DNA损伤检查点,损伤修复和基因组稳定性

LIU Wei-Feng, YU Shan-Shan, CHEN Guan-Jun, LI Yue-Zhong
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引用次数: 28

摘要

基因组DNA不断受到内源性和外源性DNA损伤剂的攻击。如果不小心,随之而来的DNA损伤将导致基因组结构的改变,从而影响遗传信息的忠实传递。生物在进化过程中获得了一系列响应和修复DNA损伤的机制,从而保证了基因组稳定性的维持和遗传信息的忠实传递。DNA损伤检查点是一种重要的机制,面对DNA损伤,细胞可以对放大的损伤信号做出反应,要么主动停止细胞周期,直到确保DNA复制或有丝分裂等关键过程完成,要么启动细胞凋亡作为最后的手段。在过去的十年中,检查点通路中的ATM/ATR等关键组分与包括DNA损伤修复蛋白在内的各种其他介质、效应物之间复杂的分层相互作用已经开始出现。同时也揭示了损伤检查点通路机制、DNA损伤修复与基因组稳定性之间的密切关系。本文综述了检查点通路的激活机制及其与DNA损伤修复机制的协调以及它们对基因组完整性的影响的最新发现。
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DNA Damage Checkpoint, Damage Repair, and Genome Stability

Genomic DNA is under constant attack from both endogenous and exogenous sources of DNA damaging agents. Without proper care, the ensuing DNA damages would lead to alteration of genomic structure thus affecting the faithful transmission of genetic information. During the process of evolution, organisms have acquired a series of mechanisms responding to and repairing DNA damage, thus assuring the maintenance of genome stability and faithful transmission of genetic information. DNA damage checkpoint is one such important mechanism by which, in the face of DNA damage, a cell can respond to amplified damage signals, either by actively halting the cell cycle until it ensures that critical processes such as DNA replication or mitosis are complete or by initiating apoptosis as a last resort. Over the last decade, complex hierarchical interactions between the key components like ATM/ATR in the checkpoint pathway and various other mediators, effectors including DNA damage repair proteins have begun to emerge. In the meantime, an intimate relationship between mechanisms of damage checkpoint pathway, DNA damage repair, and genome stability was also uncovered. Reviewed hereinare the recent findings on both the mechanisms of activation of checkpoint pathways and their coordination with DNA damage repair machinery as well as their effect on genomic integrity.

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