Research Keyword: nonribosomal peptide synthetase

FONPS6, a Nonribosomal Peptide Synthetase, Plays a Crucial Role in Achieving the Full Virulence Potential of the Vascular Wilt Pathogen Fusarium oxysporum f. sp. Niveum

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This research explores how a specific fungal gene called FoNPS6 helps the watermelon-wilt-causing fungus Fusarium oxysporum attack plants. Scientists deleted this gene and found that mutant fungi were much less aggressive, couldn’t handle stress well, and struggled to penetrate plant roots. When the gene was restored, the fungi regained full virulence. The study reveals that FoNPS6 helps the fungus absorb iron and break down plant defense chemicals.

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Biocontrol of citrus fungal pathogens by lipopeptides produced by Bacillus velezensis TZ01

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Scientists discovered a beneficial bacterium called Bacillus velezensis that can protect citrus fruits from harmful fungi. This bacterium produces natural compounds called lipopeptides that kill disease-causing fungi without the need for chemical fungicides. The lipopeptides are stable and effective across different environmental conditions, making them promising for use in citrus farming as an eco-friendly alternative to traditional pesticides.

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Discovery of the antifungal compound ilicicolin K through genetic activation of the ilicicolin biosynthetic pathway in Trichoderma reesei

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Scientists used genetic engineering to activate a dormant gene cluster in the fungus Trichoderma reesei, enabling it to produce the antifungal compound ilicicolin H in high quantities. During this process, they discovered a new related compound called ilicicolin K that shows even stronger antifungal properties. These compounds could potentially overcome limitations of current antifungal treatments, especially against drug-resistant fungi like Candida auris.

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