2015
Extensive Nuclear Reprogramming Underlies Lineage Conversion into Functional Trophoblast Stem-like Cells
Benchetrit H, Herman S, van Wietmarschen N, Wu T, Makedonski K, Maoz N, Tov N, Stave D, Lasry R, Zayat V, Xiao A, Lansdorp PM, Sebban S, Buganim Y. Extensive Nuclear Reprogramming Underlies Lineage Conversion into Functional Trophoblast Stem-like Cells. Cell Stem Cell 2015, 17: 543-556. PMID: 26412562, DOI: 10.1016/j.stem.2015.08.006.Peer-Reviewed Original ResearchConceptsNuclear reprogrammingEmbryonic stem cellsStem-like cellsTransient pluripotent stateStem cellsDNA methylation profilesPluripotent stem cellsPluripotent stateLineage conversionTranscriptional profilesTransient expressionMethylation profilesReprogrammingEvidence of passageMouse fibroblastsPluripotencyChimera assaysLineagesCellsHigh degreeTranscriptomeTFAP2CMethylationDifferentiationEomes
2014
Histone Variant H2A.X Deposition Pattern Serves as a Functional Epigenetic Mark for Distinguishing the Developmental Potentials of iPSCs
Wu T, Liu Y, Wen D, Tseng Z, Tahmasian M, Zhong M, Rafii S, Stadtfeld M, Hochedlinger K, Xiao A. Histone Variant H2A.X Deposition Pattern Serves as a Functional Epigenetic Mark for Distinguishing the Developmental Potentials of iPSCs. Cell Stem Cell 2014, 15: 281-294. PMID: 25192463, DOI: 10.1016/j.stem.2014.06.004.Peer-Reviewed Original ResearchConceptsEmbryonic stem cellsLineage gene expressionHistone variant H2A.XCell lineage commitmentDevelopmental potentialMouse iPSC linesIPSC linesPluripotent stem cell (iPSC) technologyEpigenetic marksLineage genesEpigenetic mechanismsLineage commitmentLineage differentiationExtraembryonic differentiationStem cell technologyGene expressionTetraploid complementationIPSC clonesIPSC qualityStem cellsFunctional markersH2A.XDifferentiationIPSCsComplementation