Trends in metabolite discovery from Actinomycetes.

IF 10.2 1区化学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Natural Product Reports Pub Date : 2025-06-09 DOI:10.1039/d4np00075g

Paolo Monciardini, Matteo Simone, Marianna Iorio, Sonia I Maffioli, Margherita Sosio, Stefano Donadio

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引用次数: 0

Abstract

Covering: 2013 to 2023In this review, we analyzed the scientific literature of the period 2013-2023 that reported novel specialized metabolites from the Actinomycetes, one of the most prolific producers of natural products. The discovered metabolites were categorized on the basis of their chemical originality into two groups: variants of known molecules, or original metabolites. In addition, we subdivided the approaches used to discover these metabolites into four categories: bioassay-based screening, genome mining, metabolome mining, or combinations thereof. We present selected examples of the different approaches used and the resulting original metabolites. Finally, we measure the overall trends of discovery in terms of approaches, of the frequency of original metabolites and of the major biosynthetic classes that have been described. Overall, our analysis indicates that new metabolites continue to be discovered from Actinomycetes at a relatively constant rate and that the frequency of original metabolites seems to be approach-independent and relatively constant within the analyzed time period.

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放线菌代谢物发现趋势。

在这篇综述中，我们分析了2013-2023年期间报道的来自放线菌的新型特殊代谢物的科学文献，放线菌是最多产的天然产物之一。发现的代谢物根据其化学原创性分为两组：已知分子的变体或原始代谢物。此外，我们将用于发现这些代谢物的方法细分为四类：基于生物测定的筛选，基因组挖掘，代谢组挖掘或其组合。我们提出了所使用的不同方法和所产生的原始代谢物的选定示例。最后，我们根据方法、原始代谢物的频率和已描述的主要生物合成类别来衡量发现的总体趋势。总的来说，我们的分析表明，新的代谢物继续以相对恒定的速率从放线菌中发现，并且在分析的时间段内，原始代谢物的频率似乎与方法无关且相对恒定。

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

Natural Product Reports 化学-生化与分子生物学

CiteScore

21.20

自引率

3.40%

发文量

127

审稿时长

1.7 months

期刊介绍： Natural Product Reports (NPR) serves as a pivotal critical review journal propelling advancements in all facets of natural products research, encompassing isolation, structural and stereochemical determination, biosynthesis, biological activity, and synthesis. With a broad scope, NPR extends its influence into the wider bioinorganic, bioorganic, and chemical biology communities. Covering areas such as enzymology, nucleic acids, genetics, chemical ecology, carbohydrates, primary and secondary metabolism, and analytical techniques, the journal provides insightful articles focusing on key developments shaping the field, rather than offering exhaustive overviews of all results. NPR encourages authors to infuse their perspectives on developments, trends, and future directions, fostering a dynamic exchange of ideas within the natural products research community.