed Nov 30 13:19:36 2022 +0000
@@ -1,6 +1,6 @@
 <macros>
     <token name="@TOOL_VERSION@">1.4.2</token>
-    <token name="@SUFFIX_VERSION@">0</token>
+    <token name="@SUFFIX_VERSION@">1</token>
     <xml name="bio_tools">
         <xrefs>
             <xref type="bio.tools">pysradb</xref>
--- a/pysradb.xml	Fri Nov 11 07:35:39 2022 +0000
+++ b/pysradb.xml	Wed Nov 30 13:19:36 2022 +0000
@@ -78,8 +78,8 @@
                 <option value="sra">SRA: Sequence Read Archive</option>
                 <option value="ena">ENA: European Nucleotide Archive</option>
             </param>
-            <param argument="--query" type="text" value=""
-                label="Query keywords" help="Multiple keywords should be separated by spaces. Example: colorectal cancer">
+            <param argument="--query" type="text" value="" optional="true"
+                label="Query keywords/BioProject ID" help="Multiple keywords should be separated by spaces. Example: colorectal cancer">
                 <sanitizer invalid_char="">
                     <valid initial="string.letters,string.digits">
                         <add value="_" />
@@ -90,7 +90,7 @@
                 <validator type="regex">[0-9a-zA-Z_ -]+</validator>
             </param>
             <conditional name="conditional_mode">
-                <param name="selector" type="select" label="Genetic material recovered directly from environmental or clinical samples" help="Enable this option if you are interested in metagenomic data. Default: disabled">
+                <param name="selector" type="select" label="Metagenomic data" help="Enable this option if you are interested in genetic material recovered directly from environmental or clinical samples. Default: disabled">
                     <option value="false" selected="true">Disabled</option>
                     <option value="true">Enabled</option>
                 </param>
@@ -299,7 +299,6 @@
             <!-- Test 02: Specific search options-->
             <test expect_num_outputs="2">
                 <param name="database" value="sra"/>
-                <param name="query" value="colorectal cancer"/>
                 <conditional name="conditional_platform">
                     <param name="platform" value="illumina"/>
                     <param name="instrument" value="NovaSeq 6000"/>
@@ -332,7 +331,7 @@
                 <conditional name="conditional_mode">
                     <param name="selector" value="false"/>
                     <param name="source" value="genomic"/>
-                    <param name="organism" value="homo sapiens"/>
+                    <param name="organism" value="Homo sapiens"/>
                 </conditional>
                 <output name="metadata_file" file="test_03.tabular" ftype="tsv"/>
                 <output name="stats" file="test_03.txt" ftype="txt"/>
--- a/test-data/test_01.tabular	Fri Nov 11 07:35:39 2022 +0000
+++ b/test-data/test_01.tabular	Wed Nov 30 13:19:36 2022 +0000
@@ -1,101 +1,101 @@
 study_accession	experiment_accession	experiment_title	sample_taxon_id	sample_scientific_name	experiment_library_strategy	experiment_library_source	experiment_library_selection	sample_accession	sample_alias	experiment_instrument_model	pool_member_spots	run_1_size	run_1_accession	run_1_total_spots	run_1_total_bases
-SRP406950	SRX18219478	J17-72p-3	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15716255	J17-72p-3	Illumina NovaSeq 6000	21865805	2011682291	SRR22242707	21865805	6559741500
-SRP406950	SRX18219477	J17-72p-2	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15716254	J17-72p-2	Illumina NovaSeq 6000	19102337	1762557173	SRR22242708	19102337	5730701100
-SRP406950	SRX18219476	J17-72p-1	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15716253	J17-72p-1	Illumina NovaSeq 6000	20134870	1863354901	SRR22242709	20134870	6040461000
-SRP406950	SRX18219475	hep3b-72p-3	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15716252	hep3b-72p-3	Illumina NovaSeq 6000	20032029	1887623947	SRR22242710	20032029	6009608700
-SRP406950	SRX18219474	hep3b-72p-2	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15716251	hep3b-72p-2	Illumina NovaSeq 6000	18954951	1743547228	SRR22242711	18954951	5686485300
-SRP406950	SRX18219473	hep3b-72p-1	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15716250	hep3b-72p-1	Illumina NovaSeq 6000	19553325	1800573666	SRR22242712	19553325	5865997500
-SRP406950	SRX18219472	hep3b-vec-3	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15716249	hep3b-vec-3	Illumina NovaSeq 6000	19039145	1749393677	SRR22242713	19039145	5711743500
-SRP406950	SRX18219471	hep3b-vec-2	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15716248	hep3b-vec-2	Illumina NovaSeq 6000	19819809	1821641085	SRR22242714	19819809	5945942700
-SRP406950	SRX18219470	hep3b-vec-1	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15716247	hep3b-vec-1	Illumina NovaSeq 6000	29311538	2787642513	SRR22242715	29311538	8793461400
-SRP406776	SRX18202826	GSM6720851: HepG2 cells, f-RCP+660 nm [B 3]; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15699868	GSM6720851	Illumina HiSeq 2500	22452313	2016448266	SRR22225215	22452313	6347800899
-SRP406776	SRX18202825	GSM6720850: HepG2 cells, f-RCP+660 nm [B 2]; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15699867	GSM6720850	Illumina HiSeq 2500	23301966	2101800167	SRR22225216	23301966	6618465928
-SRP406776	SRX18202824	GSM6720849: HepG2 cells, f-RCP+660 nm [B 1]; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15699866	GSM6720849	Illumina HiSeq 2500	23150509	2101691173	SRR22225217	23150509	6613318643
-SRP406776	SRX18202823	GSM6720848: HepG2 cells, RCP+660 nm [A 3]; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15699865	GSM6720848	Illumina HiSeq 2500	23012674	2084577587	SRR22225218	23012674	6543146264
-SRP406776	SRX18202822	GSM6720847: HepG2 cells, RCP+660 nm [A 2]; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15699864	GSM6720847	Illumina HiSeq 2500	21058391	1876834984	SRR22225219	21058391	5941999670
-SRP406776	SRX18202821	GSM6720846: HepG2 cells, RCP+660 nm [A 1]; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15699863	GSM6720846	Illumina HiSeq 2500	23091493	2082180756	SRR22225220	23091493	6587272891
-SRP406643	SRX18193585	GSM6718890: PC3_NC3; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15691692	GSM6718890	Illumina NovaSeq 6000	23459231	2048517451	SRR22215651	23459231	6634962611
-SRP406643	SRX18193584	GSM6718889: PC3_NC2; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15691691	GSM6718889	Illumina NovaSeq 6000	23447723	2043917226	SRR22215652	23447723	6632304770
-SRP406643	SRX18193583	GSM6718888: PC3_NC1; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15691690	GSM6718888	Illumina NovaSeq 6000	24333381	2134599968	SRR22215653	24333381	6885056225
-SRP406643	SRX18193582	GSM6718887: DU145_R3; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15691689	GSM6718887	Illumina NovaSeq 6000	24414110	2129635530	SRR22215654	24414110	6902065985
-SRP406643	SRX18193581	GSM6718886: DU145_R2; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15691688	GSM6718886	Illumina NovaSeq 6000	24206817	2139012987	SRR22215655	24206817	6854276087
-SRP406643	SRX18193580	GSM6718885: DU145_R1; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15691687	GSM6718885	Illumina NovaSeq 6000	24759866	2201510118	SRR22215656	24759866	7015759429
-SRP406643	SRX18193579	GSM6718884: DU145_NC3; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15691686	GSM6718884	Illumina NovaSeq 6000	23413490	2052300610	SRR22215657	23413490	6622496209
-SRP406643	SRX18193578	GSM6718883: DU145_NC2; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15691685	GSM6718883	Illumina NovaSeq 6000	23098910	2017150275	SRR22215658	23098910	6533106894
-SRP406643	SRX18193577	GSM6718893: PC3_R3; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15691684	GSM6718893	Illumina NovaSeq 6000	25275572	2231454551	SRR22215659	25275572	7158981428
-SRP406643	SRX18193576	GSM6718892: PC3_R2; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15691683	GSM6718892	Illumina NovaSeq 6000	23324148	2038273567	SRR22215660	23324148	6600455016
-SRP406643	SRX18193575	GSM6718891: PC3_R1; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15691682	GSM6718891	Illumina NovaSeq 6000	24343398	2154463398	SRR22215661	24343398	6897255997
-SRP406643	SRX18193574	GSM6718882: DU145_NC1; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15691681	GSM6718882	Illumina NovaSeq 6000	23499672	2054821041	SRR22215662	23499672	6647491555
-SRP405996	SRX18142633	RNA-Seq of GPD1-OE 5637	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	SRS15644089	GPD1-3	Illumina NovaSeq 6000	20925798	1914833857	SRR22163747	20925798	6207163796
-SRP405996	SRX18142632	RNA-Seq of GPD1-OE 5637	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	SRS15644088	GPD1-2	Illumina NovaSeq 6000	23860665	2188219511	SRR22163748	23860665	7100176962
-SRP405996	SRX18142631	RNA-Seq of GPD1-OE 5637	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	SRS15644087	GPD1-1	Illumina NovaSeq 6000	21427274	1956307538	SRR22163749	21427274	6382445460
-SRP405996	SRX18142630	RNA-Seq of GPD1-mut-OE 5637	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	SRS15644086	K120A-3	Illumina NovaSeq 6000	23974893	2199388419	SRR22163750	23974893	7142011070
-SRP405996	SRX18142629	RNA-Seq of GPD1-mut-OE 5637	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	SRS15644085	K120A-2	Illumina NovaSeq 6000	34212538	3102446211	SRR22163751	34212538	10168388248
-SRP405996	SRX18142628	RNA-Seq of GPD1-mut-OE 5637	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	SRS15644084	K120A-1	Illumina NovaSeq 6000	22781183	2056285283	SRR22163752	22781183	6764866900
-SRP405996	SRX18142627	RNA-Seq of 5637	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	SRS15644083	Con-3	Illumina NovaSeq 6000	23325722	2097939888	SRR22163753	23325722	6941714338
-SRP405996	SRX18142626	RNA-Seq of 5637	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	SRS15644082	Con-2	Illumina NovaSeq 6000	22103936	2020280158	SRR22163754	22103936	6574686904
-SRP405996	SRX18142625	RNA-Seq of 5637	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	SRS15644081	Con-1	Illumina NovaSeq 6000	22883975	2079148433	SRR22163755	22883975	6800103580
-SRP405518	SRX18093653	GSM6700937: RC77 T/E; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15618824	GSM6700937	Illumina HiSeq 2500	113241775	14027009073	SRR22113916	113241775	34199016050
-SRP405518	SRX18093652	GSM6700936: MDA PCa 2b; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15596651	GSM6700936	Illumina HiSeq 2500	92541233	11725686132	SRR22113917	92541233	27503968067
-ERP131546	ERX6235633	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286434	SAMEA9563694	Illumina HiSeq 2500			ERR6609153
-ERP131546	ERX6235632	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286433	SAMEA9563693	Illumina HiSeq 2500			ERR6609152
-ERP131546	ERX6235631	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286432	SAMEA9563692	Illumina HiSeq 2500			ERR6609151
-ERP131546	ERX6235630	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286431	SAMEA9563691	Illumina HiSeq 2500			ERR6609150
-ERP131546	ERX6235629	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286430	SAMEA9563690	Illumina HiSeq 2500			ERR6609149
-ERP131546	ERX6235628	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286429	SAMEA9563689	Illumina HiSeq 2500			ERR6609148
-ERP131546	ERX6235627	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286428	SAMEA9563688	Illumina HiSeq 2500			ERR6609147
-ERP131546	ERX6235626	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286427	SAMEA9563687	Illumina HiSeq 2500			ERR6609146
-ERP131546	ERX6235625	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286426	SAMEA9563686	Illumina HiSeq 2500			ERR6609145
-ERP131546	ERX6235624	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286425	SAMEA9563685	Illumina HiSeq 2500			ERR6609144
-ERP131546	ERX6235623	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286424	SAMEA9563684	Illumina HiSeq 2500			ERR6609143
-ERP131546	ERX6235622	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286423	SAMEA9563683	Illumina HiSeq 2500			ERR6609142
-ERP131546	ERX6235621	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286422	SAMEA9563682	Illumina HiSeq 2500			ERR6609141
-ERP131546	ERX6235620	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286421	SAMEA9563681	Illumina HiSeq 2500			ERR6609140
-ERP131546	ERX6235619	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286420	SAMEA9563680	Illumina HiSeq 2500			ERR6609139
-ERP131546	ERX6235618	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286419	SAMEA9563679	Illumina HiSeq 2500			ERR6609138
-ERP131546	ERX6235617	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286418	SAMEA9563678	Illumina HiSeq 2500			ERR6609137
-ERP131546	ERX6235616	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286417	SAMEA9563677	Illumina HiSeq 2500			ERR6609136
