2024
X-linked deletion of Crossfirre, Firre, and Dxz4 in vivo uncovers diverse phenotypes and combinatorial effects on autosomes
Hasenbein T, Hoelzl S, Smith Z, Gerhardinger C, Gonner M, Aguilar-Pimentel A, Amarie O, Becker L, Calzada-Wack J, Dragano N, da Silva-Buttkus P, Garrett L, Hölter S, Kraiger M, Östereicher M, Rathkolb B, Sanz-Moreno A, Spielmann N, Wurst W, Gailus-Durner V, Fuchs H, Hrabě de Angelis M, Meissner A, Engelhardt S, Rinn J, Andergassen D. X-linked deletion of Crossfirre, Firre, and Dxz4 in vivo uncovers diverse phenotypes and combinatorial effects on autosomes. Nature Communications 2024, 15: 10631. PMID: 39638999, PMCID: PMC11621363, DOI: 10.1038/s41467-024-54673-5.Peer-Reviewed Original ResearchConceptsAutosomal gene regulationRegions genome-wideAllele-specific analysisSex-specific lociLoci in vivoX-linked genesRandom X-chromosome inactivationX-chromosome inactivationSex-specific phenotypesFirre locusGenome-wideIn vivo roleChromatin structureGene regulationX chromosomeEpigenetic featuresDXZ4Epigenetic profilesKnockout studiesLociDiverse phenotypesLncRNA FIRREFunctional roleCombinatorial effectsFIRRE
2020
TETs compete with DNMT3 activity in pluripotent cells at thousands of methylated somatic enhancers
Charlton J, Jung EJ, Mattei AL, Bailly N, Liao J, Martin EJ, Giesselmann P, Brändl B, Stamenova EK, Müller FJ, Kiskinis E, Gnirke A, Smith ZD, Meissner A. TETs compete with DNMT3 activity in pluripotent cells at thousands of methylated somatic enhancers. Nature Genetics 2020, 52: 819-827. PMID: 32514123, PMCID: PMC7415576, DOI: 10.1038/s41588-020-0639-9.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell DifferentiationCell LineDNA (Cytosine-5-)-MethyltransferasesDNA MethylationDNA Methyltransferase 3AEmbryonic Stem CellsEnhancer Elements, GeneticEpigenesis, GeneticGene Expression Regulation, DevelopmentalGerm LayersHumansMiceMice, KnockoutMixed Function OxygenasesPluripotent Stem CellsProto-Oncogene ProteinsConceptsPluripotent cellsHuman embryonic stem cell linesEmbryonic stem cell linesDNA methylation landscapeEpiblast stem cellsStem cell linesGlobal methylation levelsMethylation landscapeMouse ESCsMammalian cellsRegulatory sequencesDNA methylationSomatic tissuesNegative regulatorTET expressionMethylation levelsDynamic locusStem cellsCell linesLociDemethylationRegulatorEnhancerCellsTet
2019
In vivo Firre and Dxz4 deletion elucidates roles for autosomal gene regulation
Andergassen D, Smith ZD, Lewandowski JP, Gerhardinger C, Meissner A, Rinn JL. In vivo Firre and Dxz4 deletion elucidates roles for autosomal gene regulation. ELife 2019, 8: e47214. PMID: 31738164, PMCID: PMC6860989, DOI: 10.7554/elife.47214.Peer-Reviewed Original ResearchConceptsX-chromosome inactivationAutosomal gene regulationGene regulationDouble deletionOrgan-specific mannerChromosome inactivationGene setsX chromosomeTranscriptional effectsExpression signaturesLociCell linesDeletionGenesRegulationVivo contributionRecent evidenceMegadomainsAutosomesFIRREMutantsChromosomesMain driversBiologySuperloops