T4 DNA聚合酶和大肠杆菌DNA聚合酶I对含乙基磷酸三酯的DNA模板复制的差异。

Differences in replication of a DNA template containing an ethyl phosphotriester by T4 DNA polymerase and Escherichia coli DNA polymerase I.

作者信息

Tsujikawa Laura, Weinfield Michael, Reha-Krantz Linda J

机构信息

Department of Biological Sciences, University of Alberta, Edmonton, Alberta T6G 2E9, Canada.

出版信息

Nucleic Acids Res. 2003 Sep 1;31(17):4965-72. doi: 10.1093/nar/gkg722.

DOI:10.1093/nar/gkg722

PMID:12930945

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC212818/

Abstract

A DNA template containing a single ethyl phosphotriester was replicated in vitro by the bacteriophage T4 DNA polymerase and by Escherichia coli DNA polymerase I (DNA pol I). Escherichia coli DNA pol I bypassed the lesion efficiently, but partial inhibition was observed for T4 DNA polymerase. The replication block produced by the ethyl phosphotriester was increased at low dNTP concentrations and for a mutant T4 DNA polymerase with an antimutator phenotype, increased proofreading activity, and reduced ability to bind DNA in the polymerase active center. These observations support a model in which an ethyl phosphotriester impedes primer elongation by T4 DNA polymerase by decreasing formation of the ternary DNA polymerase-DNA-dNTP complex. When primer elongation is not possible, proofreading becomes the favored reaction. Apparent futile cycles of nucleotide incorporation and proofreading, the idling reaction, were observed at the site of the lesion. The replication block was overcome by higher dNTP concentrations. Thus, ethyl phosphotriesters may be tolerated in vivo by the up-regulation of dNTP biosynthesis that occurs during the cellular checkpoint response to blocked DNA replication forks.

摘要

一个含有单个乙基磷酸三酯的DNA模板在体外由噬菌体T4 DNA聚合酶和大肠杆菌DNA聚合酶I（DNA pol I）进行复制。大肠杆菌DNA pol I能有效绕过该损伤，但观察到T4 DNA聚合酶存在部分抑制现象。在低dNTP浓度下，以及对于具有抗突变表型、校对活性增强且在聚合酶活性中心结合DNA能力降低的突变型T4 DNA聚合酶，由乙基磷酸三酯产生的复制阻滞会增加。这些观察结果支持了一种模型，即乙基磷酸三酯通过减少三元DNA聚合酶-DNA-dNTP复合物的形成来阻碍T4 DNA聚合酶的引物延伸。当引物延伸不可能时，校对就成为了优先反应。在损伤位点观察到了核苷酸掺入和校对的明显无效循环，即空载反应。较高的dNTP浓度可克服复制阻滞。因此，在细胞对受阻DNA复制叉的检查点反应期间发生的dNTP生物合成上调，可能使体内能够耐受乙基磷酸三酯。

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