A Myc-driven self-reinforcing regulatory network maintains mouse embryonic stem cell identity

The Myc transcription factor is a major regulator of stem cell (SC) self-renewal and pluripotency but how this integrates signals from other pathways is unclear. Here, the authors show that Myc activation triggers epigenetic memory in self renewing embryonic SCs via PRC2-mediated potentiation of the...

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Autores principales: Luca Fagnocchi, Alessandro Cherubini, Hiroshi Hatsuda, Alessandra Fasciani, Stefania Mazzoleni, Vittoria Poli, Valeria Berno, Riccardo L. Rossi, Rolland Reinbold, Max Endele, Timm Schroeder, Marina Rocchigiani, Żaneta Szkarłat, Salvatore Oliviero, Stephen Dalton, Alessio Zippo
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Lenguaje:EN
Publicado: Nature Portfolio 2016
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Acceso en línea:https://doaj.org/article/4dfc9facb00e4f1c81f05614a3a4b0b2
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spelling oai:doaj.org-article:4dfc9facb00e4f1c81f05614a3a4b0b22021-12-02T16:58:00ZA Myc-driven self-reinforcing regulatory network maintains mouse embryonic stem cell identity10.1038/ncomms119032041-1723https://doaj.org/article/4dfc9facb00e4f1c81f05614a3a4b0b22016-06-01T00:00:00Zhttps://doi.org/10.1038/ncomms11903https://doaj.org/toc/2041-1723The Myc transcription factor is a major regulator of stem cell (SC) self-renewal and pluripotency but how this integrates signals from other pathways is unclear. Here, the authors show that Myc activation triggers epigenetic memory in self renewing embryonic SCs via PRC2-mediated potentiation of the Wnt pathway.Luca FagnocchiAlessandro CherubiniHiroshi HatsudaAlessandra FascianiStefania MazzoleniVittoria PoliValeria BernoRiccardo L. RossiRolland ReinboldMax EndeleTimm SchroederMarina RocchigianiŻaneta SzkarłatSalvatore OlivieroStephen DaltonAlessio ZippoNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-17 (2016)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Luca Fagnocchi
Alessandro Cherubini
Hiroshi Hatsuda
Alessandra Fasciani
Stefania Mazzoleni
Vittoria Poli
Valeria Berno
Riccardo L. Rossi
Rolland Reinbold
Max Endele
Timm Schroeder
Marina Rocchigiani
Żaneta Szkarłat
Salvatore Oliviero
Stephen Dalton
Alessio Zippo
A Myc-driven self-reinforcing regulatory network maintains mouse embryonic stem cell identity
description The Myc transcription factor is a major regulator of stem cell (SC) self-renewal and pluripotency but how this integrates signals from other pathways is unclear. Here, the authors show that Myc activation triggers epigenetic memory in self renewing embryonic SCs via PRC2-mediated potentiation of the Wnt pathway.
format article
author Luca Fagnocchi
Alessandro Cherubini
Hiroshi Hatsuda
Alessandra Fasciani
Stefania Mazzoleni
Vittoria Poli
Valeria Berno
Riccardo L. Rossi
Rolland Reinbold
Max Endele
Timm Schroeder
Marina Rocchigiani
Żaneta Szkarłat
Salvatore Oliviero
Stephen Dalton
Alessio Zippo
author_facet Luca Fagnocchi
Alessandro Cherubini
Hiroshi Hatsuda
Alessandra Fasciani
Stefania Mazzoleni
Vittoria Poli
Valeria Berno
Riccardo L. Rossi
Rolland Reinbold
Max Endele
Timm Schroeder
Marina Rocchigiani
Żaneta Szkarłat
Salvatore Oliviero
Stephen Dalton
Alessio Zippo
author_sort Luca Fagnocchi
title A Myc-driven self-reinforcing regulatory network maintains mouse embryonic stem cell identity
title_short A Myc-driven self-reinforcing regulatory network maintains mouse embryonic stem cell identity
title_full A Myc-driven self-reinforcing regulatory network maintains mouse embryonic stem cell identity
title_fullStr A Myc-driven self-reinforcing regulatory network maintains mouse embryonic stem cell identity
title_full_unstemmed A Myc-driven self-reinforcing regulatory network maintains mouse embryonic stem cell identity
title_sort myc-driven self-reinforcing regulatory network maintains mouse embryonic stem cell identity
publisher Nature Portfolio
publishDate 2016
url https://doaj.org/article/4dfc9facb00e4f1c81f05614a3a4b0b2
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