-ERP131546	ERX6235615	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286416	SAMEA9563676	Illumina HiSeq 2500			ERR6609135
-ERP131546	ERX6235614	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286415	SAMEA9563675	Illumina HiSeq 2500			ERR6609134
-ERP131546	ERX6235613	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286414	SAMEA9563674	Illumina HiSeq 2500			ERR6609133
-ERP131546	ERX6235612	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286413	SAMEA9563673	Illumina HiSeq 2500			ERR6609132
-ERP131546	ERX6235611	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286412	SAMEA9563672	Illumina HiSeq 2500			ERR6609131
-ERP131546	ERX6235610	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286411	SAMEA9563671	Illumina HiSeq 2500			ERR6609130
-ERP131546	ERX6235609	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286410	SAMEA9563670	Illumina HiSeq 2500			ERR6609129
-ERP131546	ERX6235608	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286409	SAMEA9563669	Illumina HiSeq 2500			ERR6609128
-ERP131546	ERX6235607	Illumina HiSeq 2500 sequencing	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	PCR	ERS7286408	SAMEA9563667	Illumina HiSeq 2500			ERR6609127
-SRP405359	SRX18082254	GSM6697086: Patient61; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586208	GSM6697086	Illumina HiSeq 4000	31947164	4047815431	SRR22102209	31947164	9648043528
-SRP405359	SRX18082253	GSM6697085: Patient60; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586207	GSM6697085	Illumina HiSeq 4000	38555712	4842551626	SRR22102210	38555712	11643825024
-SRP405359	SRX18082252	GSM6697084: Patient59; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586206	GSM6697084	Illumina HiSeq 4000	42085416	5272334669	SRR22102211	42085416	12709795632
-SRP405359	SRX18082251	GSM6697083: Patient58; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586205	GSM6697083	Illumina HiSeq 4000	34410281	4332064189	SRR22102212	34410281	10391904862
-SRP405359	SRX18082250	GSM6697082: Patient57; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586204	GSM6697082	Illumina HiSeq 4000	44202589	5772115042	SRR22102213	44202589	13349181878
-SRP405359	SRX18082249	GSM6697081: Patient56; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586203	GSM6697081	Illumina HiSeq 4000	56761858	7188373175	SRR22102214	56761858	17142081116
-SRP405359	SRX18082248	GSM6697080: Patient55; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586202	GSM6697080	Illumina HiSeq 4000	43007557	5497362360	SRR22102215	43007557	12988282214
-SRP405359	SRX18082247	GSM6697079: Patient54; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586201	GSM6697079	Illumina HiSeq 4000	28729299	3849047462	SRR22102216	28729299	8676248298
-SRP405359	SRX18082246	GSM6697078: Patient53; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586200	GSM6697078	Illumina HiSeq 4000	27758639	3690700827	SRR22102217	27758639	8383108978
-SRP405359	SRX18082245	GSM6697077: Patient52; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586199	GSM6697077	Illumina HiSeq 4000	31064684	3939177209	SRR22102218	31064684	9381534568
-SRP405359	SRX18082244	GSM6697076: Patient51; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586198	GSM6697076	Illumina HiSeq 4000	31505467	3987918246	SRR22102219	31505467	9514651034
-SRP405359	SRX18082243	GSM6697075: Patient50; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586197	GSM6697075	Illumina HiSeq 4000	34426584	4334042951	SRR22102220	34426584	10396828368
-SRP405359	SRX18082242	GSM6697074: Patient49; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586196	GSM6697074	Illumina HiSeq 4000	26673393	3340287227	SRR22102221	26673393	8055364686
-SRP405359	SRX18082241	GSM6697073: Patient48; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586195	GSM6697073	Illumina HiSeq 4000	30867031	3993026607	SRR22102222	30867031	9321843362
-SRP405359	SRX18082240	GSM6697072: Patient47; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586194	GSM6697072	Illumina HiSeq 4000	35322031	4433071306	SRR22102223	35322031	10667253362
-SRP405359	SRX18082239	GSM6697071: Patient46; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586193	GSM6697071	Illumina HiSeq 4000	33009330	4158400585	SRR22102224	33009330	9968817660
-SRP405359	SRX18082238	GSM6697070: Patient45; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586192	GSM6697070	Illumina HiSeq 4000	28983658	3897067912	SRR22102225	28983658	8753064716
-SRP405359	SRX18082237	GSM6697069: Patient44; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586191	GSM6697069	Illumina HiSeq 4000	40190178	5163897011	SRR22102226	40190178	12137433756
-SRP405359	SRX18082236	GSM6697068: Patient43; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586190	GSM6697068	Illumina HiSeq 4000	35262046	4493047289	SRR22102227	35262046	10649137892
-SRP405359	SRX18082235	GSM6697067: Patient42; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586189	GSM6697067	Illumina HiSeq 4000	40585471	5143646051	SRR22102228	40585471	12256812242
-SRP405359	SRX18082234	GSM6697066: Patient41; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586188	GSM6697066	Illumina HiSeq 4000	33942412	4490395870	SRR22102229	33942412	10250608424
-SRP405359	SRX18082233	GSM6697065: Patient40; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586187	GSM6697065	Illumina HiSeq 4000	32781382	4058331783	SRR22102230	32781382	9899977364
-SRP405359	SRX18082232	GSM6697064: Patient39; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586186	GSM6697064	Illumina HiSeq 4000	40942797	5093355659	SRR22102231	40942797	12364724694
-SRP405359	SRX18082231	GSM6697063: Patient38; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586185	GSM6697063	Illumina HiSeq 4000	38192324	4768475078	SRR22102232	38192324	11534081848
-SRP405359	SRX18082230	GSM6697062: Patient37; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586184	GSM6697062	Illumina HiSeq 4000	36365508	4568980294	SRR22102233	36365508	10982383416
-SRP405359	SRX18082229	GSM6697061: Patient36; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586183	GSM6697061	Illumina HiSeq 4000	30158877	3917819621	SRR22102234	30158877	9107980854
-SRP405359	SRX18082228	GSM6697060: Patient35; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586182	GSM6697060	Illumina HiSeq 4000	34297360	4265438881	SRR22102235	34297360	10357802720
-SRP405359	SRX18082227	GSM6697059: Patient34; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586181	GSM6697059	Illumina HiSeq 4000	37925806	4699958650	SRR22102236	37925806	11453593412
-SRP405359	SRX18082226	GSM6697058: Patient33; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586180	GSM6697058	Illumina HiSeq 4000	33308463	4383553950	SRR22102237	33308463	10059155826
-SRP405359	SRX18082225	GSM6697057: Patient32; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586179	GSM6697057	Illumina HiSeq 4000	34658814	4360066537	SRR22102238	34658814	10466961828
-SRP405359	SRX18082224	GSM6697056: Patient31; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586178	GSM6697056	Illumina HiSeq 4000	16274738	2021803534	SRR22102239	16274738	4914970876
-SRP405359	SRX18082223	GSM6697055: Patient30; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586177	GSM6697055	Illumina HiSeq 4000	39401509	4920729499	SRR22102240	39401509	11899255718
-SRP405359	SRX18082222	GSM6697054: Patient29; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586176	GSM6697054	Illumina HiSeq 4000	39659987	5262172617	SRR22102241	39659987	11977316074
-SRP405359	SRX18082221	GSM6697053: Patient28; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586175	GSM6697053	Illumina HiSeq 4000	32460742	4035027222	SRR22102242	32460742	9803144084
-SRP405359	SRX18082220	GSM6697052: Patient27; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15586174	GSM6697052	Illumina HiSeq 4000	39137332	4888152280	SRR22102243	39137332	11819474264
+SRP410072	SRX18392441	RNAseq of Homo Sapiens: gastric cancer	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15876555	LST1	NextSeq 550	38695273	345268738	SRR22422946	38695273	1916686097
+SRP410072	SRX18392440	RNAseq of Homo Sapiens: gastric cancer	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15876554	LET1	NextSeq 550	38939248	395787865	SRR22422947	38939248	1929190959
+SRP410072	SRX18392433	RNAseq of Homo Sapiens: colon cancer	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15876547	CC102	NextSeq 550	48692092	725233955	SRR22422954	48692092	3672865478
+SRP410072	SRX18392432	RNAseq of Homo Sapiens: colon cancer	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15876546	CC86	NextSeq 550	35645786	487240987	SRR22422955	35645786	1766620685
+SRP410072	SRX18392431	RNAseq of Homo Sapiens: urothelial cancer	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15876545	BLC1	NextSeq 550	21446733	183106366	SRR22422956	21446733	1059212738
+SRP410072	SRX18392430	RNAseq of Homo Sapiens: colon cancer	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15876544	CC89	NextSeq 550	30244954	351063682	SRR22422957	30244954	1497301752
+SRP410072	SRX18392429	RNAseq of Homo Sapiens: colon cancer	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15876543	CC76	NextSeq 550	30955620	355418256	SRR22422958	30955620	1532890915
+SRP409548	SRX18369025	GSM6755011: BT474.F.hand.72hr; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15855457	GSM6755011	Illumina NovaSeq 6000	54657341	2488903938	SRR22399318	27449042	7451954013
+SRP409548	SRX18369024	GSM6755010: BT474.E.print.72hr; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15855456	GSM6755010	Illumina NovaSeq 6000	40290093	1817229960	SRR22399320	20231478	5498476460
+SRP409548	SRX18369023	GSM6755009: BT474.D.hand.24hr; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15855455	GSM6755009	Illumina NovaSeq 6000	37645842	1686613884	SRR22399322	18895035	5064959758
+SRP409548	SRX18369022	GSM6755008: BT474.C.print.24hr; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15855454	GSM6755008	Illumina NovaSeq 6000	42730064	1951990096	SRR22399324	21430063	5838220284
+SRP409548	SRX18369021	GSM6755007: BT474.B.hand.1hr; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15855453	GSM6755007	Illumina NovaSeq 6000	64955526	2982091712	SRR22399326	32607072	8881051651
+SRP409548	SRX18369020	GSM6755006: BT474.A.print.1hr; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15855452	GSM6755006	Illumina NovaSeq 6000	30138739	1292900468	SRR22399328	15153574	3950782486
+SRP409548	SRX18369019	GSM6755005: MCF7.F.hand.72hr; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15855451	GSM6755005	Illumina NovaSeq 6000	58927255	2623809213	SRR22399330	29594180	7893390358
+SRP409548	SRX18369018	GSM6755004: MCF7.E.print.72hr; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15855450	GSM6755004	Illumina NovaSeq 6000	48925847	2232507875	SRR22399332	24576417	6746264388
+SRP409548	SRX18369017	GSM6755003: MCF7.D.hand.24hr; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15855449	GSM6755003	Illumina NovaSeq 6000	38694756	1742096832	SRR22399334	19397787	5207165461
+SRP409548	SRX18369016	GSM6755002: MCF7.C.print.24hr; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15855448	GSM6755002	Illumina NovaSeq 6000	40416603	1814017558	SRR22399336	20295472	5427103600
+SRP409548	SRX18369015	GSM6755001: MCF7.B.hand.1.hr; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15855447	GSM6755001	Illumina NovaSeq 6000	29613366	1342195585	SRR22399338	14897585	4009554602
+SRP409548	SRX18369014	GSM6755000: MCF7.A.print.1hr; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15855446	GSM6755000	Illumina NovaSeq 6000	40661730	1837853357	SRR22399340	20413083	5559364008
+SRP408991	SRX18330342	GSM6745556: MDA-MB-231 cells, OE-YWHAB; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15819529	GSM6745556	Illumina NovaSeq 6000	23077362	2244316187	SRR22359478	23077362	6923208600
+SRP408991	SRX18330341	GSM6745555: MDA-MB-231 cells, Vector Control; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15819528	GSM6745555	Illumina NovaSeq 6000	20900395	2047201792	SRR22359479	20900395	6270118500
+SRP408888	SRX18326041	GSM6744353: MDAMB231 cells, siRNF31-3; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15815406	GSM6744353	Illumina HiSeq 2500	23829209	1004163155	SRR22355074	23829209	1191460450
+SRP408888	SRX18326040	GSM6744352: MDAMB231 cells, siRNF31-2; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15815405	GSM6744352	Illumina HiSeq 2500	23846123	995457257	SRR22355075	23846123	1192306150
+SRP408888	SRX18326039	GSM6744351: MDAMB231 cells, siRNF31-1; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15815403	GSM6744351	Illumina HiSeq 2500	23847447	996527320	SRR22355076	23847447	1192372350
+SRP408888	SRX18326038	GSM6744350: MDAMB231 cells, siControl-3; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15815402	GSM6744350	Illumina HiSeq 2500	23836238	996486446	SRR22355077	23836238	1191811900
