ID   WA01
AC   CVCL_9771
SY   WA 01; WA-01; WA1; H1; H1-hESC; ESC H1; GE01; WAe001-A; WICELLe001-A; WA01-PCBC; PCBC02hse2011100705; SC11-014
DR   BTO; BTO:0006060
DR   CLO; CLO_0037281
DR   EFO; EFO_0003042
DR   4DN; 4DNSRHNAF6M6
DR   4DN; 4DNSRV3SKQ8M
DR   BioSample; SAMN03471895
DR   BioSamples; SAMEA7768168
DR   CCRID; 3101HUMSCSP301
DR   CCRID; 3101HUMSCSP306
DR   ENCODE; ENCBS001VRA
DR   ENCODE; ENCBS011NFB
DR   ENCODE; ENCBS019EUF
DR   ENCODE; ENCBS040WGM
DR   ENCODE; ENCBS051SJH
DR   ENCODE; ENCBS055BDT
DR   ENCODE; ENCBS055DBZ
DR   ENCODE; ENCBS060CKC
DR   ENCODE; ENCBS060MZO
DR   ENCODE; ENCBS081AUS
DR   ENCODE; ENCBS083WOY
DR   ENCODE; ENCBS086PQW
DR   ENCODE; ENCBS103ZIA
DR   ENCODE; ENCBS111ENC
DR   ENCODE; ENCBS131GSD
DR   ENCODE; ENCBS153GON
DR   ENCODE; ENCBS182IPV
DR   ENCODE; ENCBS215WGD
DR   ENCODE; ENCBS244HDB
DR   ENCODE; ENCBS253TYD
DR   ENCODE; ENCBS262EHC
DR   ENCODE; ENCBS270AGK
DR   ENCODE; ENCBS282MUP
DR   ENCODE; ENCBS284CPV
DR   ENCODE; ENCBS285QSX
DR   ENCODE; ENCBS299BNQ
DR   ENCODE; ENCBS299NOL
DR   ENCODE; ENCBS307HNW
DR   ENCODE; ENCBS309DZE
DR   ENCODE; ENCBS345JIP
DR   ENCODE; ENCBS364BFI
DR   ENCODE; ENCBS368BPP
DR   ENCODE; ENCBS371MFZ
DR   ENCODE; ENCBS380OBH
DR   ENCODE; ENCBS409PYK
DR   ENCODE; ENCBS428NIG
DR   ENCODE; ENCBS440MTS
DR   ENCODE; ENCBS479XUT
DR   ENCODE; ENCBS484NGW
DR   ENCODE; ENCBS497CZZ
DR   ENCODE; ENCBS513BIK
DR   ENCODE; ENCBS534NMZ
DR   ENCODE; ENCBS540UTP
DR   ENCODE; ENCBS559QNR
DR   ENCODE; ENCBS568FYY
DR   ENCODE; ENCBS570AYT
DR   ENCODE; ENCBS582QGL
DR   ENCODE; ENCBS614LXI
DR   ENCODE; ENCBS626BQK
DR   ENCODE; ENCBS649THQ
DR   ENCODE; ENCBS661AAA
DR   ENCODE; ENCBS665AAA
DR   ENCODE; ENCBS668AAA
DR   ENCODE; ENCBS670AAA
DR   ENCODE; ENCBS704NOS
DR   ENCODE; ENCBS706WYC
DR   ENCODE; ENCBS708BLT
DR   ENCODE; ENCBS711AAA
DR   ENCODE; ENCBS716AAA
DR   ENCODE; ENCBS716FMR
DR   ENCODE; ENCBS717WTB
DR   ENCODE; ENCBS718AAA
DR   ENCODE; ENCBS720AAA
DR   ENCODE; ENCBS731AAA
DR   ENCODE; ENCBS732AAA
DR   ENCODE; ENCBS733AAA
DR   ENCODE; ENCBS734AAA
DR   ENCODE; ENCBS739PSV
DR   ENCODE; ENCBS740OND
DR   ENCODE; ENCBS780AAA
DR   ENCODE; ENCBS780WAB
DR   ENCODE; ENCBS797AAA
DR   ENCODE; ENCBS802AAA
DR   ENCODE; ENCBS803AAA
DR   ENCODE; ENCBS819TBN
DR   ENCODE; ENCBS820AAA
DR   ENCODE; ENCBS847AAA
DR   ENCODE; ENCBS849HZG
DR   ENCODE; ENCBS854AAA
DR   ENCODE; ENCBS855AAA
DR   ENCODE; ENCBS874KZJ
DR   ENCODE; ENCBS899KQD
DR   ENCODE; ENCBS899NYB
DR   ENCODE; ENCBS929BKG
DR   ENCODE; ENCBS945MCY
