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磷酸根配位作用与DNA在Tn5突触复合体中的移动:(R)YREK基序的作用

Phosphate coordination and movement of DNA in the Tn5 synaptic complex: role of the (R)YREK motif.

作者信息

Klenchin Vadim A, Czyz Agata, Goryshin Igor Y, Gradman Richard, Lovell Scott, Rayment Ivan, Reznikoff William S

机构信息

Department of Biochemistry, University of Wisconsin at Madison, 433 Babcock Drive, Madison, WI 53706, USA.

出版信息

Nucleic Acids Res. 2008 Oct;36(18):5855-62. doi: 10.1093/nar/gkn577. Epub 2008 Sep 12.

DOI:10.1093/nar/gkn577
PMID:18790806
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2566895/
Abstract

Bacterial DNA transposition is an important model system for studying DNA recombination events such as HIV-1 DNA integration and RAG-1-mediated V(D)J recombination. This communication focuses on the role of protein-phosphate contacts in manipulating DNA structure as a requirement for transposition catalysis. In particular, the participation of the nontransferred strand (NTS) 5' phosphate in Tn5 transposition strand transfer is analyzed. The 5' phosphate plays no direct catalytic role, nonetheless its presence stimulates strand transfer approximately 30-fold. X-ray crystallography indicates that transposase-DNA complexes formed with NTS 5' phosphorylated DNA have two properties that contrast with structures formed with complexes lacking the 5' phosphate or complexes generated from in-crystal hairpin cleavage. Transposase residues R210, Y319 and R322 of the (R)YREK motif coordinate the 5' phosphate rather than the subterminal NTS phosphate, and the 5' NTS end is moved away from the 3' transferred strand end. Mutation R210A impairs the 5' phosphate stimulation. It is posited that DNA phosphate coordination by R210, Y319 and R322 results in movement of the 5' NTS DNA away from the 3'-end thus allowing efficient target DNA binding. It is likely that this role for the newly identified RYR triad is utilized by other transposase-related proteins.

摘要

细菌DNA转座是研究DNA重组事件(如HIV-1 DNA整合和RAG-1介导的V(D)J重组)的重要模型系统。本通讯聚焦于蛋白质-磷酸接触在操纵DNA结构以作为转座催化的必要条件方面的作用。特别地,分析了非转移链(NTS)5'磷酸在Tn5转座链转移中的参与情况。5'磷酸不发挥直接催化作用,但其存在可刺激链转移约30倍。X射线晶体学表明,与NTS 5'磷酸化DNA形成 的转座酶-DNA复合物具有两种特性,这与缺乏5'磷酸的复合物或晶体中发夹切割产生的复合物所形成的结构形成对比。(R)YREK基序的转座酶残基R210、Y319和R322协调5'磷酸而非亚末端NTS磷酸,并且5' NTS末端从3'转移链末端移开。突变R210A会损害5'磷酸的刺激作用。据推测,R210、Y319和R322对DNA磷酸的协调作用导致5' NTS DNA从3'末端移开,从而允许有效的靶DNA结合。新鉴定的RYR三联体的这一作用可能被其他转座酶相关蛋白所利用。

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