+SRP408888	SRX18326037	GSM6744349: MDAMB231 cells, siControl-2; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15815404	GSM6744349	Illumina HiSeq 2500	23852614	998645972	SRR22355078	23852614	1192630700
+SRP408888	SRX18326036	GSM6744348: MDAMB231 cells, siControl-1; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15815401	GSM6744348	Illumina HiSeq 2500	23827102	995610104	SRR22355079	23827102	1191355100
+SRP408833	SRX18323238	RNA-Seq of Homo sapiens CRC organoid	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15813268	P39	Illumina NovaSeq 6000	25341979	2513178560	SRR22352265	25341979	7602593700
+SRP408833	SRX18323237	RNA-Seq of Homo sapiens CRC organoid	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15813267	P30	Illumina NovaSeq 6000	21776549	2141796872	SRR22352266	21776549	6532964700
+SRP408833	SRX18323236	RNA-Seq of Homo sapiens CRC organoid	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15813266	P24	Illumina NovaSeq 6000	21643539	2157913695	SRR22352267	21643539	6493061700
+SRP408833	SRX18323235	RNA-Seq of Homo sapiens CRC organoid	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15813265	P7	Illumina NovaSeq 6000	20460130	2045597710	SRR22352268	20460130	6138039000
+SRP408833	SRX18323234	RNA-Seq of Homo sapiens CRC organoid	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15813264	P9	Illumina NovaSeq 6000	21406005	2055388382	SRR22352269	21406005	6421801500
+SRP408833	SRX18323233	RNA-Seq of Homo sapiens CRC organoid	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15813263	P5	Illumina NovaSeq 6000	24128081	2356284512	SRR22352270	24128081	7238424300
+SRP408833	SRX18323232	RNA-Seq of Homo sapiens CRC organoid	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15813262	P4	Illumina NovaSeq 6000	22323001	2387187610	SRR22352271	22323001	6696900300
+SRP408833	SRX18323231	RNA-Seq of Homo sapiens CRC organoid	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15813261	P1	Illumina NovaSeq 6000	23801340	2330724568	SRR22352272	23801340	7140402000
+ERP021251	ERX1877814	Illumina HiSeq 2000 paired end sequencing; Muscle to cancer crosstalk: Myokines released from contracting myotubes of postmenopausal women reduce breast cancer cell growth	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	Inverse rRNA	ERS1532455	SAMEA70755418	Illumina HiSeq 2000	14439188	1984175679	ERR1815302	14439188	2887837600
+ERP021251	ERX1877815	Illumina HiSeq 2000 paired end sequencing; Muscle to cancer crosstalk: Myokines released from contracting myotubes of postmenopausal women reduce breast cancer cell growth	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	Inverse rRNA	ERS1532456	SAMEA70756168	Illumina HiSeq 2000	12679859	1748831662	ERR1815303	12679859	2535971800
+ERP021251	ERX1877813	Illumina HiSeq 2000 paired end sequencing; Muscle to cancer crosstalk: Myokines released from contracting myotubes of postmenopausal women reduce breast cancer cell growth	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	Inverse rRNA	ERS1532454	SAMEA70754668	Illumina HiSeq 2000	10272804	1406223913	ERR1815301	10272804	2054560800
+ERP021251	ERX1877812	Illumina HiSeq 2000 paired end sequencing; Muscle to cancer crosstalk: Myokines released from contracting myotubes of postmenopausal women reduce breast cancer cell growth	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	Inverse rRNA	ERS1532453	SAMEA70753918	Illumina HiSeq 2000	11611497	1588179875	ERR1815300	11611497	2322299400
+ERP021251	ERX1877811	Illumina HiSeq 2000 paired end sequencing; Muscle to cancer crosstalk: Myokines released from contracting myotubes of postmenopausal women reduce breast cancer cell growth	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	Inverse rRNA	ERS1532452	SAMEA70753168	Illumina HiSeq 2000	14052584	1919296954	ERR1815299	14052584	2810516800
+ERP021251	ERX1877810	Illumina HiSeq 2000 paired end sequencing; Muscle to cancer crosstalk: Myokines released from contracting myotubes of postmenopausal women reduce breast cancer cell growth	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	Inverse rRNA	ERS1532451	SAMEA70752418	Illumina HiSeq 2000	14039766	1925115500	ERR1815298	14039766	2807953200
+SRP408494	SRX18299494	GSM6738160: 6-2PA1_NP_n2; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15790461	GSM6738160	Illumina NovaSeq 6000	44587439	2895345355	SRR22326455	44587439	9006662678
+SRP408494	SRX18299493	GSM6738159: 6PA1_NP_n1; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15790460	GSM6738159	Illumina NovaSeq 6000	36436891	2331543805	SRR22326456	36436891	7360251982
+SRP408494	SRX18299492	GSM6738158: 5-2PA1_TAP_n2; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15790459	GSM6738158	Illumina NovaSeq 6000	41868418	2684881937	SRR22326457	41868418	8457420436
+SRP408494	SRX18299491	GSM6738157: 5PA1_TAP_n1; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15790458	GSM6738157	Illumina NovaSeq 6000	44466023	2836877395	SRR22326458	44466023	8982136646
+SRP408494	SRX18299490	GSM6738156: 4-2PA1_Mock_n2; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15790457	GSM6738156	Illumina NovaSeq 6000	44730889	2864467864	SRR22326459	44730889	9035639578
+SRP408494	SRX18299489	GSM6738155: 4PA1_Mock_n1; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15790456	GSM6738155	Illumina NovaSeq 6000	38409511	2455052059	SRR22326460	38409511	7758721222
+SRP408494	SRX18299488	GSM6738154: 3-2AS1_NP_n2; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15790455	GSM6738154	Illumina NovaSeq 6000	40198418	2581416299	SRR22326461	40198418	8120080436
+SRP408494	SRX18299487	GSM6738153: 3AS1_NP_n1; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15790454	GSM6738153	Illumina NovaSeq 6000	41345661	2647677421	SRR22326462	41345661	8351823522
+SRP408494	SRX18299486	GSM6738152: 2-2AS1_TAP_n2; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15790453	GSM6738152	Illumina NovaSeq 6000	39858247	2551705751	SRR22326463	39858247	8051365894
+SRP408494	SRX18299485	GSM6738151: 2AS1_TAP_n1; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15790452	GSM6738151	Illumina NovaSeq 6000	39192401	2514153484	SRR22326464	39192401	7916865002
+SRP408494	SRX18299484	GSM6738150: 1-2AS1_Mock_n2; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15790451	GSM6738150	Illumina NovaSeq 6000	41100992	2610855889	SRR22326465	41100992	8302400384
+SRP408494	SRX18299483	GSM6738149: 1AS1_Mock_n1; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15790450	GSM6738149	Illumina NovaSeq 6000	34455185	2210877656	SRR22326466	34455185	6959947370
+SRP408485	SRX18298790	GSM6738033: Hashtagged_scVDJ_sample_2; Homo sapiens; OTHER	9606	Homo sapiens	OTHER	TRANSCRIPTOMIC	other	SRS15789759	GSM6738033	Illumina NovaSeq 6000	21390946	3232595879	SRR22325731	21390946	9861226106
+SRP408485	SRX18298789	GSM6738032: Hashtagged_scVDJ_sample_1; Homo sapiens; OTHER	9606	Homo sapiens	OTHER	TRANSCRIPTOMIC	other	SRS15789758	GSM6738032	Illumina NovaSeq 6000	21075444	3180834816	SRR22325732	21075444	9715779684
+SRP408403	SRX18292849	GSM6736158: RC_j; Homo sapiens; OTHER	9606	Homo sapiens	OTHER	TRANSCRIPTOMIC	other	SRS15784263	GSM6736158	Illumina MiSeq	14681222	4082806845	SRR22319585	14681222	7369973444
+SRP408403	SRX18292848	GSM6736157: RC_i; Homo sapiens; OTHER	9606	Homo sapiens	OTHER	TRANSCRIPTOMIC	other	SRS15784262	GSM6736157	Illumina MiSeq	13774413	3977557176	SRR22319586	13774413	6914755326
+SRP408403	SRX18292847	GSM6736156: RC_h; Homo sapiens; OTHER	9606	Homo sapiens	OTHER	TRANSCRIPTOMIC	other	SRS15784261	GSM6736156	Illumina MiSeq	14043696	4110521736	SRR22319587	14043696	7049935392
+SRP408403	SRX18292846	GSM6736155: RC_g; Homo sapiens; OTHER	9606	Homo sapiens	OTHER	TRANSCRIPTOMIC	other	SRS15784260	GSM6736155	Illumina MiSeq	12192519	3316867161	SRR22319588	12192519	6120644538
+SRP408403	SRX18292845	GSM6736154: RC_f; Homo sapiens; OTHER	9606	Homo sapiens	OTHER	TRANSCRIPTOMIC	other	SRS15784259	GSM6736154	Illumina MiSeq	14455270	4035467899	SRR22319589	14455270	7256545540
+SRP408403	SRX18292844	GSM6736153: RC_e; Homo sapiens; OTHER	9606	Homo sapiens	OTHER	TRANSCRIPTOMIC	other	SRS15784258	GSM6736153	Illumina MiSeq	12983855	3293183917	SRR22319590	12983855	6517895210
+SRP408403	SRX18292843	GSM6736152: RC_d; Homo sapiens; OTHER	9606	Homo sapiens	OTHER	TRANSCRIPTOMIC	other	SRS15784257	GSM6736152	Illumina MiSeq	11509633	3083082225	SRR22319591	11509633	5777835766
+SRP408403	SRX18292842	GSM6736151: RC_c; Homo sapiens; OTHER	9606	Homo sapiens	OTHER	TRANSCRIPTOMIC	other	SRS15784256	GSM6736151	Illumina MiSeq	12885539	3512469452	SRR22319592	12885539	6468540578
+SRP408403	SRX18292841	GSM6736150: RC_b; Homo sapiens; OTHER	9606	Homo sapiens	OTHER	TRANSCRIPTOMIC	other	SRS15784255	GSM6736150	Illumina MiSeq	11139511	2765032112	SRR22319593	11139511	5592034522
+SRP408403	SRX18292840	GSM6736149: RC_a; Homo sapiens; OTHER	9606	Homo sapiens	OTHER	TRANSCRIPTOMIC	other	SRS15784254	GSM6736149	Illumina MiSeq	12321401	3260439508	SRR22319594	12321401	6185343302
+SRP408275	SRX18287695	GSM6735086: Sample_Anaerobic_CRS_006_A09; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779451	GSM6735086	Illumina NovaSeq 6000	29085510	2626384710	SRR22314242	29085510	8783824020
+SRP408275	SRX18287694	GSM6735085: Sample_Anaerobic_CRS_006_A08; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779450	GSM6735085	Illumina NovaSeq 6000	29039377	2615837661	SRR22314243	29039377	8769891854
+SRP408275	SRX18287693	GSM6735084: Sample_Anaerobic_CRS_005_A09; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779449	GSM6735084	Illumina NovaSeq 6000	33863103	3052764520	SRR22314244	33863103	10226657106
+SRP408275	SRX18287692	GSM6735083: Sample_Anaerobic_CRS_005_A08; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779448	GSM6735083	Illumina NovaSeq 6000	28545795	2583781182	SRR22314245	28545795	8620830090
+SRP408275	SRX18287691	GSM6735082: Sample_Anaerobic_CRS_005_A07; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779447	GSM6735082	Illumina NovaSeq 6000	27744898	2498417257	SRR22314246	27744898	8378959196
+SRP408275	SRX18287690	GSM6735081: Sample_Anaerobic_006_A07; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779446	GSM6735081	Illumina NovaSeq 6000	25736047	2332319317	SRR22314247	25736047	7772286194
+SRP408275	SRX18287689	GSM6735080: Sample_Anaerobic_006_A06; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779445	GSM6735080	Illumina NovaSeq 6000	28977475	2650126292	SRR22314248	28977475	8751197450
+SRP408275	SRX18287688	GSM6735079: Sample_Anaerobic_006_A05; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779444	GSM6735079	Illumina NovaSeq 6000	31369992	2825445760	SRR22314249	31369992	9473737584
+SRP408275	SRX18287687	GSM6735078: Sample_Anaerobic_006_A04; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779443	GSM6735078	Illumina NovaSeq 6000	28725226	2604615760	SRR22314250	28725226	8675018252
+SRP408275	SRX18287686	GSM6735077: Sample_Anaerobic_006_A03; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779442	GSM6735077	Illumina NovaSeq 6000	27883463	2530016685	SRR22314251	27883463	8420805826
+SRP408275	SRX18287685	GSM6735076: Sample_Anaerobic; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779441	GSM6735076	Illumina NovaSeq 6000	26941491	2448949773	SRR22314252	26941491	8136330282
+SRP408275	SRX18287684	GSM6735075: Sample_Aerobic_006_A02; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779440	GSM6735075	Illumina NovaSeq 6000	27791914	2504363853	SRR22314253	27791914	8393158028
+SRP408275	SRX18287683	GSM6735074: Sample_Aerobic_006_A01; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779439	GSM6735074	Illumina NovaSeq 6000	28427058	2558553956	SRR22314254	28427058	8584971516
+SRP408275	SRX18287682	GSM6735073: Sample_Aerobic_005_A03; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779438	GSM6735073	Illumina NovaSeq 6000	25802689	2341335991	SRR22314255	25802689	7792412078
+SRP408275	SRX18287681	GSM6735072: Sample_Aerobic_005_A02; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779437	GSM6735072	Illumina NovaSeq 6000	31207884	2843313856	SRR22314256	31207884	9424780968
+SRP408275	SRX18287680	GSM6735071: Sample_Aerobic_005_A01; Homo sapiens; RNA-Seq	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	cDNA	SRS15779436	GSM6735071	Illumina NovaSeq 6000	24557588	2225432236	SRR22314257	24557588	7416391576
+SRP296872	SRX18280591	HupT4_2	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772928	HupT4_2	Illumina HiSeq 4000	5757600	287084861	SRR22306978	5757600	568280566
+SRP296872	SRX18280590	HupT4_1	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772927	HupT4_1	Illumina HiSeq 4000	5300331	265525417	SRR22306979	5300331	524458844
+SRP296872	SRX18280589	Hs766T_2	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772926	Hs766T_2	Illumina HiSeq 4000	3377702	170354914	SRR22306980	3377702	335016432
+SRP296872	SRX18280588	Hs766T_1	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772925	Hs766T_1	Illumina HiSeq 4000	5519712	279392682	SRR22306981	5519712	547325469
