Cell cycle arrest determines adult neural stem cell ontogeny by an embryonic Notch-nonoscillatory Hey1 module

Adult neural stem cells are derived from an embryonic population of slowcycling progenitor cells, though how reduced cycling speed leads to establishment of the adult population has remained elusive. Here they show that non-oscillatory Notch-Hey signaling induced by slow-cycling contributes to long...

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Autores principales: Yujin Harada, Mayumi Yamada, Itaru Imayoshi, Ryoichiro Kageyama, Yutaka Suzuki, Takaaki Kuniya, Shohei Furutachi, Daichi Kawaguchi, Yukiko Gotoh
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/ec6e527242f74785a99df676048fa5d1
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spelling oai:doaj.org-article:ec6e527242f74785a99df676048fa5d12021-11-14T12:34:23ZCell cycle arrest determines adult neural stem cell ontogeny by an embryonic Notch-nonoscillatory Hey1 module10.1038/s41467-021-26605-02041-1723https://doaj.org/article/ec6e527242f74785a99df676048fa5d12021-11-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-26605-0https://doaj.org/toc/2041-1723Adult neural stem cells are derived from an embryonic population of slowcycling progenitor cells, though how reduced cycling speed leads to establishment of the adult population has remained elusive. Here they show that non-oscillatory Notch-Hey signaling induced by slow-cycling contributes to long term maintenance of neural stem cells.Yujin HaradaMayumi YamadaItaru ImayoshiRyoichiro KageyamaYutaka SuzukiTakaaki KuniyaShohei FurutachiDaichi KawaguchiYukiko GotohNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-16 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Yujin Harada
Mayumi Yamada
Itaru Imayoshi
Ryoichiro Kageyama
Yutaka Suzuki
Takaaki Kuniya
Shohei Furutachi
Daichi Kawaguchi
Yukiko Gotoh
Cell cycle arrest determines adult neural stem cell ontogeny by an embryonic Notch-nonoscillatory Hey1 module
description Adult neural stem cells are derived from an embryonic population of slowcycling progenitor cells, though how reduced cycling speed leads to establishment of the adult population has remained elusive. Here they show that non-oscillatory Notch-Hey signaling induced by slow-cycling contributes to long term maintenance of neural stem cells.
format article
author Yujin Harada
Mayumi Yamada
Itaru Imayoshi
Ryoichiro Kageyama
Yutaka Suzuki
Takaaki Kuniya
Shohei Furutachi
Daichi Kawaguchi
Yukiko Gotoh
author_facet Yujin Harada
Mayumi Yamada
Itaru Imayoshi
Ryoichiro Kageyama
Yutaka Suzuki
Takaaki Kuniya
Shohei Furutachi
Daichi Kawaguchi
Yukiko Gotoh
author_sort Yujin Harada
title Cell cycle arrest determines adult neural stem cell ontogeny by an embryonic Notch-nonoscillatory Hey1 module
title_short Cell cycle arrest determines adult neural stem cell ontogeny by an embryonic Notch-nonoscillatory Hey1 module
title_full Cell cycle arrest determines adult neural stem cell ontogeny by an embryonic Notch-nonoscillatory Hey1 module
title_fullStr Cell cycle arrest determines adult neural stem cell ontogeny by an embryonic Notch-nonoscillatory Hey1 module
title_full_unstemmed Cell cycle arrest determines adult neural stem cell ontogeny by an embryonic Notch-nonoscillatory Hey1 module
title_sort cell cycle arrest determines adult neural stem cell ontogeny by an embryonic notch-nonoscillatory hey1 module
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/ec6e527242f74785a99df676048fa5d1
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