来自蓝细菌素生物合成途径的芳香族异戊烯基转移酶对色氨酸的N-异戊烯基化作用。

N-Prenylation of Tryptophan by an Aromatic Prenyltransferase from the Cyanobactin Biosynthetic Pathway.

作者信息

Dalponte Luca, Parajuli Anirudra, Younger Ellen, Mattila Antti, Jokela Jouni, Wahlsten Matti, Leikoski Niina, Sivonen Kaarina, Jarmusch Scott A, Houssen Wael E, Fewer David P

机构信息

Marine Biodiscovery Centre, Department of Chemistry , University of Aberdeen , Meston Walk , Aberdeen AB24 3UE , U.K.

Institute of Medical Sciences , University of Aberdeen , Ashgrove Road West , Aberdeen AB25 2ZD , U.K.

出版信息

Biochemistry. 2018 Dec 18;57(50):6860-6867. doi: 10.1021/acs.biochem.8b00879. Epub 2018 Dec 3.

DOI:10.1021/acs.biochem.8b00879

PMID:30452235

Abstract

Aromatic prenylation is an important step in the biosynthesis of many natural products and leads to an astonishing diversity of chemical structures. Cyanobactin pathways frequently encode aromatic prenyltransferases that catalyze the prenylation of these macrocyclic and linear peptides. Here we characterized the anacyclamide ( acy) biosynthetic gene cluster from Anabaena sp. UHCC-0232. Partial reconstitution of the anacyclamide pathway, heterologous expression, and in vitro biochemical characterization demonstrate that the AcyF enzyme, encoded in the acy biosynthetic gene cluster, is a Trp N-prenyltransferase. Bioinformatic analysis suggests the monophyletic origin and rapid diversification of cyanobactin prenyltransferase enzymes and the multiple origins of N-1 Trp prenylation in prenylated natural products. The AcyF enzyme displayed high flexibility toward a range of Trp-containing substrates and represents an interesting new tool for biocatalytic applications.

摘要

芳香族异戊烯基化是许多天然产物生物合成中的重要步骤，并导致惊人的化学结构多样性。蓝细菌素生物合成途径经常编码芳香族异戊烯基转移酶，这些酶催化这些大环和线性肽的异戊烯基化。在这里，我们对来自鱼腥藻属UHCC-0232的阿纳环肽（acy）生物合成基因簇进行了表征。阿纳环肽途径的部分重构、异源表达和体外生化表征表明，acy生物合成基因簇中编码的AcyF酶是一种色氨酸N-异戊烯基转移酶。生物信息学分析表明，蓝细菌素异戊烯基转移酶具有单系起源和快速多样化，以及在异戊烯基化天然产物中N-1色氨酸异戊烯基化的多个起源。AcyF酶对一系列含色氨酸的底物表现出高度的灵活性，是生物催化应用中一种有趣的新工具。

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来自蓝细菌素生物合成途径的芳香族异戊烯基转移酶对色氨酸的N-异戊烯基化作用。

N-Prenylation of Tryptophan by an Aromatic Prenyltransferase from the Cyanobactin Biosynthetic Pathway.

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