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Avoiding premature oxidation during the binding of Cu(II) to a dithiolate site in BsSCO. A rapid freeze-quench EPR study

机译：避免在BSSCO中的Cu（II）结合到Cu（II）结合期间的过早氧化。快速冻结淬火EPR研究

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The Bacillus subtilis version of SCO1 (BsSCO) is required for assembly of CuA in cytochrome c oxidase and may function in thiol-disulfide exchange and/or copper delivery. BsSCO binds Cu(II) with ligation by two cysteines, one histidine and one water. However, copper is a catalyst of cysteine oxidation and BsSCO must avoid this reaction to remain functional. Time resolved, rapid freeze-quench (RFQ) electron paramagnetic resonance of apo-BsSCO reacting with Cu(II) reveals an initial Cu(II) species with two equatorially coordinated nitrogen atoms, but no sulfur. We propose that BsSCO evolves from this initial sulfur free coordination of Cu(II) to the final dithiolate species via a change in conformation, and that the initial binding by nitrogen is a means for BsSCO to avoid premature thiol oxidation.

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期刊名称 other
作者
Brian Bennett; Bruce C. Hill;
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年(卷),期 -1(585),6
年度 -1
页码 861–864
总页数 9
原文格式 PDF
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关键词
Copper binding Rapid freeze quench EPR SCO protein SCO1 homolog from Bacillus subtilis;

机译：铜结合;快速冷冻淬灭EPR;SCO蛋白;枯草芽孢杆菌的SCO1同源物;

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1. Avoiding premature oxidation during the binding of Cu(II) to a dithiolate site in BsSCO. A rapid freeze-quench EPR study. [J] . Bennett B, Hill BC FEBS letters. . 2011,第6期

机译：避免Cu（II）与BsSCO中的二硫醇盐结合期间过早氧化。快速冷冻猝灭EPR研究。
2. Avoiding premature oxidation during the binding of Cu(II) to a dithiolate site in BsSCO. A rapid freeze‐quench EPR study [J] . FEBS Letters . 2011,第6期

机译：避免Cu（II）与BsSCO中的二硫醇盐结合期间过早氧化。快速冷冻猝灭EPR研究
3. Polarizable Molecular Mechanics Studies of Cu(I)/Zn(II) Superoxide Dismutase: Bimetallic Binding Site and Structured Waters [J] . Nohad Gresh, Krystel El Hage, David Perahia, Journal of Computational Chemistry: Organic, Inorganic, Physical, Biological . 2014,第29a30期

机译：Cu（I）/ Zn（II）超氧化物歧化酶的极化分子力学研究：双金属结合位点和结构化的水。
4. Mn~(2+) Sites Investigated by Advanced EPR Techniques: In-Depth Study of Mn~(2+) Ion-Binding Sites in the Hammerhead Ribozyme [C] . Matthew Vogt, Victoria J. DeRose, American Chemical Society, American Chemical Society national meeting . 2003

机译：通过先进的EPR技术研究了Mn〜（2+）位点：深入研究锤头核苷中的Mn〜（2+）离子结合位点
5. Analysis of Cu(II) and Zn(II) binding of selected ambs as a function of varying pH and metal equivalents employing ion mobility mass spectrometric studies. [D] . Challa, Sravya. 2016

机译：使用离子迁移质谱研究分析选定的安布的铜（II）和锌（II）结合随pH和金属当量变化的函数。
6. Distinct oxidative cleavage and modification of bovine Cu-Zn-SOD by an ascorbic acid/Cu(II) system: Identification of novel copper binding site on SOD molecule [O] . Hiroshi Uehara, Shen Luo, Baikuntha Aryal, -1

机译：抗坏血酸/ Cu（II）体系对牛Cu-Zn -SOD的独特氧化裂解和修饰：SOD分子上新的铜结合位点的鉴定
7. Avoiding premature oxidation during the binding of Cu(II) to a dithiolate site in BsSCO. A rapid freeze-quench EPR study [O] . Bennett Brian, Hill Bruce C. 2011

机译：避免Cu（II）与BsSCO中的二硫酯位点结合期间过早氧化。快速冷冻猝灭EPR研究
8. EPR Studies of Cooperative Binding of Cu (II) To Hemoglobin [R] . Louro, S. R. W., Tabak, M. 1983

机译：EpR研究Cu（II）与血红蛋白的协同结合

Avoiding premature oxidation during the binding of Cu(II) to a dithiolate site in BsSCO. A rapid freeze-quench EPR study

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