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内复制过程中连接组蛋白H1的调控功能及染色质加载动力学

Regulatory functions and chromatin loading dynamics of linker histone H1 during endoreplication in .

作者信息

Andreyeva Evgeniya N, Bernardo Travis J, Kolesnikova Tatyana D, Lu Xingwu, Yarinich Lyubov A, Bartholdy Boris A, Guo Xiaohan, Posukh Olga V, Healton Sean, Willcockson Michael A, Pindyurin Alexey V, Zhimulev Igor F, Skoultchi Arthur I, Fyodorov Dmitry V

机构信息

Institute of Molecular and Cellular Biology, Siberian Branch of the Russian Academy of Sciences, Novosibirsk 630090, Russian Federation.

Department of Cell Biology, Albert Einstein College of Medicine, Bronx, New York 10461, USA.

出版信息

Genes Dev. 2017 Mar 15;31(6):603-616. doi: 10.1101/gad.295717.116.

DOI:10.1101/gad.295717.116
PMID:28404631
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5393055/
Abstract

Eukaryotic DNA replicates asynchronously, with discrete genomic loci replicating during different stages of S phase. larval tissues undergo endoreplication without cell division, and the latest replicating regions occasionally fail to complete endoreplication, resulting in underreplicated domains of polytene chromosomes. Here we show that linker histone H1 is required for the underreplication (UR) phenomenon in salivary glands. H1 directly interacts with the Suppressor of UR (SUUR) protein and is required for SUUR binding to chromatin in vivo. These observations implicate H1 as a critical factor in the formation of underreplicated regions and an upstream effector of SUUR. We also demonstrate that the localization of H1 in chromatin changes profoundly during the endocycle. At the onset of endocycle S (endo-S) phase, H1 is heavily and specifically loaded into late replicating genomic regions and is then redistributed during the course of endoreplication. Our data suggest that cell cycle-dependent chromosome occupancy of H1 is governed by several independent processes. In addition to the ubiquitous replication-related disassembly and reassembly of chromatin, H1 is deposited into chromatin through a novel pathway that is replication-independent, rapid, and locus-specific. This cell cycle-directed dynamic localization of H1 in chromatin may play an important role in the regulation of DNA replication timing.

摘要

真核生物的DNA异步复制,在S期的不同阶段,离散的基因组位点进行复制。幼虫组织进行核内复制而不进行细胞分裂,最新复制区域偶尔无法完成核内复制,导致多线染色体的复制不足区域。在这里,我们表明连接组蛋白H1是唾液腺中复制不足(UR)现象所必需的。H1直接与UR抑制因子(SUUR)蛋白相互作用,并且是SUUR在体内与染色质结合所必需的。这些观察结果表明H1是复制不足区域形成的关键因素以及SUUR的上游效应因子。我们还证明,在核内周期中,H1在染色质中的定位发生了深刻变化。在核内周期S(endo-S)期开始时,H1大量且特异性地加载到晚期复制的基因组区域,然后在核内复制过程中重新分布。我们的数据表明,H1在细胞周期依赖性染色体上的占据受几个独立过程的控制。除了普遍存在的与复制相关的染色质拆卸和重新组装外,H1还通过一种独立于复制、快速且位点特异性的新途径沉积到染色质中。H1在染色质中的这种细胞周期定向动态定位可能在DNA复制时间的调控中起重要作用。

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3
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