white rot fungi – Page 4

Textile residue-based mycelium biocomposites from Pleurotus ostreatus

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Researchers successfully grew oyster mushroom mycelium on textile waste to create eco-friendly biocomposites that could replace plastic packaging. The fungus naturally binds textile fibers together, creating lightweight materials with useful structural properties. This approach transforms textile waste into sustainable products while addressing plastic pollution, offering a promising solution for converting unwanted clothing and fabric scraps into useful materials.

Characterization of the Enzymatic and Biosorption Processes Involved in the Decolorization of Remazol Brilliant Blue R Dye by Pleurotus ostreatus Pellets

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This research demonstrates how oyster mushroom pellets can effectively remove harmful synthetic dyes from industrial wastewater through a combination of chemical absorption and enzymatic breakdown. The fungus produces specialized enzymes that degrade the complex dye molecules while also physically absorbing dye particles. This biological approach offers a promising, sustainable alternative to traditional chemical wastewater treatment methods used in the textile industry.

Hydrothermal liquefaction aqueous phase mycoremediation to increase inorganic nitrogen availability

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When biomass is converted to biofuel through a heating process called hydrothermal liquefaction, it produces a waste liquid containing nutrients but also toxins. Scientists used a type of fungus called Trametes versicolor to clean up this waste and convert the nitrogen into forms that plants can use. After three days of treatment with the fungus, nitrogen levels that plants can use increased dramatically. Adding helpful bacteria further improved the results, making this waste potentially usable as a fertilizer for growing vegetables hydroponically.

Characterization of the Enzymatic and Biosorption Processes Involved in the Decolorization of Remazol Brilliant Blue R Dye by Pleurotus ostreatus Pellets

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Oyster mushrooms can effectively remove synthetic dyes from wastewater through a combination of absorption and enzymatic breakdown. Researchers tested Pleurotus ostreatus pellets with a textile dye commonly used as a standard pollutant. The mushroom achieved over 98% dye removal, suggesting it could be used in wastewater treatment systems to clean industrial textile effluent. The fungus both absorbs the dye and produces enzymes that break it down.

Biological Characteristics and Domestication of Dichomitus squalens and the Antioxidant Activity of Its Cultivated Fruiting Bodies

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Researchers cultivated a type of fungus called Dichomitus squalens and extracted beneficial compounds called polysaccharides from its fruiting bodies. These polysaccharides showed strong antioxidant properties, meaning they can help protect cells from damage caused by harmful free radicals. The study identified the best growing conditions for this fungus and developed methods for farming it, suggesting it could become a natural source of antioxidants for health applications.

Oestrogen Detoxification Ability of White Rot Fungus Trametes hirsuta LE-BIN 072: Exoproteome and Transformation Product Profiling

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Scientists discovered that a white rot fungus called Trametes hirsuta can effectively remove harmful oestrogen hormones from water and soil. Within just one day, the fungus eliminated more than 90% of two common oestrogens (E1 and E2) that pollute our environment through pharmaceutical waste and animal farming. The fungus achieves this by producing special enzymes that couple oestrogen molecules together into larger, less harmful compounds that can be easily removed.

Epidemiology, Biotic Interactions and Biological Control of Armillarioids in the Northern Hemisphere

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This paper reviews how armillarioid fungi, particularly Armillaria species, cause root rot disease in forests and orchards across the Northern Hemisphere. These fungi spread through underground root-like structures called rhizomorphs and can kill trees and damage crops over large areas. The authors discuss how to identify these fungi using modern genetic methods and explore environmentally friendly biological control options using beneficial bacteria, fungi, and nematodes as alternatives to chemical treatments.

Saprotrophic Wood Decay Ability and Plant Cell Wall Degrading Enzyme System of the White Rot Fungus Crucibulum laeve: Secretome, Metabolome and Genome Investigations

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This study investigates how a forest fungus called Crucibulum laeve breaks down wood and plant material. Using specialized laboratory techniques, researchers found that this fungus uses a unique set of enzymes that work through oxidation (chemical breakdown using oxygen) rather than simple digestion. The fungus is particularly good at degrading birch wood and produces numerous copies of genes for these special enzymes, giving it an advantage in decomposing partially rotted plant material on the forest floor.

Modern Pro-Health Applications of Medicinal Mushrooms: Insights into the Polyporaceae Family, with a Focus on Cerrena unicolor

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This review explores how medicinal mushrooms, particularly Cerrena unicolor, can be used to improve health through functional foods and supplements. The mushroom contains natural compounds with powerful properties including fighting cancer cells, killing harmful bacteria and viruses, and protecting the body from oxidative stress. Research shows these mushrooms could be incorporated into dairy products and other foods to create innovative health-promoting products for consumers.

Characterization of the Enzymatic and Biosorption Processes Involved in the Decolorization of Remazol Brilliant Blue R Dye by Pleurotus ostreatus Pellets

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This research shows that oyster mushrooms (Pleurotus ostreatus) can effectively remove Remazol Brilliant Blue R dye from contaminated water. The mushroom pellets remove the dye through a combination of absorbing it on their surface and breaking it down with special enzymes called laccases and peroxidases. The study achieved 98.5% dye removal, suggesting this mushroom could be used to treat industrial wastewater from textile factories.

Research Keyword: white rot fungi