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DnaA 结合座标 datA 促进 DnaA-ATP 水解,使细胞周期协调复制起始。

DnaA binding locus datA promotes DnaA-ATP hydrolysis to enable cell cycle-coordinated replication initiation.

机构信息

Department of Molecular Biology, Graduate School of Pharmaceutical Sciences, Kyushu University, Fukuoka 812-8582, Japan.

出版信息

Proc Natl Acad Sci U S A. 2013 Jan 15;110(3):936-41. doi: 10.1073/pnas.1212070110. Epub 2012 Dec 31.

DOI:10.1073/pnas.1212070110
PMID:23277577
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3549119/
Abstract

The initiation of chromosomal DNA replication is rigidly regulated to ensure that it occurs in a cell cycle-coordinated manner. To ensure this in Escherichia coli, multiple systems regulate the activity of the replication initiator ATP-DnaA. The level of ATP-DnaA increases before initiation after which it drops via DnaA-ATP hydrolysis, yielding initiation-inactive ADP-DnaA. DnaA-ATP hydrolysis is crucial to regulation of initiation and mainly occurs by a replication-coupled feedback mechanism named RIDA (regulatory inactivation of DnaA). Here, we report a second DnaA-ATP hydrolysis system that occurs at the chromosomal site datA. This locus has been annotated as a reservoir for DnaA that binds many DnaA molecules in a manner dependent upon the nucleoid-associated factor IHF (integration host factor), resulting in repression of untimely initiations; however, there is no direct evidence for the binding of many DnaA molecules at this locus. We reveal that a complex consisting of datA and IHF promotes DnaA-ATP hydrolysis in a manner dependent on specific inter-DnaA interactions. Deletion of datA or the ihf gene increased ATP-DnaA levels to the maximal attainable levels in RIDA-defective cells. Cell-cycle analysis suggested that IHF binds to datA just after replication initiation at a time when RIDA is activated. We propose a model in which cell cycle-coordinated ATP-DnaA inactivation is regulated in a concerted manner by RIDA and datA.

摘要

染色体 DNA 复制的起始受到严格调控,以确保其在细胞周期协调的方式下发生。为了在大肠杆菌中确保这一点,多个系统调节复制起始因子 ATP-DnaA 的活性。在起始之前,ATP-DnaA 的水平会在细胞周期中增加,之后通过 DnaA-ATP 水解降低,生成起始非活性的 ADP-DnaA。DnaA-ATP 水解对起始的调控至关重要,主要通过一种名为 RIDA(DnaA 的调控失活)的复制偶联反馈机制发生。在这里,我们报告了第二个 DnaA-ATP 水解系统,它发生在染色体位点 datA 上。该基因座被注释为 DnaA 的储存库,许多 DnaA 分子以依赖于核基质结合因子 IHF(整合宿主因子)的方式结合,从而抑制过早的起始;然而,没有直接证据表明在这个基因座上有许多 DnaA 分子的结合。我们揭示了由 datA 和 IHF 组成的复合物以依赖于特定的 DnaA 相互作用的方式促进 DnaA-ATP 水解。datA 或 ihf 基因的缺失会增加 ATP-DnaA 水平,使其达到 RIDA 缺陷细胞中可达到的最大水平。细胞周期分析表明,IHF 在复制起始后立即与 datA 结合,此时 RIDA 被激活。我们提出了一个模型,其中细胞周期协调的 ATP-DnaA 失活通过 RIDA 和 datA 以协调的方式进行调节。

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