DR   ENCODE; ENCBS951DDF
DR   ENCODE; ENCBS952IPA
DR   ENCODE; ENCBS977TKX
DR   ENCODE; ENCBS982HXP
DR   ENCODE; ENCBS984IPH
DR   GEO; GSM288339
DR   GEO; GSM347921
DR   GEO; GSM383873
DR   GEO; GSM383874
DR   GEO; GSM384095
DR   GEO; GSM384096
DR   GEO; GSM409307
DR   GEO; GSM409308
DR   GEO; GSM409312
DR   GEO; GSM410807
DR   GEO; GSM410808
DR   GEO; GSM428286
DR   GEO; GSM428289
DR   GEO; GSM428291
DR   GEO; GSM428295
DR   GEO; GSM428296
DR   GEO; GSM429321
DR   GEO; GSM429322
DR   GEO; GSM429323
DR   GEO; GSM432392
DR   GEO; GSM432685
DR   GEO; GSM432686
DR   GEO; GSM433167
DR   GEO; GSM433170
DR   GEO; GSM433171
DR   GEO; GSM433174
DR   GEO; GSM433176
DR   GEO; GSM433177
DR   GEO; GSM433179
DR   GEO; GSM434762
DR   GEO; GSM434776
DR   GEO; GSM434785
DR   GEO; GSM438361
DR   GEO; GSM438362
DR   GEO; GSM450236
DR   GEO; GSM450239
DR   GEO; GSM450266
DR   GEO; GSM450268
DR   GEO; GSM450270
DR   GEO; GSM466732
DR   GEO; GSM466734
DR   GEO; GSM466737
DR   GEO; GSM466739
DR   GEO; GSM469971
DR   GEO; GSM484408
DR   GEO; GSM537679
DR   GEO; GSM537680
DR   GEO; GSM537681
DR   GEO; GSM537682
DR   GEO; GSM537683
DR   GEO; GSM537684
DR   GEO; GSM537685
DR   GEO; GSM543005
DR   GEO; GSM579898
DR   GEO; GSM579899
DR   GEO; GSM569199
DR   GEO; GSM569200
DR   GEO; GSM602251
DR   GEO; GSM602252
DR   GEO; GSM602253
DR   GEO; GSM637775
DR   GEO; GSM733657
DR   GEO; GSM733670
DR   GEO; GSM733672
DR   GEO; GSM733687
DR   GEO; GSM733718
DR   GEO; GSM733725
DR   GEO; GSM733748
DR   GEO; GSM733773
DR   GEO; GSM733782
DR   GEO; GSM736582
DR   GEO; GSM803345
DR   GEO; GSM803365
DR   GEO; GSM803366
DR   GEO; GSM803377
DR   GEO; GSM803382
DR   GEO; GSM803396
DR   GEO; GSM803405
DR   GEO; GSM803419
DR   GEO; GSM803424
DR   GEO; GSM803425
DR   GEO; GSM803426
DR   GEO; GSM803427
DR   GEO; GSM803428
DR   GEO; GSM803430
DR   GEO; GSM803437
DR   GEO; GSM803438
DR   GEO; GSM803450
DR   GEO; GSM803466
DR   GEO; GSM803476
DR   GEO; GSM803484
DR   GEO; GSM803501
DR   GEO; GSM803506
DR   GEO; GSM803512
DR   GEO; GSM803513
DR   GEO; GSM803529
DR   GEO; GSM803542
DR   GEO; GSM816632
DR   GEO; GSM822274
DR   GEO; GSM822297
DR   GEO; GSM822300
DR   GEO; GSM856729
DR   GEO; GSM862728
DR   GEO; GSM935289
DR   GEO; GSM935292
DR   GEO; GSM935293
DR   GEO; GSM935295
DR   GEO; GSM935296
DR   GEO; GSM935297
DR   GEO; GSM935303
DR   GEO; GSM935308
DR   GEO; GSM935348
DR   GEO; GSM935352
DR   GEO; GSM935379
DR   GEO; GSM935380
DR   GEO; GSM935382
DR   GEO; GSM935434
DR   GEO; GSM935463
DR   GEO; GSM935509
