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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Nature Portfolio
2016
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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) |
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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 |
work_keys_str_mv |
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