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Crb2-BRCT2结构域的结构与功能分析揭示了其在检查点信号传导和DNA损伤修复中的不同作用。

Structural and functional analysis of the Crb2-BRCT2 domain reveals distinct roles in checkpoint signaling and DNA damage repair.

作者信息

Kilkenny Mairi L, Doré Andrew S, Roe S Mark, Nestoras Konstantinos, Ho Jenny C Y, Watts Felicity Z, Pearl Laurence H

机构信息

CR-UK DNA Repair Enzymes Group, Section of Structural Biology, The Institute of Cancer Research, Chelsea, London SW3 6JB, United Kingdon.

出版信息

Genes Dev. 2008 Aug 1;22(15):2034-47. doi: 10.1101/gad.472808.

DOI:10.1101/gad.472808
PMID:18676809
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2492745/
Abstract

Schizosaccharomyces pombe Crb2 is a checkpoint mediator required for the cellular response to DNA damage. Like human 53BP1 and Saccharomyces cerevisiae Rad9 it contains Tudor(2) and BRCT(2) domains. Crb2-Tudor(2) domain interacts with methylated H4K20 and is required for recruitment to DNA dsDNA breaks. The BRCT(2) domain is required for dimerization, but its precise role in DNA damage repair and checkpoint signaling is unclear. The crystal structure of the Crb2-BRCT(2) domain, alone and in complex with a phosphorylated H2A.1 peptide, reveals the structural basis for dimerization and direct interaction with gamma-H2A.1 in ionizing radiation-induced foci (IRIF). Mutational analysis in vitro confirms the functional role of key residues and allows the generation of mutants in which dimerization and phosphopeptide binding are separately disrupted. Phenotypic analysis of these in vivo reveals distinct roles in the DNA damage response. Dimerization mutants are genotoxin sensitive and defective in checkpoint signaling, Chk1 phosphorylation, and Crb2 IRIF formation, while phosphopeptide-binding mutants are only slightly sensitive to IR, have extended checkpoint delays, phosphorylate Chk1, and form Crb2 IRIF. However, disrupting phosphopeptide binding slows formation of ssDNA-binding protein (Rpa1/Rad11) foci and reduces levels of Rad22(Rad52) recombination foci, indicating a DNA repair defect.

摘要

粟酒裂殖酵母Crb2是细胞对DNA损伤作出反应所需的一种检查点介质。与人类53BP1和酿酒酵母Rad9一样,它含有Tudor(2)和BRCT(2)结构域。Crb2-Tudor(2)结构域与甲基化的H4K20相互作用,是募集到DNA双链断裂处所必需的。BRCT(2)结构域是二聚化所必需的,但其在DNA损伤修复和检查点信号传导中的精确作用尚不清楚。单独的Crb2-BRCT(2)结构域以及与磷酸化的H2A.1肽形成复合物的晶体结构,揭示了二聚化以及与电离辐射诱导灶(IRIF)中的γ-H2A.1直接相互作用的结构基础。体外突变分析证实了关键残基的功能作用,并使得能够产生二聚化和磷酸肽结合分别被破坏的突变体。对这些突变体进行体内表型分析揭示了它们在DNA损伤反应中的不同作用。二聚化突变体对基因毒素敏感,在检查点信号传导、Chk1磷酸化和Crb2 IRIF形成方面存在缺陷,而磷酸肽结合突变体仅对IR略有敏感,具有延长的检查点延迟,能使Chk1磷酸化,并形成Crb2 IRIF。然而,破坏磷酸肽结合会减缓单链DNA结合蛋白(Rpa1/Rad11)灶的形成,并降低Rad22(Rad52)重组灶的水平,表明存在DNA修复缺陷。

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