DR   GEO; GSM935514
DR   GEO; GSM935517
DR   GEO; GSM935580
DR   GEO; GSM935581
DR   GEO; GSM935614
DR   GEO; GSM1003444
DR   GEO; GSM1003446
DR   GEO; GSM1003451
DR   GEO; GSM1003457
DR   GEO; GSM1003472
DR   GEO; GSM1003473
DR   GEO; GSM1003479
DR   GEO; GSM1003509
DR   GEO; GSM1003513
DR   GEO; GSM1003524
DR   GEO; GSM1003547
DR   GEO; GSM1003571
DR   GEO; GSM1003572
DR   GEO; GSM1003573
DR   GEO; GSM1003579
DR   GEO; GSM1003584
DR   GEO; GSM1003585
DR   GEO; GSM1003619
DR   GEO; GSM1010742
DR   GEO; GSM1010743
DR   GEO; GSM1010776
DR   GEO; GSM1010845
DR   GEO; GSM1010896
DR   GEO; GSM1010898
DR   GEO; GSM1010899
DR   GEO; GSM1040242
DR   GEO; GSM1040312
DR   GEO; GSM1084833
DR   GEO; GSM1084941
DR   GEO; GSM1084942
DR   GEO; GSM1153529
DR   GEO; GSM1489248
DR   GEO; GSM1489459
DR   GEO; GSM1582545
DR   GEO; GSM1658376
DR   hPSCreg; WAe001-A
DR   IGRhCellID; H1%20p61
DR   ISCR; 87
DR   NIHhESC; NIHhESC-10-0043
DR   PRIDE; PXD003903
DR   SKIP; SKIP001933
DR   WiCell; wa01
DR   WiCell; wa01-cgmp-material
DR   WiCell; wa01-matched-research-bank
DR   WiCell; wa01-pcbc
DR   Wikidata; Q54993510
RX   PubMed=9804556;
RX   PubMed=14745950;
RX   PubMed=16388305;
RX   PubMed=16919167;
RX   PubMed=17287758;
RX   PubMed=17570852;
RX   PubMed=17572666;
RX   PubMed=18713948;
RX   PubMed=20428235;
RX   PubMed=20641038;
RX   PubMed=20736931;
RX   PubMed=21295703;
RX   PubMed=21714037;
RX   PubMed=21983960;
RX   PubMed=22514597;
RX   PubMed=22802639;
RX   PubMed=23117585;
RX   PubMed=23325432;
RX   PubMed=24259714;
RX   PubMed=24374290;
RX   PubMed=27476965;
RX   PubMed=28445466;
RX   PubMed=29034888;
RX   PubMed=29034901;
RX   PubMed=30388422;
WW   https://stemcelldb.nih.gov/cellLineDetails.do?id=12
WW   https://news.wisc.edu/nih-reapproves-wicells-h9-and-three-other-wisconsin-stem-cell-lines-for-federally-funded-research/
CC   Part of: ENCODE project common cell types; tier 1.
CC   Part of: NHBLI Progenitor Cell Biology Consortium (PCBC) collection.
CC   From: University of Wisconsin; Madison; USA.
CC   Registration: NIH Human Embryonic Stem Cell Registry; NIHhESC-10-0043.
CC   Registration: Swiss research registry; BAG-hES-IMP-0001.
CC   Registration: UK Stem Cell Bank (UKSCB); Steering comm. appl. SCSC06-18/SCSC11-06.
CC   HLA typing: A*02:03; B*08,35; C*04,07; DQB1*02,05; DRB1*01,03; DRB3*01 (PubMed=16919167).
CC   Omics: Array-based CGH.
CC   Omics: Deep exome analysis.
CC   Omics: Deep phosphoproteome analysis.
CC   Omics: Deep proteome analysis.
