Research Keyword: antifungal agent

Bacillus velezensis LMY3-5 for the biocontrol of soft rot in kiwifruit: antifungal action and underlying mechanisms

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Scientists discovered a beneficial bacteria called Bacillus velezensis that can effectively prevent soft rot disease in kiwifruit, which causes serious damage during storage. The bacteria works by producing natural antimicrobial compounds that damage the fungal pathogen’s cell walls and membranes, stopping it from growing. This biocontrol approach offers an environmentally friendly alternative to chemical fungicides, reducing pesticide residues while maintaining fruit quality and safety.

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Pathogen identification and biological fungicides screening for Plumbago auriculata blight in China

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Researchers identified a fungal pathogen (Fusarium ipomoeae) causing a serious disease in Plumbago auriculata ornamental plants in China. They tested seven biological fungicides and found that osthole was the most effective at preventing the disease. The study provides gardeners and farmers with an environmentally friendly solution to control this plant disease using a natural compound.

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Fungal inhibitory activity of sesquiterpenoids isolated from Laggera pterodonta

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Researchers isolated six antifungal compounds from a traditional Chinese medicine plant called Laggera pterodonta. One compound called costic acid showed excellent ability to kill common crop-destroying fungi like P. nicotianae and F. oxysporum by damaging their cell membranes. These natural compounds could serve as safer alternatives to synthetic fungicides in agriculture, offering environmental benefits without toxic chemical residues.

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Mechanism Analysis of Amphotericin B Controlling Postharvest Gray Mold in Table Grapes

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This research shows that amphotericin B, a natural compound produced by bacteria, can effectively prevent gray mold from spoiling table grapes after harvest. The compound works by damaging the mold’s cell membranes and also activates the grapes’ own defense systems. At a treatment level of 200 mg/L, it completely prevented mold growth on grapes over a three-day storage period, offering a safer, more environmentally friendly alternative to synthetic fungicides.

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Antifungal Activity of Genistein Against Phytopathogenic Fungi Valsa mali Through ROS-Mediated Lipid Peroxidation

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Scientists discovered that genistein, a natural compound found in soybeans and other legumes, can effectively kill the fungus that causes apple tree canker disease. The compound works by creating harmful reactive oxygen species that damage the fungus’s cell membranes and disrupt its normal cellular functions. This research suggests genistein could be developed as a safe, natural alternative to chemical fungicides for protecting apple crops.

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