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拓扑异构酶IIIα和布鲁姆解旋酶可通过汇聚分支迁移来解析可移动的双霍利迪连接底物。

Topoisomerase IIIalpha and Bloom's helicase can resolve a mobile double Holliday junction substrate through convergent branch migration.

作者信息

Plank Jody L, Wu Jianhong, Hsieh Tao-Shih

机构信息

Department of Biochemistry, Duke University Medical Center, Durham, NC 27710, USA.

出版信息

Proc Natl Acad Sci U S A. 2006 Jul 25;103(30):11118-23. doi: 10.1073/pnas.0604873103. Epub 2006 Jul 18.

DOI:10.1073/pnas.0604873103
PMID:16849422
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1544052/
Abstract

It has long been suspected that a double Holliday junction (dHJ) could be resolved by a topoisomerase partnered with a helicase by convergent branch migration of the HJs. Genetic analysis of yeast TOP3 and SGS1 has lent considerable evidence to the notion that the protein products of these genes are involved in just such a process, although biochemical analysis of the metabolism of a dHJ has been hindered by the lack of a substrate that adequately replicates the endogenous structure. We have synthesized a dHJ substrate that recapitulates many of the features of an endogenous dHJ and represents a much earlier intermediate in the resolution pathway. Here, we show that Drosophila topoisomerase IIIalpha (Topo IIIalpha) and Blm (a homolog of Sgs1) are capable of resolving this substrate to non-cross-over products and that this activity is stimulated by replication protein A (RPA). We investigated the ability of other Drosophila topoisomerases to perform this reaction in concert with Blm and RPA and discovered that this resolution activity is unique to Topo IIIalpha. Examination of the mechanism of resolution reveals that Topo IIIalpha, Blm, and RPA resolve this substrate by convergent migration of the two HJs toward each other, collapsing the dHJ. This mechanism stands in contrast to classic resolvase activities that use a structure-specific endonuclease to cleave the HJs.

摘要

长期以来,人们一直怀疑双Holliday连接体(dHJ)可由拓扑异构酶与解旋酶协同作用,通过HJ的汇聚分支迁移来解决。对酵母TOP3和SGS1的遗传分析为这些基因的蛋白质产物参与这样一个过程提供了大量证据,尽管由于缺乏能充分复制内源性结构的底物,对dHJ代谢的生化分析受到了阻碍。我们合成了一种dHJ底物,它概括了内源性dHJ的许多特征,并且代表了解决途径中更早的中间体。在这里,我们表明果蝇拓扑异构酶IIIα(Topo IIIα)和Blm(Sgs1的同源物)能够将该底物转化为非交叉产物,并且这种活性受到复制蛋白A(RPA)的刺激。我们研究了其他果蝇拓扑异构酶与Blm和RPA协同进行该反应的能力,发现这种解决活性是Topo IIIα所特有的。对解决机制的研究表明,Topo IIIα、Blm和RPA通过两个HJ彼此向汇聚迁移来解决该底物,使dHJ解体。这种机制与使用结构特异性核酸内切酶切割HJ的经典解离酶活性形成对比。

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