Pre-steady-state kinetics of the reactions of [NiFe]-hydrogenase from Chromatium vinosum with H2 and CO

被引:60
作者
Happe, RP [1 ]
Roseboom, W [1 ]
Albracht, SPJ [1 ]
机构
[1] Univ Amsterdam, EC Slater Inst Biochem Res, NL-1018 TV Amsterdam, Netherlands
来源
EUROPEAN JOURNAL OF BIOCHEMISTRY | 1999年 / 259卷 / 03期
关键词
hydrogenase; nickel; valence state; pre-steady-state kinetics;
D O I
10.1046/j.1432-1327.1999.00057.x
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
Results are presented of the first rapid-mixing/rapid-freezing studies with a [NiFe]-hydrogenase. The enzyme from Chromatium vinosum was used. In particular the reactions of active enzyme with H-2 and CO were monitored. The conversion from fully reduced, active hydrogenase (Ni-a-SR state) to the Ni-a-C* state was completed in less than 8 ms, a rate consistent with the H-2-evolution activity of the enzyme. The reaction of CO with fully reduced enzyme was followed from 8 to 200 ms. The Ni-a-SR state did not react with CO. It was discovered, contrary to expectations, that the Ni-a-C* state did not react with CO when reactions were performed in the dark. When H-2 was replaced by CO, a Ni-a-C* EPR signal appeared within 11 ms; this was also the case when H-2 was replaced by Ar. With CO, however, the Ni-a-C* state decayed within 40 ms, due to the generation of the Ni-a-S . CO state (the EPR-silent state of the enzyme with bound CO). The Ni-a-C* state, induced after 11 ms by replacing H-2 by CO in the dark, could be converted, in the frozen enzyme, into the EPR-detectable state with CO bound to nickel (Ni-a*. CO) by illumination at 30 K (evoking the Ni-a-L* state), followed by dark adaptation at 200 K. This can be explained by assuming that the Ni-a-C* state represents a formally trivalent state of nickel, which is unable to bind CO, whereas nickel in the Ni-a-L* and the Ni-a*. CO states is formally monovalent.
引用
收藏
页码:602 / 608
页数:7
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