大豆根瘤类菌体中固氮酶的动力学研究。

Kinetic studies of nitrogenase from soya-bean root-nodule bacteroids.

作者信息

Bergersen F J, Turner G L

出版信息

Biochem J. 1973 Jan;131(1):61-75. doi: 10.1042/bj1310061.

DOI:10.1042/bj1310061

PMID:4737293

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1177439/

Abstract

The apparent Michaelis constants [K'(N(2)) and K'(C(2)H(2))] and the corresponding apparent maximum velocity values (V') for soya-bean bacteroid nitrogenase increased concomitantly in response to increases in nitrogenase Fe-protein concentration and ATP concentration in cell-free assays and in response to O(2) pressure in intact nodules and bacteroid suspensions. K'(C(2)H(2)) in cell-free assays was also affected by pH and by Na(2)S(2)O(4) concentration. Nitrogenase Fe-protein behaved as a catalytic effector reacting at interacting sites on the nitrogenase Fe-Mo-protein. The results indicated that the Fe-Mo-protein probably bears the catalytic sites for N(2) and C(2)H(2) reduction. It is concluded that reduction of N(2) or C(2)H(2) by this nitrogenase involves a reaction mechanism with a sequence of unknown order. The sequence in which substrate, enzyme, effector, ATP and reductant react determines which of the various rate-constants are involved in the apparent Michaelis constant, whose true kinetic meaning was thus unresolved.

摘要

在无细胞测定中，随着固氮酶铁蛋白浓度和ATP浓度的增加，以及在完整根瘤和类菌体悬浮液中随着氧气压力的增加，大豆类菌体固氮酶的表观米氏常数[K'(N₂)和K'(C₂H₂)]以及相应的表观最大反应速度值(V')随之增加。无细胞测定中的K'(C₂H₂)也受pH值和Na₂S₂O₄浓度的影响。固氮酶铁蛋白作为一种催化效应物，在固氮酶铁钼蛋白的相互作用位点上发生反应。结果表明，铁钼蛋白可能具有还原N₂和C₂H₂的催化位点。得出的结论是，这种固氮酶对N₂或C₂H₂的还原涉及一种反应顺序未知的反应机制。底物、酶、效应物、ATP和还原剂的反应顺序决定了表观米氏常数中涉及哪些不同的速率常数，因此其真正的动力学意义尚未得到解决。

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