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Comprehensive chromatin proteomics resolves functional phases of pluripotency and identifies changes in regulatory components.
Nucleic Acids Res. 51, 2671-2690 (2023)
The establishment of cellular identity is driven by transcriptional and epigenetic regulators of the chromatin proteome - the chromatome. Comprehensive analyses of the chromatome composition and dynamics can therefore greatly improve our understanding of gene regulatory mechanisms. Here, we developed an accurate mass spectrometry (MS)-based proteomic method called Chromatin Aggregation Capture (ChAC) followed by Data-Independent Acquisition (DIA) and analyzed chromatome reorganizations during major phases of pluripotency. This enabled us to generate a comprehensive atlas of proteomes, chromatomes, and chromatin affinities for the ground, formative and primed pluripotency states, and to pinpoint the specific binding and rearrangement of regulatory components. These comprehensive datasets combined with extensive analyses identified phase-specific factors like QSER1 and JADE1/2/3 and provide a detailed foundation for an in-depth understanding of mechanisms that govern the phased progression of pluripotency. The technical advances reported here can be readily applied to other models in development and disease.
Impact Factor
Scopus SNIP
Altmetric
14.900
0.000
Anmerkungen
Besondere Publikation
Auf Hompepage verbergern
Publikationstyp
Artikel: Journalartikel
Dokumenttyp
Wissenschaftlicher Artikel
Schlagwörter
Data-independent Acquisition; Stem-cell Transition; Naive Pluripotency; Profiling Reveals; Mouse Epiblast; Proteins; State; Hbo1; Progression; Enrichment
Sprache
englisch
Veröffentlichungsjahr
2023
HGF-Berichtsjahr
2023
ISSN (print) / ISBN
0305-1048
e-ISSN
1362-4962
Zeitschrift
Nucleic Acids Research
Quellenangaben
Band: 51,
Heft: 6,
Seiten: 2671-2690
Verlag
Oxford University Press
Verlagsort
Great Clarendon St, Oxford Ox2 6dp, England
Begutachtungsstatus
Peer reviewed
Institut(e)
Institute of Stem Cell Research (ISF)
POF Topic(s)
30204 - Cell Programming and Repair
Forschungsfeld(er)
Stem Cell and Neuroscience
PSP-Element(e)
G-500893-001
Förderungen
Deutsche Forschungsgemeinschaft (DFG, German Research foundation)
WOS ID
000935321900001
Scopus ID
85152167828
PubMed ID
36806742
Erfassungsdatum
2023-02-23