黄素连接氧化酶催化含二氯吡咯的聚酮延伸单元在绿藜芦定 A 中的吡咯里西啶形成。
Flavin-linked oxidase catalyzes pyrrolizine formation of dichloropyrrole-containing polyketide extender unit in chlorizidine A.
机构信息
Center of Marine Biotechnology and Biomedicine, Scripps Institution of Oceanography, University of California , San Diego, California 92093, United States.
出版信息
J Am Chem Soc. 2013 Dec 4;135(48):18032-5. doi: 10.1021/ja409520v. Epub 2013 Nov 21.
Abstract
The marine alkaloid chlorizidine A contains chlorinated pyrroloisoindolone and pyrrolizine rings that are rare chemical features in bacterial natural products. Herein, we report the biosynthetic logic of their construction in Streptomyces sp. CNH-287 based on the identification of the chlorizidine A biosynthetic gene cluster. Using whole pathway heterologous expression and genetic manipulations, we show that chlorizidine A is assembled by a polyketide synthase that uniquely incorporates a fatty acid synthase-derived dichloropyrrolyl extender unit into the pyrroloisoindolone enzymatic product. We further provide the first biochemical characterization of a flavoenzyme associated with the oxidative formation of chlorizidine A's distinctive pyrrolizine ring. This work illuminates new enzymatic assembly line processes leading to rare nitrogen-containing rings in nature.
摘要
海洋生物碱氯异吲哚啉 A 含有氯化吡咯并异吲哚酮和吡咯烷环,这些是细菌天然产物中罕见的化学特征。在此,我们根据氯异吲哚啉 A 生物合成基因簇的鉴定,报告了链霉菌 CNH-287 中它们构建的生物合成逻辑。通过全途径异源表达和遗传操作,我们表明氯异吲哚啉 A 是由聚酮合酶组装而成的,该酶独特地将脂肪酸合酶衍生的二氯吡咯基延伸单元纳入吡咯并异吲哚酮酶促产物中。我们进一步提供了与氯异吲哚啉 A 独特吡咯烷环氧化形成相关的黄素酶的首次生化特征。这项工作阐明了导致自然界中稀有含氮环的新酶促组装线过程。
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