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维生素 B2 的生物合成:一种独特的方法来组装二甲苯环。

Biosynthesis of vitamin B2: a unique way to assemble a xylene ring.

机构信息

Institute of Food Chemistry, University of Hamburg, Grindelallee 117, 20146 Hamburg, Germany.

出版信息

Chembiochem. 2011 Mar 21;12(5):670-80. doi: 10.1002/cbic.201000681.

Abstract

The biosynthesis of one riboflavin (vitamin B(2)) molecule requires one molecule of GTP and two molecules of ribulose 5-phosphate as substrates. In the final step, the tricyclic isoalloxazine chromophore, which is the hallmark of flavocoenzymes, arises from a highly unusual dismutation of bicyclic 6,7-dimethyl-8-ribityllumazine that is catalyzed by riboflavin synthase but can also proceed without catalysis. The reaction proceeds via a pentacyclic adduct of two 6,7-dimethyl-8-ribityllumazine molecules, whose cleavage into riboflavin and a pyrimidine derivative (by a sequence of two elimination steps) is mechanistically straightforward. Recently, the formation of the pentacyclic adduct has been proposed to involve a hydride transfer step followed by a [4+2] cycloaddition. Surprisingly, two different classes of riboflavin synthases utilize different diastereomers of the pentacyclic adduct, but the newly generated chiral centers are lost upon the intermediates' subsequent fragmentation.

摘要

一个核黄素(维生素 B(2))分子的生物合成需要一个 GTP 分子和两个核酮糖 5-磷酸分子作为底物。在最后一步中,三环异咯嗪发色团,这是黄素辅酶的标志,来源于高度不寻常的双环 6,7-二甲基-8-核糖基喋呤的歧化,由核黄素合酶催化,但也可以在没有催化的情况下进行。该反应通过两个 6,7-二甲基-8-核糖基喋呤分子的五环加合物进行,其裂解为核黄素和嘧啶衍生物(通过两个消除步骤的序列)在机制上是直接的。最近,有人提出,五环加合物的形成涉及氢化物转移步骤,随后是[4+2]环加成。令人惊讶的是,两种不同类别的核黄素合酶利用不同的五环加合物的非对映异构体,但新生成的手性中心在中间体随后的片段化过程中丢失。

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