甲烷生物合成中的辅酶M和甲基钴胺素:模型研究的结果

G.N. Schrauzer, J.H. Grate , R.Nathan Katz
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引用次数: 7

摘要

辅酶M(2-巯基乙磺酸盐,HSCH2CH2SO3 -)与甲基钴胺素在ph值6 - 14范围内非酶性反应生成S-甲基衍生物(CH3SCH2CH2SO3 -)。此外,在较低的pH下,CoC键的还原性裂解产生甲烷。甲基钴酰肟作为甲基供体时,甲烷产量占主导地位,s -甲基化不显著。以辅酶M为还原剂的甲基钴酰肟产生甲烷的初始速率与这些底物与甲烷杆菌M.o.H活性细胞提取物产生甲烷的速率相关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coenzyme M and methylcobalamin in methane biosynthesis: Results of model studies

Coenzyme M (2-mercaptoethanesulfonate, HSCH2CH2SO3) reacts with methylcobalamin nonenzymatically in the pH-range between 6 and 14 to yield the S-methyl derivative (CH3SCH2CH2SO3). In addition, and also at lower pH, methane is produced by reductive cleavage of the CoC bond. With methylcobaloximes as the methyl group donors, methane production predominates, with insignificant S-methylation. The initial rates of methane production from methylcobaloximes with coenzyme M as the reductant correlate with the rates of methane production from these substrates with active cell extracts of Methanobacterium M.o.H.

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