2015
Integrative Analyses of Human Reprogramming Reveal Dynamic Nature of Induced Pluripotency
Cacchiarelli D, Trapnell C, Ziller MJ, Soumillon M, Cesana M, Karnik R, Donaghey J, Smith ZD, Ratanasirintrawoot S, Zhang X, Sui S, Wu Z, Akopian V, Gifford CA, Doench J, Rinn JL, Daley GQ, Meissner A, Lander ES, Mikkelsen TS. Integrative Analyses of Human Reprogramming Reveal Dynamic Nature of Induced Pluripotency. Cell 2015, 162: 412-424. PMID: 26186193, PMCID: PMC4511597, DOI: 10.1016/j.cell.2015.06.016.Peer-Reviewed Original ResearchConceptsInduced pluripotencyHuman cellsEmbryonic patterning genesComplementary functional analysesPre-implantation stagesPatterning genesDevelopmental regulatorsEpigenomic analysisMolecular principlesNovel regulatorFunctional analysisIntegrative analysisIntercellular heterogeneityMolecular underpinningsPluripotencyDisease modelingCell platformRegulatorCellsDistinct wavesDonor variabilityGenes
2013
DNA methylation: roles in mammalian development
Smith ZD, Meissner A. DNA methylation: roles in mammalian development. Nature Reviews Genetics 2013, 14: 204-220. PMID: 23400093, DOI: 10.1038/nrg3354.Peer-Reviewed Original ResearchConceptsEmbryonic stem cellsDNA methylationMammalian developmentPaternal genomeEmbryonic lineagesEpigenetic mechanismsPrimordial germ cell specificationDNA methylation erasureDNA methylation functionsKey PointsDNA methylationGerm cell specificationGermline-specific genesGlobal nuclear organizationSimilar epigenetic mechanismsTranscription factor bindingStem cellsPre-implantation stagesAdult stem cellsCpG island methylationMethylation erasureHeritable memoryMethylation functionsCell specificationCpG densityLineage specification