观察正确和错误核苷酸插入可捕获隐藏的聚合酶保真度检查点。

Watching right and wrong nucleotide insertion captures hidden polymerase fidelity checkpoints.

机构信息

Genome Integrity and Structural Biology Laboratory, National Institute of Environmental Health Sciences, National Institutes of Health, Research Triangle Park, NC, 27709, USA.

出版信息

Nat Commun. 2022 Jun 9;13(1):3193. doi: 10.1038/s41467-022-30141-w.

DOI:10.1038/s41467-022-30141-w

PMID:35680862

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9184648/

Abstract

Efficient and accurate DNA synthesis is enabled by DNA polymerase fidelity checkpoints that promote insertion of the right instead of wrong nucleotide. Erroneous X-family polymerase (pol) λ nucleotide insertion leads to genomic instability in double strand break and base-excision repair. Here, time-lapse crystallography captures intermediate catalytic states of pol λ undergoing right and wrong natural nucleotide insertion. The revealed nucleotide sensing mechanism responds to base pair geometry through active site deformation to regulate global polymerase-substrate complex alignment in support of distinct optimal (right) or suboptimal (wrong) reaction pathways. An induced fit during wrong but not right insertion, and associated metal, substrate, side chain and pyrophosphate reaction dynamics modulated nucleotide insertion. A third active site metal hastened right but not wrong insertion and was not essential for DNA synthesis. The previously hidden fidelity checkpoints uncovered reveal fundamental strategies of polymerase DNA repair synthesis in genomic instability.

摘要

高效准确的 DNA 合成依赖于 DNA 聚合酶保真度检查点，这些检查点促进正确核苷酸而不是错误核苷酸的插入。错误的 X 家族聚合酶（pol）λ核苷酸插入会导致双链断裂和碱基切除修复中的基因组不稳定。在这里，延时晶体学捕获了 pol λ 进行正确和错误天然核苷酸插入的中间催化状态。所揭示的核苷酸感应机制通过活性位点变形来响应碱基对几何形状，从而调节全局聚合酶-底物复合物的对准，以支持不同的最佳（正确）或次优（错误）反应途径。错误插入时会发生诱导契合，而相关的金属、底物、侧链和焦磷酸反应动力学会调节核苷酸插入。第三个活性位点金属加速了正确插入但不是错误插入，并且对 DNA 合成不是必需的。先前隐藏的保真度检查点揭示了聚合酶在基因组不稳定中进行 DNA 修复合成的基本策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3c89/9184648/52b7774430d1/41467_2022_30141_Fig1_HTML.jpg

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观察正确和错误核苷酸插入可捕获隐藏的聚合酶保真度检查点。

Watching right and wrong nucleotide insertion captures hidden polymerase fidelity checkpoints.

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