Kojima N, Fox J A, Hausinger R P, Daniels L, Orme-Johnson W H, Walsh C
Proc Natl Acad Sci U S A. 1983 Jan;80(2):378-82. doi: 10.1073/pnas.80.2.378.
Two hydrogenases from the methanogenic bacterium Methanobacterium thermoautotrophicum strain DeltaH have been purified and contain tightly bound nickel as well as the anticipated iron/sulfur atoms with a fixed ratio of 15-20 iron atoms per nickel. One hydrogenase reduces the 8-hydroxy-5-deazaflavin coenzyme factor 420 (F(420)), whereas the other has been purified as a methyl viologen-reducing hydrogenase. Both enzymes possess an EPR signal attributed to paramagnetic nickel as demonstrated by hyperfine coupling in (61)Ni-containing hydrogenases. Comparison to model compounds suggests a nickel(III) oxidation state in the inactive forms of these aerobically purified enzymes. Loss of the nickel(III) signal accompanies reductive activation but is not kinetically correlated with regain of high specific activity. On replacement of H(2) by argon in the gas phase over reduced, active, F(420)-reducing enzyme, several EPR signals appear, including a signal at g = 2.004 that is probably enzyme-bound FADH semiquinone, two signals at g = 2.140 and 2.196 that reflect a new form of paramagnetic nickel(III), and also a signal at g = 2.036 that may be an iron signal. The F(420)-reducing hydrogenase in the second paramagnetic nickel form is either itself active or in facile equilibrium with active enzyme. The size of the signal at g = 2.036 may correlate with the degree of activation of the enzyme. In contrast to the hydrogenase of Clostridium pasteurianum [Erbes, D. L., Burris, R. H. & Orme-Johnson, W. H. (1975) Proc. Natl. Acad. Sci. USA 72, 4795-4799], which appears to use only iron/sulfur prosthetic groups and which reacts with one-electron-transfer agents, this methanogen hydrogenase seems to utilize iron, nickel, and flavin redox sites and to reduce obligate one-electron (viologen) and two-electron (deazaflavin) oxidants.
已从嗜热自养产甲烷杆菌DeltaH菌株中纯化出两种氢化酶,它们含有紧密结合的镍以及预期的铁/硫原子,铁与镍的固定比例为每镍15 - 20个铁原子。一种氢化酶可还原8 - 羟基 - 5 - 脱氮黄素辅酶因子420(F(420)),而另一种已被纯化为还原甲基紫精的氢化酶。如含(61)Ni的氢化酶中的超精细偶合所示,这两种酶都具有归因于顺磁性镍的电子顺磁共振(EPR)信号。与模型化合物的比较表明,这些需氧纯化酶的无活性形式中镍处于 +3氧化态。镍(III)信号的消失伴随着还原激活,但在动力学上与高比活性的恢复无关。在还原的、有活性的、能还原F(420)的酶的气相中用氩气替代H(2)时,会出现几个EPR信号,包括g = 2.004处的一个信号,可能是与酶结合的FADH半醌,g = 2.140和2.196处的两个信号,反映了一种新形式的顺磁性镍(III),还有g = 2.036处的一个信号,可能是铁信号。处于第二种顺磁性镍形式的还原F(420)的氢化酶本身具有活性,或者与活性酶处于容易达到的平衡状态。g = 2.036处信号的大小可能与酶的激活程度相关。与巴氏梭菌的氢化酶[Erbes, D. L., Burris, R. H. & Orme-Johnson, W. H. (1975) Proc. Natl. Acad. Sci. USA 72, 4795 - 4799]不同,后者似乎仅使用铁/硫辅基,且与单电子转移剂反应,而这种产甲烷菌氢化酶似乎利用铁、镍和黄素氧化还原位点,并还原专性单电子(紫精)和双电子(脱氮黄素)氧化剂。