通过解离酶进行重组以分析SfiI限制性内切核酸酶的DNA通讯。

Recombination by resolvase to analyse DNA communications by the SfiI restriction endonuclease.

作者信息

Szczelkun M D, Halford S E

机构信息

Department of Biochemistry, University of Bristol, UK.

出版信息

EMBO J. 1996 Mar 15;15(6):1460-9.

PMID:8635479

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC450051/

Abstract

The SfiI endonuclease differs from other type II restriction enzymes by cleaving DNA concertedly at two copies of its recognition site, its optimal activity being with two sites on the same DNA molecule. The nature of this communication event between distant DNA sites was analysed on plasmids with recognition sites for SfiI interspersed with recombination sites for resolvase. These were converted by resolvase to catenanes carrying one SfiI site on each ring. The catenanes were cleaved by SfiI almost as readily as a single ring with two sites, in contrast to the slow reactions on DNA rings with one SfiI site. Interactions between SfiI sites on the same DNA therefore cannot follow the DNA contour and, instead, must stem from their physical proximity. In buffer lacking Mg2+, where SfiI is inactive while resolvase is active, the addition of SfiI to a plasmid with target sites for both proteins blocked recombination by resolvase, due to the restriction enzyme bridging its sites and thus isolating the sites for resolvase into separate loops. The extent of DNA looping by SfiI matched its extent of DNA cleavage in the presence of Mg2+.

摘要

SfiI核酸内切酶与其他II型限制酶不同，它在其识别位点的两个拷贝处协同切割DNA，其最佳活性是在同一DNA分子上有两个位点时。利用含有SfiI识别位点并散布有解离酶重组位点的质粒，分析了远距离DNA位点之间这种通讯事件的性质。这些质粒被解离酶转化为每个环上带有一个SfiI位点的连环体。与在具有一个SfiI位点的DNA环上的缓慢反应相反，SfiI对连环体的切割几乎与具有两个位点的单个环一样容易。因此，同一DNA上SfiI位点之间的相互作用不能沿着DNA轮廓进行，相反，必须源于它们的物理接近性。在缺乏Mg2+的缓冲液中，SfiI无活性而解离酶有活性，向同时含有这两种蛋白质靶位点的质粒中添加SfiI会阻断解离酶介导的重组，这是因为限制酶桥接了其位点，从而将解离酶的位点隔离到单独的环中。在Mg2+存在的情况下，SfiI引起的DNA环化程度与其DNA切割程度相匹配。

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