+SRP296872	SRX18280587	CAPAN2_2	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772924	CAPAN2_2	Illumina HiSeq 4000	5381543	269083199	SRR22306982	5381543	533076966
+SRP296872	SRX18280586	CAPAN2_1	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772923	CAPAN2_1	Illumina HiSeq 4000	4201648	209428495	SRR22306983	4201648	416162878
+SRP296872	SRX18280585	MIAPaCa2_HNRNPF_SEdel_2	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772922	MIAPaCa2_HNRNPF_SEdel_2	Illumina HiSeq 4000	28231792	706274390	SRR22306984	28231792	2117384400
+SRP296872	SRX18280584	MIAPaCa2_HNRNPF_SEdel_1	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772921	MIAPaCa2_HNRNPF_SEdel_1	Illumina HiSeq 4000	29933403	748854658	SRR22306985	29933403	2245005225
+SRP296872	SRX18280583	MIAPaca2_Parental_2	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772920	MIAPaca2_Parental_2	Illumina HiSeq 4000	31077260	767261609	SRR22306986	31077260	2330794500
+SRP296872	SRX18280582	MIAPaca2_Parental_1	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772919	MIAPaca2_Parental_1	Illumina HiSeq 4000	30578371	759273365	SRR22306987	30578371	2293377825
+SRP296872	SRX18280581	MIAPaCa2_HNRNPF_KO5_2	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772918	MIAPaCa2_HNRNPF_KO5_2	Illumina HiSeq 4000	17526074	550031747	SRR22306988	17526074	1733705702
+SRP296872	SRX18280580	MIAPaCa2_HNRNPF_KO5_1	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772917	MIAPaCa2_HNRNPF_KO5_1	Illumina HiSeq 4000	14512269	455410832	SRR22306989	14512269	1445978757
+SRP296872	SRX18280579	MIAPaca2_WT_2	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772916	MIAPaca2_WT_2	Illumina HiSeq 4000	19251676	601142916	SRR22306990	19251676	1918361956
+SRP296872	SRX18280578	MIAPaca2_WT_1	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772915	MIAPaca2_WT_1	Illumina HiSeq 4000	18294850	572389714	SRR22306991	18294850	1816322930
+SRP296872	SRX18280577	YAPC_2	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772914	YAPC_2	Illumina HiSeq 4000	5832937	291586955	SRR22306992	5832937	578923280
+SRP296872	SRX18280576	YAPC_1	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772913	YAPC_1	Illumina HiSeq 4000	9511112	475803185	SRR22306993	9511112	943419455
+SRP296872	SRX18280575	CAPAN1_2	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772912	CAPAN1_2	Illumina HiSeq 4000	7161336	360000653	SRR22306994	7161336	709587782
+SRP296872	SRX18280574	Su8686_2	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772910	Su8686_2	Illumina HiSeq 4000	5237585	263155000	SRR22306995	5237585	517956746
+SRP296872	SRX18280573	Su8686_1	9606	Homo sapiens	RNA-Seq	TRANSCRIPTOMIC	RANDOM	SRS15772911	Su8686_1	Illumina HiSeq 4000	5686219	284393282	SRR22306996	5686219	563282085
Binary file test-data/test_01_histogram1.jpg has changed
Binary file test-data/test_01_histogram2.jpg has changed
--- a/test-data/test_01_stats.txt	Fri Nov 11 07:35:39 2022 +0000
+++ b/test-data/test_01_stats.txt	Wed Nov 30 13:19:36 2022 +0000
@@ -1,13 +1,13 @@

   Statistics for the search query:
   =================================
-  Number of unique studies: 7
+  Number of unique studies: 11
   Number of unique experiments: 100
-  Number of unique runs: 100
+  Number of unique runs: 112
   Number of unique samples: 100
-  Mean base count of samples: 9247829385.671
-  Median base count of samples: 8383108978.000
-  Sample base count standard deviation: 4445810003.504
+  Mean base count of samples: 5256601253.884
+  Median base count of samples: 5979432411.000
+  Sample base count standard deviation: 2991739423.009
   Date range:
 	  2022-11:  100

@@ -18,24 +18,30 @@
 	  ILLUMINA:  100

   Library strategy:
-	  RNA-Seq:  100
+	  OTHER:  12
+	  RNA-Seq:  88

   Library source:
 	  TRANSCRIPTOMIC:  100

   Library selection:
-	  PCR:  36
-	  cDNA:  64
+	  Inverse rRNA:  6
+	  RANDOM:  19
+	  cDNA:  63
+	  other:  12

   Library layout:
-	  PAIRED:  73
-	  SINGLE:  27
+	  PAIRED:  68
+	  SINGLE:  32


   Sequencing instrument:
-          35 Illumina HiSeq 2500
-          35 Illumina HiSeq 4000
-          30 Illumina NovaSeq 6000
+           6 Illumina HiSeq 2000
+           6 Illumina HiSeq 2500
+          19 Illumina HiSeq 4000
+          10 Illumina MiSeq
+          52 Illumina NovaSeq 6000
+           7 NextSeq 550

   Query keyworkds: cancer
--- a/test-data/test_02_stats.txt	Fri Nov 11 07:35:39 2022 +0000
+++ b/test-data/test_02_stats.txt	Wed Nov 30 13:19:36 2022 +0000
@@ -33,5 +33,5 @@
   Sequencing instrument:
            1 Illumina NovaSeq 6000

-  Query keyworkds: colorectal cancer
+  Query keyworkds:
--- a/test-data/test_06.tabular	Fri Nov 11 07:35:39 2022 +0000
+++ b/test-data/test_06.tabular	Wed Nov 30 13:19:36 2022 +0000
@@ -1,21 +1,21 @@
-study_accession	experiment_accession	experiment_title	sample_taxon_id	sample_scientific_name	experiment_library_strategy	experiment_library_source	experiment_library_selection	sample_accession	sample_alias	experiment_instrument_model	pool_member_spots	run_1_size	run_1_accession	run_1_total_spots	run_1_total_bases	experiment_alias	experiment_base_coord	experiment_center_name	experiment_external_id	experiment_library_construction_protocol	experiment_library_name	experiment_platform	experiment_read_class	experiment_read_index	experiment_read_type	experiment_sample_descriptor_accession	experiment_sample_descriptor_refcenter	experiment_sample_descriptor_refname	experiment_spot_length	library_layout	pool_external_id	pool_member_accession	pool_member_bases	pool_member_member_name	pool_member_organism	pool_member_sample_name	pool_member_sample_title	pool_member_tax_id	run_1_alias	run_1_base_A_count	run_1_base_C_count	run_1_base_G_count	run_1_base_N_count	run_1_base_T_count	run_1_center_name	run_1_cloudfile_1_filetype	run_1_cloudfile_1_location	run_1_cloudfile_1_provider	run_1_cloudfile_2_filetype	run_1_cloudfile_2_location	run_1_cloudfile_2_provider	run_1_cluster_name	run_1_database_1	run_1_has_taxanalysis	run_1_is_public	run_1_load_done	run_1_published	run_1_srafile_1_alternative_1_access_type	run_1_srafile_1_alternative_1_free_egress	run_1_srafile_1_alternative_1_org	run_1_srafile_1_alternative_1_url	run_1_srafile_1_alternative_2_access_type	run_1_srafile_1_alternative_2_free_egress	run_1_srafile_1_alternative_2_org	run_1_srafile_1_alternative_2_url	run_1_srafile_1_alternative_3_access_type	run_1_srafile_1_alternative_3_free_egress	run_1_srafile_1_alternative_3_org	run_1_srafile_1_alternative_3_url	run_1_srafile_1_cluster	run_1_srafile_1_date	run_1_srafile_1_filename	run_1_srafile_1_md5	run_1_srafile_1_semantic_name	run_1_srafile_1_size	run_1_srafile_1_sratoolkit	run_1_srafile_1_supertype	run_1_srafile_1_url	run_1_static_data_available	run_1_total_base_count	run_1_total_base_cs_native	run_set_bases	run_set_bytes	run_set_runs	run_set_spots	sample_attributes_1_tag	sample_attributes_1_value	sample_attributes_2_tag	sample_attributes_2_value	sample_attributes_3_tag	sample_attributes_3_value	sample_attributes_4_tag	sample_attributes_4_value	sample_attributes_5_tag	sample_attributes_5_value	sample_attributes_6_tag	sample_attributes_6_value	sample_description	sample_external_id_1	sample_external_id_1_namespace	sample_title	study_alias	study_center_name	study_center_project_name	study_external_id_1	study_external_id_1_namespace	study_study_abstract	study_study_title	study_study_type_existing_study_type	submission_accession	submission_alias	submission_center_name	submission_lab_name
-DRP008863	DRX234163	NextSeq 500 sequencing of SAMD00246673	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250781	SAMD00246673	NextSeq 500	10077080	321156005	DRR244366	10077080	841466642	DRX234163	1	CHUBU	SAMD00246673	TruSeq RNA library prep kit v2	myb_Salt_r3	ILLUMINA	Application Read	0	Forward	DRS250781	CHUBU	DRS250781	86	SINGLE	SAMD00246673	DRS250781	841466642		Arabidopsis thaliana	SAMD00246673	myb3r135_7DAG_24h salt treatment	3702	DRR244366	217241699	205753833	200326567	2134	218142409	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""10077080"" /><Elements count=""841466642"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244366/DRR244366	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244366/DRR244366.1					public	2022-08-10 12:33:09	DRR244366	e53a7eb58a9113079018a4305e449613	run	321157826	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244366/DRR244366	1	841466642	false	841466642	321156005	1	10077080	sample_name	myb3r135_salt24h	age	8 day old	genotype	myb3r1 myb3r3 myb3r3 triple mutant	tissue_type	whole seedling	treatment	150 mM NaCl for 24 hours	ecotype	Columbia	myb3r1 myb3r3 myb3r5 seedlings were treated with 150 mM NaCl for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246673	BioSample	myb3r135_7DAG_24h salt treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
-DRP008863	DRX234162	NextSeq 500 sequencing of SAMD00246672	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250780	SAMD00246672	NextSeq 500	12707941	417558824	DRR244365	12707941	1061050593	DRX234162	1	CHUBU	SAMD00246672	TruSeq RNA library prep kit v2	myb_Cont_r3	ILLUMINA	Application Read	0	Forward	DRS250780	CHUBU	DRS250780	86	SINGLE	SAMD00246672	DRS250780	1061050593		Arabidopsis thaliana	SAMD00246672	myb3r135_7DAG_24h control treatment	3702	DRR244365	272077671	262904885	253228390	4518	272835129	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""12707941"" /><Elements count=""1061050593"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244365/DRR244365	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244365/DRR244365	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244365/DRR244365.1	public	2022-08-10 12:33:30	DRR244365	322190ad0855f3a4a4060ff3d1a41f5a	run	417560652	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244365/DRR244365	1	1061050593	false	1061050593	417558824	1	12707941	sample_name	myb3r135_mock	age	8 day old	genotype	myb3r1 myb3r3 myb3r3 triple mutant	tissue_type	whole seedling	treatment	mock	ecotype	Columbia	myb3r1 myb3r3 myb3r5 seedlings were mock-treated for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246672	BioSample	myb3r135_7DAG_24h control treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
-DRP008863	DRX234161	NextSeq 500 sequencing of SAMD00246671	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250779	SAMD00246671	NextSeq 500	10833863	353509516	DRR244364	10833863	904596684	DRX234161	1	CHUBU	SAMD00246671	TruSeq RNA library prep kit v2	Col_Salt_r3	ILLUMINA	Application Read	0	Forward	DRS250779	CHUBU	DRS250779	86	SINGLE	SAMD00246671	DRS250779	904596684		Arabidopsis thaliana	SAMD00246671	Col_7DAG_24h salt treatment	3702	DRR244364	232350490	223066154	214906934	3709	234269397	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""10833863"" /><Elements count=""904596684"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244364/DRR244364	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244364/DRR244364	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244364/DRR244364.1	public	2022-08-10 12:34:37	DRR244364	2dca09477e6e5ca21d0edb28096b342b	run	353511343	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244364/DRR244364	1	904596684	false	904596684	353509516	1	10833863	sample_name	Col_salt24h	age	8 day old	genotype	wild type	tissue_type	whole seedling	treatment	150 mM NaCl for 24 hours	ecotype	Columbia	Wild type Col seedlings were treated with 150 mM NaCl for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246671	BioSample	Col_7DAG_24h salt treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
-DRP008863	DRX234160	NextSeq 500 sequencing of SAMD00246670	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250778	SAMD00246670	NextSeq 500	15198010	496240398	DRR244363	15198010	1269137186	DRX234160	1	CHUBU	SAMD00246670	TruSeq RNA library prep kit v2	Col_Cont_r3	ILLUMINA	Application Read	0	Forward	DRS250778	CHUBU	DRS250778	86	SINGLE	SAMD00246670	DRS250778	1269137186		Arabidopsis thaliana	SAMD00246670	Col_7DAG_24h control treatment	3702	DRR244363	319500778	318763054	309759268	5446	321108640	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""15198010"" /><Elements count=""1269137186"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244363/DRR244363	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244363/DRR244363	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244363/DRR244363.1	public	2022-08-10 12:34:15	DRR244363	62954dc65f8f20d1091d4e493f636ee7	run	496242221	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244363/DRR244363	1	1269137186	false	1269137186	496240398	1	15198010	sample_name	Col_mock	age	8 day old	genotype	wild type	tissue_type	whole seedling	treatment	mock	ecotype	Columbia	Wild type Col seedlings were mock-treated for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246670	BioSample	Col_7DAG_24h control treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
