Antimicrobial activity – Page 6

Physicochemical Characterization and Antimicrobial Analysis of Vegetal Chitosan Extracted from Distinct Forest Fungi Species

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Researchers extracted and tested chitosan from five different mushroom species as an alternative to traditional crab-derived chitosan for allergic individuals. Using various scientific techniques, they found that chitosan from lion’s mane mushroom (H. erinaceus) had the best ability to dissolve in solution and kill bacteria, making it promising for food preservation. The study shows that mushroom-based chitosan can work as well as or better than shellfish-derived chitosan while avoiding allergen risks, offering a sustainable solution for food packaging and preservation.

Mesoporous silica and vegetal extracts combined as sustainable stone heritage protection against biodeterioration

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Researchers developed an eco-friendly method to protect historic stone buildings and sculptures from fungal damage. They trapped natural plant oils (from oregano and thyme) inside tiny nano-containers made of silica, which slowly releases the antimicrobial compounds over time. When tested on marble samples, this coating prevented fungal growth for two months without harmful chemicals, making it safe for both the environment and workers preserving cultural heritage.

Production of β-Glucans by Pleurotus ostreatus: Cultivation and Genetic Background

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Oyster mushrooms (Pleurotus ostreatus) are increasingly popular edible fungi that can grow on various waste materials like agricultural byproducts and food waste, making them both economical and environmentally friendly. These mushrooms produce valuable health-promoting compounds called β-glucans that have immune-boosting and antioxidant properties. Modern scientific techniques, including genetic analysis and artificial intelligence, are being used to optimize cultivation methods and increase production of these beneficial compounds. This sustainable approach to mushroom farming helps reduce waste while providing nutritious and medicinal food products.

Whole genome sequencing and annotations of Trametes sanguinea ZHSJ

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Scientists have completely mapped the genetic code of Trametes sanguinea, a medicinal mushroom used in traditional Chinese medicine. They identified over 10,000 genes and analyzed how this mushroom produces compounds that fight tumors, boost immunity, protect the heart, and fight viruses. This genetic map will help researchers understand how to produce these beneficial compounds and develop new medicines from this mushroom.

Draft Genome Sequence of the Coprinoid Mushroom Coprinopsis strossmayeri

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Scientists sequenced the complete genetic blueprint of Coprinopsis strossmayeri, a mushroom that lives in dung. By analyzing its genome, they discovered the mushroom produces multiple types of chemical compounds with antimicrobial properties that could be useful for developing new medicines. The research highlights how fungi living in competitive environments like dung have evolved to produce substances that could benefit human health through pharmaceutical applications.

Electrospun Membranes Loaded with Melanin Derived from Pecan Nutshell (Carya illinoinensis) Residues for Skin-Care Applications

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Researchers developed new skincare membranes by combining pecan shell waste with advanced fiber technology. These membranes harness melanin from the shells to create materials with strong antioxidant and antibacterial properties that could protect skin from aging and infections. The innovation demonstrates how agricultural waste can be transformed into valuable cosmetic products that are both effective and environmentally friendly.

Biopreservation of Hericium erinaceus By-Products via Lactic Acid Fermentation: Effects on Functional and Technological Properties

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This study shows how a natural fermentation process using beneficial bacteria can transform lion’s mane mushroom waste into a healthier food ingredient. The fermentation makes the mushrooms safer by eliminating spoilage organisms, increases their antioxidant power by up to 31%, and prevents the buildup of potentially harmful compounds. This approach offers a sustainable solution for mushroom producers to reduce waste while creating valuable functional food ingredients.

Fungal β-Glucans: Biological Properties, Immunomodulatory Effects, Diagnostic and Therapeutic Applications

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β-glucans are beneficial compounds found in fungi and some plants that help your body in multiple ways. They boost your immune system, lower cholesterol and blood sugar, protect against oxidative stress, and may help fight cancer and infections. Recent research shows they could be useful as diagnostic markers for fungal infections and as vaccine boosters, especially for diseases like COVID-19.

Exploring the Wound Healing Potential of Hispidin

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Hispidin, a natural compound from medicinal mushrooms, shows promise as a wound healing treatment. Research demonstrates that hispidin can kill harmful bacteria, stimulate skin cell growth and migration, reduce inflammation, and improve wound closure when applied as an ointment. The 5% hispidin ointment performed as well as or better than standard wound treatments in rat studies, with no toxic side effects observed, suggesting potential for future wound care products.

Four Unrecorded Species of Endophytic Diaporthe (Sordariomycetes) in Korea

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Researchers in Korea discovered four types of fungi living inside plants without causing harm, called endophytic fungi. These fungi belong to a genus called Diaporthe and were identified using DNA analysis and microscopic examination. The study helps us understand the hidden diversity of fungi living in Korean plants and could lead to discovering new medicines or ways to control plant diseases.

therapeutic action: Antimicrobial activity