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Klebsiella pneumoniae nitrogenase. The pre-steady-state kinetics of MoFe-protein reduction and hydrogen evolution under conditions of limiting electron flux show that the rates of association with the Fe-protein and electron transfer are independent of the oxidation level of the MoFe-protein.

机译：肺炎克雷伯菌氮酶。在限制电子通量的条件下MoFe蛋白还原和氢析出的稳态前动力学表明与Fe蛋白缔合和电子转移的速率与MoFe蛋白的氧化水平无关。

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摘要

The pre-steady-state kinetics of H2 evolution from Klebsiella pneumoniae nitrogenase functioning at 23 degrees C, pH 7.4, under conditions of extremely low electron flux through the MoFe-protein exhibited a lag phase of several minutes duration. The approach to a steady-state rate of H2 evolution was accompanied by a 50% decrease in the amplitude of the MoFe-protein e.p.r. signal. These kinetics have been simulated using our published kinetic model for nitrogenase [Lowe & Thorneley (1984) Biochem. J. 224, 877-886], which was developed using data obtained with nitrogenase functioning at high electron fluxes. The e.p.r. data showed that the rate of complex-formation between reduced Fe-protein and the MoFe-protein (k+1 = 5 x 10(7) M-1.s-1) is the same for the resting (E0) and one-electron-reduced (E1H) states of the MoFe-protein. Stopped-flow spectrophotometry also showed that electron transfer from the Fe-protein to the MoFe-protein in states E0 and E1H occurs at the same rate (kobs. = 140 s-1). These data support our previous assumption that the rate constants that define the 'Fe-protein cycle' are independent of the level of reduction of the MoFe-protein.

机译：在极低的通过MoFe蛋白的电子通量的条件下，在23摄氏度，pH 7.4下起作用的肺炎克雷伯氏菌氮酶从H2析出的稳态前动力学表现为持续数分钟的滞后阶段。达到稳态H2释放速率的方法伴随着MoFe蛋白e.p.r振幅降低50％。信号。这些动力学已使用我们公开的固氮酶动力学模型进行了模拟[Lowe＆Thorneley（1984）Biochem。 J. 224，877-886]，它是使用在高电子通量下具有固氮酶功能的数据开发的。 e.p.r.数据显示，还原的Fe蛋白和MoFe蛋白之间的复合物形成速率（k + 1 = 5 x 10（7）M-1.s-1）在静止（E0）和一个MoFe蛋白的电子还原（E1H）状态。停止流分光光度法还显示，在状态E0和E1H下，电子从Fe蛋白转移到MoFe蛋白的速率相同（kobs = 140 s-1）。这些数据支持我们先前的假设，即定义“铁蛋白循环”的速率常数与MoFe蛋白质的还原水平无关。

著录项

期刊名称 Biochemical Journal
作者
K Fisher; D J Lowe; R N Thorneley;
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年(卷),期 1991(279),Pt 1
年度 1991
页码 81–85
总页数 5
原文格式 PDF
正文语种
中图分类分子生物学;
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机译：肺炎克雷伯菌氮酶。乙烯抑制氢释放并将乙烯还原为乙烷。
8. Klebsiella pneumoniae nitrogenase. The pre-steady-state kinetics of MoFe-protein reduction and hydrogen evolution under conditions of limiting electron flux show that the rates of association with the Fe-protein and electron transfer are independent of the oxidation level of the MoFe-protein. [O] . Fisher, K, Lowe, D J, Thorneley, R N 1991

机译：肺炎克雷伯菌氮酶。在限制电子通量的条件下，MoFe蛋白还原和氢析出的稳态前动力学表明，与Fe蛋白缔合和电子转移的速率与MoFe蛋白的氧化水平无关。

Klebsiella pneumoniae nitrogenase. The pre-steady-state kinetics of MoFe-protein reduction and hydrogen evolution under conditions of limiting electron flux show that the rates of association with the Fe-protein and electron transfer are independent of the oxidation level of the MoFe-protein.

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