Auricularia polytricha

Screening of a Fraction with Higher Amyloid β Aggregation Inhibitory Activity from a Library Containing 210 Mushroom Extracts Using a Microliter-Scale High-Throughput Screening System with Quantum Dot Imaging

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Researchers screened 210 mushroom species from Japan to find those that could prevent harmful protein clumping in the brain associated with Alzheimer’s disease. They identified a purified fraction from the mushroom Elfvingia applanata that was more effective than a known anti-Alzheimer’s compound at stopping these protein clumps from forming. The extract also protected nerve cells from damage in laboratory tests. This finding suggests mushrooms could potentially be developed into a functional food to help prevent Alzheimer’s disease.

The Possibility of Using Sulphur Shelf Fungus (Laetiporus sulphureus) in the Food Industry and in Medicine—A Review

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Sulphur shelf fungus, known as ‘chicken of the woods,’ is a bright yellow mushroom that grows on tree trunks and has remarkable health benefits. Research shows it contains compounds with antioxidant, antibacterial, and anticancer properties, making it valuable for both food and medicine. The fungus can be cultivated relatively quickly and easily, and some countries already recognize it as safe for food use, potentially opening new applications in the food and pharmaceutical industries.

Application of Fungus Enzymes in Spent Mushroom Composts from Edible Mushroom Cultivation for Phthalate Removal

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This research shows that leftover mushroom growing material (spent compost) can be used to clean phthalates from wastewater. Phthalates are harmful chemicals found in plastics that can damage human health. Scientists tested four types of mushroom composts and found they all worked, with the best results removing 99% of certain phthalates. This provides an affordable, eco-friendly way to treat polluted water.

Beneficial bacterial-Auricularia cornea interactions fostering growth enhancement identified from microbiota present in spent mushroom substrate

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Researchers discovered that certain beneficial bacteria, particularly Pseudonocardia mangrovi, can significantly boost the growth of wood ear mushrooms (Auricularia cornea) through laboratory studies. By analyzing the microscopic communities in spent mushroom substrates from high-yielding versus low-yielding farms, they identified bacteria that promote mushroom growth through multiple mechanisms. Co-cultivation experiments and protein analysis revealed these bacteria work synergistically by helping mushrooms break down nutrients and produce growth-enhancing compounds. This research can help farmers select beneficial microbes to improve mushroom yields and profitability.

Harnessing mushrooms for poultry nutrition: Boosting health, immunity, and productivity

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Mushrooms and mushroom stems are emerging as natural feed additives that can significantly improve poultry health, growth, and egg/meat quality while reducing the need for antibiotics. These fungi contain beneficial compounds that boost immune function, reduce harmful bacteria, and protect against cellular damage. By using mushroom byproducts that are typically discarded, farmers can create more sustainable and environmentally friendly poultry production systems while improving overall bird health and productivity.

Breaking Down Linear Low-Density Polyethylene (LLDPE) Using Fungal Mycelium (Part A): A Path Towards Sustainable Waste Management and Its Possible Economic Impacts

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Researchers discovered that certain fungi, especially Schizophyllum commune, can effectively break down plastic waste called LLDPE through their natural enzymes. In laboratory tests, this fungus degraded plastic about 20 times faster than samples without fungal treatment over 30 days. This fungal approach is cheaper and more environmentally friendly than traditional methods like incineration or landfilling, and could help solve plastic pollution while creating jobs and using agricultural waste productively.

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.

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.

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.

Unveiling the Therapeutic Potentials of Mushroom Bioactive Compounds in Alzheimer’s Disease

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Mushrooms contain special compounds that may help protect the brain from Alzheimer’s disease. Research shows that eating mushrooms regularly could reduce the risk of memory problems and cognitive decline in older adults. These compounds work by reducing brain inflammation, protecting nerve cells, and helping the brain clear out harmful proteins. While these findings are promising, more human studies are needed to confirm how effective mushrooms are as an Alzheimer’s treatment.

Fungal Species: Auricularia polytricha