Fungal Species: Trametes spp.

Editorial: Pharmaceutically active micropollutants – how serious is the problem and is there a microbial way out?

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Medicines we take don’t fully disappear—30 to 90% are excreted unchanged and end up in water supplies. These pharmaceutical residues contaminate drinking water and harm aquatic life worldwide. Scientists are discovering that certain fungi and bacteria can break down these drug residues through natural metabolic processes. By harnessing these microbes in treatment systems and improving waste management practices, we could significantly reduce pharmaceutical pollution.

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Pleurotus spp.—an effective way in degradation mycotoxins? A comprehensive review

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This review examines how oyster mushrooms (Pleurotus species) can break down mycotoxins—harmful compounds produced by molds in food and animal feed. These mushrooms produce special enzymes that can degrade toxins like aflatoxins and zearalenone, potentially reaching 30-100% degradation depending on conditions. This offers a safer, more environmentally friendly alternative to chemical detoxification methods currently used in the food industry.

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Clinical Isolate of Candida tropicalis from a Patient in North Carolina: Identification, Whole-Genome Sequence Analysis, and Anticandidal Activity of Ganoderma lucidum

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Researchers in North Carolina identified a drug-resistant yeast infection (Candida tropicalis) from a hospital patient and tested whether extracts from reishi mushrooms (Ganoderma lucidum) could kill it. Using genetic analysis, they found mutations in the yeast that help it resist antifungal drugs. All three types of mushroom extracts tested successfully stopped the yeast’s growth and damaged its cells, suggesting that reishi mushrooms could be a promising natural treatment option for hard-to-treat candida infections.

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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.

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Development and Characterization of Mycelium-Based Composite Using Agro-Industrial Waste and Ganoderma lucidum as Insulating Material

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Researchers developed an eco-friendly insulation material using mushroom mycelium (Ganoderma lucidum) combined with waste plant materials from Colombia: Arboloco pith and grass clippings. The resulting material is lightweight, thermally efficient, and comparable to commercial insulators like expanded polystyrene. However, the material shrinks significantly and absorbs water when exposed to moisture, so additional treatments are needed before it can be widely used in buildings.

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Pan-genomic characterization and structural variant analysis reveal insights into spore development and species diversity in Ganoderma

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Researchers completed the first comprehensive genome study of 15 Ganoderma (Lingzhi/Reishi) varieties, including five new Chinese strains. They discovered that specific genetic changes in the MSH4 gene dramatically increase spore production in one superior strain. These findings help explain why different Ganoderma varieties have different medicinal properties and can guide breeding of better medicinal mushroom varieties.

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Determination of Antimicrobial Activity of Extracts of Indigenous Wild Mushrooms Against Pathogenic Organisms

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This research investigated how extracts from wild mushrooms could fight harmful bacteria and fungi that cause infections in humans. The study found that certain mushroom species contain compounds that can effectively kill or stop the growth of dangerous pathogens, including some that are resistant to conventional antibiotics. Impacts on everyday life: • Could lead to new antibiotics derived from natural sources to treat resistant infections • Demonstrates the untapped potential of wild mushrooms for medicine • Highlights the importance of preserving forest biodiversity for medical discoveries • Offers hope for treating infections that don’t respond to current antibiotics • Shows promise for developing new natural antimicrobial treatments

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