DDK 使检查点 clamp 组件 Rad9 磷酸化，并促进其从受损染色质上释放。

DDK phosphorylates checkpoint clamp component Rad9 and promotes its release from damaged chromatin.

机构信息

Microbial Genetics Laboratory, Genetic Strains Research Center, National Institute of Genetics, 1111 Yata, Mishima, Shizuoka 411-8540, Japan.

出版信息

Mol Cell. 2010 Nov 24;40(4):606-18. doi: 10.1016/j.molcel.2010.10.026.

DOI:10.1016/j.molcel.2010.10.026

PMID:21095590

Abstract

When inappropriate DNA structures arise, they are sensed by DNA structure-dependent checkpoint pathways and subsequently repaired. Recruitment of checkpoint proteins to such structures precedes recruitment of proteins involved in DNA metabolism. Thus, checkpoints can regulate DNA metabolism. We show that fission yeast Rad9, a 9-1-1 heterotrimeric checkpoint-clamp component, is phosphorylated by Hsk1(Cdc7), the Schizosaccharomyces pombe Dbf4-dependent kinase (DDK) homolog, in response to replication-induced DNA damage. Phosphorylation of Rad9 disrupts its interaction with replication protein A (RPA) and is dependent on 9-1-1 chromatin loading, the Rad9-associated protein Rad4/Cut5(TopBP1), and prior phosphorylation by Rad3(ATR). rad9 mutants defective in DDK phosphorylation show wild-type checkpoint responses but abnormal DNA repair protein foci and decreased viability after replication stress. We propose that Rad9 phosphorylation by DDK releases Rad9 from DNA damage sites to facilitate DNA repair.

摘要

当出现不合适的 DNA 结构时，它们会被 DNA 结构依赖性检查点途径感知，并随后进行修复。检查点蛋白被招募到这些结构中，先于参与 DNA 代谢的蛋白被招募。因此，检查点可以调节 DNA 代谢。我们发现，裂殖酵母 Rad9 是 9-1-1 异三聚体检查点夹子组件，在复制诱导的 DNA 损伤后，被 Hsk1（Cdc7），即裂殖酵母 Dbf4 依赖性激酶（DDK）同源物磷酸化。Rad9 的磷酸化破坏了它与复制蛋白 A（RPA）的相互作用，并且依赖于 9-1-1 染色质加载、Rad9 相关蛋白 Rad4/Cut5（TopBP1）以及 Rad3（ATR）的先前磷酸化。在 DDK 磷酸化中存在缺陷的 rad9 突变体显示出野生型检查点反应，但在复制应激后出现异常的 DNA 修复蛋白焦点和降低的生存能力。我们提出，DDK 对 Rad9 的磷酸化将 Rad9 从 DNA 损伤部位释放出来，以促进 DNA 修复。

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DDK 使检查点 clamp 组件 Rad9 磷酸化，并促进其从受损染色质上释放。

DDK phosphorylates checkpoint clamp component Rad9 and promotes its release from damaged chromatin.

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