Understanding How the Thiolate Sulfur Contributes to the Function of the Non-Heme Iron Enzyme Superoxide Reductase

JULIE A. KOVACS; LISA M. BRINES

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Understanding How the Thiolate Sulfur Contributes to the Function of the Non-Heme Iron Enzyme Superoxide Reductase

机译：了解硫醇盐硫如何促进非血红素铁酶超氧化物还原酶的功能

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Toxic superoxide radicals, generated via adventitious reduction of dioxygen, have been implicated in a number of disease states. The cysteinate-ligated non-heme iron enzyme superoxide reductase (SOR) degrades superoxide via reduction. Biomimetic analogues which provide insight into why nature utilizes a trans-thiolate to promote SOR function are described. Spectroscopic and/or structural characterization of the first examples of thiolate-ligated Fe~Ⅲ-peroxo complexes provides important benchmark parameters for the identification of biological intermediates. Oxidative addition of superoxide is favored by low redox potentials. The trans influence of the thiolate appears to significantly weaken the Fe-O peroxo bond, favoring proton-induced release of H_2O_2 from a high-spin Fe(III)-OOH complex.

机译：通过不定式还原双氧而产生的有毒超氧化物自由基与多种疾病有关。半胱氨酸连接的非血红素铁酶超氧化物还原酶（SOR）通过还原作用降解超氧化物。描述了仿生类似物，其提供了对自然界为何利用反式硫醇盐促进SOR功能的见解。硫醇盐连接的Fe〜Ⅲ-过氧配合物的第一个实例的光谱和/或结构表征为鉴定生物中间体提供了重要的基准参数。低氧化还原电势有利于超氧化物的氧化添加。硫醇盐的反式影响似乎显着削弱了Fe-O过氧键，有利于质子诱导的H_2O_2从高自旋Fe（III）-OOH复合物中的释放。

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来源
《Accounts of Chemical Research》 |2007年第7期|501-509|共9页
作者
JULIE A. KOVACS; LISA M. BRINES;
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作者单位

The Department of Chemistry, University of Washington, Box 351700, Seattle, Washington 98195-1700;

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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类一般性问题;
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专利

1. A Functional Model for the Cysteinate-Ligated Non-Heme Iron Enzyme Superoxide Reductase (SOR) [J] . Terutaka Kitagawa, Abhishek Dey, Priscilla Lugo-Mas Journal of the American Chemical Society . 2006,第45期

机译：半胱氨酸连接的非血红素铁酶超氧化物还原酶（SOR）的功能模型。
2. Sulfur K-Edge X-ray Absorption Spectroscopy and Density Functional Theory Calculations on Superoxide Reductase: Role of the Axial Thiolate in Reactivity [J] . Abhishek Dey, Francis E. Jenney Jr., Michael W. W. Adams, Journal of the American Chemical Society . 2007,第41期

机译：硫K边缘X射线吸收光谱和超氧化物歧化酶的密度泛函理论计算：轴向硫醇盐在反应性中的作用
3. Computational study of the non-heme iron active site in superoxide reductase and its reaction with superoxide [J] . Silaghi-Dumitrescu R., Silaghi-Dumitrescu L., Coulter ED., Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2003,第2期

机译：超血红素还原酶中非血红素铁活性位点及其与超氧化物反应的计算研究
4. Characterization of Non-heme Iron Enzymes using Mass Spectrometry [C] . Yi Pu, Cheng-Hsuan Wu, Deborah R. Leon, ASMS Conference on Mass Spectrometry and Allied Topics . 2016

机译：用质谱法表征非血红素碳酶
5. Synthetic analogues of cysteinate-ligated non-heme iron enzymes: Understanding the structure-function relationship of nitrile hydratase (NHase) and superoxide reductase (SOR) [D] . Lugo-Mas, Priscilla 2007

机译：半胱氨酸连接的非血红素铁酶的合成类似物：了解腈水合酶（NHase）和超氧化物还原酶（SOR）的结构-功能关系
6. Understanding How the Thiolate Sulfur Contributes to the Function of the Non-Heme Iron Enzyme Superoxide Reductase [O] . JULIE A. KOVACS, LISA M. BRINES -1

机译：了解硫醇盐硫如何促进非血红素铁酶超氧化物还原酶的功能
7. Understanding How the Thiolate Sulfur Contributes to the Function of the Non-Heme Iron Enzyme Superoxide Reductase [O] . Julie A. Kovacs, Lisa M. Brines 2007

机译：了解硫醇酸酯的硫是如何有助于非血红素酶超氧化物还原酶的功能

Understanding How the Thiolate Sulfur Contributes to the Function of the Non-Heme Iron Enzyme Superoxide Reductase

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