Texenomycins are a family of linear lipopeptaibols with a long polyketide side chain at the N-terminus and 21 amino acid residues at the -terminus, presenting demonstrated potential as antibiotics against plant fungal pathogens. In this study, texenomycins were identified and isolated from the fungus strain TTI-0396 and showed effective antifungal properties against two plant pathogens and . Through analysis of the whole-genome data of strain TTI-0396, we discovered a hybrid PKS-NRPS system with the polyketide synthase (PKS: TexQ), thioesterase (TexO), acyl-CoA ligase (TexI), and three nonribosomal peptide synthetases (NRPSs: TexG, TexJ, TexV) in the gene cluster that were proposed to be responsible for the biosynthesis of texenomycins and another related lipopeptaibol, lipohexin. The functions of six key genes (, , , , and ) in the hybrid PKS-NRPS system were verified by gene deletion experiments, and five genes (, , , , and ) were confirmed to be responsible for the biosynthesis of texenomycins, while four genes (, , , and ) were involved in the biosynthesis of lipohexin. Furthermore, the function of one transcription factor gene (), which enhanced the production of texenomycins by regulating the key genes in the gene cluster, was also demonstrated through gene deletion and overexpression experiments. Finally, a hypothetical scheme for texenomycins and lipohexin biosynthesis assembly is proposed. The elucidation of this intricate hybrid PKS-NRPS system has significantly deepened our comprehension of the mechanisms underlying the generation and chemical diversity of fungal lipopeptaibol natural products, offering a promising avenue for future research and potential applications in fungicidal disease control in agriculture.

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http://dx.doi.org/10.1021/acs.jafc.4c08847DOI Listing

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