CC   Omics: DNA methylation analysis.
CC   Omics: H3K27ac ChIP-seq epigenome analysis.
CC   Omics: H3K27me3 ChIP-seq epigenome analysis.
CC   Omics: H3K36me3 ChIP-seq epigenome analysis.
CC   Omics: H3K4me1 ChIP-seq epigenome analysis.
CC   Omics: H3K4me2 ChIP-seq epigenome analysis.
CC   Omics: H3K4me3 ChIP-seq epigenome analysis.
CC   Omics: H3K9ac ChIP-seq epigenome analysis.
CC   Omics: H3K9me3 ChIP-seq epigenome analysis.
CC   Omics: H4K20me1 ChIP-seq epigenome analysis.
CC   Omics: SNP array analysis.
CC   Omics: Transcriptome analysis by microarray.
CC   Omics: Transcriptome analysis by RNAseq.
CC   Omics: Transcriptome analysis by serial analysis of gene expression (SAGE).
CC   Anecdotal: WA01, WA07, WA09, WA13 and WA14 were the first human embryonic stem cells to be established.
CC   Derived from site: In situ; Blastocyst; UBERON=UBERON_0000358.
CC   Cell type: Embryonic stem cell; CL=CL_0002322.
ST   Source(s): PubMed=16919167; PubMed=24374290; PubMed=29034888; PubMed=29034901; WiCell
ST   Amelogenin: X,Y
ST   CSF1PO: 12,13
ST   D12S391: 20
ST   D13S317: 8,11
ST   D16S539: 9,13
ST   D18S51: 17,18
ST   D19S433: 13,15
ST   D21S11: 28,32.2
ST   D2S1338: 18,19
ST   D3S1358: 15
ST   D5S818: 9,11
ST   D6S1043: 12,14
ST   D7S820: 8,12
ST   D8S1179: 12,13
ST   FGA: 20,24
ST   Penta D: 10,13
ST   Penta E: 10,12
ST   TH01: 9.3
ST   TPOX: 8,11
ST   vWA: 15,17
OX   NCBI_TaxID=9606; ! Homo sapiens (Human)
SX   Male
AG   Blastocyst stage
CA   Embryonic stem cell
DT   Created: 06-06-12; Last updated: 30-01-24; Version: 36
//
RX   PubMed=9804556; DOI=10.1126/science.282.5391.1145;
RA   Thomson J.A., Itskovitz-Eldor J., Shapiro S.S., Waknitz M.A.,
RA   Swiergiel J.J., Marshall V.S., Jones J.M.;
RT   "Embryonic stem cell lines derived from human blastocysts.";
RL   Science 282:1145-1147(1998).
//
RX   PubMed=14745950; DOI=10.1002/dvdy.10431;
RA   Carpenter M.K., Rosler E.S., Fisk G.J., Brandenberger R., Ares X.,
RA   Miura T., Lucero M.T., Rao M.S.;
RT   "Properties of four human embryonic stem cell lines maintained in a
RT   feeder-free culture system.";
RL   Dev. Dyn. 229:243-258(2004).
//
RX   PubMed=16388305; DOI=10.1038/nbt1177;
RA   Ludwig T.E., Levenstein M.E., Jones J.M., Berggren W.T., Mitchen E.R.,
RA   Frane J.L., Crandall L.J., Daigh C.A., Conard K.R., Piekarczyk M.S.,
RA   Llanas R.A., Thomson J.A.;
RT   "Derivation of human embryonic stem cells in defined conditions.";
RL   Nat. Biotechnol. 24:185-187(2006).
//
RX   PubMed=16919167; DOI=10.1186/1741-7007-4-28;
RA   Josephson R., Sykes G.R., Liu Y., Ording C.J., Xu W.-N., Zeng X.-M.,
RA   Shin S., Loring J.F., Maitra A., Rao M.S., Auerbach J.M.;
RT   "A molecular scheme for improved characterization of human embryonic
RT   stem cell lines.";
RL   BMC Biol. 4:28.1-28.13(2006).
