H3 acetylation selectively promotes basal progenitor proliferation and 
neocortex expansion.

Kerimoglu, Cemil; Pham, Linh; Tonchev, Anton B; Sakib, M Sadman; Xie, Yuanbin; Sokpor, Godwin; Ulmke, Pauline Antonie; Kaurani, Lalit; Abbas, Eman; Nguyen, Huong; Rosenbusch, Joachim; Michurina, Alexandra; Capece, Vincenzo; Angelova, Meglena; Maricic, Nenad; Brand-Saberi, Beate; Esgleas, Miriam; Albert, Mareike; Minkov, Radoslav; Kovachev, Emil; Teichmann, Ulrike; Seong, Rho H; Huttner, Wieland; Nguyen, Huu Phuc; Stoykova, Anastassia; Staiger, Jochen F; Fischer, Andre; Tuoc, Tran

doi:10.1126/sciadv.abc6792

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H3 acetylation selectively promotes basal progenitor proliferation and neocortex expansion.

Kerimoglu, C., Pham, L., Tonchev, A. B., Sakib, M. S., Xie, Y., Sokpor, G., et al. (2021). H3 acetylation selectively promotes basal progenitor proliferation and neocortex expansion. Science advances, 7(38): eabc6792. doi:10.1126/sciadv.abc6792.

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Datensatz-Permalink: https://hdl.handle.net/21.11116/0000-000A-0B8D-C Versions-Permalink: https://hdl.handle.net/21.11116/0000-000A-0B8E-B

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Kerimoglu, Cemil, Autor
Pham, Linh, Autor
Tonchev, Anton B, Autor
Sakib, M Sadman, Autor
Xie, Yuanbin, Autor
Sokpor, Godwin, Autor
Ulmke, Pauline Antonie, Autor
Kaurani, Lalit, Autor
Abbas, Eman, Autor
Nguyen, Huong, Autor
Rosenbusch, Joachim, Autor
Michurina, Alexandra, Autor
Capece, Vincenzo, Autor
Angelova, Meglena, Autor
Maricic, Nenad, Autor
Brand-Saberi, Beate, Autor
Esgleas, Miriam, Autor
Albert, Mareike¹, Autor
Minkov, Radoslav, Autor
Kovachev, Emil, Autor
Teichmann, Ulrike, AutorSeong, Rho H, AutorHuttner, Wieland¹, Autor Nguyen, Huu Phuc, AutorStoykova, Anastassia, AutorStaiger, Jochen F, AutorFischer, Andre, AutorTuoc, Tran, Autor mehr..

Affiliations:
1Max Planck Institute for Molecular Cell Biology and Genetics, Max Planck Society, ou_2340692

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Zusammenfassung: Increase in the size of human neocortex―acquired in evolution―accounts for the unique cognitive capacity of humans. This expansion reflects the evolutionarily enhanced proliferative ability of basal progenitors (BPs), including the basal radial glia and basal intermediate progenitors (bIPs) in mammalian cortex, which may have been acquired through epigenetic alterations in BPs. However, how the epigenome in BPs differs across species is not known. Here, we report that histone H3 acetylation is a key epigenetic regulation in bIP amplification and cortical expansion. Through epigenetic profiling of sorted bIPs, we show that histone H3 lysine 9 acetylation (H3K9ac) is low in murine bIPs and high in human bIPs. Elevated H3K9ac preferentially increases bIP proliferation, increasing the size and folding of the normally smooth mouse neocortex. H3K9ac drives bIP amplification by increasing expression of the evolutionarily regulated gene, Trnp1, in developing cortex. Our findings demonstrate a previously unknown mechanism that controls cortical architecture.

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Datum: Erschienen: 2021-09-17

Publikationsstatus: Erschienen

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Identifikatoren: DOI: 10.1126/sciadv.abc6792
Anderer: cbg-8182
PMID: 34524839

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Titel: Science advances

Andere : Sci Adv

Genre der Quelle: Zeitschrift

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Seiten: - Band / Heft: 7 (38) Artikelnummer: eabc6792 Start- / Endseite: - Identifikator: -

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