组蛋白基因调控的保真度对于基因组复制和稳定性至关重要。
Fidelity of histone gene regulation is obligatory for genome replication and stability.
作者信息
Ghule Prachi N, Xie Rong-Lin, Medina Ricardo, Colby Jennifer L, Jones Stephen N, Lian Jane B, Stein Janet L, van Wijnen Andre J, Stein Gary S
出版信息
Mol Cell Biol. 2014 Jul;34(14):2650-9. doi: 10.1128/MCB.01567-13.
Abstract
Fidelity of chromatin organization is crucial for normal cell cycle progression, and perturbations in packaging of DNA may predispose to transformation. Histone H4 protein is the most highly conserved chromatin protein, required for nucleosome assembly, with multiple histone H4 gene copies encoding identical protein. There is a long-standing recognition of the linkage of histone gene expression and DNA replication. A fundamental and unresolved question is the mechanism that couples histone biosynthesis with DNA replication and fidelity of cell cycle control. Here, we conditionally ablated the obligatory histone H4 transcription factor HINFP to cause depletion of histone H4 in mammalian cells. Deregulation of histone H4 results in catastrophic cellular and molecular defects that lead to genomic instability. Histone H4 depletion increases nucleosome spacing, impedes DNA synthesis, alters chromosome complement, and creates replicative stress. Our study provides functional evidence that the tight coupling between DNA replication and histone synthesis is reciprocal.
摘要
染色质组织的保真度对于正常的细胞周期进程至关重要,而DNA包装的扰动可能易导致细胞转化。组蛋白H4是最高度保守的染色质蛋白,是核小体组装所必需的,有多个编码相同蛋白的组蛋白H4基因拷贝。长期以来人们一直认识到组蛋白基因表达与DNA复制之间的联系。一个基本且尚未解决的问题是将组蛋白生物合成与DNA复制及细胞周期控制保真度相耦合的机制。在此,我们有条件地敲除必需的组蛋白H4转录因子HINFP,以导致哺乳动物细胞中组蛋白H4的缺失。组蛋白H4的失调会导致灾难性的细胞和分子缺陷,进而导致基因组不稳定。组蛋白H4的缺失会增加核小体间距、阻碍DNA合成、改变染色体组成并产生复制应激。我们的研究提供了功能证据,表明DNA复制与组蛋白合成之间的紧密耦合是相互的。
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