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三甲胺脱氢酶的微库仑分析

Microcoulometric analysis of trimethylamine dehydrogenase.

作者信息

Barber M J, Pollock V, Spence J T

机构信息

Department of Biochemistry and Molecular Biology, University of South Florida, College of Medicine, Tampa 33612.

出版信息

Biochem J. 1988 Dec 1;256(2):657-9. doi: 10.1042/bj2560657.

DOI:10.1042/bj2560657
PMID:3223938
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1135459/
Abstract

Trimethylamine dehydrogenase, which contains one covalently bound 6-S-cysteinyl-FMN and one Fe4S4 cluster per subunit of molecular mass 83,000 Da, was purified to homogeneity from the methylotrophic bacterium W3A1. Microcoulometry at pH 7 in 50 mM-Mops buffer containing 0.1 mM-EDTA and 0.1 M-KCl revealed that the native enzyme required the addition of 3 reducing equivalents per subunit for complete reduction. In contrast, under identical conditions the phenylhydrazine-inhibited enzyme required the addition of 0.9 reducing equivalent per subunit with a midpoint potential of +110 mV. Least-squares analysis of the microcoulometric data obtained for the native enzyme, assuming uptake of 1 electron by Fe4S4 and 2 electrons by FMN, indicated midpoint potentials of +44 mV and +36 mV for the FMN/FMN.- and FMN.-/FMNH2 couples respectively and +102 mV for reduction of the Fe4S4 cluster.

摘要

三甲胺脱氢酶每个分子量为83,000道尔顿的亚基含有一个共价结合的6-S-半胱氨酰-FMN和一个Fe4S4簇,从甲基营养细菌W3A1中纯化至同质。在含有0.1 mM-EDTA和0.1 M-KCl的50 mM-Mops缓冲液中于pH 7下进行微库仑分析表明,天然酶每个亚基需要添加3个还原当量才能完全还原。相比之下,在相同条件下,苯肼抑制的酶每个亚基需要添加0.9个还原当量,中点电位为 +110 mV。对天然酶获得的微库仑数据进行最小二乘法分析,假设Fe4S4摄取1个电子,FMN摄取2个电子,表明FMN/FMN.-和FMN.-/FMNH2电对的中点电位分别为 +44 mV和 +36 mV,Fe4S4簇还原的中点电位为 +102 mV。

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本文引用的文献

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Identity of the subunits and the stoicheiometry of prosthetic groups in trimethylamine dehydrogenase and dimethylamine dehydrogenase.三甲胺脱氢酶和二甲胺脱氢酶中亚基的特性及辅基的化学计量
Biochem J. 1983 Jun 1;211(3):535-41. doi: 10.1042/bj2110535.
2
The flavin redox-system and its biological function.黄素氧化还原系统及其生物学功能。
Top Curr Chem. 1983;108:71-107. doi: 10.1007/3-540-11846-2_3.
3
Mechanistic studies on the dehydrogenases of methylotrophic bacteria. 2. Kinetic studies on the intramolecular electron transfer in trimethylamine and dimethylamine dehydrogenase.甲基营养型细菌脱氢酶的机制研究。2. 三甲胺和二甲胺脱氢酶分子内电子转移的动力学研究。
Biochem J. 1982 Nov 1;207(2):241-52. doi: 10.1042/bj2070241.
4
Mechanistic studies on the dehydrogenases of methylotrophic bacteria. 1. The influence of substrate binding to reduced trimethylamine dehydrogenase on the intramolecular electron transfer between its prosthetic groups.甲基营养型细菌脱氢酶的机制研究。1. 底物与还原型三甲胺脱氢酶结合对其辅基之间分子内电子转移的影响。
Biochem J. 1982 Nov 1;207(2):233-9. doi: 10.1042/bj2070233.
5
Determination of the stoichiometry of electron uptake and the midpoint reduction potentials of milk xanthine oxidase at 25 degrees C by microcoulometry.通过微库仑法测定25℃下牛奶黄嘌呤氧化酶的电子摄取化学计量和中点还原电位。
Biochemistry. 1982 Mar 30;21(7):1656-61. doi: 10.1021/bi00536a028.
6
Purification and properties of the trimethylamine dehydrogenase of bacterium 4B6.细菌4B6三甲胺脱氢酶的纯化及性质
Biochem J. 1974 Dec;143(3):555-67. doi: 10.1042/bj1430555.
7
Three-dimensional structure of the iron-sulfur flavoprotein trimethylamine dehydrogenase at 2.4-A resolution.
J Biol Chem. 1986 Nov 15;261(32):15140-6.
8
Trimethylamine dehydrogenase from a methylotrophic bacterium. I. Isolation and steady-state kinetics.
Biochim Biophys Acta. 1976 May 13;429(3):705-19. doi: 10.1016/0005-2744(76)90319-3.
9
Identification of the iron-sulfur center in trimethylamine dehydrogenase.三甲胺脱氢酶中铁硫中心的鉴定
Proc Natl Acad Sci U S A. 1977 Feb;74(2):547-51. doi: 10.1073/pnas.74.2.547.
10
Participation of the iron-sulphur cluster and of the covalently bound coenzyme of trimethylamine dehydrogenase in catalysis.铁硫簇和三甲胺脱氢酶的共价结合辅酶在催化过程中的参与。
Biochem J. 1978 Feb 1;169(2):361-9. doi: 10.1042/bj1690361.

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