antimicrobial activity – Page 4

A bibliometric analysis of fungal volatile organic compounds

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Fungi release distinctive smells made up of volatile compounds that help them communicate with plants, bacteria, and other organisms. These fungal smell chemicals have grown from being studied mainly in wine fermentation to being explored for helping crops grow better, fighting plant diseases naturally, and creating food flavors without chemicals. This research shows that understanding how fungi use these smell chemicals could lead to more sustainable farming practices and natural alternatives to harmful pesticides.

A Systematic Comparative Study on the Physicochemical Properties, Volatile Compounds, and Biological Activity of Typical Fermented Soy Foods

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This research compared six popular fermented soy foods to understand their unique flavors and health benefits. Scientists found that each food has different flavor chemicals, with natto being distinctive for containing compounds called pyrazines. All six fermented soy foods showed strong antioxidant and antibacterial properties, making them valuable for health promotion. The findings can help food producers improve these traditional foods.

Exploring the health benefits of Ganoderma: antimicrobial properties and mechanisms of action

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Ganoderma is a medicinal mushroom that has been used in traditional medicine for thousands of years and is now being studied for its ability to fight infections. The mushroom contains special compounds like polysaccharides and triterpenoids that can kill harmful bacteria and fungi in multiple ways—by breaking down their cell walls, stopping them from reproducing, and boosting your immune system. Scientists have found that Ganoderma works against many dangerous bacteria including antibiotic-resistant strains, and it may offer a natural alternative to conventional antibiotics as antibiotic resistance becomes a major global health problem.

Biological applications of yttrium oxide nanocomposites synthesized from Aspergillus penicillioides and their potential role in environmental remediation

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Researchers used a fungus called Aspergillus penicillioides to create tiny particles of yttrium oxide that can remove dangerous metals like lead and nickel from contaminated water. These particles work like microscopic sponges that grab onto the toxic metals when exposed to UV light. The particles also kill bacteria and fight harmful free radicals, making them useful for both cleaning water and potentially treating infections.

Functionalized Micellar Membranes from Medicinal Mushrooms as Promising Self-Growing Bioscaffolds

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Scientists created special membranes from medicinal mushrooms that can help heal wounds and regenerate damaged skin. These membranes are grown naturally in liquid culture and enriched with extract from mango peels to fight bacteria and promote healing. The material is completely natural, biodegradable, and performs better than many conventional wound healing materials, making it an eco-friendly option for medical applications.

Harnessing pycnidia-forming fungi for eco-friendly nanoparticle production, applications, and limitations

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Certain fungi called pycnidial fungi can create tiny particles called nanoparticles that are useful in medicine, agriculture, and environmental cleanup. These fungi naturally produce chemicals and enzymes that reduce metal ions into nanoparticles, which have antimicrobial and cancer-fighting properties. While this biological approach is more environmentally friendly than chemical methods, scientists still need to solve challenges like making it work at large scales and ensuring the nanoparticles are safe and stable.

Heat Treatment of Reishi Medicinal Mushroom (Ganoderma lingzhi) Basidiocarp Enhanced Its β-glucan Solubility, Antioxidant Capacity and Lactogenic Properties

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This study shows that heating dried Reishi mushrooms at 150°C for 20 minutes improves their health benefits. The heat treatment increases antioxidant compounds, makes the beneficial β-glucans more available, and enhances prebiotic effects that feed good gut bacteria while suppressing harmful bacteria. These findings suggest that properly heated Reishi mushroom products could be more effective as functional food ingredients without losing their medicinal properties.

Genomic Insights into Vaccinium spp. Endophytes B. halotolerans and B. velezensis and Their Antimicrobial Potential

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Scientists discovered that wild berries like blueberries, cranberries, and lingonberries contain beneficial bacteria that can fight harmful fungi and bacteria. These bacteria produce natural antimicrobial compounds similar to how antibiotics work, making them promising candidates for protecting crops without chemical pesticides. The bacteria also help plants absorb nutrients and cope with stress, offering multiple benefits for sustainable agriculture.

Effect of AgNPs on PLA-Based Biocomposites with Polysaccharides: Biodegradability, Antibacterial Activity and Features

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Scientists created a new type of eco-friendly plastic made from PLA (a biodegradable polymer) mixed with silver nanoparticles and natural starches or chitosan. These new materials can kill bacteria and break down naturally in soil within a few months, making them useful for food packaging and medical applications. The addition of silver particles gave the materials antibacterial properties without reducing their ability to biodegrade in natural soil conditions.

Unlocking Reishi’s secrets: nutritional and medicinal traits of Ganoderma lucidum isolated from tree bark in Egypt

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Reishi mushrooms (Ganoderma lucidum) from Egypt show promise as natural medicine. Researchers tested extracts and found they can fight bacteria, viruses, and cancer cells in laboratory tests. The mushrooms are rich in beneficial compounds like vitamins and antioxidants. While the extract was not as strong as conventional drugs, it showed good safety profiles and potential for development into new medicines.

Research Topic: antimicrobial activity