FtsK 六聚体的序列特异性组装在 DNA 上建立了定向易位。

Sequence-specific assembly of FtsK hexamers establishes directional translocation on DNA.

机构信息

Department of Biochemistry, University of Oxford, South Parks Road, Oxford, OX1 3QU, United Kingdom.

出版信息

Proc Natl Acad Sci U S A. 2010 Nov 23;107(47):20263-8. doi: 10.1073/pnas.1007518107. Epub 2010 Nov 3.

DOI:10.1073/pnas.1007518107

PMID:21048089

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2996697/

Abstract

FtsK is a homohexameric, RecA-like dsDNA translocase that plays a key role in bacterial chromosome segregation. The FtsK regulatory γ-subdomain determines directionality of translocation through its interaction with specific 8 base pair chromosomal sequences [(KOPS); FtsK Orienting/Polarizing Sequence(s)] that are cooriented with the direction of replication in the chromosome. We use millisecond-resolution ensemble translocation and ATPase assays to analyze the assembly, initiation, and translocation of FtsK. We show that KOPS are used to initiate new translocation events rather than reorient existing ones. By determining kinetic parameters, we show sigmoidal dependences of translocation and ATPase rates on ATP concentration that indicate sequential cooperative coupling of ATP hydrolysis to DNA motion. We also estimate the ATP coupling efficiency of translocation to be 1.63-2.11 bp of dsDNA translocated/ATP hydrolyzed. The data were used to derive a model for the assembly, initiation, and translocation of FtsK hexamers.

摘要

FtsK 是一种同源六聚体、RecA 样 dsDNA 易位酶，在细菌染色体分离中起着关键作用。FtsK 调节 γ-结构域通过与特定的 8 碱基对染色体序列（KOPS；FtsK 定向/极化序列）相互作用来决定易位的方向性，这些序列与染色体中复制的方向共取向。我们使用毫秒级分辨率的整体易位和 ATP 酶测定来分析 FtsK 的组装、起始和易位。我们表明 KOPS 用于启动新的易位事件，而不是重新定向现有的易位事件。通过确定动力学参数，我们表明易位和 ATP 酶速率对 ATP 浓度的依赖性呈 S 形，表明 ATP 水解与 DNA 运动的顺序协同偶联。我们还估计了易位的 ATP 偶联效率为 1.63-2.11 bp 的 dsDNA 易位/ATP 水解。这些数据用于推导出 FtsK 六聚体的组装、起始和易位模型。

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