细菌染色体复制过程中DNA聚合酶的频繁交换。

Frequent exchange of the DNA polymerase during bacterial chromosome replication.

作者信息

Beattie Thomas R, Kapadia Nitin, Nicolas Emilien, Uphoff Stephan, Wollman Adam Jm, Leake Mark C, Reyes-Lamothe Rodrigo

机构信息

Department of Biology, McGill University, Montreal, Canada.

Department of Biochemistry, University of Oxford, Oxford, United Kingdom.

出版信息

Elife. 2017 Mar 31;6:e21763. doi: 10.7554/eLife.21763.

DOI:10.7554/eLife.21763

PMID:28362256

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5403216/

Abstract

The replisome is a multiprotein machine that carries out DNA replication. In , a single pair of replisomes is responsible for duplicating the entire 4.6 Mbp circular chromosome. In vitro studies of reconstituted replisomes have attributed this remarkable processivity to the high stability of the replisome once assembled on DNA. By examining replisomes in live with fluorescence microscopy, we found that the Pol III* subassembly frequently disengages from the replisome during DNA synthesis and exchanges with free copies from solution. In contrast, the DnaB helicase associates stably with the replication fork, providing the molecular basis for how the replisome can maintain high processivity and yet possess the flexibility to bypass obstructions in template DNA. Our data challenges the widely-accepted semi-discontinuous model of chromosomal replication, instead supporting a fully discontinuous mechanism in which synthesis of both leading and lagging strands is frequently interrupted.

摘要

复制体是一种进行DNA复制的多蛋白机器。在大肠杆菌中，一对复制体负责复制整个460万个碱基对的环状染色体。对重组复制体的体外研究将这种非凡的持续合成能力归因于复制体一旦组装到DNA上就具有的高稳定性。通过荧光显微镜观察活细胞中的复制体，我们发现Pol III*亚组件在DNA合成过程中经常从复制体上脱离，并与溶液中的游离拷贝进行交换。相比之下，DnaB解旋酶与复制叉稳定结合，这为大肠杆菌复制体如何能够保持高持续合成能力，同时又具备绕过模板DNA中障碍物的灵活性提供了分子基础。我们的数据对广泛接受的染色体复制半不连续模型提出了挑战，转而支持一种完全不连续的机制，即前导链和后随链的合成经常被打断。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/337f/5403216/330e1f21b79b/elife-21763-fig1.jpg

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细菌染色体复制过程中DNA聚合酶的频繁交换。

Frequent exchange of the DNA polymerase during bacterial chromosome replication.

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