SMC ATPase 突变体破坏了柄杆菌中的染色体分离。

An SMC ATPase mutant disrupts chromosome segregation in Caulobacter.

机构信息

Department of Developmental Biology, Stanford University School of Medicine, Stanford, CA 94305, USA.

出版信息

Mol Microbiol. 2011 Dec;82(6):1359-74. doi: 10.1111/j.1365-2958.2011.07836.x. Epub 2011 Sep 30.

DOI:10.1111/j.1365-2958.2011.07836.x

PMID:21923769

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3273039/

Abstract

Accurate replication and segregation of the bacterial genome are essential for cell cycle progression. We have identified a single amino acid substitution in the Caulobacter structural maintenance of chromosomes (SMC) protein that disrupts chromosome segregation and cell division. The E1076Q point mutation in the SMC ATPase domain caused a dominant-negative phenotype in which DNA replication was able to proceed, but duplicated parS centromeres, normally found at opposite cell poles, remained at one pole. The cellular positions of other chromosomal loci were in the wild-type order relative to the parS centromere, but chromosomes remained unsegregated and appeared to be stacked upon one another. Purified SMC-E1076Q was deficient in ATP hydrolysis and exhibited abnormally stable binding to DNA. We propose that SMC spuriously links the duplicated chromosome immediately after passage of the replication fork. In wild-type cells, ATP hydrolysis opens the SMC dimer, freeing one chromosome to segregate to the opposite pole. The loss of ATP hydrolysis causes the SMC-E1076Q dimer to remain bound to both chromosomes, inhibiting segregation.

摘要

准确复制和分离细菌基因组对于细胞周期进程至关重要。我们已经在钙杆状菌结构维持染色体（SMC）蛋白中鉴定出一个单一的氨基酸取代，该取代会破坏染色体分离和细胞分裂。SMC ATP 酶结构域中的 E1076Q 点突变导致显性负表型，其中 DNA 复制能够进行，但通常位于相反细胞极的复制起始点 parS 着丝粒仍保留在一个极。相对于 parS 着丝粒，其他染色体位点的细胞位置仍保持野生型顺序，但染色体仍未分离，似乎彼此堆叠。纯化的 SMC-E1076Q 缺乏 ATP 水解活性，并且与 DNA 的结合异常稳定。我们提出 SMC 会在复制叉通过后立即错误地连接复制后的染色体。在野生型细胞中，ATP 水解会打开 SMC 二聚体，使一条染色体游离并分离到相反的极。ATP 水解的丧失导致 SMC-E1076Q 二聚体保持与两条染色体结合，抑制分离。

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