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XPC-hHR23B对受损DNA的稳态前结合揭示了损伤识别的动力学机制。

Pre-steady-state binding of damaged DNA by XPC-hHR23B reveals a kinetic mechanism for damage discrimination.

作者信息

Trego Kelly S, Turchi John J

机构信息

Department of Biochemistry and Molecular Biology, Wright State University School of Medicine, Dayton, Ohio 45435, USA.

出版信息

Biochemistry. 2006 Feb 14;45(6):1961-9. doi: 10.1021/bi051936t.

DOI:10.1021/bi051936t
PMID:16460043
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2435173/
Abstract

The XPC-hHR23B complex (XPC-hHR23B) is a heterodimeric protein required for the initial step of DNA damage recognition in the global nucleotide excision repair (NER) pathway. A strong preference of XPC-hHR23B for UV- and cisplatin-damaged DNA has previously been demonstrated using equilibrium binding assays. To better understand the molecular mechanism of damage recognition by XPC-hHR23B, we carried out the pre-steady-state kinetic analysis of the XPC-hHR23B-DNA interactions using a stopped-flow fluorescence assay. XPC-hHR23B displays a faster k(on) for cisplatin- and UV-damaged duplex DNA than for undamaged DNA, with additional, minor effects on the k(off) rates. XPC-hHR23B has a high affinity for undamaged single-stranded DNA compared to duplex DNA, which can be largely attributed to a high rate of association. However, cisplatin damage on single-stranded DNA reduced the overall level of binding by a factor of 7, with nearly equal contributions from changes to the k(on) and k(off) rates. Together, these results support a model for initial damage recognition by XPC-hHR23B that is dependent on structural changes in the DNA, and not adduct chemistry.

摘要

XPC-hHR23B复合物(XPC-hHR23B)是一种异源二聚体蛋白,在全局核苷酸切除修复(NER)途径中DNA损伤识别的初始步骤中是必需的。先前使用平衡结合试验已证明XPC-hHR23B对紫外线和顺铂损伤的DNA有强烈偏好。为了更好地理解XPC-hHR23B识别损伤的分子机制,我们使用停流荧光测定法对XPC-hHR23B与DNA的相互作用进行了预稳态动力学分析。与未损伤的DNA相比,XPC-hHR23B对顺铂和紫外线损伤的双链DNA显示出更快的k(on),对k(off)速率有额外的微小影响。与双链DNA相比,XPC-hHR23B对未损伤的单链DNA具有高亲和力,这在很大程度上可归因于高结合速率。然而,顺铂对单链DNA的损伤使结合的总体水平降低了7倍,k(on)和k(off)速率的变化贡献几乎相等。总之,这些结果支持了一种XPC-hHR23B初始损伤识别模型,该模型依赖于DNA的结构变化,而非加合物化学。

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