肺炎克雷伯菌的固氮酶。该酶质子还原形式与乙炔还原形式的区别:温度和组分蛋白比例对底物还原动力学的影响。
Nitrogenase of Klebsiella pneumoniae. Distinction between proton-reducing and acetylene-reducing forms of the enzyme: effect of temperature and component protein ratio on substrate-reduction kinetics.
作者信息
Thorneley R N, Eady R R
出版信息
Biochem J. 1977 Nov 1;167(2):457-61. doi: 10.1042/bj1670457.
Abstract
Non-linear rates of acetylene reduction and concomitant H2 evolution were observed for the nitrogenase of Klebsiella pneumoniae at 10 degrees C. A lag phase of 1-4 min, dependent on the ratio of Mo-Fe protein to Fe protein present, occurred before linear rates of acetylene reduction were achieved. A complementary burst phase for concomitant H2 evolution in the presence of acetylene was also observed. When the proton was the only reducible substrate present, linear rates of H2 evolution were observed. N2 was a poor substrate under these conditions. Similar lag and burst phases occurred at 30 degrees C, but only when a large molar excess of Mo-Fe protein with respect to Fe protein was present. The results at 10 degrees C show that the binding of acetylene to the enzyme stimulates electron flow, but that these electrons, which initially reduce protons, can only reduce acetylene after a lag phase that cannot be accommodated in the turnover time calculated under steady-state conditions.
摘要
在10℃下,观察到肺炎克雷伯菌固氮酶的乙炔还原速率和伴随的氢气释放速率呈非线性。在达到乙炔还原的线性速率之前,会出现1 - 4分钟的延迟期,该延迟期取决于存在的钼铁蛋白与铁蛋白的比例。在乙炔存在的情况下,还观察到伴随氢气释放的互补爆发期。当质子是唯一存在的可还原底物时,观察到氢气释放的线性速率。在这些条件下,N2是一种较差的底物。在30℃时也出现了类似的延迟和爆发期,但只有当钼铁蛋白相对于铁蛋白存在大量摩尔过量时才会出现。10℃下的结果表明,乙炔与酶的结合会刺激电子流动,但这些最初还原质子的电子,只有在经过一个延迟期后才能还原乙炔,而这个延迟期无法在稳态条件下计算的周转时间内得到解释。
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2
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J Biol Chem. 1970 Nov 10;245(21):5788-99.
3
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4
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5
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6
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8
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