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光交联将人类复制蛋白A大亚基的结合位点定位到顺铂修饰DNA的损伤链上。

Photocrosslinking locates a binding site for the large subunit of human replication protein A to the damaged strand of cisplatin-modified DNA.

作者信息

Schweizer U, Hey T, Lipps G, Krauss G

机构信息

Lehrstuhl für Biochemie, Universität Bayreuth, Universitätsstrasse 30, D-95447 Bayreuth, Germany.

出版信息

Nucleic Acids Res. 1999 Aug 1;27(15):3183-9. doi: 10.1093/nar/27.15.3183.

DOI:10.1093/nar/27.15.3183
PMID:10454616
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC148546/
Abstract

The repair proteins XPA, XPC and replication protein A (RPA) have been implicated in the primary recognition of damaged DNA sites during nucleotide excision repair. Detailed structural information on the binding of these proteins to DNA lesions is however lacking. We have studied the binding of human RPA (hRPA) and hRPA-XPA-complexes to model oligonucleo-tides containing a single 1, 3-d(GTG)-cisplatin-modification by photocrosslinking and electrophoretic mobility shift experiments. The 70 kDa subunit of hRPA can be crosslinked with high efficiency to cisplatin-modified DNA probes carrying 5-iodo-2"-deoxyuridin (5-IdU) as crosslinking chromophore. High efficiency crosslinking is dependent on the presence of the DNA lesion and occurs preferentially at its 5"-side. Examination of the crosslinking efficiency in dependence on the position of the 5-IdU chromophore indicates a specific positioning of hRPA with respect to the platination site. When hRPA and XPA are both present mainly hRPA is crosslinked to the DNA. Our mobility shift experiments directly show the formation of a stable ternary complex of hRPA, XPA and the damaged DNA. The affinity of the XPA-hRPA complex to the damaged DNA is increased by more than one order of magnitude as compared to hRPA alone.

摘要

修复蛋白XPA、XPC和复制蛋白A(RPA)参与了核苷酸切除修复过程中受损DNA位点的初始识别。然而,关于这些蛋白质与DNA损伤结合的详细结构信息尚缺。我们通过光交联和电泳迁移率变动实验,研究了人RPA(hRPA)和hRPA-XPA复合物与含有单个1,3-d(GTG)-顺铂修饰的寡核苷酸模型的结合。hRPA的70 kDa亚基可高效交联至携带5-碘-2'-脱氧尿苷(5-IdU)作为交联发色团的顺铂修饰DNA探针。高效交联依赖于DNA损伤的存在,且优先发生在损伤位点的5'侧。根据5-IdU发色团位置对交联效率的检测表明,hRPA相对于铂化位点具有特定定位。当hRPA和XPA同时存在时,主要是hRPA与DNA交联。我们的迁移率变动实验直接显示了hRPA、XPA与受损DNA形成稳定的三元复合物。与单独的hRPA相比,XPA-hRPA复合物对受损DNA的亲和力增加了一个多数量级。

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