一个甲基转移酶在 teleocidin B 生物合成中引发萜类环化。

A methyltransferase initiates terpene cyclization in teleocidin B biosynthesis.

机构信息

Graduate School of Pharmaceutical Sciences, The University of Tokyo , Bunkyo-ku, Tokyo 113-0033, Japan.

出版信息

J Am Chem Soc. 2014 Jul 16;136(28):9910-3. doi: 10.1021/ja505224r. Epub 2014 Jul 8.

Abstract

Teleocidin B is an indole terpenoid isolated from Streptomyces. Due to its unique chemical structure and ability to activate protein kinase C, it has attracted interest in the areas of organic chemistry and cell biology. Here, we report the identification of genes encoding enzymes for teleocidin B biosynthesis, including nonribosomal peptide synthetase (tleA), P-450 monooxygenase (tleB), prenyltransferase (tleC), and methyltransferase (tleD). The tleD gene, which is located outside of the tleABC cluster on the chromosome, was identified by transcriptional analysis and heterologous expression. Remarkably, TleD not only installs a methyl group on the geranyl moiety of the precursor but also facilitates the nucleophilic attack from the electron-rich indole to the resultant cation, to form the indole-fused six-membered ring. This is the first demonstration of a cation, generated from methylation, triggering successive terpenoid ring closure.

摘要

teleocidin B 是一种从链霉菌中分离出来的吲哚萜烯。由于其独特的化学结构和激活蛋白激酶 C 的能力，它在有机化学和细胞生物学领域引起了关注。在这里，我们报告了鉴定编码 teleocidin B 生物合成酶的基因，包括非核糖体肽合成酶（tleA）、P-450 单加氧酶（tleB）、 prenyltransferase（tleC）和甲基转移酶（tleD）。tleD 基因位于染色体上的 tleABC 簇之外，通过转录分析和异源表达鉴定。值得注意的是，TleD 不仅在前体的香叶基部分安装一个甲基，而且还促进富电子吲哚对所得阳离子的亲核攻击，形成吲哚稠合的六元环。这是首次证明由甲基化产生的阳离子引发连续的萜烯环闭合。

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一个甲基转移酶在 teleocidin B 生物合成中引发萜类环化。

A methyltransferase initiates terpene cyclization in teleocidin B biosynthesis.

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