nanoparticles – Page 2

Inhibition of Fusarium oxysporum growth in banana by silver nanoparticles: In vitro and in vivo assays

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Researchers tested silver nanoparticles as a potential cure for Fusarium wilt, a serious fungal disease that damages banana crops worldwide. Using laboratory tests and greenhouse experiments with banana plants, they found that silver nanoparticles effectively killed the fungus and reduced disease symptoms by about 68% when applied to plant roots. The study shows that this nanotechnology approach could offer a new way to protect banana plantations from this devastating disease.

Green Myco-Synthesis of Zinc Oxide Nanoparticles Using Cortinarius sp.: Hepatoprotective, Antimicrobial, and Antioxidant Potential for Biomedical Applications

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Scientists created tiny particles called zinc oxide nanoparticles using mushroom extract in an environmentally friendly way. These particles were tested and found to protect the liver from damage, kill harmful bacteria and fungi, and act as powerful antioxidants. This research suggests these mushroom-derived nanoparticles could become useful medicines for treating infections and cancer in the future.

Harnessing pycnidia-forming fungi for eco-friendly nanoparticle production, applications, and limitations

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Certain types of fungi can produce tiny metal particles called nanoparticles that have useful properties. These fungi-made nanoparticles can kill bacteria, fight cancer cells, clean pollutants from water and soil, and be used in medicines and agriculture. Unlike traditional chemical methods for making nanoparticles, using fungi is cleaner and safer for the environment, though scientists still need to understand more about how they work and ensure they are safe to use widely.

Therapeutic Potential of Bioactive Compounds in Edible Mushroom-Derived Extracellular Vesicles: Isolation and Characterization of EVs from Pleurotus eryngii

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Scientists have isolated and studied tiny capsule-like particles called extracellular vesicles from the oyster mushroom Pleurotus eryngii. These vesicles, which are naturally produced by the mushroom, contain beneficial compounds like antioxidants that help protect cells from damage. The researchers found that vesicles from mushroom mycelium (the root-like part) were of higher quality and had stronger antioxidant effects than those from the fruiting body. These findings suggest that mushroom-derived vesicles could potentially be developed into health supplements or therapeutic treatments.

Research Progress of Polysaccharide-Gold Nanocomplexes in Drug Delivery

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Scientists are combining polysaccharides (natural compounds found in plants and organisms) with tiny gold particles to create better drug delivery systems. These hybrid nanoparticles can transport medicines directly to cancer cells while reducing side effects and improving treatment effectiveness. The review discusses how these gold-polysaccharide combinations can also fight bacteria and viruses, making them useful for various medical applications beyond cancer therapy.

Harnessing pycnidia-forming fungi for eco-friendly nanoparticle production, applications, and limitations

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Certain fungi called pycnidial fungi can create tiny particles called nanoparticles that are useful in medicine, agriculture, and environmental cleanup. These fungi naturally produce chemicals and enzymes that reduce metal ions into nanoparticles, which have antimicrobial and cancer-fighting properties. While this biological approach is more environmentally friendly than chemical methods, scientists still need to solve challenges like making it work at large scales and ensuring the nanoparticles are safe and stable.

Potential Usage of Edible Mushrooms and Their Residues to Retrieve Valuable Supplies for Industrial Applications

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Edible mushrooms are not only nutritious foods but also contain valuable compounds that are being wasted during production. Scientists are discovering new ways to use mushroom waste to make useful products like natural skincare items, water purification materials, and food additives. These innovations help reduce environmental pollution while creating valuable products, supporting a more sustainable circular economy.

Analysis of the Development and Thermal Properties of Chitosan Nanoparticle-Treated Palm Oil: An Experimental Investigation

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Researchers added tiny chitosan nanoparticles made from mushrooms and marine sources to palm oil used in cooking and frying. They found that mushroom-based chitosan nanoparticles improved the oil’s ability to conduct heat better than marine-sourced alternatives. This enhancement could make cooking faster and more efficient while reducing harmful compounds formed during high-temperature cooking. The oil treated with chitosan nanoparticles maintains good quality and remains safe for food use.

Conjugation of a Cryptococcus neoformans-derived metalloprotease to antifungal-loaded PLGA nanoparticles treats neural cryptococcosis in an in vitro model

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Researchers developed special nanoparticles that can cross the protective barrier surrounding the brain by using a protein from a fungal infection. These nanoparticles are loaded with an antifungal drug and can effectively treat cryptococcal brain infections in laboratory tests. This approach offers a new way to deliver medicines to the brain without invasive procedures, potentially helping patients with serious brain infections that are currently difficult to treat.

Inhibitive effect of Urginea epigea methanolic extract and silver/zinc oxide nanoparticles on Aspergillus and aflatoxin production

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Scientists tested a plant called Urginea epigea and special tiny particles made of silver and zinc to stop a dangerous fungus called Aspergillus flavus from growing and producing aflatoxins, which are harmful poisons found in food. When used at the right concentration, the plant extract completely stopped the fungus from growing. The treatment worked by turning off the fungus’s ability to make the poison by reducing the activity of specific genes. This natural approach could offer a safer alternative to chemical fungicides for protecting our food supply.

Research Keyword: nanoparticles