ParR/parC质粒分配复合物的结构分析

Structural analysis of the ParR/parC plasmid partition complex.

作者信息

Møller-Jensen Jakob, Ringgaard Simon, Mercogliano Christopher P, Gerdes Kenn, Löwe Jan

机构信息

MRC-Laboratory of Molecular Biology, Cambridge, UK.

出版信息

EMBO J. 2007 Oct 17;26(20):4413-22. doi: 10.1038/sj.emboj.7601864. Epub 2007 Sep 27.

DOI:10.1038/sj.emboj.7601864

PMID:17898804

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2034672/

Abstract

Accurate DNA partition at cell division is vital to all living organisms. In bacteria, this process can involve partition loci, which are found on both chromosomes and plasmids. The initial step in Escherichia coli plasmid R1 partition involves the formation of a partition complex between the DNA-binding protein ParR and its cognate centromere site parC on the DNA. The partition complex is recognized by a second partition protein, the actin-like ATPase ParM, which forms filaments required for the active bidirectional movement of DNA replicates. Here, we present the 2.8 A crystal structure of ParR from E. coli plasmid pB171. ParR forms a tight dimer resembling a large family of dimeric ribbon-helix-helix (RHH)2 site-specific DNA-binding proteins. Crystallographic and electron microscopic data further indicate that ParR dimers assemble into a helix structure with DNA-binding sites facing outward. Genetic and biochemical experiments support a structural arrangement in which the centromere-like parC DNA is wrapped around a ParR protein scaffold. This structure holds implications for how ParM polymerization drives active DNA transport during plasmid partition.

摘要

细胞分裂时准确的DNA分配对所有生物都至关重要。在细菌中，这一过程可能涉及到在染色体和质粒上均能发现的分配位点。大肠杆菌质粒R1分配的第一步涉及到DNA结合蛋白ParR与其在DNA上的同源着丝粒位点parC之间形成分配复合物。该分配复合物被另一种分配蛋白、肌动蛋白样ATP酶ParM识别，ParM形成DNA复制体主动双向移动所需的细丝。在此，我们展示了来自大肠杆菌质粒pB171的ParR的2.8埃晶体结构。ParR形成紧密的二聚体，类似于一大类二聚体带状螺旋-螺旋（RHH）2位点特异性DNA结合蛋白。晶体学和电子显微镜数据进一步表明，ParR二聚体组装成一种螺旋结构，其DNA结合位点朝外。遗传和生化实验支持一种结构排列，其中类似着丝粒的parC DNA缠绕在ParR蛋白支架周围。这种结构对于ParM聚合在质粒分配过程中驱动活性DNA运输的方式具有启示意义。

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