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嗜热栖热菌HB8醌氧化还原酶的晶体结构及其与NADPH的复合物:对NADPH和底物识别的影响

Crystal structures of the quinone oxidoreductase from Thermus thermophilus HB8 and its complex with NADPH: implication for NADPH and substrate recognition.

作者信息

Shimomura Yoshimitsu, Kakuta Yoshimitsu, Fukuyama Keiichi

机构信息

Department of Biology, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043, Japan.

出版信息

J Bacteriol. 2003 Jul;185(14):4211-8. doi: 10.1128/JB.185.14.4211-4218.2003.

DOI:10.1128/JB.185.14.4211-4218.2003
PMID:12837796
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC164865/
Abstract

The crystal structures of the zeta-crystalline-like soluble quinone oxidoreductase from Thermus thermophilus HB8 (QOR(Tt)) and of its complex with NADPH have been determined at 2.3- and 2.8-A resolutions, respectively. QOR(Tt) is composed of two domains, and its overall fold is similar to the folds of Escherichia coli quinone oxidoreductase (QOR(Ec)) and horse liver alcohol dehydrogenase. QOR(Tt) forms a homodimer in the crystal by interaction of the betaF-strands in domain II, forming a large beta-sheet that crosses the dimer interface. High thermostability of QOR(Tt) was evidenced by circular dichroic measurement. NADPH is located between the two domains in the QOR(Tt)-NADPH complex. The disordered segment involved in the coenzyme binding of apo-QOR(Tt) becomes ordered upon NADPH binding. The segment covers an NADPH-binding cleft and may serve as a lid. The 2'-phosphate group of the adenine of NADPH is surrounded by polar and positively charged residues in QOR(Tt), suggesting that QOR(Tt) binds NADPH more readily than NADH. The putative substrate-binding site of QOR(Tt), unlike that of QOR(Ec), is largely blocked by nearby residues, permitting access only to small substrates. This may explain why QOR(Tt) has weak p-benzoquinone reduction activity and is inactive with such large substrates of QOR(Ec) as 5-hydroxy-1,4-naphthoquinone and phenanthraquinone.

摘要

嗜热栖热菌HB8(QOR(Tt))中类ζ-晶体可溶性醌氧化还原酶及其与NADPH复合物的晶体结构分别在2.3 Å和2.8 Å分辨率下得以确定。QOR(Tt)由两个结构域组成,其整体折叠结构与大肠杆菌醌氧化还原酶(QOR(Ec))和马肝醇脱氢酶的折叠结构相似。QOR(Tt)在晶体中通过结构域II中βF链的相互作用形成同型二聚体,形成一个跨越二聚体界面的大β-折叠片层。圆二色性测量证明了QOR(Tt)具有高热稳定性。在QOR(Tt)-NADPH复合物中,NADPH位于两个结构域之间。脱辅基QOR(Tt)中参与辅酶结合的无序片段在NADPH结合后变得有序。该片段覆盖一个NADPH结合裂隙,可能起到盖子的作用。QOR(Tt)中NADPH腺嘌呤的2'-磷酸基团被极性和带正电荷的残基包围,这表明QOR(Tt)比NADH更容易结合NADPH。与QOR(Ec)不同,QOR(Tt)的推定底物结合位点在很大程度上被附近的残基阻断,仅允许小底物进入。这可能解释了为什么QOR(Tt)对p-苯醌的还原活性较弱,并且对QOR(Ec)的大底物如5-羟基-1,4-萘醌和菲醌无活性。

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