磷酸化:双链断裂修复的分子开关。

International journal of proteomics Pub Date : 2011-01-01 Epub Date: 2011-05-18 DOI:10.1155/2011/373816

K C Summers, F Shen, E A Sierra Potchanant, E A Phipps, R J Hickey, L H Malkas

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引用次数: 52

摘要

双链断裂(DSBs)的修复对于维持基因组的稳定性至关重要。在哺乳动物细胞中，dsb通过以下复杂修复途径之一被修复:非同源末端连接(NHEJ)、同源重组(HR)或包容性DNA损伤反应(DDR)。这些修复途径依赖于利用蛋白质可逆磷酸化作为分子开关来调节DNA修复的因子。许多这些分子开关重叠并在多种途径中发挥关键作用。例如，NHEJ途径和DDR途径都利用DNA-PK磷酸化，而HR途径则通过RPA2、BRCA1和BRCA2的磷酸化介导修复。此外，DDR通路利用激酶ATM和ATR，以及H2AX和MDC1的磷酸化。总之，这些分子开关通过帮助DSB识别、途径启动、修复因子的募集和修复机制的维持来调节DSB的修复。

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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Phosphorylation: the molecular switch of double-strand break repair.

Repair of double-stranded breaks (DSBs) is vital to maintaining genomic stability. In mammalian cells, DSBs are resolved in one of the following complex repair pathways: nonhomologous end-joining (NHEJ), homologous recombination (HR), or the inclusive DNA damage response (DDR). These repair pathways rely on factors that utilize reversible phosphorylation of proteins as molecular switches to regulate DNA repair. Many of these molecular switches overlap and play key roles in multiple pathways. For example, the NHEJ pathway and the DDR both utilize DNA-PK phosphorylation, whereas the HR pathway mediates repair with phosphorylation of RPA2, BRCA1, and BRCA2. Also, the DDR pathway utilizes the kinases ATM and ATR, as well as the phosphorylation of H2AX and MDC1. Together, these molecular switches regulate repair of DSBs by aiding in DSB recognition, pathway initiation, recruitment of repair factors, and the maintenance of repair mechanisms.

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International journal of proteomics

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