多铜氧化酶将氧气还原为水。
O2 reduction to H2O by the multicopper oxidases.
作者信息
Solomon Edward I, Augustine Anthony J, Yoon Jungjoo
机构信息
Department of Chemistry, Stanford University, Stanford, California 94305, USA.
出版信息
Dalton Trans. 2008 Aug 14(30):3921-32. doi: 10.1039/b800799c. Epub 2008 May 7.
Abstract
In nature the four electron reduction of O2 to H2O is carried out by Cytochrome c oxidase (CcO) and the multicopper oxidases (MCOs). In the former, Cytochrome c provides electrons for pumping protons to produce a gradient for ATP synthesis, while in the MCOs the function is the oxidation of substrates, either organic or metal ions. In the MCOs the reduction of O2 is carried out at a trinuclear Cu cluster (TNC). Oxygen intermediates have been trapped which exhibit unique spectroscopic features that reflect novel geometric and electronic structures. These intermediates have both intact and cleaved O-O bonds, allowing the reductive cleavage of the O-O bond to be studied in detail both experimentally and computationally. These studies show that the topology of the TNC provides a unique geometric and electronic structure particularly suited to carry out this key reaction in nature.
摘要
在自然界中,氧气被细胞色素c氧化酶(CcO)和多铜氧化酶(MCOs)还原为水的四电子过程得以实现。在前者中,细胞色素c为质子泵提供电子,以产生用于ATP合成的梯度,而在MCOs中,其功能是氧化有机或金属离子等底物。在MCOs中,氧气的还原在一个三核铜簇(TNC)上进行。已捕获的氧中间体具有独特的光谱特征,反映了新颖的几何和电子结构。这些中间体既有完整的O - O键,也有断裂的O - O键,从而使得O - O键的还原断裂能够在实验和计算方面都得到详细研究。这些研究表明,TNC的拓扑结构提供了一种独特的几何和电子结构,特别适合在自然界中进行这一关键反应。
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