//
RX   PubMed=17287758; DOI=10.1038/nbt1285;
RA   Baker D.E.C., Harrison N.J., Maltby E., Smith K., Moore H.D., Shaw P.J.,
RA   Heath P.R., Holden H., Andrews P.W.;
RT   "Adaptation to culture of human embryonic stem cells and oncogenesis
RT   in vivo.";
RL   Nat. Biotechnol. 25:207-215(2007).
//
RX   PubMed=17570852; DOI=10.1186/gb-2007-8-6-r113;
RA   Hirst M., Delaney A., Rogers S.A., Schnerch A., Persaud D.R.,
RA   O'Connor M.D., Zeng T., Moksa M., Fichter K., Mah D., Go A.,
RA   Morin R.D., Baross A., Zhao Y.-J., Khattra J., Prabhu A.-L., Pandoh P.,
RA   McDonald H., Asano J.K., Dhalla N., Ma K., Lee S., Ally A., Chahal N.,
RA   Menzies S., Siddiqui A., Holt R.A., Jones S.J.M., Gerhard D.S.,
RA   Thomson J.A., Eaves C.J., Marra M.A.;
RT   "LongSAGE profiling of nine human embryonic stem cell lines.";
RL   Genome Biol. 8:R113.1-R113.12(2007).
//
RX   PubMed=17572666; DOI=10.1038/nbt1318;
RA   Adewumi O., Aflatoonian B., Ahrlund-Richter L., Amit M., Andrews P.W.,
RA   Beighton G., Bello P.A., Benvenisty N., Berry L.S., Bevan S., Blum B.,
RA   Brooking J., Chen K.G., Choo A.B.-H., Churchill G.A., Corbel M.,
RA   Damjanov I., Draper J.S., Dvorak P., Emanuelsson K., Fleck R.A.,
RA   Ford A., Gertow K., Gertsenstein M., Gokhale P.J., Hamilton R.S.,
RA   Hampl A., Healy L.E., Hovatta O., Hyllner J., Imreh M.P.,
RA   Itskovitz-Eldor J., Jackson J., Johnson J.L., Jones M., Kee K.,
RA   King B.L., Knowles B.B., Lako M., Lebrin F., Mallon B.S., Manning D.,
RA   Mayshar Y., McKay R.D.G., Michalska A.E., Mikkola M., Mileikovsky M.,
RA   Minger S.L., Moore H.D., Mummery C.L., Nagy A., Nakatsuji N.,
RA   O'Brien C.M., Oh S.K.-W., Olsson C., Otonkoski T., Park K.-Y.,
RA   Passier R., Patel H., Patel M.J., Pedersen R., Pera M.F.,
RA   Piekarczyk M.S., Reijo Pera R.A., Reubinoff B.E., Robins A.J.,
RA   Rossant J., Rugg-Gunn P., Schulz T.C., Semb H., Sherrer E.S., Siemen H.,
RA   Stacey G.N., Stojkovic M., Suemori H., Szatkiewicz J., Turetsky T.T.,
RA   Tuuri T., van den Brink S., Vintersten K., Vuoristo S.,
RA   Ward-van Oostwaard D., Weaver T.A., Young L.A., Zhang W.-D.;
RT   "Characterization of human embryonic stem cell lines by the
RT   International Stem Cell Initiative.";
RL   Nat. Biotechnol. 25:803-816(2007).
//
RX   PubMed=18713948; DOI=10.1182/blood-2008-05-157198;
RA   Lu S.-J., Feng Q., Park J.S., Vida L., Lee B.-S., Strausbauch M.,
RA   Wettstein P.J., Honig G.R., Lanza R.P.;
RT   "Biologic properties and enucleation of red blood cells from human
RT   embryonic stem cells.";
RL   Blood 112:4475-4484(2008).
//
RX   PubMed=20428235; DOI=10.1371/journal.pone.0010263;
RA   Hovatta O., Jaconi Devaud M.E.E., Tohonen V., Sloan-Bena F., Gimelli S.,
RA   Bosman A.G., Holm F., Wyder S., Zdobnov E.M., Irion O., Andrews P.W.,
RA   Antonarakis S.E., Zucchelli M., Kere J., Feki A.;
RT   "A teratocarcinoma-like human embryonic stem cell (hESC) line and four
RT   hESC lines reveal potentially oncogenic genomic changes.";
RL   PLoS ONE 5:E10263-E10263(2010).
