肺炎克雷伯菌固氮酶催化机制的电子顺磁共振研究。

Studies by electron paramagnetic resonance on the catalytic mechanism of nitrogenase of Klebsiella pneumoniae.

作者信息

Smith B E, Lowe D J, Bray R C

出版信息

Biochem J. 1973 Oct;135(2):331-41. doi: 10.1042/bj1350331.

DOI:10.1042/bj1350331

PMID:4357955

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1165827/

Abstract

The properties and catalytic reactions of the enzyme nitrogenase purified from Klebsiella pneumoniae were studied by electron-paramagnetic-resonance (e.p.r.) spectroscopy at temperatures down to 8 degrees K. The two protein fractions, Kp1 (the iron-molybdenum protein) and Kp2 (the iron protein), were examined alone and in steady-state mixtures and also in pre-steady-state experiments, by using the rapid-freezing method. Kp1 protein in dithionite solution shows a rhombic type of spectrum with g(1) 4.32, g(2) 3.63, g(3) 2.009 at pH6.8 (0 degrees C). Small changes in the spectrum produced by protons (pK=8.7 at 0 degrees C) or by acetylene indicate binding of these oxidizing substrates to this protein fraction. Kp2 protein shows a rhombic spectrum with g(1) 2.053, g(2) 1.942, g(3) 1.865, which integrates to about 0.45 electron/molecule. Binding of ATP, with a dissociation constant of 4x10(-4)m, changes the spectrum to an axial form with g( parallel) 2.036, g( perpendicular) 1.929, thus indicating a conformation change of Kp2 protein. The Kp2 protein spectrum disappears reversibly on cautious oxidation. The signals of both proteins are diminished in their steady-state mixtures, obtained in the presence of ATP and dithionite (with an ATP-generating system and Mg(2+) ions) and with protons, N(2) or acetylene as oxidizing substrate. At the same time as dithionite is consumed in such reactions, the Kp1 protein signal is gradually restored and the Kp2 protein signal diminishes to zero. In rapid-freezing experiments the signals from the two proteins decreased at indistinguishable rates (t((1/2)) about 10ms), then they remained constant. Results are interpreted in terms of a scheme in which reducing equivalents pass from dithionite to Kp2 protein, then, in an ATP-dependent reaction to Kp1 protein, this being finally reoxidized by N(2) or another oxidizing substrate. In this scheme Kp1 protein cycles between its signal-giving state and a very highly reduced signal-free state.

摘要

采用电子顺磁共振（e.p.r.）光谱技术，在低至8K的温度下研究了从肺炎克雷伯菌中纯化得到的固氮酶的性质和催化反应。通过快速冷冻法，分别对两种蛋白质组分Kp1（铁钼蛋白）和Kp2（铁蛋白）进行了单独检测、稳态混合物检测以及预稳态实验。在pH6.8（0℃）的连二亚硫酸盐溶液中，Kp1蛋白呈现出菱形光谱，g(1) 4.32，g(2) 3.63，g(3) 2.009。质子（0℃时pK = 8.7）或乙炔引起的光谱微小变化表明这些氧化底物与该蛋白质组分发生了结合。Kp2蛋白呈现出菱形光谱，g(1) 2.053，g(2) 1.942，g(3) 1.865，每个分子的积分约为0.45个电子。ATP的结合（解离常数为4×10⁻⁴m）使光谱变为轴向形式，g(平行) 2.036，g(垂直) 1.929，这表明Kp2蛋白发生了构象变化。谨慎氧化时，Kp2蛋白的光谱可逆消失。在存在ATP和连二亚硫酸盐（有ATP生成系统和Mg²⁺离子）以及质子、N₂或乙炔作为氧化底物的稳态混合物中，两种蛋白质的信号均减弱。在这些反应中，连二亚硫酸盐被消耗的同时，Kp1蛋白的信号逐渐恢复，而Kp2蛋白的信号减弱至零。在快速冷冻实验中，两种蛋白质的信号以难以区分的速率下降（t(1/2)约为10ms），然后保持恒定。结果根据一种机制进行解释，即还原当量从连二亚硫酸盐传递到Kp2蛋白，然后在依赖ATP的反应中传递到Kp1蛋白，最终Kp1蛋白被N₂或另一种氧化底物再氧化。在该机制中，Kp1蛋白在其产生信号的状态和高度还原的无信号状态之间循环。

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