-DRP008863	DRX234155	NextSeq 500 sequencing of SAMD00246673	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250781	SAMD00246673	NextSeq 500	8316950	266221232	DRR244358	8316950	694366365	DRX234155	1	CHUBU	SAMD00246673	TruSeq RNA library prep kit v2	myb_Salt_r2	ILLUMINA	Application Read	0	Forward	DRS250781	CHUBU	DRS250781	86	SINGLE	SAMD00246673	DRS250781	694366365		Arabidopsis thaliana	SAMD00246673	myb3r135_7DAG_24h salt treatment	3702	DRR244358	178628363	169140625	166285876	1730	180309771	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""8316950"" /><Elements count=""694366365"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244358/DRR244358	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244358/DRR244358	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244358/DRR244358.1	public	2022-08-10 12:33:52	DRR244358	144b6585d95d517844b5f2227e724f49	run	266223052	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244358/DRR244358	1	694366365	false	694366365	266221232	1	8316950	sample_name	myb3r135_salt24h	age	8 day old	genotype	myb3r1 myb3r3 myb3r3 triple mutant	tissue_type	whole seedling	treatment	150 mM NaCl for 24 hours	ecotype	Columbia	myb3r1 myb3r3 myb3r5 seedlings were treated with 150 mM NaCl for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246673	BioSample	myb3r135_7DAG_24h salt treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
-DRP008863	DRX234154	NextSeq 500 sequencing of SAMD00246672	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250780	SAMD00246672	NextSeq 500	9237421	304819387	DRR244357	9237421	771273641	DRX234154	1	CHUBU	SAMD00246672	TruSeq RNA library prep kit v2	myb_Cont_r2	ILLUMINA	Application Read	0	Forward	DRS250780	CHUBU	DRS250780	86	SINGLE	SAMD00246672	DRS250780	771273641		Arabidopsis thaliana	SAMD00246672	myb3r135_7DAG_24h control treatment	3702	DRR244357	196991668	190316147	186820462	3267	197142097	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""9237421"" /><Elements count=""771273641"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244357/DRR244357	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244357/DRR244357.1					public	2022-08-10 12:33:32	DRR244357	d75cdc1c24e24453c00df2eee6e33832	run	304821209	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244357/DRR244357	1	771273641	false	771273641	304819387	1	9237421	sample_name	myb3r135_mock	age	8 day old	genotype	myb3r1 myb3r3 myb3r3 triple mutant	tissue_type	whole seedling	treatment	mock	ecotype	Columbia	myb3r1 myb3r3 myb3r5 seedlings were mock-treated for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246672	BioSample	myb3r135_7DAG_24h control treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
-DRP008863	DRX234153	NextSeq 500 sequencing of SAMD00246671	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250779	SAMD00246671	NextSeq 500	11552257	378668250	DRR244356	11552257	964591478	DRX234153	1	CHUBU	SAMD00246671	TruSeq RNA library prep kit v2	Col_Salt_r2	ILLUMINA	Application Read	0	Forward	DRS250779	CHUBU	DRS250779	86	SINGLE	SAMD00246671	DRS250779	964591478		Arabidopsis thaliana	SAMD00246671	Col_7DAG_24h salt treatment	3702	DRR244356	246840721	238746807	231296067	4233	247703650	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""11552257"" /><Elements count=""964591478"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244356/DRR244356	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244356/DRR244356	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244356/DRR244356.1	public	2022-08-10 12:34:43	DRR244356	57bbcf263b0d81399b206a6e3f010175	run	378670075	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244356/DRR244356	1	964591478	false	964591478	378668250	1	11552257	sample_name	Col_salt24h	age	8 day old	genotype	wild type	tissue_type	whole seedling	treatment	150 mM NaCl for 24 hours	ecotype	Columbia	Wild type Col seedlings were treated with 150 mM NaCl for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246671	BioSample	Col_7DAG_24h salt treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
-DRP008863	DRX234152	NextSeq 500 sequencing of SAMD00246670	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250778	SAMD00246670	NextSeq 500	12100266	394434917	DRR244355	12100266	1010182169	DRX234152	1	CHUBU	SAMD00246670	TruSeq RNA library prep kit v2	Col_Cont_r2	ILLUMINA	Application Read	0	Forward	DRS250778	CHUBU	DRS250778	86	SINGLE	SAMD00246670	DRS250778	1010182169		Arabidopsis thaliana	SAMD00246670	Col_7DAG_24h control treatment	3702	DRR244355	261049089	247945899	239968991	4319	261213871	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""12100266"" /><Elements count=""1010182169"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244355/DRR244355	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244355/DRR244355	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244355/DRR244355.1	public	2022-08-10 12:34:17	DRR244355	5c7510fdd468ef678734557b15e783dc	run	394436735	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244355/DRR244355	1	1010182169	false	1010182169	394434917	1	12100266	sample_name	Col_mock	age	8 day old	genotype	wild type	tissue_type	whole seedling	treatment	mock	ecotype	Columbia	Wild type Col seedlings were mock-treated for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246670	BioSample	Col_7DAG_24h control treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
-DRP008863	DRX234147	NextSeq 500 sequencing of SAMD00246673	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250781	SAMD00246673	NextSeq 500	10997702	351845201	DRR244350	10997702	918306581	DRX234147	1	CHUBU	SAMD00246673	TruSeq RNA library prep kit v2	myb_Salt_r1	ILLUMINA	Application Read	0	Forward	DRS250781	CHUBU	DRS250781	86	SINGLE	SAMD00246673	DRS250781	918306581		Arabidopsis thaliana	SAMD00246673	myb3r135_7DAG_24h salt treatment	3702	DRR244350	236270140	225720983	218070765	2310	238242383	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""10997702"" /><Elements count=""918306581"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244350/DRR244350	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244350/DRR244350	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244350/DRR244350.1	public	2022-08-10 12:33:19	DRR244350	c90cca7fc022c2934d07262d4bf690bd	run	351847021	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244350/DRR244350	1	918306581	false	918306581	351845201	1	10997702	sample_name	myb3r135_salt24h	age	8 day old	genotype	myb3r1 myb3r3 myb3r3 triple mutant	tissue_type	whole seedling	treatment	150 mM NaCl for 24 hours	ecotype	Columbia	myb3r1 myb3r3 myb3r5 seedlings were treated with 150 mM NaCl for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246673	BioSample	myb3r135_7DAG_24h salt treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
-DRP008863	DRX234146	NextSeq 500 sequencing of SAMD00246672	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250780	SAMD00246672	NextSeq 500	12921662	427189150	DRR244349	12921662	1078936294	DRX234146	1	CHUBU	SAMD00246672	TruSeq RNA library prep kit v2	myb_Cont_r1	ILLUMINA	Application Read	0	Forward	DRS250780	CHUBU	DRS250780	86	SINGLE	SAMD00246672	DRS250780	1078936294		Arabidopsis thaliana	SAMD00246672	myb3r135_7DAG_24h control treatment	3702	DRR244349	278515666	265806252	254431285	4443	280178648	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""12921662"" /><Elements count=""1078936294"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244349/DRR244349	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244349/DRR244349	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244349/DRR244349.1	public	2022-08-10 12:33:53	DRR244349	ec73564e4e4766c2540b267cd27f010d	run	427190973	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244349/DRR244349	1	1078936294	false	1078936294	427189150	1	12921662	sample_name	myb3r135_mock	age	8 day old	genotype	myb3r1 myb3r3 myb3r3 triple mutant	tissue_type	whole seedling	treatment	mock	ecotype	Columbia	myb3r1 myb3r3 myb3r5 seedlings were mock-treated for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246672	BioSample	myb3r135_7DAG_24h control treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
-DRP008863	DRX234145	NextSeq 500 sequencing of SAMD00246671	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250779	SAMD00246671	NextSeq 500	12585531	415962802	DRR244348	12585531	1051121271	DRX234145	1	CHUBU	SAMD00246671	TruSeq RNA library prep kit v2	Col_Salt_r1	ILLUMINA	Application Read	0	Forward	DRS250779	CHUBU	DRS250779	86	SINGLE	SAMD00246671	DRS250779	1051121271		Arabidopsis thaliana	SAMD00246671	Col_7DAG_24h salt treatment	3702	DRR244348	262635693	266188310	257327118	4369	264965781	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""12585531"" /><Elements count=""1051121271"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244348/DRR244348	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244348/DRR244348	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244348/DRR244348.1	public	2022-08-10 12:34:44	DRR244348	659efbf7f61872ac6efc1a5cf8bde88f	run	415964627	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244348/DRR244348	1	1051121271	false	1051121271	415962802	1	12585531	sample_name	Col_salt24h	age	8 day old	genotype	wild type	tissue_type	whole seedling	treatment	150 mM NaCl for 24 hours	ecotype	Columbia	Wild type Col seedlings were treated with 150 mM NaCl for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246671	BioSample	Col_7DAG_24h salt treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
-DRP008863	DRX234144	NextSeq 500 sequencing of SAMD00246670	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250778	SAMD00246670	NextSeq 500	12814785	418969197	DRR244347	12814785	1070030618	DRX234144	1	CHUBU	SAMD00246670	TruSeq RNA library prep kit v2	Col_Cont_r1	ILLUMINA	Application Read	0	Forward	DRS250778	CHUBU	DRS250778	86	SINGLE	SAMD00246670	DRS250778	1070030618		Arabidopsis thaliana	SAMD00246670	Col_7DAG_24h control treatment	3702	DRR244347	276562745	262362352	253056511	5393	278043617	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""12814785"" /><Elements count=""1070030618"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244347/DRR244347	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244347/DRR244347	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244347/DRR244347.1	public	2022-08-10 12:34:53	DRR244347	2404780abb312680ae9bfcc4bb7c6b02	run	418971020	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244347/DRR244347	1	1070030618	false	1070030618	418969197	1	12814785	sample_name	Col_mock	age	8 day old	genotype	wild type	tissue_type	whole seedling	treatment	mock	ecotype	Columbia	Wild type Col seedlings were mock-treated for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246670	BioSample	Col_7DAG_24h control treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
-DRP008429	DRX218758	NextSeq 500 sequencing of SAMD00227985	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235491	SAMD00227985	NextSeq 500	11647755	416563035	DRR228494	11647755	1001706915	DRX218758	1	CHUBU	SAMD00227985	NEBNext Ultra DNA Library Prep Kit for Illumina	WT_12_3	ILLUMINA	Application Read	0	Forward	DRS235491	CHUBU	DRS235491	86	SINGLE	SAMD00227985	DRS235491	1001706915		Arabidopsis thaliana	SAMD00227985	WT_12	3702	DRR228494	263477176	240385788	238894690	2782	258946479	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""11647755"" /><Elements count=""1001706915"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:14	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228494/DRR228494	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228494/DRR228494	gcp identity	gs.US	GCP	gs://sra-pub-run-9/DRR228494/DRR228494.1	public	2022-04-12 12:22:24	DRR228494	df1c218fb5016da9e2b40e598afa27c1	run	416564858	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228494/DRR228494	1	1001706915	false	1001706915	416563035	1	11647755	sample_name	WT_12	age	14-day-old	cold_stress_hours	12	collection_date	2019-06-24	genotype	wild type	tissue_type	whole seedlings	WT (Col-0) plants under the cold stress conditions for 12 hour from ZT2	SAMD00227985	BioSample	WT_12	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
-DRP008429	DRX218757	NextSeq 500 sequencing of SAMD00227984	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235490	SAMD00227984	NextSeq 500	11660980	393314912	DRR228493	11660980	1002844280	DRX218757	1	CHUBU	SAMD00227984	NEBNext Ultra DNA Library Prep Kit for Illumina	WT_3_3	ILLUMINA	Application Read	0	Forward	DRS235490	CHUBU	DRS235490	86	SINGLE	SAMD00227984	DRS235490	1002844280		Arabidopsis thaliana	SAMD00227984	WT_3	3702	DRR228493	276494020	229709012	226372617	3566	270265065	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""11660980"" /><Elements count=""1002844280"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:14	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228493/DRR228493	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228493/DRR228493	gcp identity	gs.US	GCP	gs://sra-pub-run-12/DRR228493/DRR228493.1	public	2022-04-12 12:21:46	DRR228493	7026f03462bd4be539d8b883238a201d	run	393316143	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228493/DRR228493	1	1002844280	false	1002844280	393314912	1	11660980	sample_name	WT_3	age	14-day-old	cold_stress_hours	3	collection_date	2019-06-24	genotype	wild type	tissue_type	whole seedlings	WT (Col-0) plants under the cold stress conditions for 3 hour from ZT2	SAMD00227984	BioSample	WT_3	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
