肺炎克雷伯菌nifV突变体的固氮酶

Nitrogenase of Klebsiella pneumoniae nifV mutants.

作者信息

McLean P A, Smith B E, Dixon R A

出版信息

Biochem J. 1983 Jun 1;211(3):589-97. doi: 10.1042/bj2110589.

DOI:10.1042/bj2110589

PMID:6349611

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1154403/

Abstract

The MoFe protein of nitrogenase from Klebsiella pneumoniae nifV mutants, NifV- Kp1 protein, in combination with the Fe protein from wild-type cells, catalysed CO-sensitive H2 evolution, in contrast with the CO-insensitive reaction catalysed by the wild-type enzyme. The decrease in H2 production was accompanied by a stoicheiometric decrease in dithionite (reductant) utilization, implying that CO was not reduced. However, CO did not affect the rate of phosphate release from ATP. Therefore the ATP/2e ratio increased, indicating futile cycling of electrons between the Fe protein and the MoFe protein. The inhibition of H2 evolution by CO was partial; it increased from 40% at pH6.3 to 82% at pH 8.6. Inhibition at pH7.4 (maximum 73%) was half-maximal at 3.1 Pa (0.031 matm) CO. The pH optimum of the mutant enzyme was lower in the presence of CO. Steady-state kinetic analysis of acetylene reduction indicated that CO was a linear, intersecting, non-competitive inhibitor of acetylene reduction with Kii = 2.5 Pa and Kis = 9.5 Pa. This may indicate that a single high-affinity CO-binding site in the NifV- Kp1 protein can cause both partial inhibition of H2 evolution and total elimination of acetylene reduction. Various models to explain the data are discussed.

摘要

肺炎克雷伯菌nifV突变体的固氮酶钼铁蛋白（NifV-Kp1蛋白）与野生型细胞的铁蛋白结合，催化对CO敏感的H₂释放，这与野生型酶催化的对CO不敏感的反应形成对比。H₂产生的减少伴随着连二亚硫酸盐（还原剂）利用的化学计量减少，这意味着CO未被还原。然而，CO并不影响ATP中磷酸的释放速率。因此，ATP/2e比值增加，表明电子在铁蛋白和钼铁蛋白之间进行无效循环。CO对H₂释放的抑制是部分性的；它从pH6.3时的40%增加到pH8.6时的82%。在pH7.4时的抑制（最大73%）在3.1 Pa（0.031 mmHg）CO时达到半数最大抑制。在有CO存在时，突变酶的最适pH较低。对乙炔还原的稳态动力学分析表明，CO是乙炔还原的线性、相交、非竞争性抑制剂，Kii = 2.5 Pa，Kis = 9.5 Pa。这可能表明NifV-Kp1蛋白中单个高亲和力的CO结合位点可导致H₂释放的部分抑制和乙炔还原的完全消除。文中讨论了解释这些数据的各种模型。

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本文引用的文献

Requirement of nifV gene for production of wild-type nitrogenase enzyme in Klebsiella pneumoniae.肺炎克雷伯菌中野生型固氮酶产生对nifV基因的需求。

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