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Extrusion-based additive manufacturing of fungal-based composite materials using the tinder fungus Fomes fomentarius

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Scientists have developed a way to 3D print objects using mushroom mycelium (the thread-like structure of fungi) mixed with seaweed-derived alginate. These lightweight, spongy printed objects are biodegradable and have properties similar to polystyrene foam, but are made from renewable resources. This breakthrough could eventually replace plastic foam in packaging and other applications with an eco-friendly fungal alternative.

Isolation and characterization of marine microorganisms capable of degrading plastics

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Scientists have discovered over 1,500 marine bacteria and fungi that can break down different types of plastic waste. By using optimized culturing methods, they isolated microorganisms capable of degrading common plastics like bottles, foam, and packaging materials. This research provides a foundation for developing biological solutions to address ocean plastic pollution through microbial-based technologies.

Act1 out of Action: Identifying Reliable Reference Genes in Trichoderma reesei for Gene Expression Analysis

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Scientists studying the fungus Trichoderma reesei, which is used industrially to produce enzymes, found that the reference genes commonly used to measure gene activity (act1 and sar1) are not as reliable as previously thought. By analyzing genetic data from multiple studies, they identified two better reference genes called bzp1 and tpc1 that maintain more consistent expression levels across different growth conditions. Using these better reference genes will help researchers more accurately measure how genes are expressed in this important industrial fungus.

Biodecolorization and Biodegradation of Methyl Orange by Immobilized Pseudomonas aeruginosa Bacterium into SA/PVA Matrix Integrated with MOF UiO-66 Adsorbent

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Scientists created special beads containing bacteria and a porous material called MOF to remove orange dye (methyl orange) from contaminated water. The bacteria break down the dye molecules while the porous material helps trap the dye, working together more effectively than either method alone. These beads removed over 92% of the dye from water in just 10 days, making them promising for treating textile industry wastewater.

Snowball: a novel gene family required for developmental patterning of fruiting bodies of mushroom-forming fungi (Agaricomycetes)

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Scientists discovered a new gene called snb1 that is critical for mushroom development. When this gene is removed, mushrooms grow into simple ball-shaped structures without the normal parts like caps and stems. By studying these abnormal mushrooms, researchers identified many other genes involved in proper mushroom formation. This discovery helps explain how mushrooms develop their complex structures from simple fungal networks.

Channel quality predictions assisted by new algorithms for high throughput satellite and 5G systems

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This research develops improved methods to predict how rainfall affects satellite and 5G communications in the United Arab Emirates. Scientists created three new computer algorithms that use actual rainfall measurements from six weather stations across the UAE to predict signal degradation more accurately than existing international standards. The study shows that during heavy rain, satellite systems must switch to simpler transmission methods to maintain reliable communication, and provides practical guidance for designing more robust satellite systems.

MycelioTronics: Fungal mycelium skin for sustainable electronics

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Researchers have developed a new type of electronic device substrate made from fungal mycelium, the thread-like root structure of mushrooms. This material is completely biodegradable and can be processed like traditional electronic materials to create flexible circuits and batteries. The mycelium-based devices can power wireless sensors and transmit data via Bluetooth, demonstrating that sustainable electronics can perform just as well as conventional ones while being composted at the end of their life.

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.

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.

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