-DRP008429	DRX218756	NextSeq 500 sequencing of SAMD00227983	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235489	SAMD00227983	NextSeq 500	13273886	446774784	DRR228492	13273886	1141554196	DRX218756	1	CHUBU	SAMD00227983	NEBNext Ultra DNA Library Prep Kit for Illumina	WT_0_3	ILLUMINA	Application Read	0	Forward	DRS235489	CHUBU	DRS235489	86	SINGLE	SAMD00227983	DRS235489	1141554196		Arabidopsis thaliana	SAMD00227983	WT_0	3702	DRR228492	314772649	261248885	257960596	4002	307568064	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""13273886"" /><Elements count=""1141554196"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:14	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228492/DRR228492	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228492/DRR228492	gcp identity	gs.US	GCP	gs://sra-pub-run-2/DRR228492/DRR228492.1	public	2022-04-12 12:22:55	DRR228492	353f78b468cdcdd42e512acf1f421059	run	446776014	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228492/DRR228492	1	1141554196	false	1141554196	446774784	1	13273886	sample_name	WT_0	age	14-day-old	cold_stress_hours	0	collection_date	2019-06-24	genotype	wild type	tissue_type	whole seedlings	WT (Col-0) plants under the normal growth conditions at 2 hour after dawn (ZT2)	SAMD00227983	BioSample	WT_0	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
-DRP008429	DRX218755	NextSeq 500 sequencing of SAMD00227982	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235488	SAMD00227982	NextSeq 500	8875819	320965496	DRR228491	8875819	763320418	DRX218755	1	CHUBU	SAMD00227982	NEBNext Ultra DNA Library Prep Kit for Illumina	r48_12_3	ILLUMINA	Application Read	0	Forward	DRS235488	CHUBU	DRS235488	86	SINGLE	SAMD00227982	DRS235488	763320418		Arabidopsis thaliana	SAMD00227982	rve48_12	3702	DRR228491	210592983	174401463	173312581	1974	205011417	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""8875819"" /><Elements count=""763320418"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:14	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228491/DRR228491	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228491/DRR228491	gcp identity	gs.US	GCP	gs://sra-pub-run-3/DRR228491/DRR228491.1	public	2022-04-12 12:21:09	DRR228491	73aeb463276c206aa41f12add4dac462	run	320967316	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228491/DRR228491	1	763320418	false	763320418	320965496	1	8875819	sample_name	r48_12	age	14-day-old	cold_stress_hours	12	collection_date	2019-06-24	genotype	rve4 rve8	tissue_type	whole seedlings	rve4 rve8 mutant plants under the cold stress conditions for 12 hour from ZT2	SAMD00227982	BioSample	rve48_12	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
-DRP008429	DRX218754	NextSeq 500 sequencing of SAMD00227981	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235487	SAMD00227981	NextSeq 500	15165885	502400983	DRR228490	15165885	1304266110	DRX218754	1	CHUBU	SAMD00227981	NEBNext Ultra DNA Library Prep Kit for Illumina	r48_3_3	ILLUMINA	Application Read	0	Forward	DRS235487	CHUBU	DRS235487	86	SINGLE	SAMD00227981	DRS235487	1304266110		Arabidopsis thaliana	SAMD00227981	rve48_3	3702	DRR228490	359176604	297760568	295069565	4766	352254607	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""15165885"" /><Elements count=""1304266110"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:14	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228490/DRR228490	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228490/DRR228490	gcp identity	gs.US	GCP	gs://sra-pub-run-3/DRR228490/DRR228490.1	public	2022-04-12 12:21:14	DRR228490	8d53cbdb5ca069810a1e4c2af83b9c3c	run	502402216	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228490/DRR228490	1	1304266110	false	1304266110	502400983	1	15165885	sample_name	r48_3	age	14-day-old	cold_stress_hours	3	collection_date	2019-06-24	genotype	rve4 rve8	tissue_type	whole seedlings	rve4 rve8 mutant plants under the cold stress conditions for 3 hour from ZT2	SAMD00227981	BioSample	rve48_3	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
-DRP008429	DRX218753	NextSeq 500 sequencing of SAMD00227980	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235486	SAMD00227980	NextSeq 500	15187212	501850106	DRR228489	15187212	1306100232	DRX218753	1	CHUBU	SAMD00227980	NEBNext Ultra DNA Library Prep Kit for Illumina	r48_0_3	ILLUMINA	Application Read	0	Forward	DRS235486	CHUBU	DRS235486	86	SINGLE	SAMD00227980	DRS235486	1306100232		Arabidopsis thaliana	SAMD00227980	rve48_0	3702	DRR228489	358607812	298955729	297427715	4774	351104202	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""15187212"" /><Elements count=""1306100232"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:24:40	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228489/DRR228489	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228489/DRR228489	gcp identity	gs.US	GCP	gs://sra-pub-run-5/DRR228489/DRR228489.1	public	2022-04-12 12:22:11	DRR228489	660d223a0a0a89d1c8c21dec834162fe	run	501851337	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228489/DRR228489	1	1306100232	false	1306100232	501850106	1	15187212	sample_name	r48_0	age	14-day-old	cold_stress_hours	0	collection_date	2019-06-24	genotype	rve4 rve8	tissue_type	whole seedlings	rve4 rve8 mutant plants under the normal growth conditions at 2 hour after dawn (ZT2)	SAMD00227980	BioSample	rve48_0	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
-DRP008429	DRX218752	NextSeq 500 sequencing of SAMD00227979	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235485	SAMD00227979	NextSeq 500	13006006	464544238	DRR228488	13006006	1118516489	DRX218752	1	CHUBU	SAMD00227979	NEBNext Ultra DNA Library Prep Kit for Illumina	Clr48_12_3	ILLUMINA	Application Read	0	Forward	DRS235485	CHUBU	DRS235485	86	SINGLE	SAMD00227979	DRS235485	1118516489		Arabidopsis thaliana	SAMD00227979	quad_12	3702	DRR228488	291308300	271620363	269869779	3179	285714868	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""13006006"" /><Elements count=""1118516489"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:13	anonymous	worldwide	NCBI	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228488/DRR228488	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228488/DRR228488	gcp identity	gs.US	GCP	gs://sra-pub-run-10/DRR228488/DRR228488.1	public	2022-04-12 12:22:16	DRR228488	c4535e1ae353ca7b702c218f5dee501a	run	464546063	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228488/DRR228488	1	1118516489	false	1118516489	464544238	1	13006006	sample_name	Clr48_12	age	14-day-old	cold_stress_hours	12	collection_date	2019-06-24	genotype	cca1 lhy rve4 rve8	tissue_type	whole seedlings	cca1 lhy rve4 rve8 mutant plants under the cold stress conditions for 12 hour from ZT2	SAMD00227979	BioSample	quad_12	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
-DRP008429	DRX218751	NextSeq 500 sequencing of SAMD00227978	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235484	SAMD00227978	NextSeq 500	11941593	416101311	DRR228487	11941593	1003093742	DRX218751	1	CHUBU	SAMD00227978	NEBNext Ultra DNA Library Prep Kit for Illumina	Clr48_3_3	ILLUMINA	Application Read	0	Forward	DRS235484	CHUBU	DRS235484	86	SINGLE	SAMD00227978	DRS235484	1003093742		Arabidopsis thaliana	SAMD00227978	quad_3	3702	DRR228487	274672358	229405455	229040046	3169	269972714	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""11941593"" /><Elements count=""1003093742"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:13	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228487/DRR228487	gcp identity	gs.US	GCP	gs://sra-pub-run-7/DRR228487/DRR228487.1					public	2022-04-12 12:22:39	DRR228487	00d3b8388e7320bd796e17ebb0d6e993	run	416103140	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228487/DRR228487	1	1003093742	false	1003093742	416101311	1	11941593	sample_name	Clr48_3	age	14-day-old	cold_stress_hours	3	collection_date	2019-06-24	genotype	cca1 lhy rve4 rve8	tissue_type	whole seedlings	cca1 lhy rve4 rve8 mutant plants under the cold stress conditions for 3 hour from ZT2	SAMD00227978	BioSample	quad_3	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
+study_accession	experiment_accession	experiment_title	sample_taxon_id	sample_scientific_name	experiment_library_strategy	experiment_library_source	experiment_library_selection	sample_accession	sample_alias	experiment_instrument_model	pool_member_spots	run_1_size	run_1_accession	run_1_total_spots	run_1_total_bases	experiment_alias	experiment_base_coord	experiment_center_name	experiment_external_id	experiment_library_construction_protocol	experiment_library_name	experiment_platform	experiment_read_class	experiment_read_index	experiment_read_type	experiment_sample_descriptor_accession	experiment_sample_descriptor_refcenter	experiment_sample_descriptor_refname	experiment_spot_length	library_layout	pool_external_id	pool_member_accession	pool_member_bases	pool_member_member_name	pool_member_organism	pool_member_sample_name	pool_member_sample_title	pool_member_tax_id	run_1_alias	run_1_base_A_count	run_1_base_C_count	run_1_base_G_count	run_1_base_N_count	run_1_base_T_count	run_1_center_name	run_1_cloudfile_1_filetype	run_1_cloudfile_1_location	run_1_cloudfile_1_provider	run_1_cloudfile_2_filetype	run_1_cloudfile_2_location	run_1_cloudfile_2_provider	run_1_cluster_name	run_1_database_1	run_1_has_taxanalysis	run_1_is_public	run_1_load_done	run_1_published	run_1_srafile_1_alternative_1_access_type	run_1_srafile_1_alternative_1_free_egress	run_1_srafile_1_alternative_1_org	run_1_srafile_1_alternative_1_url	run_1_srafile_1_alternative_2_access_type	run_1_srafile_1_alternative_2_free_egress	run_1_srafile_1_alternative_2_org	run_1_srafile_1_alternative_2_url	run_1_srafile_1_cluster	run_1_srafile_1_date	run_1_srafile_1_filename	run_1_srafile_1_md5	run_1_srafile_1_semantic_name	run_1_srafile_1_size	run_1_srafile_1_sratoolkit	run_1_srafile_1_supertype	run_1_srafile_1_url	run_1_static_data_available	run_1_total_base_count	run_1_total_base_cs_native	run_set_bases	run_set_bytes	run_set_runs	run_set_spots	sample_attributes_1_tag	sample_attributes_1_value	sample_attributes_2_tag	sample_attributes_2_value	sample_attributes_3_tag	sample_attributes_3_value	sample_attributes_4_tag	sample_attributes_4_value	sample_attributes_5_tag	sample_attributes_5_value	sample_attributes_6_tag	sample_attributes_6_value	sample_description	sample_external_id_1	sample_external_id_1_namespace	sample_title	study_alias	study_center_name	study_center_project_name	study_external_id_1	study_external_id_1_namespace	study_study_abstract	study_study_title	study_study_type_existing_study_type	submission_accession	submission_alias	submission_center_name	submission_lab_name
+DRP008863	DRX234163	NextSeq 500 sequencing of SAMD00246673	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250781	SAMD00246673	NextSeq 500	10077080	321156005	DRR244366	10077080	841466642	DRX234163	1	CHUBU	SAMD00246673	TruSeq RNA library prep kit v2	myb_Salt_r3	ILLUMINA	Application Read	0	Forward	DRS250781	CHUBU	DRS250781	86	SINGLE	SAMD00246673	DRS250781	841466642		Arabidopsis thaliana	SAMD00246673	myb3r135_7DAG_24h salt treatment	3702	DRR244366	217241699	205753833	200326567	2134	218142409	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""10077080"" /><Elements count=""841466642"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244366/DRR244366	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244366/DRR244366.1	public	2022-08-10 12:33:09	DRR244366	e53a7eb58a9113079018a4305e449613	run	321157826	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244366/DRR244366	1	841466642	false	841466642	321156005	1	10077080	sample_name	myb3r135_salt24h	age	8 day old	genotype	myb3r1 myb3r3 myb3r3 triple mutant	tissue_type	whole seedling	treatment	150 mM NaCl for 24 hours	ecotype	Columbia	myb3r1 myb3r3 myb3r5 seedlings were treated with 150 mM NaCl for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246673	BioSample	myb3r135_7DAG_24h salt treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
