Research Keyword: Lipopeptides

The biocontrol potential of endophyte Bacillus velezensis to reduce post-harvest tomato infection caused by Rhizopus microsporus

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Researchers tested a naturally occurring bacteria called Bacillus velezensis as a safe alternative to chemical fungicides for protecting tomatoes from rot-causing mold. The bacteria produces special compounds that can kill or slow down the growth of Rhizopus microsporus, a fungus that commonly spoils tomatoes after harvest. While the results show promise, the effectiveness varied depending on which specific strain of bacteria and mold was used, suggesting more research is needed to fine-tune the approach.

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Isolation and Identification of Endophytic Bacterium B5 from Mentha haplocalyx Briq. and Its Biocontrol Mechanisms Against Alternaria alternata-Induced Tobacco Brown Spot

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Scientists discovered a beneficial bacterium called Bacillus velezensis in mint plants that can fight tobacco brown spot disease caused by a fungus. This bacterium works by producing natural antifungal compounds and enzymes that damage the fungus, and it helps boost the plant’s own defense systems. In greenhouse tests, this bacterial treatment was as effective as commercial chemical fungicides, offering farmers a safer, more environmentally friendly option for protecting their tobacco crops.

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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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Bacillus subtilis Strain TCX1 Isolated from Ambrosia artemisiifolia: Enhancing Cucumber Growth and Biocontrol Against Cucumber Fusarium Wilt

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Scientists discovered a beneficial bacterium called Bacillus subtilis strain TCX1 that can protect cucumber plants from a devastating fungal disease called Fusarium wilt. This bacterium both kills the fungus directly through special compounds it produces and strengthens the plant’s natural immune system. Additionally, the bacterium helps cucumber plants grow better by producing growth hormones and improving nutrient absorption, making it a promising natural solution for farmers.

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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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Bacillus velezensis CNPMS-22 as biocontrol agent of pathogenic fungi and plant growth promoter

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A bacterial strain called Bacillus velezensis CNPMS-22 shows promise as a natural pest control agent for crops. When applied to maize seeds, it reduced fungal diseases and increased plant productivity as effectively as chemical fungicides. The bacteria produces natural compounds that kill harmful fungi while also promoting plant growth, offering a safer, more environmentally friendly alternative to synthetic chemicals.

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