2022
An RNAi screen of RNA helicases identifies eIF4A3 as a regulator of embryonic stem cell identity
Li D, Yang J, Malik V, Huang Y, Huang X, Zhou H, Wang J. An RNAi screen of RNA helicases identifies eIF4A3 as a regulator of embryonic stem cell identity. Nucleic Acids Research 2022, 50: 12462-12479. PMID: 36416264, PMCID: PMC9757061, DOI: 10.1093/nar/gkac1084.Peer-Reviewed Original ResearchConceptsExon junction complexRNA helicaseRNA interferenceEmbryonic stem cellsPost-transcriptionallyEmbryonic stem cell identityEfficient nuclear exportRNA interference screenCell cycle progression of ESCsPost-transcriptional controlCell cycle regulationStem cell identityCell cycle progressionMaintenance of embryonic stem cellsStem cell pluripotencyLoss of pluripotencyRNA metabolismDEAD-boxCell cycle dysregulationCell identityCycle regulationCell pluripotencyCell cyclePluripotency controlCyclin B1
2021
Polycomb complexes redundantly maintain epidermal stem cell identity during development
Cohen I, Bar C, Liu H, Valdes VJ, Zhao D, Galbo PM, Silva JM, Koseki H, Zheng D, Ezhkova E. Polycomb complexes redundantly maintain epidermal stem cell identity during development. Genes & Development 2021, 35: 354-366. PMID: 33602871, PMCID: PMC7919412, DOI: 10.1101/gad.345363.120.Peer-Reviewed Original ResearchConceptsFunctional redundancyTranscription factorsRepressive chromatin domainsStem cell identityEpidermal stem cellsStrong derepressionEpidermal identityPolycomb complexesChromatin domainsDevelopmental regulatorsIdentity genesPRC2 functionGene repressionGenomic bindingCell identityMolecular dissectionEpidermal progenitorsLineage identityPRC2PRC1Ectopic expressionSevere defectsEpidermal stratificationPhysiological significanceStem cells
2014
A Regulatory Network of Drosophila Germline Stem Cell Self-Renewal
Yan D, Neumüller RA, Buckner M, Ayers K, Li H, Hu Y, Yang-Zhou D, Pan L, Wang X, Kelley C, Vinayagam A, Binari R, Randklev S, Perkins LA, Xie T, Cooley L, Perrimon N. A Regulatory Network of Drosophila Germline Stem Cell Self-Renewal. Developmental Cell 2014, 28: 459-473. PMID: 24576427, PMCID: PMC3998650, DOI: 10.1016/j.devcel.2014.01.020.Peer-Reviewed Original ResearchConceptsGermline stem cellsSelf-renewal factorsDrosophila female germline stem cellsStem cellsDifferent stem cell lineagesLarge-scale RNAi screenFemale germline stem cellsLoss of Set1Stem Cell Self-RenewalSpecific genetic networksHistone methyltransferase Set1Stem cell identityCell fate decisionsStem cell lineagesCell Self-RenewalSelf-renewal genesRNAi screenDistinct fatesFate decisionsGSC maintenanceCell identityCell fateRegulatory networksGenetic networksNeural stem cells
2008
The Growth Factor Environment Defines Distinct Pluripotent Ground States in Novel Blastocyst-Derived Stem Cells
Chou YF, Chen HH, Eijpe M, Yabuuchi A, Chenoweth JG, Tesar P, Lu J, McKay RD, Geijsen N. The Growth Factor Environment Defines Distinct Pluripotent Ground States in Novel Blastocyst-Derived Stem Cells. Cell 2008, 135: 449-461. PMID: 18984157, PMCID: PMC2767270, DOI: 10.1016/j.cell.2008.08.035.Peer-Reviewed Original ResearchConceptsStem cell linesGrowth factor environmentPluripotent stateTissue of originCell linesEmbryonic stem cell linesPluripotent ground stateBlastocyst embryosStem cell identityCell-cell interactionsGrowth factor conditionsStem cell typesFactor environmentPostimplantation epiblastCell identityES cellsDevelopmental stagesCell typesStem cellsFunctional differencesCritical roleEmbryosGrowth factorGrowth factor milieuEpiSCs
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