Dynamics of microcompartment formation at the mitosis-to-G1 transition

Viraat Y Goel, Nicholas G Aboreden, James M Jusuf, Haoyue Zhang, Luisa Mori, Leonid A Mirny, Gerd Blobel, Edward J Banigan, Anders Sejr Hansen
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Abstract

As cells exit mitosis and enter G1, mitotic chromosomes decompact and transcription is reestablished. Previously, Hi-C studies showed that essentially all interphase 3D genome features including A/B-compartments, TADs, and CTCF loops, are lost during mitosis. However, Hi-C remains insensitive to features such as microcompartments, nested focal interactions between cis-regulatory elements (CREs). We therefore applied Region Capture Micro-C to cells from mitosis to G1. Unexpectedly, we observe microcompartments in prometaphase, which further strengthen in ana/telophase before gradually weakening in G1. Loss of loop extrusion through condensin depletion differentially impacts microcompartments and large A/B-compartments, suggesting that they are partially distinct. Using polymer modeling, we show that microcompartment formation is favored by chromatin compaction and disfavored by loop extrusion activity, explaining why ana/telophase likely provides a particularly favorable environment. Our results suggest that CREs exhibit intrinsic homotypic affinity leading to microcompartment formation, which may explain transient transcriptional spiking observed upon mitotic exit.
有丝分裂向 G1 转变过程中微室形成的动态变化
当细胞退出有丝分裂进入 G1 期时,有丝分裂染色体会解聚,转录也会重新建立。之前的 Hi-C 研究表明,在有丝分裂过程中,基本上所有间期三维基因组特征都会消失,包括 A/B 小室、TAD 和 CTCF 环。然而,Hi-C 对微空腔、嵌套的顺式调控元件(CRE)之间的焦点相互作用等特征仍然不敏感。因此,我们对有丝分裂至 G1 期的细胞进行了区域捕获 Micro-C。出乎意料的是,我们在有丝分裂期观察到了微小空隙,这种空隙在有丝分裂期/分裂期进一步加强,然后在 G1 期逐渐减弱。冷凝素耗竭导致的环路挤压损失对微空腔和大 A/B 空腔产生了不同的影响,这表明它们有部分区别。通过聚合物建模,我们发现染色质压实有利于微隔室的形成,而环路挤压活动则不利于微隔室的形成,这就解释了为什么ana/telophase可能提供了一个特别有利的环境。我们的研究结果表明,CREs 表现出内在的同型亲和力,从而导致微室的形成,这或许可以解释有丝分裂结束时观察到的瞬时转录尖峰现象。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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