Para 结构域 ATP 酶可以移动和定位 DNA 以及亚细胞结构。

ParA ATPases can move and position DNA and subcellular structures.

机构信息

Centre for Bacterial Cell Biology, Institute for Cell and Molecular Biosciences, Newcastle University, NE2 4HH, Newcastle, United Kingdom.

出版信息

Curr Opin Microbiol. 2011 Dec;14(6):712-8. doi: 10.1016/j.mib.2011.09.008. Epub 2011 Sep 29.

DOI:10.1016/j.mib.2011.09.008

PMID:21963112

Abstract

Prokaryotic chromosomes and plasmids can be actively segregated by partitioning (par) loci. The common ParA-encoding par loci segregate plasmids by arranging them in regular arrays over the nucleoid by an unknown mechanism. Recent observations indicate that ParA moves plasmids and chromosomes by a pulling mechanism. Even though ParAs form filaments in vitro it is not known whether similar structures are present in vivo. ParA of P1 forms filaments in vitro at very high concentrations only and filament-like structures have not been observed in vivo. Consequently, a 'diffusion-ratchet' mechanism was suggested to explain plasmid movement by ParA of P1. We compare this mechanism with our previously proposed filament model for plasmid movement by ParA. Remarkably, ParA homologues have been discovered to arrange subcellular structures such as carboxysomes and chemotaxis sensory receptors in a regular manner very similar to those of the plasmid arrays.

摘要

原核生物的染色体和质粒可以通过分配（par）区域主动分离。常见的 ParA 编码的 par 区域通过未知机制将质粒排列在核区上的规则阵列中进行分离。最近的观察表明，ParA 通过牵引机制移动质粒和染色体。尽管 ParA 在体外形成纤维，但尚不清楚体内是否存在类似的结构。P1 的 ParA 仅在非常高的浓度下在体外形成纤维，并且在体内未观察到类似纤维的结构。因此，提出了一种“扩散棘轮”机制来解释 P1 的 ParA 驱动质粒的运动。我们将该机制与我们之前提出的 ParA 驱动质粒运动的纤维模型进行了比较。值得注意的是，已经发现 ParA 同源物以类似于质粒阵列的方式将亚细胞结构（如羧化体和趋化性感觉受体）排列成规则的方式。

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Para 结构域 ATP 酶可以移动和定位 DNA 以及亚细胞结构。

ParA ATPases can move and position DNA and subcellular structures.

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