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An embryonic stem cell chromatin remodeling complex, esBAF, is essential for embryonic stem cell self-renewal and pluripotency.一种胚胎干细胞染色质重塑复合体,即esBAF,对于胚胎干细胞的自我更新和多能性至关重要。
Proc Natl Acad Sci U S A. 2009 Mar 31;106(13):5181-6. doi: 10.1073/pnas.0812889106. Epub 2009 Mar 11.
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The SWI/SNF complex and cancer.SWI/SNF复合物与癌症。
Oncogene. 2009 Apr 9;28(14):1653-68. doi: 10.1038/onc.2009.4. Epub 2009 Feb 23.
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SWI/SNF-Brg1 regulates self-renewal and occupies core pluripotency-related genes in embryonic stem cells.SWI/SNF-Brg1调节胚胎干细胞的自我更新并占据核心多能性相关基因。
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A model for transmission of the H3K27me3 epigenetic mark.一种H3K27me3表观遗传标记的传递模型。
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The ground state of embryonic stem cell self-renewal.胚胎干细胞自我更新的基态。
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Tcf3 functions as a steady-state limiter of transcriptional programs of mouse embryonic stem cell self-renewal.Tcf3作为小鼠胚胎干细胞自我更新转录程序的稳态限制因子发挥作用。
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Global transcription in pluripotent embryonic stem cells.多能胚胎干细胞中的全局转录
Cell Stem Cell. 2008 May 8;2(5):437-47. doi: 10.1016/j.stem.2008.03.021.
8
ES cell pluripotency and germ-layer formation require the SWI/SNF chromatin remodeling component BAF250a.胚胎干细胞的多能性和胚层形成需要SWI/SNF染色质重塑成分BAF250a。
Proc Natl Acad Sci U S A. 2008 May 6;105(18):6656-61. doi: 10.1073/pnas.0801802105. Epub 2008 Apr 30.
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An extended transcriptional network for pluripotency of embryonic stem cells.一个关于胚胎干细胞多能性的扩展转录网络。
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Tcf3 is an integral component of the core regulatory circuitry of embryonic stem cells.Tcf3是胚胎干细胞核心调控回路的一个重要组成部分。
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Smarcc1/Baf155 可将自我更新基因的抑制与小鼠胚胎干细胞中染色质结构的变化联系起来。

Smarcc1/Baf155 couples self-renewal gene repression with changes in chromatin structure in mouse embryonic stem cells.

机构信息

Black Family Stem Cell Institute, Department of Gene and Cell Medicine, New York, New York 10029, USA.

出版信息

Stem Cells. 2009 Dec;27(12):2979-91. doi: 10.1002/stem.223.

DOI:10.1002/stem.223
PMID:19785031
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5978760/
Abstract

Little is known about the molecular mechanism(s) governing differentiation decisions in embryonic stem cells (ESCs). To identify factors critical for ESC lineage formation, we carried out a functional genetic screen for factors affecting Nanog promoter activity during mESC differentiation. We report that members of the PBAF chromatin remodeling complex, including Smarca4/Brg1, Smarcb1/Baf47, Smarcc1/Baf155, and Smarce1/Baf57, are required for the repression of Nanog and other self-renewal gene expression upon mouse ESC (mESC) differentiation. Knockdown of Smarcc1 or Smarce1 suppressed loss of Nanog expression in multiple forms of differentiation. This effect occurred in the absence of self-renewal factors normally required for Nanog expression (e.g., Oct4), possibly indicating that changes in chromatin structure, rather than loss of self-renewal gene transcription per se, trigger differentiation. Consistent with this notion, mechanistic studies demonstrated that expression of Smarcc1 is necessary for heterochromatin formation and chromatin compaction during differentiation. Collectively, our data reveal that Smarcc1 plays important roles in facilitating mESCs differentiation by coupling gene repression with global and local changes in chromatin structure.

摘要

胚胎干细胞(ESCs)分化决策的分子机制知之甚少。为了鉴定影响 ESC 谱系形成的关键因素,我们进行了一个功能遗传筛选,以鉴定在小鼠 ESC(mESC)分化过程中影响 Nanog 启动子活性的因素。我们报告说,PBAF 染色质重塑复合物的成员,包括 Smarca4/Brg1、Smarcb1/Baf47、Smarcc1/Baf155 和 Smarce1/Baf57,对于在 mESC 分化时抑制 Nanog 和其他自我更新基因的表达是必需的。Smarcc1 或 Smarce1 的敲低抑制了多种分化形式中 Nanog 表达的丧失。这种效应发生在通常需要自我更新因子(例如 Oct4)表达 Nanog 的情况下,这可能表明染色质结构的变化,而不是自我更新基因转录本身的丧失,引发了分化。与这一观点一致,机制研究表明,Smarcc1 的表达对于分化过程中的异染色质形成和染色质紧缩是必需的。总的来说,我们的数据揭示了 Smarcc1 通过将基因抑制与染色质结构的全局和局部变化相结合,在促进 mESCs 分化中发挥重要作用。