利用热醋梭菌的酶从一氧化碳、甲基四氢叶酸和辅酶A合成乙酰辅酶A。

Synthesis of acetyl coenzyme A from carbon monoxide, methyltetrahydrofolate, and coenzyme A by enzymes from Clostridium thermoaceticum.

作者信息

Hu S I, Drake H L, Wood H G

出版信息

J Bacteriol. 1982 Feb;149(2):440-8. doi: 10.1128/jb.149.2.440-448.1982.

DOI:10.1128/jb.149.2.440-448.1982

PMID:6895749

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC216527/

Abstract

Two purified fractions from Clostridium thermoaceticum are shown to catalyze the following reaction: CO + CH3THF + CoA ATP leads to CH3COCoA + THF. The methyltetrahydrofolate (CH3THF) gives rise to the methyl group of the acetyl-coenzyme A (CoA) and the carbon monoxide (CO) and CoA to its carboxyl thio ester group. The role of ATP is unknown. One of the protein fractions (F2) is a methyltransferase, whereas the other fraction (F3) contains CO dehydrogenase and a methyl acceptor which is postulated to be a corrinoid enzyme. The methyltransferase catalyzes the transfer of the methyl group to the methyl acceptor, and the CO is converted to a formyl derivative by the CO dehydrogenase. By a mechanism that is as yet unknown, the formyl derivative in combination with CoA and the methyl of the methyl acceptor are converted to acetyl-CoA. It is also shown that fraction F3 catalyzes the reversible exchange of 14C from [1-14C]acetyl-CoA into 14CO and that ATP is required, but not the methyltransferase. It is proposed that these reactions are part of the mechanism which enables certain autotrophic bacteria to grow on CO. It is postulated that CH3THF is synthesized from CO and tetrahydrofolate which then, as described above, is converted to acetyl-CoA. The acetyl-CoA then serves as a precursor in other anabolic reactions. A similar autotropic pathway may occur in bacteria which grow on carbon dioxide and hydrogen.

摘要

来自热醋梭菌的两种纯化组分被证明可催化以下反应

CO + CH₃THF + CoA + ATP → CH₃COCoA + THF。甲基四氢叶酸（CH₃THF）产生乙酰辅酶A（CoA）的甲基，一氧化碳（CO）和CoA产生其羧基硫酯基团。ATP的作用尚不清楚。其中一种蛋白质组分（F2）是甲基转移酶，而另一种组分（F3）含有CO脱氢酶和一种甲基受体，推测其为类咕啉酶。甲基转移酶催化甲基转移至甲基受体，CO脱氢酶将CO转化为甲酰基衍生物。通过一种尚不清楚的机制，甲酰基衍生物与CoA以及甲基受体的甲基结合转化为乙酰辅酶A。还表明组分F3催化[1-¹⁴C]乙酰辅酶A中的¹⁴C与¹⁴CO的可逆交换，并且需要ATP，但不需要甲基转移酶。有人提出这些反应是某些自养细菌能够利用CO生长的机制的一部分。据推测，CH₃THF由CO和四氢叶酸合成，然后如上述那样转化为乙酰辅酶A。乙酰辅酶A随后作为其他合成代谢反应的前体。在以二氧化碳和氢气为食的细菌中可能会发生类似的自养途径。

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