涉及四氢叶酸和维生素B12的甲基转移催化作用。

Catalysis of methyl group transfers involving tetrahydrofolate and B(12).

作者信息

Ragsdale Stephen W

机构信息

Department of Biological Chemistry, University of Michigan Medical School, Ann Arbor, Michigan 48109-0606, USA.

出版信息

Vitam Horm. 2008;79:293-324. doi: 10.1016/S0083-6729(08)00410-X.

DOI:10.1016/S0083-6729(08)00410-X

PMID:18804699

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3037834/

Abstract

This review focuses on the reaction mechanism of enzymes that use B(12) and tetrahydrofolate (THF) to catalyze methyl group transfers. It also covers the related reactions that use B(12) and tetrahydromethanopterin (THMPT), which is a THF analog used by archaea. In the past decade, our understanding of the mechanisms of these enzymes has increased greatly because the crystal structures for three classes of B(12)-dependent methyltransferases have become available and because biophysical and kinetic studies have elucidated the intermediates involved in catalysis. These steps include binding of the cofactors and substrates, activation of the methyl donors and acceptors, the methyl transfer reaction itself, and product dissociation. Activation of the methyl donor in one class of methyltransferases is achieved by an unexpected proton transfer mechanism. The cobalt (Co) ion within the B(12) macrocycle must be in the Co(I) oxidation state to serve as a nucleophile in the methyl transfer reaction. Recent studies have uncovered important principles that control how this highly reducing active state of B(12) is generated and maintained.

摘要

本综述聚焦于利用维生素B12和四氢叶酸（THF）催化甲基转移的酶的反应机制。它还涵盖了使用维生素B12和四氢甲蝶呤（THMPT）的相关反应，THMPT是古细菌使用的一种THF类似物。在过去十年中，我们对这些酶机制的理解有了极大提高，这是因为三类依赖维生素B12的甲基转移酶的晶体结构已可得，且生物物理和动力学研究阐明了催化过程中涉及的中间体。这些步骤包括辅因子和底物的结合、甲基供体和受体的活化、甲基转移反应本身以及产物解离。一类甲基转移酶中甲基供体的活化是通过一种意想不到的质子转移机制实现的。维生素B12大环内的钴（Co）离子必须处于Co（I）氧化态才能在甲基转移反应中作为亲核试剂。最近的研究揭示了控制维生素B12这种高还原活性状态如何产生和维持的重要原理。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c40c/3037834/a37db496fd2d/nihms-269844-f0001.jpg

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