Research Keyword: ROS scavenging

The VlMYB149-VlHIPP30 Regulatory Module Enhances Grapevine Resistance to Botrytis cinerea by Activating the Antioxidant System and Copper Metabolism

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Scientists discovered that two grape proteins working together help grapes resist a common fungal disease called grey mould. When grapes are infected, one protein (VlMYB149) activates a second protein (VlHIPP30) that helps the plant accumulate copper and boost its natural antioxidant defenses. This discovery could help farmers grow disease-resistant grape varieties without relying on chemical fungicides.

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Biological Characteristics, Domesticated Cultivation Protocol, Antioxidant Activity, and Protective Effects against Cellular Oxidative Stress of an Underutilized Medicinal Mushroom: Fomitopsis palustris

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Researchers successfully grew and studied Fomitopsis palustris, a medicinal mushroom, in laboratory conditions. They discovered that the mushroom contains beneficial compounds that protect cells from damage caused by harmful free radicals. The polysaccharides extracted from the mushroom boosted the cells’ natural defense systems and reduced oxidative stress markers, suggesting potential health benefits for treating age-related and degenerative diseases.

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Ganoderma lucidum and Robinia pseudoacacia Flower Extract Complex Alleviates Kidney Inflammation and Fibrosis by Modulating Oxidative Stress

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Researchers studied a natural supplement made from reishi mushroom and black locust flower to treat kidney disease. In laboratory and animal tests, this supplement reduced kidney damage by lowering harmful molecules called free radicals and controlling inflammation. The supplement worked by blocking specific pathways that cause kidney inflammation and scarring, suggesting it could be a helpful natural treatment for people with chronic kidney disease.

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Glucose-6-Phosphate Dehydrogenase Modulates Shiraia Hypocrellin A Biosynthesis Through ROS/NO Signaling in Response to Bamboo Polysaccharide Elicitation

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Researchers discovered that a naturally derived compound from bamboo boosts the production of hypocrellin A, a promising cancer-fighting and antimicrobial agent made by a special fungus. By studying a key enzyme called G6PDH, they found that it acts as a molecular switch controlling hypocrellin production when the fungus senses bamboo components. This discovery enables cost-effective large-scale production of this powerful medicine through simple fermentation, potentially making novel cancer treatments and antibiotics more accessible.

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Impact of sublethal zinc exposure on ectomycorrhizal Laccaria bicolor x poplar symbiosis

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This research examines how a common fungus called Laccaria bicolor helps poplar trees survive in soil contaminated with zinc, a heavy metal. Even though the zinc slows down both the fungus and plant growth, they can still form a beneficial partnership. The study found that the fungus activates specific defense mechanisms to protect itself and the plant from zinc damage, particularly through the production of protective proteins and enzymes that reduce harmful chemical reactions.

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Bioaccumulation and physiological changes in the fruiting body of Agaricus bisporus (Large) sing in response to cadmium

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This research shows that button mushrooms (Agaricus bisporus) can absorb and accumulate harmful cadmium from contaminated soil. When exposed to cadmium stress, the mushrooms increase their protective chemical defenses, including antioxidant enzymes and organic acids, to survive the toxic conditions. The study demonstrates that these edible mushrooms could potentially be used as a practical and cost-effective method to clean up cadmium-polluted soils.

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Safe and Effective Antioxidant: The Biological Mechanism and Potential Pathways of Ergothioneine in the Skin

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Ergothioneine is a natural compound found in certain fungi and bacteria that acts like a powerful antioxidant in the body. When applied to skin, it can protect against damage from sun exposure and environmental pollution, reduce signs of aging, and help calm inflammation. It’s particularly special because it automatically travels to damaged areas in the skin where it’s needed most, making it an efficient and targeted treatment ingredient for cosmetics.

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