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 degreeTranscriptomeTFAP2CMethylationDifferentiationEomesAdaption by Rewiring Epigenetic Landscapes
Liu Y, Xiao A. Adaption by Rewiring Epigenetic Landscapes. Cell Stem Cell 2015, 17: 249-250. PMID: 26340521, PMCID: PMC4710369, DOI: 10.1016/j.stem.2015.08.015.Peer-Reviewed Original Research
2007
Linking the epigenetic 'language' of covalent histone modifications to cancer.
Hake S, Xiao A, Allis C. Linking the epigenetic 'language' of covalent histone modifications to cancer. British Journal Of Cancer 2007, 96 Suppl: r31-9. PMID: 17393583.Peer-Reviewed Original ResearchCovalent histone modificationsHistone modificationsMethylation of DNAEpigenetic languageChromatin reorganisationEpigenetic modulationCovalent modificationHuman biologyHuman cancersMultistep processMethylationRecent findingsChromatinHuman healthHistonesPhosphorylationBiologyAcetylationDNAModificationPotential therapyCarcinogenesisMajor partCancer
2004
Linking the epigenetic ‘language’ of covalent histone modifications to cancer
Hake SB, Xiao A, Allis CD. Linking the epigenetic ‘language’ of covalent histone modifications to cancer. British Journal Of Cancer 2004, 90: 761-769. PMID: 14970850, PMCID: PMC2410168, DOI: 10.1038/sj.bjc.6601575.Peer-Reviewed Original ResearchConceptsCovalent histone modificationsHistone modificationsMethylation of DNAChromatin reorganisationEpigenetic modulationCovalent modificationHuman biologyHuman cancersMultistep processMethylationRecent findingsChromatinHuman healthHistonesEpigeneticsPhosphorylationBiologyAcetylationDNAModificationPotential therapyCarcinogenesisMajor partCancer