+DRP008863	DRX234162	NextSeq 500 sequencing of SAMD00246672	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250780	SAMD00246672	NextSeq 500	12707941	417558824	DRR244365	12707941	1061050593	DRX234162	1	CHUBU	SAMD00246672	TruSeq RNA library prep kit v2	myb_Cont_r3	ILLUMINA	Application Read	0	Forward	DRS250780	CHUBU	DRS250780	86	SINGLE	SAMD00246672	DRS250780	1061050593		Arabidopsis thaliana	SAMD00246672	myb3r135_7DAG_24h control treatment	3702	DRR244365	272077671	262904885	253228390	4518	272835129	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""12707941"" /><Elements count=""1061050593"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244365/DRR244365	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244365/DRR244365.1	public	2022-08-10 12:33:30	DRR244365	322190ad0855f3a4a4060ff3d1a41f5a	run	417560652	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244365/DRR244365	1	1061050593	false	1061050593	417558824	1	12707941	sample_name	myb3r135_mock	age	8 day old	genotype	myb3r1 myb3r3 myb3r3 triple mutant	tissue_type	whole seedling	treatment	mock	ecotype	Columbia	myb3r1 myb3r3 myb3r5 seedlings were mock-treated for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246672	BioSample	myb3r135_7DAG_24h control treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
+DRP008863	DRX234161	NextSeq 500 sequencing of SAMD00246671	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250779	SAMD00246671	NextSeq 500	10833863	353509516	DRR244364	10833863	904596684	DRX234161	1	CHUBU	SAMD00246671	TruSeq RNA library prep kit v2	Col_Salt_r3	ILLUMINA	Application Read	0	Forward	DRS250779	CHUBU	DRS250779	86	SINGLE	SAMD00246671	DRS250779	904596684		Arabidopsis thaliana	SAMD00246671	Col_7DAG_24h salt treatment	3702	DRR244364	232350490	223066154	214906934	3709	234269397	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""10833863"" /><Elements count=""904596684"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244364/DRR244364	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244364/DRR244364.1	public	2022-08-10 12:34:37	DRR244364	2dca09477e6e5ca21d0edb28096b342b	run	353511343	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244364/DRR244364	1	904596684	false	904596684	353509516	1	10833863	sample_name	Col_salt24h	age	8 day old	genotype	wild type	tissue_type	whole seedling	treatment	150 mM NaCl for 24 hours	ecotype	Columbia	Wild type Col seedlings were treated with 150 mM NaCl for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246671	BioSample	Col_7DAG_24h salt treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
+DRP008863	DRX234160	NextSeq 500 sequencing of SAMD00246670	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250778	SAMD00246670	NextSeq 500	15198010	496240398	DRR244363	15198010	1269137186	DRX234160	1	CHUBU	SAMD00246670	TruSeq RNA library prep kit v2	Col_Cont_r3	ILLUMINA	Application Read	0	Forward	DRS250778	CHUBU	DRS250778	86	SINGLE	SAMD00246670	DRS250778	1269137186		Arabidopsis thaliana	SAMD00246670	Col_7DAG_24h control treatment	3702	DRR244363	319500778	318763054	309759268	5446	321108640	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""15198010"" /><Elements count=""1269137186"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244363/DRR244363	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244363/DRR244363.1	public	2022-08-10 12:34:15	DRR244363	62954dc65f8f20d1091d4e493f636ee7	run	496242221	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244363/DRR244363	1	1269137186	false	1269137186	496240398	1	15198010	sample_name	Col_mock	age	8 day old	genotype	wild type	tissue_type	whole seedling	treatment	mock	ecotype	Columbia	Wild type Col seedlings were mock-treated for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246670	BioSample	Col_7DAG_24h control treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
+DRP008863	DRX234155	NextSeq 500 sequencing of SAMD00246673	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250781	SAMD00246673	NextSeq 500	8316950	266221232	DRR244358	8316950	694366365	DRX234155	1	CHUBU	SAMD00246673	TruSeq RNA library prep kit v2	myb_Salt_r2	ILLUMINA	Application Read	0	Forward	DRS250781	CHUBU	DRS250781	86	SINGLE	SAMD00246673	DRS250781	694366365		Arabidopsis thaliana	SAMD00246673	myb3r135_7DAG_24h salt treatment	3702	DRR244358	178628363	169140625	166285876	1730	180309771	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""8316950"" /><Elements count=""694366365"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244358/DRR244358	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244358/DRR244358.1	public	2022-08-10 12:33:52	DRR244358	144b6585d95d517844b5f2227e724f49	run	266223052	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244358/DRR244358	1	694366365	false	694366365	266221232	1	8316950	sample_name	myb3r135_salt24h	age	8 day old	genotype	myb3r1 myb3r3 myb3r3 triple mutant	tissue_type	whole seedling	treatment	150 mM NaCl for 24 hours	ecotype	Columbia	myb3r1 myb3r3 myb3r5 seedlings were treated with 150 mM NaCl for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246673	BioSample	myb3r135_7DAG_24h salt treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
+DRP008863	DRX234154	NextSeq 500 sequencing of SAMD00246672	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250780	SAMD00246672	NextSeq 500	9237421	304819387	DRR244357	9237421	771273641	DRX234154	1	CHUBU	SAMD00246672	TruSeq RNA library prep kit v2	myb_Cont_r2	ILLUMINA	Application Read	0	Forward	DRS250780	CHUBU	DRS250780	86	SINGLE	SAMD00246672	DRS250780	771273641		Arabidopsis thaliana	SAMD00246672	myb3r135_7DAG_24h control treatment	3702	DRR244357	196991668	190316147	186820462	3267	197142097	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""9237421"" /><Elements count=""771273641"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244357/DRR244357	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244357/DRR244357.1	public	2022-08-10 12:33:32	DRR244357	d75cdc1c24e24453c00df2eee6e33832	run	304821209	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244357/DRR244357	1	771273641	false	771273641	304819387	1	9237421	sample_name	myb3r135_mock	age	8 day old	genotype	myb3r1 myb3r3 myb3r3 triple mutant	tissue_type	whole seedling	treatment	mock	ecotype	Columbia	myb3r1 myb3r3 myb3r5 seedlings were mock-treated for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246672	BioSample	myb3r135_7DAG_24h control treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
+DRP008863	DRX234153	NextSeq 500 sequencing of SAMD00246671	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250779	SAMD00246671	NextSeq 500	11552257	378668250	DRR244356	11552257	964591478	DRX234153	1	CHUBU	SAMD00246671	TruSeq RNA library prep kit v2	Col_Salt_r2	ILLUMINA	Application Read	0	Forward	DRS250779	CHUBU	DRS250779	86	SINGLE	SAMD00246671	DRS250779	964591478		Arabidopsis thaliana	SAMD00246671	Col_7DAG_24h salt treatment	3702	DRR244356	246840721	238746807	231296067	4233	247703650	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""11552257"" /><Elements count=""964591478"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244356/DRR244356	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244356/DRR244356.1	public	2022-08-10 12:34:43	DRR244356	57bbcf263b0d81399b206a6e3f010175	run	378670075	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244356/DRR244356	1	964591478	false	964591478	378668250	1	11552257	sample_name	Col_salt24h	age	8 day old	genotype	wild type	tissue_type	whole seedling	treatment	150 mM NaCl for 24 hours	ecotype	Columbia	Wild type Col seedlings were treated with 150 mM NaCl for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246671	BioSample	Col_7DAG_24h salt treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
+DRP008863	DRX234152	NextSeq 500 sequencing of SAMD00246670	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250778	SAMD00246670	NextSeq 500	12100266	394434917	DRR244355	12100266	1010182169	DRX234152	1	CHUBU	SAMD00246670	TruSeq RNA library prep kit v2	Col_Cont_r2	ILLUMINA	Application Read	0	Forward	DRS250778	CHUBU	DRS250778	86	SINGLE	SAMD00246670	DRS250778	1010182169		Arabidopsis thaliana	SAMD00246670	Col_7DAG_24h control treatment	3702	DRR244355	261049089	247945899	239968991	4319	261213871	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""12100266"" /><Elements count=""1010182169"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244355/DRR244355	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244355/DRR244355.1	public	2022-08-10 12:34:17	DRR244355	5c7510fdd468ef678734557b15e783dc	run	394436735	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244355/DRR244355	1	1010182169	false	1010182169	394434917	1	12100266	sample_name	Col_mock	age	8 day old	genotype	wild type	tissue_type	whole seedling	treatment	mock	ecotype	Columbia	Wild type Col seedlings were mock-treated for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246670	BioSample	Col_7DAG_24h control treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
+DRP008863	DRX234147	NextSeq 500 sequencing of SAMD00246673	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250781	SAMD00246673	NextSeq 500	10997702	351845201	DRR244350	10997702	918306581	DRX234147	1	CHUBU	SAMD00246673	TruSeq RNA library prep kit v2	myb_Salt_r1	ILLUMINA	Application Read	0	Forward	DRS250781	CHUBU	DRS250781	86	SINGLE	SAMD00246673	DRS250781	918306581		Arabidopsis thaliana	SAMD00246673	myb3r135_7DAG_24h salt treatment	3702	DRR244350	236270140	225720983	218070765	2310	238242383	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""10997702"" /><Elements count=""918306581"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244350/DRR244350	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244350/DRR244350.1	public	2022-08-10 12:33:19	DRR244350	c90cca7fc022c2934d07262d4bf690bd	run	351847021	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244350/DRR244350	1	918306581	false	918306581	351845201	1	10997702	sample_name	myb3r135_salt24h	age	8 day old	genotype	myb3r1 myb3r3 myb3r3 triple mutant	tissue_type	whole seedling	treatment	150 mM NaCl for 24 hours	ecotype	Columbia	myb3r1 myb3r3 myb3r5 seedlings were treated with 150 mM NaCl for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246673	BioSample	myb3r135_7DAG_24h salt treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
+DRP008863	DRX234146	NextSeq 500 sequencing of SAMD00246672	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250780	SAMD00246672	NextSeq 500	12921662	427189150	DRR244349	12921662	1078936294	DRX234146	1	CHUBU	SAMD00246672	TruSeq RNA library prep kit v2	myb_Cont_r1	ILLUMINA	Application Read	0	Forward	DRS250780	CHUBU	DRS250780	86	SINGLE	SAMD00246672	DRS250780	1078936294		Arabidopsis thaliana	SAMD00246672	myb3r135_7DAG_24h control treatment	3702	DRR244349	278515666	265806252	254431285	4443	280178648	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""12921662"" /><Elements count=""1078936294"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244349/DRR244349	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244349/DRR244349.1	public	2022-08-10 12:33:53	DRR244349	ec73564e4e4766c2540b267cd27f010d	run	427190973	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244349/DRR244349	1	1078936294	false	1078936294	427189150	1	12921662	sample_name	myb3r135_mock	age	8 day old	genotype	myb3r1 myb3r3 myb3r3 triple mutant	tissue_type	whole seedling	treatment	mock	ecotype	Columbia	myb3r1 myb3r3 myb3r5 seedlings were mock-treated for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246672	BioSample	myb3r135_7DAG_24h control treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
+DRP008863	DRX234145	NextSeq 500 sequencing of SAMD00246671	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250779	SAMD00246671	NextSeq 500	12585531	415962802	DRR244348	12585531	1051121271	DRX234145	1	CHUBU	SAMD00246671	TruSeq RNA library prep kit v2	Col_Salt_r1	ILLUMINA	Application Read	0	Forward	DRS250779	CHUBU	DRS250779	86	SINGLE	SAMD00246671	DRS250779	1051121271		Arabidopsis thaliana	SAMD00246671	Col_7DAG_24h salt treatment	3702	DRR244348	262635693	266188310	257327118	4369	264965781	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""12585531"" /><Elements count=""1051121271"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244348/DRR244348	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244348/DRR244348.1	public	2022-08-10 12:34:44	DRR244348	659efbf7f61872ac6efc1a5cf8bde88f	run	415964627	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244348/DRR244348	1	1051121271	false	1051121271	415962802	1	12585531	sample_name	Col_salt24h	age	8 day old	genotype	wild type	tissue_type	whole seedling	treatment	150 mM NaCl for 24 hours	ecotype	Columbia	Wild type Col seedlings were treated with 150 mM NaCl for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246671	BioSample	Col_7DAG_24h salt treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
