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The application of laccase-rich extract of spent mushroom substrates for removing lignin from jute fabric waste: a dual management approach

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This research shows how leftover mushroom growing material (SMS) can be recycled into a useful enzyme called laccase to make jute fabric softer and lighter by removing tough lignin components. Instead of using harsh chemicals, the scientists used mild conditions and natural enzymes to process jute waste sustainably. From just one bag of mushroom waste, they could treat an area of fabric equivalent to 2000 square meters, making this an economically attractive solution for both mushroom and textile waste management.

Mining logical circuits in fungi

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Researchers successfully embedded computing circuits into living mushroom materials. By applying electrical signals to fungal mycelium composites, they discovered the fungi could perform complex logical operations similar to computer gates. This breakthrough suggests that future building materials made from fungi could incorporate computing capabilities, leading to intelligent, living structures that respond to their environment.

Effects of Spent Mushroom Substrate Treated with Plant Growth-Promoting Rhizobacteria on Blueberry Growth and Soil Quality

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This study shows that mushroom farming waste (spent mushroom substrate) can be recycled into a beneficial fertilizer by treating it with beneficial bacteria called plant growth-promoting rhizobacteria. When this treated waste is used to grow blueberries, the plants grow better with higher survival rates and produce more chlorophyll. The treatment also improves soil quality by making nutrients more available to plants and changing the beneficial microorganism community in the soil.

Development of Leather-like Materials from Enzymatically Treated Green Kiwi Peel and Valorization of By-Products for Microbial Bioprocesses

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This research shows how kiwi fruit peels, normally discarded as waste, can be transformed into leather-like materials through enzymatic treatment. The study found that treating the peels with commercial enzymes produced flexible, durable films with properties comparable to traditional leather, while the leftover liquid from the treatment process could be used to grow industrially useful yeast cultures. This integrated approach demonstrates how agro-food waste can be completely recycled into valuable products, supporting sustainable manufacturing practices.

Multi-Organism Composites: Combined Growth Potential of Mycelium and Bacterial Cellulose

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Scientists combined two biological materials—mycelium (fungal roots) and bacterial cellulose—to create new sustainable composites. Through a series of experiments, they found these organisms could grow together successfully when using knitted fabric as a scaffold. The main challenge was preventing mold contamination when both organisms were alive, but the resulting materials showed strong attachment and diverse functional possibilities. This research could lead to new eco-friendly materials for architecture and design.

The Small Key to the Treasure Chest: Endogenous Plant Peptides Involved in Symbiotic Interactions

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Plants use tiny signaling molecules called peptides to communicate with beneficial soil organisms like nitrogen-fixing bacteria and fungi. These peptides act like chemical messengers that help plants decide when to allow these microbes to enter their roots and form helpful relationships. The review identifies over a dozen peptide families that control nodule formation, nutrient uptake, and immune responses, revealing how plants have evolved sophisticated mechanisms to balance protection against harmful pathogens while welcoming beneficial partners.

First Report of Buchwaldoboletus lignicola (Boletaceae), a Potentially Endangered Basidiomycete Species, in South Korea

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Scientists in South Korea discovered a rare mushroom called Buchwaldoboletus lignicola for the first time in the country growing on dead Korean pine trees in Gwangneung Forest. This mushroom, which is endangered in Europe, was identified using both traditional microscopic examination and modern DNA analysis. The findings suggest this rare fungus may be present in Asian forests and could potentially need legal protection in South Korea.

Pseudobaorangia (Boletaceae, Boletales), a new genus for Boletus lakhanpalii

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Scientists studying mushrooms collected in China’s Baima Snow Mountain identified a bolete species that was previously misclassified. Using DNA analysis combined with detailed microscopic examination, they determined this mushroom was distinct enough to warrant creation of a brand new genus called Pseudobaorangia. This discovery helps clarify the evolutionary relationships and proper classification of this rare mountain-dwelling mushroom species.

GlSlt2 positively regulates GlMyb-mediated cellulose utilization in Ganoderma lucidum

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Scientists discovered how a medicinal mushroom called Ganoderma lucidum breaks down cellulose from plant waste. The study found that a protein called GlSlt2 activates another protein called GlMyb, which then turns on genes that produce cellulase enzymes. These enzymes break down cellulose into sugar that the fungus can use for growth. This discovery could help improve the conversion of agricultural waste into biofuels and other useful products.

Enhanced biodegradation of fluorinated pharmaceutical by Aspergillus flavus and Cunninghamella elegans biofilms: kinetics and mechanisms

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This research shows that two types of fungi—Aspergillus flavus and Cunninghamella elegans—can effectively break down commonly prescribed medications found in wastewater through biofilm formation on foam carriers. The fungi degrade these drugs through enzymatic action rather than absorption, removing 85-99% of the pharmaceuticals within days. This discovery offers a promising, cost-effective biological treatment for cleaning wastewater from hospitals and pharmaceutical factories, potentially protecting aquatic environments from drug pollution.

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