therapeutic action: antiviral

Green-Synthesized Nanomaterials from Edible and Medicinal Mushrooms: A Sustainable Strategy Against Antimicrobial Resistance

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Scientists are developing a new weapon against antibiotic-resistant bacteria using mushrooms. These special nanoparticles derived from edible and medicinal mushrooms can kill harmful bacteria in multiple ways without the toxic chemicals used in traditional manufacturing. The nanoparticles work by disrupting bacterial membranes, creating harmful molecules called free radicals, and even boosting your body’s natural immune response. This environmentally friendly approach could become an important tool in fighting dangerous infections that don’t respond to current antibiotics.

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Biosensors Based on Phenol Oxidases (Laccase, Tyrosinase, and Their Mixture) for Estimating the Total Phenolic Index in Food-Related Samples

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This review discusses specialized sensors that can quickly measure the total amount of beneficial plant compounds (phenolics) in foods like tea, wine, coffee, and fruits. These biosensors use enzymes from mushrooms and other sources to detect phenolic compounds more efficiently than traditional methods. The sensors can be made more effective by using tiny materials called nanomaterials, which improve how well they work and how long they last.

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Towards engineering agaricomycete fungi for terpenoid production

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Mushroom-forming fungi, particularly species like shiitake and oyster mushrooms, naturally produce valuable compounds called terpenoids used in medicines, food, and cosmetics. Scientists are learning to genetically engineer these fungi to produce even larger amounts of these beneficial compounds, potentially making them as important to biotechnology as baker’s yeast and mold have been historically. This could create new sustainable sources for medicinal compounds and industrial chemicals.

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Harnessing the Nutritional Value, Therapeutic Applications, and Environmental Impact of Mushrooms

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Mushrooms are nutritious superfoods packed with protein, fiber, vitamins, and minerals that support overall health. They contain special compounds that can fight inflammation, boost immunity, and help prevent serious diseases like cancer and diabetes. Beyond eating them, mushrooms are being used to make medicines, cosmetics, and animal feed, while also helping clean up polluted environments. Regular consumption of mushrooms offers significant health benefits and can be a valuable addition to any healthy diet.

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Introduction to Traditional Medicine and Their Role in Prevention and Treatment of Emerging and Re-Emerging Diseases

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This article explores how traditional medicine systems like Ayurveda and Chinese Medicine can help prevent and treat infectious diseases, including COVID-19. These ancient healing systems use natural herbs and lifestyle changes to boost immunity and fight infections more holistically. Scientific evidence shows that natural compounds like curcumin from turmeric have real antiviral and anti-inflammatory properties. By combining traditional knowledge with modern research, we may develop better treatments for emerging diseases.

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Valorization of various lignocellulosic wastes to Ganoderma lucidum (Curtis) P. Karst (Reishi Mushroom) cultivation and their FT-IR assessments

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This research demonstrates how agricultural and forestry waste materials can be effectively converted into nutritious Reishi mushrooms through sustainable cultivation practices. Oak wood substrates produced the highest mushroom yields, while various agricultural wastes showed promising results for producing medicinal mushrooms. Using specialized spectroscopy techniques, scientists confirmed that the Reishi mushroom effectively breaks down and utilizes the complex plant materials in these waste substrates. This approach offers an environmentally friendly solution to waste management while producing valuable medicinal mushrooms.

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Multi-omics analysis of Taiwanofungus gaoligongensis: effects of different cultivation methods on secondary metabolites

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Researchers studied how different growing methods affect the medicinal compounds produced by Taiwanofungus gaoligongensis, a rare fungus. By growing the fungus on different substrates including wood from specific trees, they found that certain growing methods produced much higher levels of beneficial compounds like antcins that have anti-cancer and anti-inflammatory properties. They also identified which genes control the production of these compounds, which could help improve cultivation methods to make the fungus more medicinally valuable.

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Effect of Strain, Wood Substrate and Cold Treatment on the Yield and β-Glucan Content of Ganoderma lucidum Fruiting Bodies

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Researchers successfully cultivated a medicinal mushroom (Ganoderma lucidum) using leftover wood from sawmills and plywood factories. By testing different wood types and mushroom strains with cold treatments, they found that poplar wood combined with a specific mushroom strain produced the highest levels of β-glucan, a beneficial compound used in pharmaceuticals and food products. This approach transforms industrial waste into valuable medicinal mushrooms, supporting a circular economy.

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