高保真DNA复制过程中的自我校正错配。
Self-correcting mismatches during high-fidelity DNA replication.
作者信息
Fernandez-Leiro Rafael, Conrad Julian, Yang Ji-Chun, Freund Stefan M V, Scheres Sjors H W, Lamers Meindert H
机构信息
MRC laboratory of Molecular Biology, Cambridge, UK.
出版信息
Nat Struct Mol Biol. 2017 Feb;24(2):140-143. doi: 10.1038/nsmb.3348. Epub 2017 Jan 9.
Abstract
Faithful DNA replication is essential to all forms of life and depends on the action of 3'-5' exonucleases that remove misincorporated nucleotides from the newly synthesized strand. However, how the DNA is transferred from the polymerase to the exonuclease active site is not known. Here we present the cryo-EM structure of the editing mode of the catalytic core of the Escherichia coli replisome, revealing a dramatic distortion of the DNA whereby the polymerase thumb domain acts as a wedge that separates the two DNA strands. Importantly, NMR analysis of the DNA substrate shows that the presence of a mismatch increases the fraying of the DNA, thus enabling it to reach the exonuclease active site. Therefore the mismatch corrects itself, whereas the exonuclease subunit plays a passive role. Hence, our work provides unique insights into high-fidelity replication and establishes a new paradigm for the correction of misincorporated nucleotides.
摘要
忠实的DNA复制对所有生命形式都至关重要,并且依赖于3'-5'核酸外切酶的作用,这些酶能从新合成的链中去除错配掺入的核苷酸。然而,DNA如何从聚合酶转移到核酸外切酶活性位点尚不清楚。在此,我们展示了大肠杆菌复制体催化核心编辑模式的冷冻电镜结构,揭示了DNA的显著扭曲,其中聚合酶拇指结构域充当分离两条DNA链的楔子。重要的是,对DNA底物的核磁共振分析表明,错配的存在会增加DNA的解链,从而使其能够到达核酸外切酶活性位点。因此,错配会自行校正,而核酸外切酶亚基起被动作用。因此,我们的工作为高保真复制提供了独特的见解,并建立了校正错配掺入核苷酸的新范例。
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