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Targeted discovery of polyketides with antioxidant activity through integrated omics and cocultivation strategies

计算生物学 生物 基因组 聚酮 遗传学 基因 生物合成
作者
Cancan Wang,Chenjie Wang,Yanjun Liu,Yujie Yue,Xingyue Lu,Hong Wang,You‐Min Ying,Jianwei Chen
出处
期刊:Applied and Environmental Microbiology [American Society for Microbiology]
卷期号:90 (11) 被引量:1
标识
DOI:10.1128/aem.01603-24
摘要

ABSTRACT Fungi generate a diverse array of bioactive compounds with significant pharmaceutical applications. However, the chemical diversity of natural products in fungi remains largely unexplored. Here, we present a paradigm for specifically discovering diverse and bioactive compounds from fungi by integrating genome mining with building block molecular network and coculture analysis. Through pangenome and sequence similarity network analysis, we identified a rare type I polyketide enzyme from Penicillium sp. ZJUT-34. Subsequent building block molecular network and coculture strategy led to the identification and isolation of a pair of novel polyketides, (±)-peniphenone E [(±)− 1 ], three known polyketides ( 2–4 ), and three precursor compounds ( 5–7 ) from a combined culture of Penicillium sp. ZJUT-34 and Penicillium sp. ZJUT23. Their structures were established through extensive spectroscopic analysis, including NMR and HRESIMS. Chiral HPLC separation of compound 1 yielded a pair of enantiomers (+)− 1 and (−)− 1 , with their absolute configurations determined using calculated ECD methods. Compound (±)− 1 is notable for its unprecedented structure, featuring a unique 2-methyl-hexenyl-3-one moiety fused with a polyketide clavatol core. We proposed a hypothetical biosynthetic pathway for (±)− 1 . Furthermore, compounds 2 , 5 , and 6 exhibited strong antioxidant activity, whereas (−)− 1 , (+)− 1 , 3 , and four exhibited moderate antioxidant activity compared to the positive control, ascorbic acid. Our research demonstrates a pioneering strategy for uncovering novel polyketides by merging genome mining, metabolomics, and cocultivation methods. This approach addresses the challenge of discovering natural compounds produced by rare biosynthetic enzymes that are often silent under conventional conditions due to gene regulation. IMPORTANCE Polyketides, particularly those with complex structures, are crucial in drug development and synthesis. This study introduces a novel approach to discover new polyketides by integrating genomics, metabolomics, and cocultivation strategies. By combining genome mining, building block molecular networks, and coculturing techniques, we identified and isolated a unique polyketide, (±)-peniphenone E, along with three known polyketides and three precursor compounds from Penicillium sp. ZJUT-34 and Penicillium sp. ZJUT23. This approach highlights the potential of using combined strategies to explore fungal chemical diversity and discover novel bioactive compounds. The successful identification of (±)-peniphenone E, with its distinctive structure, demonstrates the effectiveness of this integrated method in enhancing natural product discovery and underscores the value of innovative approaches in natural product research.
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