2019
Loss of DNA methyltransferase activity in primed human ES cells triggers increased cell-cell variability and transcriptional repression
Tsankov AM, Wadsworth MH, Akopian V, Charlton J, Allon SJ, Arczewska A, Mead BE, Drake RS, Smith ZD, Mikkelsen TS, Shalek AK, Meissner A. Loss of DNA methyltransferase activity in primed human ES cells triggers increased cell-cell variability and transcriptional repression. Development 2019, 146: dev174722. PMID: 31515224, PMCID: PMC6803377, DOI: 10.1242/dev.174722.Peer-Reviewed Original ResearchMeSH KeywordsCell CycleCell DifferentiationDNA (Cytosine-5-)-Methyltransferase 1DNA (Cytosine-5-)-MethyltransferasesDNA MethylationDNA Methyltransferase 3AEnhancer Elements, GeneticEntropyGene Expression Regulation, DevelopmentalHuman Embryonic Stem CellsHumansMaleRepressor ProteinsRNA, MessengerTranscription, GeneticConceptsGlobal methylation levelsTranscriptional repressionSingle-cell RNA-sequencing dataMethylation levelsNew cell fatesMaintenance of pluripotencyHuman embryonic stem cellsMethylation of cytosineRNA-sequencing dataCell-cell variabilityStem cellsEmbryonic stem cellsHuman pluripotent stem cellsDNA methyltransferase activityMRNA expression dataPluripotent stem cellsTranscriptional variabilityMethyltransferases Dnmt3aCell fateEpigenetic regulatorsMethyltransferase DNMT3AExtrinsic signalsHigh-resolution viewMethyltransferase activityProper differentiation
2018
Global delay in nascent strand DNA methylation
Charlton J, Downing TL, Smith ZD, Gu H, Clement K, Pop R, Akopian V, Klages S, Santos DP, Tsankov AM, Timmermann B, Ziller MJ, Kiskinis E, Gnirke A, Meissner A. Global delay in nascent strand DNA methylation. Nature Structural & Molecular Biology 2018, 25: 327-332. PMID: 29531288, PMCID: PMC5889353, DOI: 10.1038/s41594-018-0046-4.Peer-Reviewed Original ResearchMeSH KeywordsCell CycleCell ProliferationCpG IslandsCytosineDNADNA (Cytosine-5-)-MethyltransferasesDNA MethylationDNA Methyltransferase 3ADNA ReplicationEmbryonic Stem CellsEpigenesis, GeneticGene Expression RegulationGenome, HumanHCT116 CellsHumansMaleMethylationMitosisMotor NeuronsNeoplasmsSequence Analysis, RNATranscription FactorsConceptsCytosine methylationCpG methylationGenome-wide bisulfite sequencingCis-regulatory elementsEmbryonic stem cellsCancer cell line HCT116Cell cycle arrestEpigenetic informationMammalian developmentGene regulationMitotic transmissionEpigenetic heterogeneityEpigenetic roleBisulfite sequencingCell line HCT116DNA methylationHuman cellsMethylationHeterogeneous methylationStem cellsCellsBrdU labelingPronounced lagGlobal reductionImmunoprecipitation
2012
DNA Methylation Dynamics during In Vivo Differentiation of Blood and Skin Stem Cells
Bock C, Beerman I, Lien WH, Smith ZD, Gu H, Boyle P, Gnirke A, Fuchs E, Rossi DJ, Meissner A. DNA Methylation Dynamics during In Vivo Differentiation of Blood and Skin Stem Cells. Molecular Cell 2012, 47: 633-647. PMID: 22841485, PMCID: PMC3428428, DOI: 10.1016/j.molcel.2012.06.019.Peer-Reviewed Original ResearchConceptsDNA methylationHigh-resolution DNA methylation mapsVivo differentiationLineage-associated transcription factorsAdult stem cell differentiationDNA methylation mapsDNA methylation dynamicsGenome-scale dataCellular differentiation hierarchiesDNA methylation changesStem cellsStem cell differentiationAdult stem cellsTranscription factor activationSkin stem cellsMethylation mapsGenomic distributionMethylation dynamicsDifferentiation hierarchyEpigenetic regulationBlood lineagesTranscription factorsTissue homeostasisMethylation changesGene expression