酶促亚氯酸盐解毒的分子机制：来自结构和动力学研究的见解

Molecular Mechanism of Enzymatic Chlorite Detoxification: Insights from Structural and Kinetic Studies.

作者信息

Schaffner Irene, Mlynek Georg, Flego Nicola, Pühringer Dominic, Libiseller-Egger Julian, Coates Leighton, Hofbauer Stefan, Bellei Marzia, Furtmüller Paul G, Battistuzzi Gianantonio, Smulevich Giulietta, Djinović-Carugo Kristina, Obinger Christian

机构信息

Department of Chemistry, Division of Biochemistry, BOKU-University of Natural Resources and Life Sciences, Muthgasse 18, A-1190 Vienna, Austria.

Department for Structural and Computational Biology, Max F. Perutz Laboratories, University of Vienna, Dr.-Bohr-Gasse 9, A-1030 Vienna, Austria.

出版信息

ACS Catal. 2017 Nov 3;7(11):7962-7976. doi: 10.1021/acscatal.7b01749. Epub 2017 Oct 13.

DOI:10.1021/acscatal.7b01749

PMID:29142780

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5678291/

Abstract

The heme enzyme chlorite dismutase (Cld) catalyzes the degradation of chlorite to chloride and dioxygen. Although structure and steady-state kinetics of Clds have been elucidated, many questions remain (e.g., the mechanism of chlorite cleavage and the pH dependence of the reaction). Here, we present high-resolution X-ray crystal structures of a dimeric Cld at pH 6.5 and 8.5, its fluoride and isothiocyanate complexes and the neutron structure at pH 9.0 together with the pH dependence of the Fe(III)/Fe(II) couple, and the UV-vis and resonance Raman spectral features. We demonstrate that the distal Arg127 cannot act as proton acceptor and is fully ionized even at pH 9.0 ruling out its proposed role in dictating the pH dependence of chlorite degradation. Stopped-flow studies show that (i) Compound I and hypochlorite do not recombine and (ii) Compound II is the immediately formed redox intermediate that dominates during turnover. Homolytic cleavage of chlorite is proposed.

摘要

血红素酶亚氯酸盐歧化酶（Cld）催化亚氯酸盐降解为氯化物和氧气。尽管已经阐明了Clds的结构和稳态动力学，但仍存在许多问题（例如，亚氯酸盐裂解的机制以及反应的pH依赖性）。在此，我们展示了二聚体Cld在pH 6.5和8.5时的高分辨率X射线晶体结构、其氟化物和异硫氰酸盐配合物以及pH 9.0时的中子结构，同时展示了Fe(III)/Fe(II)电对的pH依赖性以及紫外可见光谱和共振拉曼光谱特征。我们证明，远端的Arg127不能作为质子受体，即使在pH 9.0时也完全电离，排除了其在决定亚氯酸盐降解的pH依赖性中所提出的作用。停流研究表明：（i）化合物I和次氯酸盐不会重新结合；（ii）化合物II是周转过程中立即形成的主导氧化还原中间体。我们提出了亚氯酸盐的均裂裂解。

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酶促亚氯酸盐解毒的分子机制：来自结构和动力学研究的见解

Molecular Mechanism of Enzymatic Chlorite Detoxification: Insights from Structural and Kinetic Studies.

作者信息

机构信息

Department of Chemistry, Division of Biochemistry, BOKU-University of Natural Resources and Life Sciences, Muthgasse 18, A-1190 Vienna, Austria.

Department for Structural and Computational Biology, Max F. Perutz Laboratories, University of Vienna, Dr.-Bohr-Gasse 9, A-1030 Vienna, Austria.

出版信息

ACS Catal. 2017 Nov 3;7(11):7962-7976. doi: 10.1021/acscatal.7b01749. Epub 2017 Oct 13.

DOI:10.1021/acscatal.7b01749

PMID:29142780

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5678291/

Abstract

摘要

酶促亚氯酸盐解毒的分子机制：来自结构和动力学研究的见解

Molecular Mechanism of Enzymatic Chlorite Detoxification: Insights from Structural and Kinetic Studies.

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酶促亚氯酸盐解毒的分子机制：来自结构和动力学研究的见解

Molecular Mechanism of Enzymatic Chlorite Detoxification: Insights from Structural and Kinetic Studies.

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