Pattern-Based Genome Mining Guides Discovery of the Antibiotic Indanopyrrole A from a Marine Streptomycete.

IF 3.3 2区生物学 Q2 CHEMISTRY, MEDICINAL

Journal of Natural Products Pub Date : 2024-11-22 DOI:10.1021/acs.jnatprod.4c00934

Douglas Sweeney, Alexander Bogdanov, Alexander B Chase, Gabriel Castro-Falcón, Alma Trinidad-Javier, Samira Dahesh, Victor Nizet, Paul R Jensen

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引用次数: 0

Abstract

Terrestrial actinomycetes in the genus Streptomyces have long been recognized as prolific producers of small-molecule natural products, including many clinically important antibiotics and cytotoxic agents. Although Streptomyces can also be isolated from marine environments, their potential for natural product biosynthesis remains underexplored. The MAR4 clade of largely marine-derived Streptomyces has been a rich source of novel halogenated natural products of diverse structural classes. To further explore the biosynthetic potential of this group, we applied pattern-based genome mining, leading to the discovery of the first halogenated pyrroloketoindane natural products, indanopyrrole A (1) and B (2), and the bioinformatic linkage of these compounds to an orphan biosynthetic gene cluster (BCG) in 20 MAR4 genomes. Indanopyrrole A displays potent broad-spectrum antibiotic activity against clinically relevant pathogens. A comparison of the putative indanopyrrole BGC with that of the related compound indanomycin provides new insights into the terminal cyclization and offloading mechanisms in pyrroloketoindane biosynthesis. Broader searches of public databases reveal the rarity of this BGC while also highlighting opportunities for discovering additional compounds in this uncommon class.

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基于模式的基因组挖掘指导从海洋链霉菌中发现抗生素茚并吡咯 A。

链霉菌属陆生放线菌长期以来一直被认为是小分子天然产物的多产者，其中包括许多临床上重要的抗生素和细胞毒剂。虽然链霉菌也能从海洋环境中分离出来，但它们在天然产物生物合成方面的潜力仍未得到充分开发。主要来源于海洋的链霉菌 MAR4 支系是各种结构类别的新型卤代天然产物的丰富来源。为了进一步探索该类群的生物合成潜力，我们采用了基于模式的基因组挖掘方法，发现了第一个卤代吡咯酮茚天然产物--茚并吡咯 A（1）和 B（2），并在 20 个 MAR4 基因组中将这些化合物与一个孤儿生物合成基因簇（BCG）进行了生物信息学连接。茚并吡咯 A 对临床相关病原体具有强效广谱抗生素活性。通过比较推测的茚并吡咯 BGC 与相关化合物茚并霉素的 BGC，我们对吡咯酮茚并吡咯生物合成过程中的末端环化和卸载机制有了新的认识。通过对公共数据库进行更广泛的搜索，发现了这种 BGC 的罕见性，同时也凸显了发现这一类不常见化合物的更多机会。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Natural Products 生物-药学

CiteScore

9.10

自引率

5.90%

发文量

294

审稿时长

2.3 months

期刊介绍： The Journal of Natural Products invites and publishes papers that make substantial and scholarly contributions to the area of natural products research. Contributions may relate to the chemistry and/or biochemistry of naturally occurring compounds or the biology of living systems from which they are obtained. Specifically, there may be articles that describe secondary metabolites of microorganisms, including antibiotics and mycotoxins; physiologically active compounds from terrestrial and marine plants and animals; biochemical studies, including biosynthesis and microbiological transformations; fermentation and plant tissue culture; the isolation, structure elucidation, and chemical synthesis of novel compounds from nature; and the pharmacology of compounds of natural origin. When new compounds are reported, manuscripts describing their biological activity are much preferred. Specifically, there may be articles that describe secondary metabolites of microorganisms, including antibiotics and mycotoxins; physiologically active compounds from terrestrial and marine plants and animals; biochemical studies, including biosynthesis and microbiological transformations; fermentation and plant tissue culture; the isolation, structure elucidation, and chemical synthesis of novel compounds from nature; and the pharmacology of compounds of natural origin.