CuA和CuZ是一氧化二氮还原酶中电子转移中心的变体。
CuA and CuZ are variants of the electron transfer center in nitrous oxide reductase.
作者信息
Farrar J A, Zumft W G, Thomson A J
机构信息
Centre for Metalloprotein Spectroscopy and Biology, School of Chemical Sciences, University of East Anglia, Norwich, NR4 7TJ, United Kingdom.
出版信息
Proc Natl Acad Sci U S A. 1998 Aug 18;95(17):9891-6. doi: 10.1073/pnas.95.17.9891.
Abstract
Nitrous oxide reductase (N2OR) is a dimeric copper-dependent bacterial enzyme that catalyzes the reduction of N2O to N2 as part of the denitrification pathway. In the absence of an x-ray crystal structure, the current model of the nature of the copper sites within the enzyme is based on four copper atoms per monomer and assigns two copper atoms to an electron transfer center, CuA, a bis-thiolate-bridged dinuclear copper center found to date only in N2OR and cytochrome c oxidase, and two copper atoms to a second dinuclear center, CuZ, presumed to be the site of catalysis. Based on detailed analysis of the low temperature magnetic CD spectra of N2OR, this paper revises the current model and proposes that both CuA and CuZ are variants of an electron transfer center and hence that all of the observed optical features are due to this electron transfer center. It is proposed further that the presence of these different forms provides a mechanism for the delivery of two electrons to an active site comprising copper ions lacking thiolate coordination.
摘要
一氧化二氮还原酶(N2OR)是一种依赖铜的二聚体细菌酶,作为反硝化途径的一部分,催化一氧化二氮还原为氮气。在缺乏X射线晶体结构的情况下,目前关于该酶内铜位点性质的模型基于每个单体有四个铜原子,并将两个铜原子分配给一个电子传递中心CuA,一个仅在N2OR和细胞色素c氧化酶中发现的双硫醇盐桥连双核铜中心,另外两个铜原子分配给第二个双核中心CuZ,推测其为催化位点。基于对N2OR低温磁圆二色光谱的详细分析,本文修正了当前模型,并提出CuA和CuZ都是电子传递中心的变体,因此所有观察到的光学特征都归因于这个电子传递中心。进一步提出,这些不同形式的存在为将两个电子传递到由缺乏硫醇盐配位的铜离子组成的活性位点提供了一种机制。
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