Pleurotus ostreatus – Page 7

Fungal Ligninolytic Enzymes and Their Application in Biomass Lignin Pretreatment

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Scientists tested ten different types of fungi to see which ones could best break down lignin, a tough natural material found in plants. Four fungi species showed exceptional ability to produce special enzymes that decompose lignin. These findings could help develop new eco-friendly industrial processes for converting plant waste into useful products, potentially reducing reliance on chemical treatments and fossil fuels.

Investigating the Neuroprotective, Hepatoprotective, and Antimicrobial Effects of Mushroom Extracts

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This study examined four types of edible mushrooms to see if they could protect against aging and fight harmful bacteria. Researchers gave mice an aging-inducing substance and then treated them with mushroom extracts. The mushrooms, particularly Lion’s Mane (Hericium erinaceus), helped prevent brain and liver damage, reduced inflammation, and showed antibacterial effects against multiple bacterial strains. These findings suggest mushrooms could be useful natural supplements to promote health and combat age-related decline.

Multilayer perceptron-genetic algorithm as a promising tool for modeling cultivation substrate of Auricularia cornea Native to Iran

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Black ear mushrooms (Auricularia cornea) are nutritious and medicinal fungi that can be grown on waste materials from wood industries. Researchers tested different combinations of sawdust and bran to find the best growing mixture. They used artificial intelligence to predict which combinations would give the best yields, finding that a mix of 70% beech sawdust with 30% wheat bran worked best and could be produced efficiently.

Recent developments of tools for genome and metabolome studies in basidiomycete fungi and their application to natural product research

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Mushrooms and related fungi in the basidiomycete group produce many useful medicines and agricultural chemicals. Scientists have traditionally struggled to study these fungi because they grow slowly and have complex genomes. Recent technological breakthroughs—including faster DNA sequencing and gene-editing tools—are now making it much easier to discover and understand the helpful compounds these fungi produce, potentially leading to new medicines.

Patent landscape analysis for materials based on fungal mycelium: a guidance report on how to interpret the current patent situation

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This report analyzes patents protecting mycelium-based materials that could replace plastic and petroleum products in construction, packaging, and insulation. Researchers found 73 existing patents and 34 applications, mostly owned by three US companies, with concerns that overly broad patent protections may be slowing innovation in this promising sustainable materials field. The findings suggest that while mycelium materials show tremendous potential as eco-friendly alternatives, patent restrictions need better management to accelerate their development and commercialization.

Enhancing the Nutritional Value and Antioxidant Activity of Auricularia polytricha Through Efficient Utilization of Agricultural Waste

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Researchers successfully grew Auricularia polytricha mushrooms using agricultural waste like cotton, coix seed, and wheat straw instead of expensive wood chips. The mushrooms grown this way not only matured 16 days faster but also contained significantly more nutrients including proteins, minerals, and beneficial compounds with antioxidant properties. This approach provides an affordable, environmentally friendly solution while producing healthier mushrooms.

Searching for Chemical Agents Suppressing Substrate Microbiota in White-Rot Fungi Large-Scale Cultivation

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This research addresses a practical challenge in growing edible mushrooms and using fungi to clean polluted materials: unwanted bacteria and molds prevent beneficial white-rot fungi from growing. Scientists tested various cheap chemicals to find which ones kill unwanted microbes while letting white-rot fungi thrive. They discovered that hydrogen peroxide at 1.5-3% concentration works best, effectively eliminating competing microorganisms without harming the desired fungi, making large-scale mushroom farming and pollution cleanup more feasible and economical.

Edible Mushrooms: A Comprehensive Review on Bioactive Compounds with Health Benefits and Processing Aspects

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Mushrooms are nutrient-rich foods packed with beneficial compounds that can help prevent various diseases including cancer, heart disease, and diabetes. They contain natural antioxidants and immune-boosting substances that support overall health. Scientists are developing new extraction methods to capture these beneficial compounds more efficiently, and various cooking and processing techniques can help preserve their nutritional value for daily consumption.

Beeswax waste improves the mycelial growth, fruiting body yield, and quality of oyster mushrooms (Pleurotus ostreatus)

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Researchers found that adding beeswax waste to the growing substrate for oyster mushrooms significantly improves their yield and nutritional quality. At optimal levels (5%), mushrooms grown with beeswax waste produced 4% more yield and had 28% more protein than those grown with traditional wheat bran. This discovery offers an environmentally friendly solution for disposing of beeswax waste from beekeeping while producing healthier, more nutritious mushrooms.

Analysis of Volatile Organic Compounds and Comparison of Heat Resistance Related Gene Expression in Pleurotus ostreatus Under Heat Stress

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This study examined how oyster mushrooms respond to high temperatures at different growth stages. Researchers found that young mycelium and mature fruiting bodies use different strategies to survive heat stress, which affects the flavor compounds they produce. Mycelium produces more of certain volatile compounds under heat stress, while fruiting bodies actually lose their characteristic mushroom flavor compound called 1-Octen-3-ol.

Fungal Species: Pleurotus ostreatus