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DNA 聚合酶活性位点组装过程中 dNTP 中间态的结构。

Structures of dNTP intermediate states during DNA polymerase active site assembly.

机构信息

Laboratory of Structural Biology, National Institute of Environmental Health Sciences, National Institutes of Health, P.O. Box 12233, Research Triangle Park, NC 27709-2233, USA.

出版信息

Structure. 2012 Nov 7;20(11):1829-37. doi: 10.1016/j.str.2012.08.008. Epub 2012 Sep 6.

DOI:10.1016/j.str.2012.08.008
PMID:22959623
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3496073/
Abstract

DNA polymerase and substrate conformational changes are essential for high-fidelity DNA synthesis. Structures of DNA polymerase (pol) β in complex with DNA show the enzyme in an "open" conformation. Subsequent to binding the nucleotide, the polymerase "closes" around the nascent base pair with two metals positioned for chemistry. However, structures of substrate/active site intermediates prior to closure are lacking. By destabilizing the closed complex, we determined unique ternary complex structures of pol β with correct and incorrect incoming nucleotides bound to the open conformation. These structures reveal that Watson-Crick hydrogen bonding is assessed upon initial complex formation. Importantly, nucleotide-bound states representing intermediate metal coordination states occur with active site assembly. The correct, but not incorrect, nucleotide maintains Watson-Crick hydrogen bonds during interconversion of these states. These structures indicate that the triphosphate of the incoming nucleotide undergoes rearrangement prior to closure, providing an opportunity to deter misinsertion and increase fidelity.

摘要

DNA 聚合酶和底物构象变化对于高保真 DNA 合成至关重要。与 DNA 结合的 DNA 聚合酶 (pol)β 的结构显示该酶处于“开放”构象。结合核苷酸后,聚合酶“围绕”新生碱基对关闭,两个金属位置适合发生化学反应。然而,在封闭复合物之前,缺乏底物/活性位点中间体的结构。通过破坏封闭复合物,我们确定了 pol β 的独特三元复合物结构,其中结合了开放构象的正确和不正确的进入核苷酸。这些结构表明,初始复合物形成时评估了 Watson-Crick 氢键。重要的是,代表中间金属配位状态的核苷酸结合状态在活性位点组装时发生。正确的核苷酸,而不是不正确的核苷酸,在这些状态的相互转换过程中保持 Watson-Crick 氢键。这些结构表明,进入核苷酸的三磷酸在封闭之前经历重排,为防止错误插入和提高保真度提供了机会。

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