antioxidant activity – Page 3

Isolation and Identification of Pigment-Producing Endophytic Fungi from the Amazonian Species Fridericia chica

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Scientists discovered nine types of fungi living inside an Amazonian plant called crajiru that produce colorful pigments. One fungus called Hypoxylon investiens stood out for producing a red pigment with strong antioxidant and antimicrobial properties. This discovery could help replace synthetic dyes in food and cosmetics with natural alternatives from fungi, which are easier and cheaper to produce than extracting pigments from plants.

Characterization of Homeodomain Proteins at the Aβ Sublocus in Schizophyllum commune and Their Role in Sexual Compatibility and Development

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This study reveals how a split-gill mushroom called Schizophyllum commune controls its sexual reproduction and fruiting body development through specific protein interactions. Scientists identified four key proteins at a genetic locus that work together in pairs to enable sexual compatibility between different mushroom strains. Understanding these genetic mechanisms helps create improved varieties of this edible and medicinal mushroom with better nutritional and pharmaceutical properties.

Structural and Biological Properties of Rhamnogalacturonan-I-Enriched Pectin Isolated from Cardamine tangutorum and Cardamine macrophylla

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Shigecai, a traditional vegetable eaten by Tibetan and Qiang communities, contains special fiber-like compounds called pectins that may be beneficial for health. Researchers found these compounds can help fight free radicals in the body, support healthy gut bacteria, and boost immune function. The study suggests these plants could be developed into health supplements and functional food ingredients.

Extraction Optimization and Bioactivity of Polysaccharides from Ganoderma leucocontextum Spores

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Researchers developed an improved method to extract beneficial polysaccharides from Ganoderma leucocontextum (white Ganoderma), a rare mushroom from the Tibetan plateau. The extracted compound GLSP-A1 showed strong anti-inflammatory effects by reducing inflammatory markers and reduced signs of aging in test organisms by decreasing harmful reactive oxygen species and cellular aging pigments. This work suggests the mushroom polysaccharide could potentially be used in dietary supplements to help slow aging.

Green nanobiopolymers for ecological applications: a step towards a sustainable environment

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This article explains how scientists are creating eco-friendly nanomaterials from natural sources like plants and crustacean shells to replace harmful plastic products. These green nanobiopolymers can break down naturally in the environment and are used in applications ranging from wound dressings to food packaging. The review covers how these materials are extracted and processed at the nanoscale to improve their properties for practical uses while reducing environmental pollution.

Mitigating nickel-induced toxicity: the protective role of native probiotic strains on oxidative stress and inflammatory pathways in mice lung tissues

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This study examined how probiotic bacteria can protect lung tissue from damage caused by nickel exposure. Researchers gave mice nickel to cause oxidative stress and inflammation, then treated them with beneficial bacteria from four probiotic strains. The probiotics successfully reduced oxidative stress markers and inflammatory responses in the lung tissue by activating protective genes and deactivating inflammatory genes. This research suggests that probiotics could be a natural way to prevent lung damage from heavy metal exposure.

Fermented Rice Bran: A Promising Therapeutic Agent Against High-Fat Diet-Induced Metabolic Disorders

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Fermented rice bran, created by fermenting rice byproduct with beneficial bacteria, shows promise in helping manage weight and blood sugar levels in studies using rats on high-fat diets. The fermentation process increases the nutritional value of rice bran by boosting protein, fiber, and antioxidant content. Animals supplemented with fermented rice bran for 8 weeks showed improved cognitive function, better liver health, and improved lipid profiles compared to those on high-fat diets alone.

Physicochemical properties and fermentation characteristics of a novel polysaccharide degraded from Flammulina velutipes residues polysaccharide

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Researchers developed a new method to break down a large mushroom polysaccharide from golden needle mushroom plant residues into smaller, more useful molecules. The smaller version works better as an antioxidant and helps feed beneficial gut bacteria, producing beneficial compounds that support digestive health. This discovery could lead to new functional food products and health supplements using mushroom waste that would otherwise be discarded.

Domestication Cultivation and Nutritional Analysis of Hericium coralloides

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Researchers successfully grew a rare medicinal mushroom called Hericium coralloides from a wild sample found on the Tibetan Plateau. The mushroom is nutrient-rich, containing good amounts of protein and fiber while being low in fat, making it a healthy food choice. The mushroom’s compounds showed strong antioxidant properties and the ability to slow the growth of certain cancer cells, particularly breast cancer cells, suggesting potential health benefits.

Therapeutic Effects of Natural Products on Liver Cancer and Their Potential Mechanisms

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This review examines how natural products from plants, fungi, and marine organisms can help treat liver cancer more safely and effectively than current drugs. These natural compounds work through multiple pathways such as triggering cancer cell death, stopping cell growth, and boosting the immune system. The research found that seven categories of natural products show promise, with sources ranging from ginseng and turmeric to mushrooms and seaweed, offering potential new treatment options that could reduce side effects and drug resistance.

therapeutic action: antioxidant activity