用底物类似物探究甲基辅酶M还原酶活性位点中镍的反应活性。
Probing the reactivity of Ni in the active site of methyl-coenzyme M reductase with substrate analogues.
作者信息
Goenrich Meike, Mahlert Felix, Duin Evert C, Bauer Carsten, Jaun Bernhard, Thauer Rudolf K
机构信息
Max-Planck-Institut für Terrestrische Mikrobiologie and Laboratorium für Mikrobiologie, Fachbereich Biologie, Philipps-Universität, Karl-von-Frisch-Strasse, 35043 Marburg, Germany.
出版信息
J Biol Inorg Chem. 2004 Sep;9(6):691-705. doi: 10.1007/s00775-004-0552-1. Epub 2004 Jun 15.
Methyl-coenzyme M reductase (MCR) catalyses the reduction of methyl-coenzyme M (CH(3)-S-CoM) with coenzyme B (HS-CoB) to methane and CoM-S-S-CoB. It contains the nickel porphyrinoid F(430) as prosthetic group which has to be in the Ni(I) oxidation state for the enzyme to be active. The active enzyme exhibits an axial Ni(I)-derived EPR signal MCR-red1. We report here on experiments with methyl-coenzyme M analogues showing how they affect the activity and the MCR-red1 signal of MCR from Methanothermobacter marburgensis. Ethyl-coenzyme M was the only methyl-coenzyme M analogue tested that was used by MCR as a substrate. Ethyl-coenzyme M was reduced to ethane (apparent K(M)=20 mM; apparent V(max)=0.1 U/mg) with a catalytic efficiency of less than 1% of that of methyl-coenzyme M reduction to methane (apparent K(M)=5 mM; apparent V(max)=30 U/mg). Propyl-coenzyme M (apparent K(i)=2 mM) and allyl-coenzyme M (apparent K(i)=0.1 mM) were reversible inhibitors. 2-Bromoethanesulfonate ([I](0.5 V)=2 micro M), cyano-coenzyme M ([I](0.5 V)=0.2 mM), 3-bromopropionate ([I](0.5 V)=3 mM), seleno-coenzyme M ([I](0.5 V)=6 mM) and trifluoromethyl-coenzyme M ([I](0.5 V)=6 mM) irreversibly inhibited the enzyme. In their presence the MRC-red1 signal was quenched, indicating the oxidation of Ni(I) to Ni(II). The rate of oxidation increased over 10-fold in the presence of coenzyme B, indicating that the Ni(I) reactivity was increased in the presence of coenzyme B. Enzyme inactivated in the presence of coenzyme B showed an isotropic signal characteristic of a radical that is spin coupled with one hydrogen nucleus. The coupling was also observed in D(2)O. The signal was abolished upon exposure of the enzyme to O(2). 3-Bromopropanesulfonate ([I](0.5 V)=0.1 micro M), 3-iodopropanesulfonate ([I](0.5 V)=1 micro M), and 4-bromobutyrate also inactivated MCR. In their presence the EPR signal of MCR-red1 was converted into a Ni-based EPR signal MCR-BPS that resembles in line shape the MCR-ox1 signal. The signal was quenched by O(2). 2-Bromoethanesulfonate and 3-bromopropanesulfonate, which both rapidly reacted with Ni(I) of MRC-red1, did not react with the Ni of MCR-ox1 and MCR-BPS. The Ni-based EPR spectra of both inactive forms were not affected in the presence of high concentrations of these two potent inhibitors.
甲基辅酶M还原酶(MCR)催化辅酶B(HS-CoB)将甲基辅酶M(CH(3)-S-CoM)还原为甲烷和辅酶M二硫化合物(CoM-S-S-CoB)。它含有镍卟啉类辅基F(430),该辅基必须处于Ni(I)氧化态,酶才具有活性。活性酶表现出轴向Ni(I)衍生的电子顺磁共振(EPR)信号MCR-red1。我们在此报告了关于甲基辅酶M类似物的实验,展示了它们如何影响马尔堡甲烷嗜热菌MCR的活性和MCR-red1信号。乙基辅酶M是所测试的唯一一种被MCR用作底物的甲基辅酶M类似物。乙基辅酶M被还原为乙烷(表观K(M)=20 mM;表观V(max)=0.1 U/mg),其催化效率不到甲基辅酶M还原为甲烷催化效率的1%(表观K(M)=5 mM;表观V(max)=30 U/mg)。丙基辅酶M(表观K(i)=2 mM)和烯丙基辅酶M(表观K(i)=0.1 mM)是可逆抑制剂。2-溴乙烷磺酸盐([I](0.5 V)=2 μM)、氰基辅酶M([I](0.5 V)=0.2 mM)、3-溴丙酸([I](0.5 V)=3 mM)、硒代辅酶M([I](0.5 V)=6 mM)和三氟甲基辅酶M([I](0.5 V)=6 mM)不可逆地抑制该酶。在它们存在的情况下,MRC-red1信号被淬灭,表明Ni(I)被氧化为Ni(II)。在辅酶B存在的情况下,氧化速率增加了10倍以上,表明在辅酶B存在时Ni(I)的反应性增加。在辅酶B存在下失活的酶表现出一种与一个氢核自旋耦合的自由基的各向同性信号。在重水中也观察到了这种耦合。该信号在酶暴露于O(2)时消失。3-溴丙烷磺酸盐([I](0.5 V)=0.1 μM)、3-碘丙烷磺酸盐([I](0.5 V)=1 μM)和4-溴丁酸也使MCR失活。在它们存在的情况下,MCR-red1的EPR信号转变为一种基于Ni的EPR信号MCR-BPS,其线形与MCR-ox1信号相似。该信号被O(2)淬灭。2-溴乙烷磺酸盐和3-溴丙烷磺酸盐都能与MRC-red1的Ni(I)快速反应,但不与MCR-ox1和MCR-BPS的Ni反应。在这两种强效抑制剂的高浓度存在下,两种失活形式的基于Ni的EPR谱均未受影响。
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