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拓扑异构酶IV结合时会使DNA弯曲并过度扭曲。

Topoisomerase IV bends and overtwists DNA upon binding.

作者信息

Charvin G, Strick T R, Bensimon D, Croquette V

机构信息

Laboratoire de Physique Statistique, Ecole Normale Supérieure, UMR 8550 Centre National de la Recherche Scientifique, Paris, France.

出版信息

Biophys J. 2005 Jul;89(1):384-92. doi: 10.1529/biophysj.105.060202. Epub 2005 Apr 29.

DOI:10.1529/biophysj.105.060202
PMID:15863484
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1366538/
Abstract

Escherichia coli topoisomerase IV (Topo IV) is an essential ATP-dependent enzyme that unlinks sister chromosomes during replication and efficiently removes positive but not negative supercoils. In this article, we investigate the binding properties of Topo IV onto DNA in the absence of ATP using a single molecule micromanipulation setup. We find that the enzyme binds cooperatively (Hill coefficient alpha approximately 4) with supercoiled DNA, suggesting that the Topo IV subunits assemble upon binding onto DNA. It interacts preferentially with (+) rather than (-) supercoiled DNA (Kd+=0.15 nM, Kd-=0.23 nM) and more than two orders-of-magnitude more weakly with relaxed DNA (Kd0 approximately 36 nM). Like gyrase but unlike the eukaryotic Topo II, Topo IV bends DNA with a radius 0= 6.4 nm and locally changes its twist and/or its writhe by 0.16 turn per bound complex. We estimate its free energy of binding and study the dynamics of interaction of Topo IV with DNA at the binding threshold. We find that the protein/DNA complex alternates between two states: a weakly bound state where it stays with probability p = 0.89 and a strongly bound state (with probability p = 0.11). The methodology introduced here to characterize the Topo IV/DNA complex is very general and could be used to study other DNA/protein complexes.

摘要

大肠杆菌拓扑异构酶IV(Topo IV)是一种必需的ATP依赖性酶,在复制过程中解开姐妹染色体,并能有效去除正超螺旋而非负超螺旋。在本文中,我们使用单分子微操纵装置研究了在无ATP情况下Topo IV与DNA的结合特性。我们发现该酶与超螺旋DNA协同结合(希尔系数α约为4),这表明Topo IV亚基在结合到DNA上时会组装。它优先与(+)超螺旋DNA而非(-)超螺旋DNA相互作用(Kd + = 0.15 nM,Kd - = 0.23 nM),与松弛DNA的相互作用则弱两个数量级以上(Kd0约为36 nM)。与促旋酶类似但与真核Topo II不同,Topo IV使DNA弯曲,弯曲半径0 = 6.4 nm,每个结合复合物使DNA局部扭转和/或缠绕改变0.16圈。我们估计了其结合自由能,并研究了在结合阈值下Topo IV与DNA相互作用的动力学。我们发现蛋白质/DNA复合物在两种状态之间交替:一种弱结合状态,其停留概率p = 0.89;另一种强结合状态(概率p = 0.11)。本文介绍的用于表征Topo IV/DNA复合物的方法非常通用,可用于研究其他DNA/蛋白质复合物。

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