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单链结合蛋白(SSB)和重组蛋白A(RecA)与含茎环结构的DNA的结合:单链结合蛋白确保RecA在单链DNA上聚合的极性。

Binding of SSB and RecA protein to DNA-containing stem loop structures: SSB ensures the polarity of RecA polymerization on single-stranded DNA.

作者信息

Reddy M S, Vaze M B, Madhusudan K, Muniyappa K

机构信息

Department of Biochemistry, Indian Institute of Science, Bangalore 560 012, India.

出版信息

Biochemistry. 2000 Nov 21;39(46):14250-62. doi: 10.1021/bi001187+.

DOI:10.1021/bi001187+
PMID:11087374
Abstract

Single-stranded DNA-binding proteins play an important role in homologous pairing and strand exchange promoted by the class of RecA-like proteins. It is presumed that SSB facilitates binding of RecA on to ssDNA by melting secondary structure, but direct physical evidence for the disruption of secondary structure by either SSB or RecA is still lacking. Using a series of oligonucleotides with increasing amounts of secondary structure, we show that stem loop structures impede contiguous binding of RecA and affect the rate of ATP hydrolysis. The electrophoretic mobility shift of a ternary complex of SSB-DNA-RecA and a binary complex of SSB-DNA are similar; however, the mechanism remains obscure. Binding of RecA on to stem loop is rapid in the presence of SSB or ATPgammaS and renders the complex resistant to cleavage by HaeIII, to higher amounts of competitor DNA or low temperature. The elongation of RecA filament in a 5' to 3' direction is halted at the proximal end of the stem. Consequently, RecA nucleates at the loop and cooperative binding propagates the RecA filament down the stem causing its disruption. The pattern of modification of thymine residues in the loop region indicates that RecA monomer is the minimum binding unit. Together, these results suggest that SSB plays a novel role in ensuring the directionality of RecA polymerization across stem loop in ssDNA. These observations have fundamental implications on the role of SSB in multiple aspects of cellular DNA metabolism.

摘要

单链DNA结合蛋白在由类RecA蛋白促进的同源配对和链交换中发挥重要作用。据推测,单链结合蛋白(SSB)通过解开二级结构促进RecA与单链DNA(ssDNA)的结合,但仍缺乏关于SSB或RecA破坏二级结构的直接物理证据。使用一系列二级结构含量不断增加的寡核苷酸,我们发现茎环结构阻碍RecA的连续结合并影响ATP水解速率。SSB-DNA-RecA三元复合物和SSB-DNA二元复合物的电泳迁移率变化相似;然而,其机制仍不清楚。在存在SSB或ATPγS的情况下,RecA与茎环的结合迅速,并使复合物对HaeIII切割、更高量的竞争DNA或低温具有抗性。RecA丝在5'至3'方向上的延伸在茎的近端停止。因此,RecA在环处成核,协同结合使RecA丝沿茎向下延伸,导致其破坏。环区域中胸腺嘧啶残基的修饰模式表明RecA单体是最小结合单元。总之,这些结果表明SSB在确保RecA在ssDNA中跨茎环聚合的方向性方面发挥了新作用。这些观察结果对SSB在细胞DNA代谢多个方面的作用具有重要意义。

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