精氨酸作为丝氨酸重组酶介导的 DNA 切割中的通用酸催化剂。
Arginine as a general acid catalyst in serine recombinase-mediated DNA cleavage.
机构信息
From the Department of Biochemistry and Molecular Biology and.
出版信息
J Biol Chem. 2013 Oct 4;288(40):29206-14. doi: 10.1074/jbc.M113.508028. Epub 2013 Aug 22.
Abstract
Members of the serine family of site-specific DNA recombinases use an unusual constellation of amino acids to catalyze the formation and resolution of a covalent protein-DNA intermediate. A recent high resolution structure of the catalytic domain of Sin, a particularly well characterized family member, provided a detailed view of the catalytic site. To determine how the enzyme might protonate and stabilize the 3'O leaving group in the strand cleavage reaction, we examined how replacing this oxygen with a sulfur affected the cleavage rate by WT and mutant enzymes. To facilitate direct comparison of the cleavage rates, key experiments used suicide substrates that prevented religation after cleavage. The catalytic defect associated with mutation of one of six highly conserved arginine residues, Arg-69 in Sin, was partially rescued by a 3' phosphorothiolate substrate. We conclude that Arg-69 has an important role in stabilizing the 3'O leaving group and is the prime candidate for the general acid that protonates the 3'O, in good agreement with the position it occupies in the high resolution structure of the active site of Sin.
摘要
丝氨酸家族的位点特异性 DNA 重组酶成员使用一种不寻常的氨基酸组合来催化共价蛋白-DNA 中间体的形成和解析。最近对 Sin 的催化结构域的高分辨率结构提供了催化位点的详细视图。为了确定酶如何质子化并稳定链断裂反应中的 3'O 离去基团,我们研究了用硫取代该氧如何影响 WT 和突变酶的切割速率。为了便于直接比较切割速率,关键实验使用自杀底物,防止切割后重新连接。突变六个高度保守的精氨酸残基之一的 Sin 中的 Arg-69 会导致催化缺陷,而 3' 硫代磷酸酯底物部分挽救了该缺陷。我们得出结论,Arg-69 在稳定 3'O 离去基团方面具有重要作用,并且是质子化 3'O 的通用酸的主要候选者,这与它在 Sin 的活性位点高分辨率结构中占据的位置非常一致。
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