Fungal Species:  Amauroderma rugosum

Attenuation of Inflammatory Mediators (TNF-α and Nitric Oxide) and Up-Regulation of IL-10 by Wild and Domesticated Basidiocarps of Amauroderma rugosum in LPS-Stimulated RAW264.7 Cells

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This research examined how a traditional medicinal mushroom called Amauroderma rugosum can help reduce inflammation and act as an antioxidant. The study found that both wild and cultivated forms of the mushroom effectively reduced inflammation markers and increased anti-inflammatory compounds in cells. This validates its traditional use in Asian medicine. Impacts on everyday life: • Provides scientific evidence supporting traditional medicine practices • Demonstrates potential for developing natural anti-inflammatory treatments • Shows that cultivated mushrooms can be as effective as wild ones • Offers a potential natural alternative to synthetic anti-inflammatory drugs • Suggests new ways to help manage inflammatory conditions naturally

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Medicinal Mushrooms

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This research examines how certain mushrooms can be used as medicine, similar to how we use plants for herbal remedies. While mushroom medicine has been common in Asia for centuries, it’s now gaining popularity worldwide. Scientists are discovering that many mushrooms contain powerful compounds that can help fight diseases and boost health. Impacts on everyday life: • New natural supplements becoming available for immune system support • Potential new treatments for cancer, diabetes and inflammatory conditions • More sustainable sources of medicine through mushroom cultivation • Alternative options for athletes looking to improve performance naturally • Expanded dietary choices for people seeking functional foods with health benefits

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Bioprocessing of Agricultural Residues as Substrates and Optimal Conditions for Phytase Production of Chestnut Mushroom, Pholiota adiposa, in Solid State Fermentation

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This research explored using agricultural waste materials to produce an important enzyme called phytase using mushrooms. The enzyme helps animals better absorb phosphorus from their food. The study found that the chestnut mushroom (Pholiota adiposa) could effectively produce this enzyme when grown on water hyacinth, a common aquatic weed. The researchers optimized the production conditions to get maximum enzyme yields. Impacts on everyday life: – Provides a way to convert agricultural waste into valuable products – Could lead to more sustainable and cost-effective animal feed supplements – Helps reduce environmental pollution from agricultural waste – Demonstrates potential for using invasive plants (water hyacinth) productively – Could lower costs of enzyme production for various industrial applications

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