Research Keyword: biosynthesis

Recent Advances in Biosynthesis Technology and Future Functional Foods

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Scientists are using engineered microorganisms and advanced fermentation techniques to create healthy food ingredients in a sustainable way. This editorial highlights seven studies showing how these biotechnology approaches improve functional foods, from creating probiotic strains and preserving fish to developing nutrient-enriched biscuits and discovering natural compounds with protective health effects. These innovations offer practical solutions for making foods healthier while reducing environmental impact compared to traditional methods.

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

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Scientists are using special fungi called pycnidial fungi to create tiny nanoparticles that could revolutionize medicine and environmental cleanup. These fungi naturally produce chemicals that can turn metal into useful nanoparticles without the toxic processes used in factories. The resulting nanoparticles show promise in fighting bacteria, cancer cells, and cleaning polluted water, offering a safer and more eco-friendly alternative to traditional methods.

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Eco-friendly biosynthesis of silver nanoparticles using marine-derived Fusarium equiseti: optimization, characterization, and evaluation of antimicrobial, antioxidant, and cytotoxic activities

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Scientists used a marine fungus called Fusarium equiseti to create tiny silver particles called nanoparticles in an environmentally-friendly way. These particles showed strong abilities to kill harmful bacteria and fungi, protect cells from damage caused by free radicals, and fight breast cancer cells in laboratory tests. This green synthesis method offers a safer, non-toxic alternative to traditional chemical manufacturing while producing stable, multi-functional nanoparticles.

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Ergostane-type steroids from mushrooms of Pleurotus genus

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Oyster mushrooms and king trumpet mushrooms contain special compounds called ergostane-type steroids that have interesting chemical structures. These compounds can fight inflammation and may help with cancer. Scientists have discovered that some of these compounds have unique rearranged structures that don’t exist in other organisms. These mushroom-derived compounds show promise for developing new medicines.

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Green Synthesized Copper-Oxide Nanoparticles Exhibit Antifungal Activity Against Botrytis cinerea, the Causal Agent of the Gray Mold Disease

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Scientists developed tiny copper oxide particles using fungi to create a natural fungicide that fights gray mold, a disease that damages grapes and other crops worldwide. These bio-based nanoparticles work better than conventional copper fungicides, offering farmers a more environmentally friendly option. However, the particles showed some toxicity to human cells in laboratory tests, suggesting they need careful handling before field use.

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Convergent evolution links molybdenum insertase domains with organism-specific sequences

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Scientists discovered that fungi have uniquely evolved a special way to make molybdenum cofactor, a molecule essential for life. When researchers tried to swap the fungal version with versions from plants or animals, the fungi couldn’t survive properly. A specific 20-amino acid section turned out to be critical for the fungus to use nitrate as food. This finding shows that evolution has created highly specialized solutions for the same biological problem in different organisms.

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Antifungal activity of zinc oxide nanoparticles (ZnO NPs) on Fusarium equiseti phytopathogen isolated from tomato plant in Nepal

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Researchers in Nepal isolated a fungus called Fusarium equiseti that damages tomato plants and created tiny zinc oxide particles from tea leaves to fight it. These nanoparticles successfully stopped the fungus from growing, reducing its growth by up to 85%. This discovery offers farmers an environmentally friendly alternative to chemical fungicides that harm the environment and create resistant fungi.

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