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大肠杆菌DnaC蛋白对DNA结合的核苷酸调节的定量分析。

Quantitative analysis of nucleotide modulation of DNA binding by DnaC protein of Escherichia coli.

作者信息

Biswas Subhasis B, Flowers Stephen, Biswas-Fiss Esther E

机构信息

Department of Molecular Biology, School of Medicine, Graduate School of Biomedical Sciences, University of Medicine and Dentistry of New Jersey, Stratford, NJ 08084, USA.

出版信息

Biochem J. 2004 May 1;379(Pt 3):553-62. doi: 10.1042/BJ20031255.

DOI:10.1042/BJ20031255

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1224104/

Abstract

In this study, we have presented the first report of Escherichia coli DnaC protein binding to ssDNA (single stranded DNA) in an apparent hexameric form. DnaC protein transfers DnaB helicase onto a nascent chromosomal DNA replication fork at oriC, the origin of E. coli DNA replication. In eukaryotes, Cdc6 protein may play a similar role in the DNA helicase loading in the replication fork during replication initiation at the origin. We have analysed the DNA-binding properties of DnaC protein and a quantitative analysis of the nucleotide regulation of DnaC-DNA and DnaC-DnaB interactions using fluorescence anisotropy and affinity sensor analysis. DnaC protein bound to ssDNA with low to moderate affinity and the affinity was strictly modulated by nucleotides. DnaC bound ssDNA in the complete absence of nucleotides. The DNA-binding affinity was significantly increased in the presence of ATP, but not ATP[S]. In the presence of ADP, the binding affinity decreased approximately fifty-fold. Both anisotropy and biosensor analyses demonstrated that with DnaC protein, ATP facilitated ssDNA binding, whereas ADP facilitated its dissociation from ssDNA, which is a characteristic of an ATP/ADP switch. Both ssDNA and nucleotides modulate DnaB6*DnaC6 complex formation, which has significant implications in DnaC protein function. Based on the thermodynamic data provided in this study, we have proposed a mechanism of DnaB loading on to ssDNA by DnaC protein.

摘要

在本研究中，我们首次报道了大肠杆菌DnaC蛋白以明显的六聚体形式与单链DNA（ssDNA）结合。DnaC蛋白将DnaB解旋酶转移到大肠杆菌DNA复制起点oriC处新生的染色体DNA复制叉上。在真核生物中，Cdc6蛋白在复制起点起始复制期间可能在复制叉中的DNA解旋酶装载过程中发挥类似作用。我们使用荧光各向异性和亲和传感器分析，分析了DnaC蛋白的DNA结合特性以及对DnaC-DNA和DnaC-DnaB相互作用的核苷酸调节进行了定量分析。DnaC蛋白以低至中等亲和力与ssDNA结合，且这种亲和力受到核苷酸的严格调控。在完全没有核苷酸的情况下，DnaC也能结合ssDNA。在ATP存在时，DNA结合亲和力显著增加，但ATP[S]存在时则不然。在ADP存在时，结合亲和力降低约五十倍。各向异性分析和生物传感器分析均表明，对于DnaC蛋白，ATP促进ssDNA结合，而ADP促进其从ssDNA上解离，这是ATP/ADP开关的一个特征。ssDNA和核苷酸均调节DnaB6*DnaC6复合物的形成，这对DnaC蛋白的功能具有重要意义。基于本研究提供的热力学数据，我们提出了DnaC蛋白将DnaB装载到ssDNA上的机制。