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3
Association between Polymorphisms of X-Ray Repair Cross Complementing Group 1 Gene and Pancreatic Cancer Risk: a Systematic Review with Meta-Analysis.XRCC1 基因多态性与胰腺癌风险的关联:系统评价与荟萃分析。
Pathol Oncol Res. 2019 Jul;25(3):897-904. doi: 10.1007/s12253-017-0364-6. Epub 2017 Dec 28.
4
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J Biol Chem. 2017 Sep 29;292(39):16024-16031. doi: 10.1074/jbc.M117.806638. Epub 2017 Aug 16.
5
X-ray cross-complementing groups 1 rs1799782 C>T polymorphisms and colorectal cancer susceptibility: A meta-analysis based on Chinese Han population.X射线交叉互补修复基因1 rs1799782 C>T多态性与结直肠癌易感性:基于中国汉族人群的荟萃分析
J Cancer Res Ther. 2016 Dec;12(Supplement):C264-C267. doi: 10.4103/0973-1482.200753.
6
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7
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DNA Repair (Amst). 2015 Nov;35:116-25. doi: 10.1016/j.dnarep.2015.10.002. Epub 2015 Oct 23.
8
The R280H X-ray cross-complementing 1 germline variant induces genomic instability and cellular transformation.R280H 型 X 射线交叉互补基因 1 种系变体可诱导基因组不稳定和细胞转化。
DNA Repair (Amst). 2015 Jul;31:73-9. doi: 10.1016/j.dnarep.2015.05.005. Epub 2015 May 14.
9
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J Biol Chem. 2015 Feb 6;290(6):3775-83. doi: 10.1074/jbc.M114.624718. Epub 2014 Dec 4.
10
XRCC1 interaction with the REV1 C-terminal domain suggests a role in post replication repair.XRCC1 与 REV1 C 末端结构域的相互作用提示其在复制后修复中的作用。
DNA Repair (Amst). 2013 Dec;12(12):1105-13. doi: 10.1016/j.dnarep.2013.08.015.

PNKP-XRCC1 相互作用的结构域分析:XRCC1 遗传变异的影响。

Domain analysis of PNKP-XRCC1 interactions: Influence of genetic variants of XRCC1.

机构信息

From the Department of Oncology, University of Alberta, Edmonton, Alberta T6G 1Z2 and.

the Department of Biochemistry, University of Alberta, Edmonton, Alberta T6G 2H7, Canada.

出版信息

J Biol Chem. 2019 Jan 11;294(2):520-530. doi: 10.1074/jbc.RA118.004262. Epub 2018 Nov 16.

DOI:10.1074/jbc.RA118.004262
PMID:30446622
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6333889/
Abstract

Polynucleotide kinase/phosphatase (PNKP) and X-ray repair cross-complementing 1 (XRCC1) are key proteins in the single-strand DNA break repair pathway. Phosphorylated XRCC1 stimulates PNKP by binding to its forkhead-associated (FHA) domain, whereas nonphosphorylated XRCC1 stimulates PNKP by interacting with the PNKP catalytic domain. Here, we have further studied the interactions between these two proteins, including two variants of XRCC1 (R194W and R280H) arising from single-nucleotide polymorphisms (SNPs) that have been associated with elevated cancer risk in some reports. We observed that interaction of the PNKP FHA domain with phosphorylated XRCC1 extends beyond the immediate, well-characterized phosphorylated region of XRCC1 (residues 515-526). We also found that an XRCC1 fragment, comprising residues 166-436, binds tightly to PNKP and DNA and efficiently activates PNKP's kinase activity. However, interaction of either of the SNP-derived variants of this fragment with PNKP was considerably weaker, and their stimulation of PNKP was severely reduced, although they still could bind DNA effectively. Laser microirradiation revealed reduced recruitment of PNKP to damaged DNA in cells expressing either XRCC1 variant compared with PNKP recruitment in cells expressing WT XRCC1 even though WT and variant XRCC1s were equally efficient at localizing to the damaged DNA. These findings suggest that the elevated risk of cancer associated with these XRCC1 SNPs reported in some studies may be due in part to the reduced ability of these XRCC1 variants to recruit PNKP to damaged DNA.

摘要

多核苷酸激酶/磷酸酶(PNKP)和 X 射线修复交叉互补蛋白 1(XRCC1)是单链 DNA 断裂修复途径中的关键蛋白。磷酸化的 XRCC1 通过与 PNKP 的 forkhead 相关(FHA)结构域结合来刺激 PNKP,而非磷酸化的 XRCC1 通过与 PNKP 的催化结构域相互作用来刺激 PNKP。在这里,我们进一步研究了这两种蛋白质之间的相互作用,包括来自单核苷酸多态性(SNP)的两个 XRCC1 变体(R194W 和 R280H),这些变体在一些报道中与癌症风险升高有关。我们观察到,PNKP FHA 结构域与磷酸化 XRCC1 的相互作用超出了 XRCC1 的立即、特征明确的磷酸化区域(残基 515-526)。我们还发现,包含残基 166-436 的 XRCC1 片段与 PNKP 和 DNA 紧密结合,并有效地激活 PNKP 的激酶活性。然而,该片段的 SNP 衍生变体中的任一个与 PNKP 的相互作用都明显较弱,并且它们对 PNKP 的刺激作用也严重降低,尽管它们仍然可以有效地结合 DNA。激光微照射显示,与表达 WT XRCC1 的细胞中的 PNKP 募集相比,表达任一种 XRCC1 变体的细胞中 PNKP 募集到受损 DNA 的程度降低,尽管 WT 和变体 XRCC1 同样有效地定位于受损 DNA。这些发现表明,一些研究报告中与这些 XRCC1 SNP 相关的癌症风险升高可能部分归因于这些 XRCC1 变体将 PNKP 募集到受损 DNA 的能力降低。