RecG解旋酶在三链和四链DNA结构中的活性。

RecG helicase activity at three- and four-strand DNA structures.

作者信息

McGlynn P, Lloyd R G

机构信息

Institute of Genetics, University of Nottingham, Queen's Medical Centre, Nottingham NG7 2UH, UK.

出版信息

Nucleic Acids Res. 1999 Aug 1;27(15):3049-56. doi: 10.1093/nar/27.15.3049.

DOI:10.1093/nar/27.15.3049

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC148529/

Abstract

The RecG helicase of Escherichia coli is necessary for efficient recombination and repair of DNA in vivo and has been shown to catalyse the unwinding of DNA junctions in vitro. Despite these findings, the precise role of RecG remains elusive. However, models have been proposed in which RecG promotes the resolution of linked duplexes by targeting three-strand junctions present at D-loops. One such model postulates that RecG catalyses the formation of four-strand (Holliday) junctions from three-strand junctions. To test this model, the DNA binding and unwinding activities of RecG were analysed using synthetic three- and four-strand junctions. The substrate specificity of RecG was found to depend critically on the concentrations of ATP and MgCl(2)and under certain conditions RecG preferentially unwound three-strand junction DNA. This was at least partly due to the larger inhibitory effect of MgCl(2)on the binding of four-strand as opposed to three-strand junctions by RecG. Thus RecG may be targeted to three-strand junctions in vivo whilst still being able to branch migrate the four-strand junctions formed as a result of the initial helicase reaction. The increase in the dissociation constant of RecG on conversion of a three-strand into a four-strand junction may also facilitate resolution of the four-strand junction by the RuvABC complex.

摘要

大肠杆菌的RecG解旋酶对于体内DNA的有效重组和修复是必需的，并且已证明其在体外能催化DNA连接点的解旋。尽管有这些发现，但RecG的确切作用仍然难以捉摸。然而，已经提出了一些模型，其中RecG通过靶向D环处存在的三链连接点来促进连接双链的拆分。一个这样的模型假定RecG催化从三链连接点形成四链（霍利迪）连接点。为了验证该模型，使用合成的三链和四链连接点分析了RecG的DNA结合和解旋活性。发现RecG的底物特异性关键取决于ATP和MgCl₂的浓度，并且在某些条件下RecG优先解旋三链连接点DNA。这至少部分是由于MgCl₂对RecG结合四链连接点而非三链连接点具有更大的抑制作用。因此，RecG在体内可能靶向三链连接点，同时仍能够使由于初始解旋酶反应而形成的四链连接点进行分支迁移。RecG在从三链连接点转变为四链连接点时解离常数的增加也可能有助于RuvABC复合物拆分四链连接点。

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