Antifungal activity – Page 2

Green Synthesized Copper-Oxide Nanoparticles Exhibit Antifungal Activity Against Botrytis cinerea, the Causal Agent of the Gray Mold Disease

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Scientists have developed tiny copper particles using environmentally friendly methods with beneficial fungi to fight gray mold, a devastating disease in vineyards and crops. These green-synthesized nanoparticles were more effective at stopping the fungus than commercial fungicides currently in use. The research shows this approach could be a sustainable alternative that reduces harmful chemicals used in agriculture while protecting crops more effectively.

Excellent anti-mildew effect of essential oil impregnation on sliced veneer plybamboo and its anti-mildew mechanism

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Researchers discovered that clove essential oil is highly effective at preventing mold growth on decorative bamboo veneer materials. The natural oil damages fungal cell membranes and disrupts their internal chemistry, killing the mold without toxic chemicals. When bamboo sheets were treated with clove oil before assembly, they showed excellent resistance to common molds. This provides a green, sustainable alternative to harsh chemical treatments while maintaining product quality.

Characterizing antimicrobial activity of environmental Streptomyces spp. and oral bacterial and fungal isolates from Canis familiaris and Felis catus

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Researchers collected bacteria and fungi from the mouths of pet dogs and cats, as well as environmental soil bacteria, to search for natural antimicrobial compounds. They found that some of these microorganisms produce substances that can kill harmful bacteria like E. coli and fungi like Candida albicans, especially when combined with existing antifungal medications. Notably, one environmental bacterium (Streptomyces) produced a compound that was even effective against fungal strains resistant to common antifungal drugs, suggesting promising new treatment possibilities.

Effects of Resinous Compounds from Pine Trees on Spore Germination and Mycelial Growth of a Nematophagous Fungus, Esteya vermicola

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Researchers tested whether a beneficial fungus called Esteya vermicola could be injected into pine trees to fight pine wilt disease. However, they discovered that natural resinous compounds found in pine trees strongly inhibit the growth of this fungus. The findings suggest that trunk injection of this fungus may not be an effective treatment because the tree’s own defensive compounds prevent the fungus from establishing itself and fighting the harmful nematodes.

Transcriptome and metabolome profiling reveal the inhibitory effects of food preservatives on pathogenic fungi

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This research tested three common food preservatives to see how well they stop harmful molds from growing on fruits and vegetables. Scientists found that all three preservatives worked well at different concentrations, with sec-butylamine being particularly effective. By studying the genes and chemical changes in treated fungal cells, they discovered that these preservatives work by damaging the mold’s cell walls and disrupting how it processes sugars, essentially starving and weakening the fungal cells.

Isolation and Identification of Chemical Compounds from Agaricus blazei Murrill and Their In Vitro Antifungal Activities

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Researchers extracted and identified six chemical compounds from A. blazei mushrooms and tested their ability to fight fungal infections. The compounds showed promising activity against common fungal pathogens that cause infections in humans. This research suggests that A. blazei could be developed into natural antifungal treatments. The findings add to growing evidence that medicinal mushrooms contain valuable bioactive compounds with therapeutic potential.

The green shield: Trichoderma’s role in sustainable agriculture against soil-borne fungal threats

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This study examined how a beneficial fungus called Trichoderma can protect crops from harmful soil fungi without using chemical pesticides. Researchers isolated Trichoderma from soil in Kashmir and tested it against 12 different disease-causing fungi. The results showed that Trichoderma effectively stopped the growth of harmful fungi both through direct contact and through compounds it produces. This natural approach could help farmers grow healthier crops while protecting the environment.

Endophytic Diversity in Sicilian Olive Trees: Identifying Optimal Conditions for a Functional Microbial Collection

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Researchers studied beneficial microorganisms living inside olive trees in Sicily to understand how to boost plant health and disease resistance. They found that wild olive trees and woody twigs harbor more diverse and beneficial microbes than cultivated varieties. Bacillus bacteria were particularly valuable, producing compounds that protect plants and promote growth. These findings could help farmers reduce chemical inputs while improving olive production.

FTIR Characterization and Bioactivity Assessment of Cinnamomum camphora Essential Oil: Antioxidant, Anti-Enzymatic, and Antifungal Properties Against Phytopathogens

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Camphor tree essential oil shows promise as a natural, eco-friendly fungicide for protecting crops from fungal diseases. The oil demonstrated strong antifungal activity against several common plant pathogens while also possessing antioxidant and potential antidiabetic properties. This makes it a valuable candidate to replace harmful synthetic pesticides in agriculture, offering benefits for both environmental health and sustainable farming practices.

Biocontrol Potential of Bacillus velezensis RS65 Against Phytophthora infestans: A Sustainable Strategy for Managing Tomato Late Blight

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Researchers tested 30 soil bacteria from tomato roots to find natural disease fighters. They discovered that Bacillus velezensis RS65, a beneficial bacterium, effectively prevents tomato late blight by producing enzymes and toxins that kill the fungal pathogen. In greenhouse tests, plants treated with RS65 had half the disease severity compared to untreated plants, suggesting this bacteria could replace chemical fungicides in sustainable tomato farming.

Research Keyword: Antifungal activity