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肺炎克雷伯菌固氮酶。乙炔还原机制及其一氧化碳抑制作用。

Klebsiella pneumoniae nitrogenase. Mechanism of acetylene reduction and its inhibition by carbon monoxide.

作者信息

Lowe D J, Fisher K, Thorneley R N

机构信息

AFRC Institute of Plant Science Research, University of Sussex, Brighton, U.K.

出版信息

Biochem J. 1990 Dec 15;272(3):621-5. doi: 10.1042/bj2720621.

DOI:10.1042/bj2720621
PMID:2268290
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1149753/
Abstract

The electron flux through the MoFe-protein of nitrogenase from Klebsiella pneumoniae determines the absolute and relative rates of 2H+ reduction to H2 and acetylene (C2H2) reduction to ethylene (C2H4) at saturating levels of reductant (Na2S2O4) and MgATP. High electron flux, induced by a high Fe-protein (Kp2)/MoFe protein (Kp1) ratio, favours C2H2 reduction. These data can be explained if ethylene, the two-electron reduction product of C2H2, is not released until three electrons have been transferred from Kp2 to Kp1. This explanation is also consistent with a pre-steady-state lag phase for C2H4 formation of 250 ms observed when functioning enzyme is quenched with acid. Electron flux through nitrogenase is inhibited by C2H2 at high protein concentrations. This is because the association rate between Kp1 and oxidized Kp2 is enhanced by C2H2, leading to an increased steady-state concentration of the inhibitory complex Kp2oxKp1C2H2. This effect is not relieved by CO. Thus CO and C2H2 (or C2H4) must be bound at the same time to distinct sites, presumably at Mo or Fe centres, on the enzyme.

摘要

在还原剂(连二亚硫酸钠)和镁三磷酸腺苷达到饱和水平时,通过肺炎克雷伯菌固氮酶钼铁蛋白的电子通量决定了2H⁺还原为H₂以及乙炔(C₂H₂)还原为乙烯(C₂H₄)的绝对速率和相对速率。由高铁蛋白(Kp2)/钼铁蛋白(Kp1)高比例诱导产生的高电子通量有利于乙炔还原。如果直到三个电子从Kp2转移到Kp1后,乙炔的双电子还原产物乙烯才释放,那么这些数据就能得到解释。这种解释也与用酸淬灭功能酶时观察到的乙烯形成的250毫秒预稳态滞后阶段相一致。在高蛋白浓度下,乙炔会抑制通过固氮酶的电子通量。这是因为乙炔增强了Kp1与氧化态Kp2之间的缔合速率,导致抑制性复合物Kp2oxKp1C2H2的稳态浓度增加。一氧化碳不能缓解这种效应。因此,一氧化碳和乙炔(或乙烯)必定同时结合在酶上不同的位点,推测是在钼或铁中心。

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本文引用的文献

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The acetylene-ethylene assay for n(2) fixation: laboratory and field evaluation.乙炔-乙烯法测定固氮作用中的 N2 固定:实验室和现场评价。
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Reduction of acetylene to ethylene by soybean root nodules.大豆根瘤将乙炔还原为乙烯。
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The mechanism of Klebsiella pneumoniae nitrogenase action. Simulation of the dependences of H2-evolution rate on component-protein concentration and ratio and sodium dithionite concentration.肺炎克雷伯菌固氮酶作用机制。模拟氢气释放速率对组分蛋白浓度及比例和连二亚硫酸钠浓度的依赖性。
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Biochem J. 1984 Dec 15;224(3):895-901. doi: 10.1042/bj2240895.
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The mechanism of Klebsiella pneumoniae nitrogenase action. Pre-steady-state kinetics of an enzyme-bound intermediate in N2 reduction and of NH3 formation.肺炎克雷伯菌固氮酶的作用机制。N2还原过程中酶结合中间体及NH3形成的预稳态动力学。
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The mechanism of Klebsiella pneumoniae nitrogenase action. Pre-steady-state kinetics of H2 formation.肺炎克雷伯菌固氮酶作用机制。氢气形成的预稳态动力学。
Biochem J. 1984 Dec 15;224(3):877-86. doi: 10.1042/bj2240877.
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Nitrogenase of Klebsiella pneumoniae. Kinetics of the dissociation of oxidized iron protein from molybdenum-iron protein: identification of the rate-limiting step for substrate reduction.肺炎克雷伯菌的固氮酶。氧化态铁蛋白与钼铁蛋白解离的动力学:底物还原限速步骤的鉴定。
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Acetylene reduction by nitrogen-fixing preparations from Clostridium pasteurianum.巴氏梭菌固氮制剂对乙炔的还原作用
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Acetylene as a competitive inhibitor of N-2 fixation.乙炔作为固氮作用的竞争性抑制剂。
Proc Natl Acad Sci U S A. 1967 Jul;58(1):213-6. doi: 10.1073/pnas.58.1.213.

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