Wackett L P, Honek J F, Begley T P, Wallace V, Orme-Johnson W H, Walsh C T
Department of Chemistry, Massachusetts Institute of Technology, Cambridge 02139.
Biochemistry. 1987 Sep 22;26(19):6012-8. doi: 10.1021/bi00393a010.
Methyl-S-coenzyme M reductase catalyzes the ultimate methane-yielding reaction in methanogenic bacteria, the reductive cleavage of the terminal carbon-sulfur bond of 2-(methylthio)ethanesulfonic acid. This protein has previously been shown to contain 2 equiv of a tightly bound nickel corphinoid cofactor, denoted cofactor F430, that may play a role in catalysis. Prior to this study, only one substrate analogue, ethyl-S-coenzyme M, had been demonstrated to be processed to a product by anaerobic cell extracts from Methanobacterium thermoautotrophicum strain delta H. In this investigation, we have synthesized three additional substrate analogues that serve as substrates as well as five previously unknown inhibitors. Steady-state kinetic techniques were developed in order to assess relative rates of processing for these substrates and inhibitors by use of anaerobic cell extracts from M. thermoautotrophicum. With this assay system, a KM of 0.1 mM and a kcat of 17 min-1 were determined for methyl-S-coenzyme M as substrate. Methyl-seleno-coenzyme M was converted to methane with a kcat threefold higher than that of methyl-S-coenzyme M, but kcat/KM was unchanged. The carbon-oxygen bond of 2-methoxyethanesulfonic acid was not cleaved to yield methane, but this analogue acted as an inhibitor with a K1 of 8.3 mM. Methyl reductase catalyzed reductive cleavage of difluoromethyl-S-coenzyme M to yield difluoromethane as the sole product, but trifluoromethyl-S-coenzyme M and trifluoromethyl-seleno-coenzyme M were inhibitors and not substrates.(ABSTRACT TRUNCATED AT 250 WORDS)
甲基辅酶M还原酶催化产甲烷细菌中最终产生甲烷的反应,即2-(甲硫基)乙烷磺酸末端碳-硫键的还原裂解。此前已证明该蛋白含有2当量紧密结合的镍类咕啉辅因子,称为辅因子F430,它可能在催化过程中发挥作用。在本研究之前,仅有一种底物类似物,即乙基辅酶M,已被证明可被嗜热自养甲烷杆菌δH菌株的厌氧细胞提取物加工成产物。在本研究中,我们合成了另外三种作为底物的底物类似物以及五种先前未知的抑制剂。开发了稳态动力学技术,以便利用嗜热自养甲烷杆菌的厌氧细胞提取物评估这些底物和抑制剂的相对加工速率。使用该测定系统,确定以甲基辅酶M为底物时的KM为0.1 mM,kcat为17 min-1。甲基硒辅酶M转化为甲烷的kcat比甲基辅酶M高3倍,但kcat/KM不变。2-甲氧基乙烷磺酸的碳-氧键未裂解产生甲烷,但该类似物作为抑制剂,K1为8.3 mM。甲基还原酶催化二氟甲基辅酶M的还原裂解,产生二氟甲烷作为唯一产物,但三氟甲基辅酶M和三氟甲基硒辅酶M是抑制剂而非底物。(摘要截短于250字)
