antioxidant activity – Page 19

Modulating effects of Phellinus linteus polysaccharides on antioxidant capacity, immune function, intestinal function and microbiota in lipopolysaccharide-challenged broilers

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Researchers studied how a medicinal mushroom extract called Phellinus linteus polysaccharides could help broiler chickens recover from immune stress caused by bacterial toxins. The supplement improved the chickens’ growth, reduced harmful inflammatory responses, and promoted beneficial gut bacteria while reducing harmful ones. The treatment strengthened the intestinal barrier and restored the chickens’ natural antioxidant defenses. This suggests the mushroom supplement could be a natural alternative to antibiotics for improving poultry health on farms.

Microbial-Based Green Synthesis of Silver Nanoparticles: A Comparative Review of Bacteria- and Fungi-Mediated Approaches

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Scientists are developing environmentally friendly ways to make silver nanoparticles using bacteria and fungi instead of harsh chemicals. These tiny particles show promise in fighting infections, treating cancer, cleaning water, and protecting crops. The review compares how bacteria and fungi each produce these particles and explains how different conditions affect their properties and effectiveness.

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.

Corrigendum: Compounds purified from edible fungi fight against chronic inflammation through oxidative stress regulation

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This article is a correction to a previous study about beneficial compounds found in edible mushrooms. The study examined how various mushroom-derived substances like polysaccharides and peptides can combat chronic inflammation by reducing oxidative stress in the body. Multiple mushroom species were analyzed for their antioxidant properties and mechanisms of action. The corrections ensure proper citation of the original research sources while maintaining the core scientific findings.

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.

Evaluating the antioxidant, anti-inflammatory, and neuroprotective potential of fruiting body and mycelium extracts from edible yellow morel (Morchella esculenta L. Pers.)

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This study examined morel mushrooms from Pakistan to see if they could help treat Alzheimer’s disease and related brain conditions. Researchers tested both the fruiting bodies and the root-like mycelia of Morchella esculenta mushrooms for their ability to fight oxidative stress, reduce inflammation, and inhibit an enzyme that breaks down acetylcholine, a brain chemical important for memory. The results showed that morel extracts, especially from fruiting bodies collected in certain regions, worked as well as or better than conventional medications, suggesting these common edible mushrooms could be developed into treatments for neurodegenerative diseases.

Optimized production and characterization of red dye from Talaromyces purpureogenus PH7 for application as a textile dye

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Scientists discovered that a natural fungus called Talaromyces purpureogenus can produce a bright red dye suitable for coloring textiles. Unlike harmful synthetic dyes that pollute water and soil, this fungal dye is biodegradable and environmentally friendly. The dyed fabrics resisted fading even after repeated washing and sunlight exposure, making it a viable alternative for the textile industry.

Skin Improvement with Antioxidant Effect of Yuja (Citrus junos) Peel Fractions: Wrinkles, Moisturizing, and Whitening

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Yuja, a citrus fruit traditionally used in Asian medicine, shows promising benefits for skin health. This study found that extracts from Yuja peels can help reduce wrinkles, improve skin moisture, and lighten dark spots by protecting skin cells from UV damage and reducing harmful free radicals. The effects work through natural mechanisms that boost collagen production and inhibit melanin overproduction, making Yuja peel fractions promising ingredients for new skincare products.

Mushrooms Do Produce Flavonoids: Metabolite Profiling and Transcriptome Analysis of Flavonoid Synthesis in the Medicinal Mushroom Sanghuangporus baumii

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Researchers discovered that the medicinal mushroom Sanghuangporus baumii produces 81 different flavonoids, compounds known for their health benefits including antioxidant and anti-cancer properties. Using advanced genetic and chemical analysis, they identified the genes and processes responsible for this flavonoid production in mushrooms, which differs from how plants make these compounds. By increasing the activity of a key gene called PAL, they were able to boost flavonoid production in the mushroom. This discovery opens new possibilities for using mushrooms as biological factories to produce flavonoids for medical and nutritional applications.

Natural Products in Renal-Associated Drug Discovery

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This research examines how natural products like green tea and medicinal mushrooms can help treat kidney diseases. Scientists reviewed various plants used in traditional medicine and analyzed how compounds from these plants affect gene expression in kidney cells. The study identified specific genes and biological pathways that explain how these natural antioxidants and anti-inflammatory agents protect kidneys from injury and disease.

therapeutic action: antioxidant activity