//
RX   PubMed=20641038; DOI=10.1002/stem.471;
RA   Gutierrez-Aranda I., Ramos-Mejia V., Bueno C., Munoz-Lopez M.,
RA   Real P.J., Macia A., Sanchez L., Ligero G., Garcia-Parez J.L.,
RA   Menendez P.;
RT   "Human induced pluripotent stem cells develop teratoma more
RT   efficiently and faster than human embryonic stem cells regardless the
RT   site of injection.";
RL   Stem Cells 28:1568-1570(2010).
//
RX   PubMed=20736931; DOI=10.1038/mt.2010.179;
RA   Ramos-Mejia V., Melen G.J., Sanchez L., Gutierrez-Aranda I.,
RA   Ligero G., Cortes J.L., Real P.J., Bueno C., Menendez P.;
RT   "Nodal/activin signaling predicts human pluripotent stem cell lines
RT   prone to differentiate toward the hematopoietic lineage.";
RL   Mol. Ther. 18:2173-2181(2010).
//
RX   PubMed=21295703; DOI=10.1016/j.cell.2010.12.032;
RA   Bock C., Kiskinis E., Verstappen G., Gu H.-C., Boulting G.L., Smith Z.D.,
RA   Ziller M.J., Croft G.F., Amoroso M.W., Oakley D.H., Gnirke A.,
RA   Eggan K.C., Meissner A.;
RT   "Reference maps of human ES and iPS cell variation enable
RT   high-throughput characterization of pluripotent cell lines.";
RL   Cell 144:439-452(2011).
//
RX   PubMed=21714037; DOI=10.1002/stem.681;
RA   Ramirez J.-M., Gerbal-Chaloin S., Milhavet O., Qiang B., Becker F.,
RA   Assou S., Lemaitre J.-M., Hamamah S., De Vos J.;
RT   "Brief report: benchmarking human pluripotent stem cell markers during
RT   differentiation into the three germ layers unveils a striking
RT   heterogeneity: all markers are not equal.";
RL   Stem Cells 29:1469-1474(2011).
//
RX   PubMed=21983960; DOI=10.1038/nmeth.1699;
RA   Phanstiel D.H., Brumbaugh J., Wenger C.D., Tian S.-L., Probasco M.D.,
RA   Bailey D.J., Swaney D.L., Tervo M.A., Bolin J.M., Ruotti V.,
RA   Stewart R., Thomson J.A., Coon J.J.;
RT   "Proteomic and phosphoproteomic comparison of human ES and iPS
RT   cells.";
RL   Nat. Methods 8:821-827(2011).
//
RX   PubMed=22514597; DOI=10.1371/journal.pone.0030743;
RA   Sandt C., Feraud O., Oudrhiri N., Bonnet M.-L., Meunier M.-C.,
RA   Valogne Y., Bertrand A., Raphael M., Griscelli F., Turhan A.G.,
RA   Dumas P., Bennaceur-Griscelli A.;
RT   "Identification of spectral modifications occurring during
RT   reprogramming of somatic cells.";
RL   PLoS ONE 7:E30743-E30743(2012).
//
RX   PubMed=22802639; DOI=10.1073/pnas.1209979109;
RA   Kajiwara M., Aoi T., Okita K., Takahashi R., Inoue H., Takayama N.,
RA   Endo H., Eto K., Toguchida J., Uemoto S., Yamanaka S.;
RT   "Donor-dependent variations in hepatic differentiation from
RT   human-induced pluripotent stem cells.";
RL   Proc. Natl. Acad. Sci. U.S.A. 109:12538-12543(2012).
//
RX   PubMed=23117585; DOI=10.1016/j.scr.2012.09.002;
RA   Mallon B.S., Chenoweth J.G., Johnson K.R., Hamilton R.S., Tesar P.J.,
RA   Yavatkar A.S., Tyson L.J., Park K., Chen K.G., Fann Y.C., McKay R.D.G.;
RT   "StemCellDB: the human pluripotent stem cell database at the National
RT   Institutes of Health.";
RL   Stem Cell Res. 10:57-66(2013).
