A Mass Spectrometry Survey of Chromatin‐Associated Proteins in Pluripotency and Early Lineage Commitment
Abstract: Pluripotency can be captured in vitro in the form of Embryonic Stem Cells (ESCs). These ESCs can be either maintained in the unrestricted “naïve” state of pluripotency, adapted to developmentally more constrained “primed” pluripotency or differentiated towards each of the three germ layers. Epigenetic protein complexes and transcription factors have been shown to specify and instruct transitions from ESCs to distinct cell states. In this study, proteomic profiling of the chromatin landscape by chromatin enrichment for proteomics (ChEP) is used in mouse naive pluripotent ESCs, primed pluripotent Epiblast stem cells (EpiSCs), and cells in early stages of differentiation. A comprehensive overview of epigenetic protein complexes associated with the chromatin is provided and proteins associated with the maintenance and loss of pluripotency are identified. The data reveal major compositional alterations of epigenetic complexes during priming and differentiation of naïve pluripotent ESCs. These results contribute to the understanding of ESC differentiation and provide a framework for future studies of lineage commitment of ESCs.
- Standort
-
Deutsche Nationalbibliothek Frankfurt am Main
- Umfang
-
Online-Ressource
- Sprache
-
Englisch
- Erschienen in
-
A Mass Spectrometry Survey of Chromatin‐Associated Proteins in Pluripotency and Early Lineage Commitment ; volume:19 ; number:14 ; year:2019 ; extent:8
Proteomics ; 19, Heft 14 (2019) (gesamt 8)
- Urheber
-
van Mierlo, Guido
Wester, Roelof Alexander
Marks, Hendrik
- DOI
-
10.1002/pmic.201900047
- URN
-
urn:nbn:de:101:1-2022072209343567290608
- Rechteinformation
-
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Letzte Aktualisierung
-
15.08.2025, 07:30 MESZ
Datenpartner
Deutsche Nationalbibliothek. Bei Fragen zum Objekt wenden Sie sich bitte an den Datenpartner.
Beteiligte
- van Mierlo, Guido
- Wester, Roelof Alexander
- Marks, Hendrik
Ähnliche Objekte (12)
Long non-coding RNA in stem cell pluripotency and lineage commitment: functions and evolutionary conservation
PCGF1-PRC1 links chromatin repression with DNA replication during hematopoietic cell lineage commitment
Lineage commitment of dermal fibroblast progenitors is controlled by Kdm6b‐mediated chromatin demethylation
Lineage commitment of dermal fibroblast progenitors is controlled by Kdm6b‐mediated chromatin demethylation
The Chromatin Signature of Pluripotency: Establishment and Maintenance
The Necessity of Geminin for Pluripotency and Neural Lineage
Molecular signatures of T-lineage commitment
Necroptosis microenvironment directs lineage commitment in liver cancer
Controlled Self-assembly of Stem Cell Aggregates Instructs Pluripotency and Lineage Bias
Understanding pluripotency by global and targeted quantification of chromatin-associated proteins
Understanding pluripotency by global and targeted quantification of chromatin-associated proteins
MKL1-actin pathway restricts chromatin accessibility and prevents mature pluripotency activation
Long non-coding RNA in stem cell pluripotency and lineage commitment: functions and evolutionary conservation
PCGF1-PRC1 links chromatin repression with DNA replication during hematopoietic cell lineage commitment
Lineage commitment of dermal fibroblast progenitors is controlled by Kdm6b‐mediated chromatin demethylation
Lineage commitment of dermal fibroblast progenitors is controlled by Kdm6b‐mediated chromatin demethylation
The Chromatin Signature of Pluripotency: Establishment and Maintenance
The Necessity of Geminin for Pluripotency and Neural Lineage
Molecular signatures of T-lineage commitment
Necroptosis microenvironment directs lineage commitment in liver cancer
Controlled Self-assembly of Stem Cell Aggregates Instructs Pluripotency and Lineage Bias
Understanding pluripotency by global and targeted quantification of chromatin-associated proteins
Understanding pluripotency by global and targeted quantification of chromatin-associated proteins
MKL1-actin pathway restricts chromatin accessibility and prevents mature pluripotency activation
Long non-coding RNA in stem cell pluripotency and lineage commitment: functions and evolutionary conservation
PCGF1-PRC1 links chromatin repression with DNA replication during hematopoietic cell lineage commitment
Lineage commitment of dermal fibroblast progenitors is controlled by Kdm6b‐mediated chromatin demethylation
Lineage commitment of dermal fibroblast progenitors is controlled by Kdm6b‐mediated chromatin demethylation
The Chromatin Signature of Pluripotency: Establishment and Maintenance
The Necessity of Geminin for Pluripotency and Neural Lineage
Molecular signatures of T-lineage commitment
Necroptosis microenvironment directs lineage commitment in liver cancer
Controlled Self-assembly of Stem Cell Aggregates Instructs Pluripotency and Lineage Bias
Understanding pluripotency by global and targeted quantification of chromatin-associated proteins
Understanding pluripotency by global and targeted quantification of chromatin-associated proteins