+DRP008863	DRX234144	NextSeq 500 sequencing of SAMD00246670	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS250778	SAMD00246670	NextSeq 500	12814785	418969197	DRR244347	12814785	1070030618	DRX234144	1	CHUBU	SAMD00246670	TruSeq RNA library prep kit v2	Col_Cont_r1	ILLUMINA	Application Read	0	Forward	DRS250778	CHUBU	DRS250778	86	SINGLE	SAMD00246670	DRS250778	1070030618		Arabidopsis thaliana	SAMD00246670	Col_7DAG_24h control treatment	3702	DRR244347	276562745	262362352	253056511	5393	278043617	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""12814785"" /><Elements count=""1070030618"" /></Statistics></Table></Database>"	1	true	true	2022-08-10 12:31:34	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244347/DRR244347	gcp identity	gs.US	GCP	gs://sra-pub-run-2/sra/DRR244347/DRR244347.1	public	2022-08-10 12:34:53	DRR244347	2404780abb312680ae9bfcc4bb7c6b02	run	418971020	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR244347/DRR244347	1	1070030618	false	1070030618	418969197	1	12814785	sample_name	Col_mock	age	8 day old	genotype	wild type	tissue_type	whole seedling	treatment	mock	ecotype	Columbia	Wild type Col seedlings were mock-treated for 24 hours after grwon for 7 days on half-strength MS medium containing 2% sucrose under continuous light condition	SAMD00246670	BioSample	Col_7DAG_24h control treatment	DRP008863	CHUBU	Arabidopsis thaliana	PRJDB10553	BioProject	Three MYB3R proteins, MYB3R1, MYB3R3 and MYB3R5, are responsible for transcriptional repression of G2/M-specific genes to maintain their proper expression levels during cell cycle and plant development. Importantly, MYB3R repressors were found to be required for active growth repression under salt stress conditions. To understand the mechanisms of the MYB3R-mediated growth repression under salt stress, transcriptome analysis was performed for Arabidopsis seedlings treated with high concentration of NaCl continuously or transiently.	Roles of MYB3R repressors for gene expression changes under salt stress	Other	DRA010790	DRA010790	CHUBU	Chubu University
+DRP008429	DRX218758	NextSeq 500 sequencing of SAMD00227985	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235491	SAMD00227985	NextSeq 500	11647755	416563035	DRR228494	11647755	1001706915	DRX218758	1	CHUBU	SAMD00227985	NEBNext Ultra DNA Library Prep Kit for Illumina	WT_12_3	ILLUMINA	Application Read	0	Forward	DRS235491	CHUBU	DRS235491	86	SINGLE	SAMD00227985	DRS235491	1001706915		Arabidopsis thaliana	SAMD00227985	WT_12	3702	DRR228494	263477176	240385788	238894690	2782	258946479	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""11647755"" /><Elements count=""1001706915"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:14	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228494/DRR228494	gcp identity	gs.US	GCP	gs://sra-pub-run-9/DRR228494/DRR228494.1	public	2022-04-12 12:22:24	DRR228494	df1c218fb5016da9e2b40e598afa27c1	run	416564858	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228494/DRR228494	1	1001706915	false	1001706915	416563035	1	11647755	sample_name	WT_12	age	14-day-old	cold_stress_hours	12	collection_date	2019-06-24	genotype	wild type	tissue_type	whole seedlings	WT (Col-0) plants under the cold stress conditions for 12 hour from ZT2	SAMD00227985	BioSample	WT_12	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
+DRP008429	DRX218757	NextSeq 500 sequencing of SAMD00227984	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235490	SAMD00227984	NextSeq 500	11660980	393314912	DRR228493	11660980	1002844280	DRX218757	1	CHUBU	SAMD00227984	NEBNext Ultra DNA Library Prep Kit for Illumina	WT_3_3	ILLUMINA	Application Read	0	Forward	DRS235490	CHUBU	DRS235490	86	SINGLE	SAMD00227984	DRS235490	1002844280		Arabidopsis thaliana	SAMD00227984	WT_3	3702	DRR228493	276494020	229709012	226372617	3566	270265065	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""11660980"" /><Elements count=""1002844280"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:14	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228493/DRR228493	gcp identity	gs.US	GCP	gs://sra-pub-run-12/DRR228493/DRR228493.1	public	2022-04-12 12:21:46	DRR228493	7026f03462bd4be539d8b883238a201d	run	393316143	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228493/DRR228493	1	1002844280	false	1002844280	393314912	1	11660980	sample_name	WT_3	age	14-day-old	cold_stress_hours	3	collection_date	2019-06-24	genotype	wild type	tissue_type	whole seedlings	WT (Col-0) plants under the cold stress conditions for 3 hour from ZT2	SAMD00227984	BioSample	WT_3	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
+DRP008429	DRX218756	NextSeq 500 sequencing of SAMD00227983	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235489	SAMD00227983	NextSeq 500	13273886	446774784	DRR228492	13273886	1141554196	DRX218756	1	CHUBU	SAMD00227983	NEBNext Ultra DNA Library Prep Kit for Illumina	WT_0_3	ILLUMINA	Application Read	0	Forward	DRS235489	CHUBU	DRS235489	86	SINGLE	SAMD00227983	DRS235489	1141554196		Arabidopsis thaliana	SAMD00227983	WT_0	3702	DRR228492	314772649	261248885	257960596	4002	307568064	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""13273886"" /><Elements count=""1141554196"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:14	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228492/DRR228492	gcp identity	gs.US	GCP	gs://sra-pub-run-2/DRR228492/DRR228492.1	public	2022-04-12 12:22:55	DRR228492	353f78b468cdcdd42e512acf1f421059	run	446776014	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228492/DRR228492	1	1141554196	false	1141554196	446774784	1	13273886	sample_name	WT_0	age	14-day-old	cold_stress_hours	0	collection_date	2019-06-24	genotype	wild type	tissue_type	whole seedlings	WT (Col-0) plants under the normal growth conditions at 2 hour after dawn (ZT2)	SAMD00227983	BioSample	WT_0	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
+DRP008429	DRX218755	NextSeq 500 sequencing of SAMD00227982	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235488	SAMD00227982	NextSeq 500	8875819	320965496	DRR228491	8875819	763320418	DRX218755	1	CHUBU	SAMD00227982	NEBNext Ultra DNA Library Prep Kit for Illumina	r48_12_3	ILLUMINA	Application Read	0	Forward	DRS235488	CHUBU	DRS235488	86	SINGLE	SAMD00227982	DRS235488	763320418		Arabidopsis thaliana	SAMD00227982	rve48_12	3702	DRR228491	210592983	174401463	173312581	1974	205011417	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""8875819"" /><Elements count=""763320418"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:14	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228491/DRR228491	gcp identity	gs.US	GCP	gs://sra-pub-run-3/DRR228491/DRR228491.1	public	2022-04-12 12:21:09	DRR228491	73aeb463276c206aa41f12add4dac462	run	320967316	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228491/DRR228491	1	763320418	false	763320418	320965496	1	8875819	sample_name	r48_12	age	14-day-old	cold_stress_hours	12	collection_date	2019-06-24	genotype	rve4 rve8	tissue_type	whole seedlings	rve4 rve8 mutant plants under the cold stress conditions for 12 hour from ZT2	SAMD00227982	BioSample	rve48_12	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
+DRP008429	DRX218754	NextSeq 500 sequencing of SAMD00227981	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235487	SAMD00227981	NextSeq 500	15165885	502400983	DRR228490	15165885	1304266110	DRX218754	1	CHUBU	SAMD00227981	NEBNext Ultra DNA Library Prep Kit for Illumina	r48_3_3	ILLUMINA	Application Read	0	Forward	DRS235487	CHUBU	DRS235487	86	SINGLE	SAMD00227981	DRS235487	1304266110		Arabidopsis thaliana	SAMD00227981	rve48_3	3702	DRR228490	359176604	297760568	295069565	4766	352254607	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""15165885"" /><Elements count=""1304266110"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:14	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228490/DRR228490	gcp identity	gs.US	GCP	gs://sra-pub-run-3/DRR228490/DRR228490.1	public	2022-04-12 12:21:14	DRR228490	8d53cbdb5ca069810a1e4c2af83b9c3c	run	502402216	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228490/DRR228490	1	1304266110	false	1304266110	502400983	1	15165885	sample_name	r48_3	age	14-day-old	cold_stress_hours	3	collection_date	2019-06-24	genotype	rve4 rve8	tissue_type	whole seedlings	rve4 rve8 mutant plants under the cold stress conditions for 3 hour from ZT2	SAMD00227981	BioSample	rve48_3	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
+DRP008429	DRX218753	NextSeq 500 sequencing of SAMD00227980	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235486	SAMD00227980	NextSeq 500	15187212	501850106	DRR228489	15187212	1306100232	DRX218753	1	CHUBU	SAMD00227980	NEBNext Ultra DNA Library Prep Kit for Illumina	r48_0_3	ILLUMINA	Application Read	0	Forward	DRS235486	CHUBU	DRS235486	86	SINGLE	SAMD00227980	DRS235486	1306100232		Arabidopsis thaliana	SAMD00227980	rve48_0	3702	DRR228489	358607812	298955729	297427715	4774	351104202	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""15187212"" /><Elements count=""1306100232"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:24:40	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228489/DRR228489	gcp identity	gs.US	GCP	gs://sra-pub-run-5/DRR228489/DRR228489.1	public	2022-04-12 12:22:11	DRR228489	660d223a0a0a89d1c8c21dec834162fe	run	501851337	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228489/DRR228489	1	1306100232	false	1306100232	501850106	1	15187212	sample_name	r48_0	age	14-day-old	cold_stress_hours	0	collection_date	2019-06-24	genotype	rve4 rve8	tissue_type	whole seedlings	rve4 rve8 mutant plants under the normal growth conditions at 2 hour after dawn (ZT2)	SAMD00227980	BioSample	rve48_0	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
+DRP008429	DRX218752	NextSeq 500 sequencing of SAMD00227979	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235485	SAMD00227979	NextSeq 500	13006006	464544238	DRR228488	13006006	1118516489	DRX218752	1	CHUBU	SAMD00227979	NEBNext Ultra DNA Library Prep Kit for Illumina	Clr48_12_3	ILLUMINA	Application Read	0	Forward	DRS235485	CHUBU	DRS235485	86	SINGLE	SAMD00227979	DRS235485	1118516489		Arabidopsis thaliana	SAMD00227979	quad_12	3702	DRR228488	291308300	271620363	269869779	3179	285714868	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""13006006"" /><Elements count=""1118516489"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:13	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228488/DRR228488	gcp identity	gs.US	GCP	gs://sra-pub-run-10/DRR228488/DRR228488.1	public	2022-04-12 12:22:16	DRR228488	c4535e1ae353ca7b702c218f5dee501a	run	464546063	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228488/DRR228488	1	1118516489	false	1118516489	464544238	1	13006006	sample_name	Clr48_12	age	14-day-old	cold_stress_hours	12	collection_date	2019-06-24	genotype	cca1 lhy rve4 rve8	tissue_type	whole seedlings	cca1 lhy rve4 rve8 mutant plants under the cold stress conditions for 12 hour from ZT2	SAMD00227979	BioSample	quad_12	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University
+DRP008429	DRX218751	NextSeq 500 sequencing of SAMD00227978	3702	Arabidopsis thaliana	RNA-Seq	TRANSCRIPTOMIC	RANDOM	DRS235484	SAMD00227978	NextSeq 500	11941593	416101311	DRR228487	11941593	1003093742	DRX218751	1	CHUBU	SAMD00227978	NEBNext Ultra DNA Library Prep Kit for Illumina	Clr48_3_3	ILLUMINA	Application Read	0	Forward	DRS235484	CHUBU	DRS235484	86	SINGLE	SAMD00227978	DRS235484	1003093742		Arabidopsis thaliana	SAMD00227978	quad_3	3702	DRR228487	274672358	229405455	229040046	3169	269972714	CHUBU	run	gs.US	gs	run	s3.us-east-1	s3	public	"<Database><Table name=""SEQUENCE""><Statistics source=""meta""><Rows count=""11941593"" /><Elements count=""1003093742"" /></Statistics></Table></Database>"	1	true	true	2022-04-12 12:22:13	anonymous	worldwide	AWS	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228487/DRR228487	gcp identity	gs.US	GCP	gs://sra-pub-run-7/DRR228487/DRR228487.1	public	2022-04-12 12:22:39	DRR228487	00d3b8388e7320bd796e17ebb0d6e993	run	416103140	1	Primary ETL	https://sra-pub-run-odp.s3.amazonaws.com/sra/DRR228487/DRR228487	1	1003093742	false	1003093742	416101311	1	11941593	sample_name	Clr48_3	age	14-day-old	cold_stress_hours	3	collection_date	2019-06-24	genotype	cca1 lhy rve4 rve8	tissue_type	whole seedlings	cca1 lhy rve4 rve8 mutant plants under the cold stress conditions for 3 hour from ZT2	SAMD00227978	BioSample	quad_3	DRP008429	CHUBU	Arabidopsis thaliana	PRJDB9852	BioProject	It was reported that CCA1 and LHY positively regulated the gene expression of DREB1A and DREB1C. In addition, we revealed that RVE4 and RVE8 directly activated the cold-inducible DREB1A expression. The cca1 lhy double mutant, rve4 rve8 double mutant (rve48), and cca1 lhy rve4 rve8 quadruple mutant (quad) plants were sensitive to the freezing stress. In order to comprehensively analyze downstream genes of RVE4/RVE8 and CCA1/LHY in the cold response, we conducted RNA sequence analyses. We used 14-day-old whole seedlings of wild type (Col-0), cca1 lhy, rve48 and quad mutant plants grown on GM agar plates under the normal growth conditions at ZT2 (2 h after dawn) and the cold stress conditions treated at 4Â°C for 3 h and 12 h. We have three biological replicates for this analysis.	RNAseq analyses of the multiple mutant plants of CCA1/LHY and RVE4/RVE8 under cold stresses	Transcriptome Analysis	DRA010211	DRA010211	CHUBU	Chubu University