镰刀菌色素沉着之谜的最后一块拼图--揭开茄属镰刀菌种群中造成表皮色素沉着的酚烯酮生物合成途径。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-07-14 DOI:10.1016/j.fgb.2024.103912

Mikkel Rank Nielsen , Trine Sørensen , Tobias Bruun Pedersen , Klaus Ringsborg Westphal , Lorena Díaz Fernández De Quincoces , Teis Esben Sondergaard , Reinhard Wimmer , Daren W. Brown , Jens Laurids Sørensen

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引用次数: 0

摘要

Fusarium solani 菌种群（FSSC）由植物和人类的重要病原体组成。FSSC 物种的一个显著特点是表皮色素沉着。其他镰刀菌种的深色表皮色素来自多酮合成酶 3（PKS3）合成的镰刀菌素，而 FSSC 的表皮色素则来自 PKS35 合成的未知代谢物。在这里，我们通过缺失分析证实，在 FSSC 菌种 Fusarium vanettenii 中，PKS35（fsnI）是表皮色素合成所必需的，并且 fsnI 与来自 Herquei 青霉菌的 phnA 以及来自 Talaromyces stipentatus 的 duxI 关系密切，它们分别产生 prephenalenone 作为 herqueinone 和 duclauxin 合成的早期中间产物。在酿酒酵母（Saccharomyces cerevisiae）中表达 fsnI 产生的预苯丙酮表明，它也是表皮色素合成的早期中间体。接下来，我们在 F. vanettenii 中发现了由 10 个基因组成的保守基因簇，当这些基因在 F. graminearum 中表达时，会产生一种新的伞形内酯 F，这可能是 FSSC 中苯丙酮生物合成途径的最终产物。

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Final piece to the Fusarium pigmentation puzzle – Unraveling of the phenalenone biosynthetic pathway responsible for perithecial pigmentation in the Fusarium solani species complex

The Fusarium solani species complex (FSSC) is comprised of important pathogens of plants and humans. A distinctive feature of FSSC species is perithecial pigmentation. While the dark perithecial pigments of other Fusarium species are derived from fusarubins synthesized by polyketide synthase 3 (PKS3), the perithecial pigments of FSSC are derived from an unknown metabolite synthesized by PKS35. Here, we confirm in FSSC species Fusarium vanettenii that PKS35 (fsnI) is required for perithecial pigment synthesis by deletion analysis and that fsnI is closely related to phnA from Penicillium herquei, as well as duxI from Talaromyces stipentatus, which produce prephenalenone as an early intermediate in herqueinone and duclauxin synthesis respectively. The production of prephenalenone by expression of fsnI in Saccharomyces cerevisiae indicates that it is also an early intermediate in perithecial pigment synthesis. We next identified a conserved cluster of 10 genes flanking fsnI in F. vanettenii that when expressed in F. graminearum led to the production of a novel corymbiferan lactone F as a likely end product of the phenalenone biosynthetic pathway in FSSC.

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464