Cellosaurus cell line GM18507 (CVCL

Cellosaurus GM18507 (CVCL_9632)

Cross-references
Cell line name	GM18507
Accession	CVCL_9632
Resource Identification Initiative	To cite this cell line use: GM18507 (RRID:CVCL_9632)
Comments	Part of: ENCODE project common cell types; tier 3. Part of: International Genome Sample Resource (1000 genomes project) cell lines. Population: African; Yoruba in Ibadan, Nigeria (YRI). Transformant: NCBI_TaxID; 10376; Epstein-Barr virus (EBV). Omics: CNV analysis. Omics: Deep proteome analysis. Omics: DNA methylation analysis. Omics: Genome sequenced. Omics: H3K27ac ChIP-seq epigenome analysis. Omics: H3K27me3 ChIP-seq epigenome analysis. Omics: H3K4me1 ChIP-seq epigenome analysis. Omics: H3K4me3 ChIP-seq epigenome analysis. Omics: Transcriptome analysis by microarray. Omics: Transcriptome analysis by RNAseq. Derived from site: In situ; Peripheral blood; UBERON=UBERON_0000178.
Species of origin	Homo sapiens (Human) (NCBI Taxonomy: 9606)
Sex of cell	Male
Age at sampling	Age unspecified
Category	Transformed cell line
Web pages	http://genome.ucsc.edu/ENCODE/protocols/cell/human/GM18507_protocol.pdf
Publications	PubMed=17122850; DOI=10.1038/nature05329 Redon R., Ishikawa S., Fitch K.R., Feuk L., Perry G.H., Andrews T.D., Fiegler H., Shapero M.H., Carson A.R., Chen W.-W., Cho E.K., Dallaire S., Freeman J.L., Gonzalez J.R., Gratacos M., Huang J., Kalaitzopoulos D., Komura D., MacDonald J.R., Marshall C.R., Mei R., Montgomery L., Nishimura K., Okamura K., Shen F., Somerville M.J., Tchinda J., Valsesia A., Woodwark C., Yang F.-T., Zhang J.-J., Zerjal T., Zhang J., Armengol L., Conrad D.F., Estivill X., Tyler-Smith C., Carter N.P., Aburatani H., Lee C., Jones K.W., Scherer S.W., Hurles M.E. Global variation in copy number in the human genome. Nature 444:444-454(2006) PubMed=19043577; DOI=10.1371/journal.pgen.1000287 Choy E., Yelensky R., Bonakdar S., Plenge R.M., Saxena R., De Jager P.L., Shaw S.Y., Wolfish C.S., Slavik J.M., Cotsapas C., Rivas M.A., Dermitzakis E.T., Cahir-McFarland E., Kieff E.D., Hafler D.A., Daly M.J., Altshuler D.M. Genetic analysis of human traits in vitro: drug response and gene expression in lymphoblastoid cell lines. PLoS Genet. 4:E1000287-E1000287(2008) PubMed=19797678; DOI=10.1101/gr.097600.109 Nayak R.R., Kearns M., Spielman R.S., Cheung V.G. Coexpression network based on natural variation in human gene expression reveals gene interactions and functions. Genome Res. 19:1953-1962(2009) PubMed=20220758; DOI=10.1038/nature08872 Pickrell J.K., Marioni J.C., Pai A.A., Degner J.F., Engelhardt B.E., Nkadori E., Veyrieras J.-B., Stephens M., Gilad Y., Pritchard J.K. Understanding mechanisms underlying human gene expression variation with RNA sequencing. Nature 464:768-772(2010) PubMed=21397061; DOI=10.1016/j.ajhg.2011.02.004 Campbell C.D., Sampas N., Tsalenko A., Sudmant P.H., Kidd J.M., Malig M., Vu T.H., Vives L., Tsang P., Bruhn L., Eichler E.E. Population-genetic properties of differentiated human copy-number polymorphisms. Am. J. Hum. Genet. 88:317-332(2011) PubMed=22797897; DOI=10.1073/pnas.1205199109 Iskow R.C., Gokcumen O., Abyzov A., Malukiewicz J., Zhu Q.-H., Sukumar A.T., Pai A.A., Mills R.E., Habegger L., Cusanovich D.A., Rubel M.A., Perry G.H., Gerstein M.B., Stone A.C., Gilad Y., Lee C. Regulatory element copy number differences shape primate expression profiles. Proc. Natl. Acad. Sci. U.S.A. 109:12656-12661(2012) PubMed=23676674; DOI=10.1038/nature12223 Wu L.-F., Candille S.I., Choi Y., Xie D., Jiang L.-H., Li-Pook-Than J., Tang H., Snyder M.P. Variation and genetic control of protein abundance in humans. Nature 499:79-82(2013) PubMed=24136357; DOI=10.1126/science.1242379 Khan Z., Ford M.J., Cusanovich D.A., Mitrano A., Pritchard J.K., Gilad Y. Primate transcript and protein expression levels evolve under compensatory selection pressures. Science 342:1100-1104(2013) PubMed=24136359; DOI=10.1126/science.1242429 McVicker G., van de Geijn B., Degner J.F., Cain C.E., Banovich N.E., Raj A., Lewellen N., Myrthil M., Gilad Y., Pritchard J.K. Identification of genetic variants that affect histone modifications in human cells. Science 342:747-749(2013) PubMed=25468404; DOI=10.1186/s13059-014-0547-3 Zhou X., Cain C.E., Myrthil M., Lewellen N., Michelini K., Davenport E.R., Stephens M., Pritchard J.K., Gilad Y. Epigenetic modifications are associated with inter-species gene expression variation in primates. Genome Biol. 15:547.1-547.19(2014)
Cell line collections (Providers)	Coriell; GM18507
Cell line databases/resources	CLO; CLO_0024916
Biological sample resources	ENCODE; ENCBS222AAA IGSR; NA18507
Encyclopedic resources	Wikidata; Q54849585
Experimental variables resources	EFO; EFO_0002787
Gene expression databases	GEO; GSM112578 GEO; GSM112882 GEO; GSM188858 GEO; GSM273459 GEO; GSM291714 GEO; GSM315146 GEO; GSM485464 GEO; GSM485428 GEO; GSM649268 GEO; GSM816653 GEO; GSM1164204 GEO; GSM1164214 GEO; GSM1164224 GEO; GSM1164234 GEO; GSM1164244 GEO; GSM1204877 GEO; GSM1618715 GEO; GSM1719847
Proteomic databases	PRIDE; PXD000419 PRIDE; PXD001406
Entry history
Entry creation	06-Jun-2012
Last entry update	30-Jan-2024
Version number	23