free radical scavenging – Page 2

The Lignicolous Fungus Hericium erinaceus (Lion’s Mane Mushroom): A Promising Natural Source of Antiradical and DPPH Inhibitory Agents

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Lion’s Mane mushrooms grown on a special mixture of agricultural waste materials showed the best antioxidant properties in this study. Researchers found that combining sawdust, wheat straw, bagasse, rice bran, and corn flour created the ideal growing environment. The mushrooms produced high levels of protective compounds called phenolics and flavonoids that help fight harmful free radicals in the body. This research shows how we can turn agricultural waste into valuable medicinal mushrooms with strong health benefits.

Comparative Metabolite Profiling Between Cordyceps sinensis and Other Cordyceps by Untargeted UHPLC-MS/MS

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This research compares the chemical compounds found in authentic Cordyceps sinensis with four similar but different Cordyceps species to identify which ones are real. Using advanced laboratory techniques, scientists detected thousands of chemical differences between the species. They found that genuine C. sinensis contains higher levels of specific beneficial compounds like nucleosides and certain fatty acids. These findings help consumers and merchants distinguish authentic Cordyceps from counterfeit products and lower-quality substitutes.

Screening of active components of Ganoderma lucidum and decipher its molecular mechanism to improve learning and memory disorders

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Researchers used computer analysis and laboratory experiments to understand how a medicinal mushroom called Ganoderma lucidum (reishi) helps improve memory and learning problems. They identified ten key active ingredients in the mushroom that work together to reduce inflammation in the brain and protect nerve cells. The most important ingredient appears to be a compound called β-sitosterol, which helps prevent memory loss similar to effects seen in Alzheimer’s disease.

Bioactivity and toxicity of polysaccharides derived from the phytopathogenic mushroom Ganoderma orbiforme cultured in a bioreactor

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Scientists studied a mushroom called Ganoderma orbiforme that normally harms oil palm trees to see if it could be useful as medicine. They grew the mushroom in a special bioreactor and extracted beneficial substances called polysaccharides. These substances showed promise as natural antibiotics and antioxidants while being safe for use based on safety testing with fish embryos.

Fruit and Vegetable Processing Waste as Potential Raw Material for Food Enrichment With Dietary Fiber

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This study examined the fiber content of leftover materials from processing fruits and vegetables, finding that pomace (processing waste) is an excellent source of dietary fiber. Chokeberries and blackcurrants were found to have particularly high fiber levels, while apples and carrots were rich in soluble fiber types. These waste products can be used to create nutritious fiber-enriched foods and supplements, providing both environmental benefits by reducing waste and health benefits through increased dietary fiber consumption.

Marine-Derived Enterococcus faecalis HY0110 as a Next-Generation Functional Food Probiotic: Comprehensive In Vitro and In Vivo Bioactivity Evaluation and Synergistic Fermentation of Periplaneta americana Extract Powder

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Scientists discovered a beneficial bacteria called Enterococcus faecalis HY0110 from bluefin tuna that could help protect gut health and fight harmful pathogens better than current probiotics. This marine bacteria produces important compounds like acetic acid that kill disease-causing bacteria, reduce inflammation in inflammatory bowel disease, and even slows cancer cell growth. When fermented with cockroach powder, it creates powerful health-boosting compounds that could make functional foods more effective for managing digestive diseases and supporting overall wellness.

Potential Bioactivities, Chemical Composition, and Conformation Studies of Exopolysaccharide-Derived Aspergillus sp. Strain GAD7

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Scientists discovered a marine fungus called Aspergillus sp. strain GAD7 that produces a special type of sugar-like substance with medicinal properties. This substance can help prevent blood clotting and fight harmful substances in the body that cause damage. The research shows this fungal product could potentially be used as a therapeutic treatment for conditions related to blood clotting and oxidative stress.

Integrated Transcriptomics and Metabolomics Provide Insight into Degeneration-Related Molecular Mechanisms of Morchella importuna During Repeated Subculturing

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Morel mushrooms are prized edible fungi that unfortunately degrade when repeatedly cultured in the laboratory, becoming slower-growing and less productive. Researchers used advanced genetic and chemical analysis to discover that degeneration occurs when the mushroom stops producing flavonoids, natural antioxidants that protect cells from damage. A specific gene called NR-PKS is responsible for making these protective flavonoids, and it shuts down in degraded strains. The study suggests that preservation methods using cold storage or adding antioxidants could help maintain healthy, productive morel cultures.

Edible Fungi Melanin: Recent Advances in Extraction, Characterization, Biological Activity and Applications

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Melanin from edible mushrooms like black wood ear and reishi offers a natural, sustainable alternative to synthetic melanins with impressive health benefits. These mushroom melanins demonstrate powerful antioxidant and antibacterial properties, protect against radiation damage, and can help maintain liver health. New extraction methods using special solvents are making it easier to obtain pure melanin from mushrooms efficiently, opening doors for its use in food, cosmetics, and medicines.

Extraction, physicochemical properties, and antioxidant activity of natural melanin from Auricularia heimuer fermentation

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Researchers optimized a method to extract melanin, a natural black pigment, from fermented wood ear mushrooms (Auricularia heimuer). Using microwave-assisted extraction with specific pH conditions, they achieved a 0.4% yield of pure melanin. The extracted melanin showed strong antioxidant properties and could be used as a natural, safe colorant and antioxidant in food and pharmaceutical products.

therapeutic action: free radical scavenging