//
RX   PubMed=23325432; DOI=10.1101/gr.147942.112;
RA   Varley K.E., Gertz J., Bowling K.M., Parker S.L., Reddy T.E.,
RA   Pauli-Behn F., Cross M.K., Williams B.A., Stamatoyannopoulos J.A.,
RA   Crawford G.E., Absher D.M., Wold B.J., Myers R.M.;
RT   "Dynamic DNA methylation across diverse human cell lines and
RT   tissues.";
RL   Genome Res. 23:555-567(2013).
//
RX   PubMed=24259714; DOI=10.1073/pnas.1319061110;
RA   Koyanagi-Aoi M., Ohnuki M., Takahashi K., Okita K., Noma H.,
RA   Sawamura Y., Teramoto I., Narita M., Sato Y., Ichisaka T., Amano N.,
RA   Watanabe A., Morizane A., Yamada Y., Sato T., Takahashi J.,
RA   Yamanaka S.;
RT   "Differentiation-defective phenotypes revealed by large-scale analyses
RT   of human pluripotent stem cells.";
RL   Proc. Natl. Acad. Sci. U.S.A. 110:20569-20574(2013).
//
RX   PubMed=24374290; DOI=10.1016/j.scr.2013.11.010;
RA   Mallon B.S., Hamilton R.S., Kozhich O.A., Johnson K.R., Fann Y.C.,
RA   Rao M.S., Robey P.G.;
RT   "Comparison of the molecular profiles of human embryonic and induced
RT   pluripotent stem cells of isogenic origin.";
RL   Stem Cell Res. 12:376-386(2014).
//
RX   PubMed=27476965; DOI=10.1016/j.stem.2016.06.019;
RA   Nishizawa M., Chonabayashi K., Nomura M., Tanaka A., Nakamura M.,
RA   Inagaki A., Nishikawa M., Takei I., Oishi A., Tanabe K., Ohnuki M.,
RA   Yokota H., Koyanagi-Aoi M., Okita K., Watanabe A., Takaori-Kondo A.,
RA   Yamanaka S., Yoshida Y.;
RT   "Epigenetic variation between human induced pluripotent stem cell
RT   lines is an indicator of differentiation capacity.";
RL   Cell Stem Cell 19:341-354(2016).
//
RX   PubMed=28445466; DOI=10.1038/nature22312;
RA   Merkle F.T., Ghosh S., Kamitaki N., Mitchell J., Avior Y., Mello C.,
RA   Kashin S., Mekhoubad S., Ilic D., Charlton M., Saphier G.,
RA   Handsaker R.E., Genovese G., Bar S., Benvenisty N., McCarroll S.A.,
RA   Eggan K.C.;
RT   "Human pluripotent stem cells recurrently acquire and expand dominant
RT   negative P53 mutations.";
RL   Nature 545:229-233(2017).
//
RX   PubMed=29034888; DOI=10.1016/j.scr.2017.06.005;
RA   Liu Y.-L., Ruzi A., Guo D.-S., Wu F.-M., Liu H.-K., Wu H., Wu Y.-H.,
RA   Yuan F., Zhuang Y.-Q., Yang F., Lai K.-Y., Lai L.-X., Li Y.-X.;
RT   "Generation of two MEN1 knockout lines from a human embryonic stem
RT   cell line.";
RL   Stem Cell Res. 24:169-173(2017).
//
RX   PubMed=29034901; DOI=10.1016/j.scr.2017.08.016;
RA   Yuan F., Guo D.-S., Gao G., Liu Y.-L., Xu Y.-Y., Wu Y.-H., Yang F.,
RA   Ke X.-R., Lai K.-Y., Hong L.-Q., Li Y.-X.;
RT   "Generation of a KCNJ11 homozygous knockout human embryonic stem cell
RT   line WAe001-A-12 using CRISPR/Cas9.";
RL   Stem Cell Res. 24:89-93(2017).
//
RX   PubMed=30388422; DOI=10.1016/j.stem.2018.10.009;
RA   Ludwig T.E., Kujak A., Rauti A., Andrzejewski S., Langbehn S.,
RA   Mayfield J., Fuller J., Yashiro Y., Hara Y., Bhattacharyya A.;
RT   "20 years of human pluripotent stem cell research: it all started with
RT   five lines.";
RL   Cell Stem Cell 23:644-648(2018).
//