2020
N6-methyladenine in DNA antagonizes SATB1 in early development
Li Z, Zhao S, Nelakanti RV, Lin K, Wu TP, Alderman MH, Guo C, Wang P, Zhang M, Min W, Jiang Z, Wang Y, Li H, Xiao AZ. N6-methyladenine in DNA antagonizes SATB1 in early development. Nature 2020, 583: 625-630. PMID: 32669713, PMCID: PMC8596487, DOI: 10.1038/s41586-020-2500-9.Peer-Reviewed Original ResearchConceptsN6-mAN6-methyladenineMouse trophoblast stem cellsLarge chromatin domainsCell fate transitionsLarge-scale chromatinUnexpected molecular mechanismTrophoblast stem cellsEarly embryonic developmentDNA secondary structuresEarly developmentFate transitionsMammalian genomesChromatin domainsEpigenetic landscapeGene regulationChromatin organizerEmbryonic developmentDNA modificationsBiological roleMolecular mechanismsSATB1 functionsMolecular pathwaysCell culture modelSecondary structure
2018
N 6 -methyladenine DNA Modification in Glioblastoma
Xie Q, Wu TP, Gimple RC, Li Z, Prager BC, Wu Q, Yu Y, Wang P, Wang Y, Gorkin DU, Zhang C, Dowiak AV, Lin K, Zeng C, Sui Y, Kim LJY, Miller TE, Jiang L, Lee-Poturalski C, Huang Z, Fang X, Zhai K, Mack SC, Sander M, Bao S, Kerstetter-Fogle AE, Sloan AE, Xiao AZ, Rich JN. N 6 -methyladenine DNA Modification in Glioblastoma. Cell 2018, 175: 1228-1243.e20. PMID: 30392959, PMCID: PMC6433469, DOI: 10.1016/j.cell.2018.10.006.Peer-Reviewed Original ResearchMeSH KeywordsAdenineAdultAgedAlkB Homolog 1, Histone H2a DioxygenaseAnimalsAstrocytesBrain NeoplasmsCell HypoxiaChildDNA MethylationEpigenomicsFemaleGlioblastomaHeterochromatinHistonesHumansKaplan-Meier EstimateMaleMiceMiddle AgedNeoplastic Stem CellsRNA InterferenceRNA, Small InterferingTumor Suppressor Protein p53ConceptsDNA modificationsHeterochromatic histone modificationsRegulation of transcriptionNovel DNA modificationChromatin accessibilityEpigenetic marksHistone modificationsTranscriptional silencingEpigenetic modificationsGenetic driversHuman diseasesOncogenic pathwaysTumor cell proliferationPotential therapeutic targetALKBH1Cell proliferationTumor-bearing miceCritical roleTherapeutic targetDNAHuman tissuesHuman glioblastoma modelGlioblastoma modelGlioblastomaSilencing
2017
Prolonged Mek1/2 suppression impairs the developmental potential of embryonic stem cells
Choi J, Huebner AJ, Clement K, Walsh RM, Savol A, Lin K, Gu H, Di Stefano B, Brumbaugh J, Kim SY, Sharif J, Rose CM, Mohammad A, Odajima J, Charron J, Shioda T, Gnirke A, Gygi S, Koseki H, Sadreyev RI, Xiao A, Meissner A, Hochedlinger K. Prolonged Mek1/2 suppression impairs the developmental potential of embryonic stem cells. Nature 2017, 548: 219-223. PMID: 28746311, PMCID: PMC5905676, DOI: 10.1038/nature23274.Peer-Reviewed Original Research