当小鼠 ES 细胞退出多能性时,增强子与启动子之间的相互作用通过长程多向中枢的形成而重新配置。

IF 14.5 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Cell Pub Date : 2024-04-18 Epub Date: 2024-03-14 DOI:10.1016/j.molcel.2024.02.015
David Lando, Xiaoyan Ma, Yang Cao, Aleksandra Jartseva, Tim J Stevens, Wayne Boucher, Nicola Reynolds, Bertille Montibus, Dominic Hall, Andreas Lackner, Ramy Ragheb, Martin Leeb, Brian D Hendrich, Ernest D Laue
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引用次数: 0

摘要

增强子与转录因子、染色质调节因子和非编码转录本结合,调节目标基因的表达。在此,我们报告了单个小鼠 ES 细胞在被诱导退出多能性并过渡到神经外胚层分化前的形成阶段时的三维基因组结构。我们发现,三维基因组结构发生了显著的重组,在形成期,染色体间的交错急剧增加。这种交融与大量多向枢纽的形成有关,这些多向枢纽将具有相似染色质状态的增强子和启动子聚集在一起,这些增强子和启动子通常来自 5-8 个遥远的染色体位点,而这些位点之间往往相隔许多 Mb。在形成状态下,多能性退出的重要基因与这些多向中枢内新出现的增强子建立了联系,这表明我们观察到的结构变化可能在调节转录和建立新细胞特性方面发挥了重要作用。
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Enhancer-promoter interactions are reconfigured through the formation of long-range multiway hubs as mouse ES cells exit pluripotency.

Enhancers bind transcription factors, chromatin regulators, and non-coding transcripts to modulate the expression of target genes. Here, we report 3D genome structures of single mouse ES cells as they are induced to exit pluripotency and transition through a formative stage prior to undergoing neuroectodermal differentiation. We find that there is a remarkable reorganization of 3D genome structure where inter-chromosomal intermingling increases dramatically in the formative state. This intermingling is associated with the formation of a large number of multiway hubs that bring together enhancers and promoters with similar chromatin states from typically 5-8 distant chromosomal sites that are often separated by many Mb from each other. In the formative state, genes important for pluripotency exit establish contacts with emerging enhancers within these multiway hubs, suggesting that the structural changes we have observed may play an important role in modulating transcription and establishing new cell identities.

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来源期刊
Molecular Cell
Molecular Cell 生物-生化与分子生物学
CiteScore
26.00
自引率
3.80%
发文量
389
审稿时长
1 months
期刊介绍: Molecular Cell is a companion to Cell, the leading journal of biology and the highest-impact journal in the world. Launched in December 1997 and published monthly. Molecular Cell is dedicated to publishing cutting-edge research in molecular biology, focusing on fundamental cellular processes. The journal encompasses a wide range of topics, including DNA replication, recombination, and repair; Chromatin biology and genome organization; Transcription; RNA processing and decay; Non-coding RNA function; Translation; Protein folding, modification, and quality control; Signal transduction pathways; Cell cycle and checkpoints; Cell death; Autophagy; Metabolism.
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