Continuous-wave electron paramagnetic resonance (CW-EPR) for studying structure-function relationships in a Cu-containing nitrite reductase and a Mo-containing aldehyde oxidoreductase

IF 2.624
Pablo J. González, María G. Rivas, Ana L. Pérez, Carlos D. Brondino
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引用次数: 0

Abstract

Transition metal ion-containing oxidoreductases, which carry out long-distance electron transfer reactions, are a large family of metalloproteins that are widely distributed in nature. The metal ions are either present as mononuclear centers or are organized in clusters. One of the metal cofactors is the active site of the enzyme where the substrate is converted to a product, while the others serve as electron transfer centers. Metal cofactors are paramagnetic in certain protein redox states and may additionally exhibit different relaxation rates and weak superexchange interactions transferred via intraprotein electron transfer pathways. Cu-containing nitrite reductase and Mo-containing aldehyde oxidoreductase are two representative examples of oxidoreductases in which these phenomena occur, making them interesting systems to study using electron magnetic resonance techniques. We summarize here several X-band Continuous-Wave Electron Paramagnetic Resonance (CW-EPR) studies that have allowed insights into structural and functional aspects of these two proteins and may help characterize closely related systems.

Abstract Image

连续波电子顺磁共振(CW-EPR)用于研究含cu亚硝酸盐还原酶和含mo醛氧化还原酶的结构-功能关系
含过渡金属离子的氧化还原酶是广泛分布于自然界的金属蛋白大家族,可进行远距离电子转移反应。金属离子要么以单核中心形式存在,要么以团簇形式存在。其中一个金属辅因子是酶的活性位点,在那里底物被转化为产物,而其他的则作为电子转移中心。金属辅因子在某些蛋白质氧化还原状态下具有顺磁性,并且可能另外表现出不同的弛豫速率和通过蛋白质内电子转移途径传递的弱超交换相互作用。含cu亚硝酸盐还原酶和含mo醛氧化还原酶是氧化还原酶的两个典型例子,它们发生这些现象,使它们成为利用电子磁共振技术研究的有趣系统。我们在此总结了几个x波段连续波电子顺磁共振(CW-EPR)研究,这些研究使我们能够深入了解这两种蛋白质的结构和功能方面,并可能有助于表征密切相关的系统。
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CiteScore
1.90
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