Bioactive Compound: polysaccharides

Fruiting Body Heterogeneity, Dimorphism and Haustorium-like Structure of Naematelia aurantialba (Jin Er Mushroom)

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Jin Er mushroom, a popular health food in Asia, is actually made up of two different types of fungi growing together. This study discovered that Jin Er can change its form depending on temperature and nutrients, switching between yeast-like and filament-like structures. The research also found special hook-like structures that may help the two fungi interact with each other, which could help improve how Jin Er mushrooms are grown commercially.

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Synergistic immuno-modulatory activity in human macrophages of a medicinal mushroom formulation consisting of Reishi, Shiitake and Maitake

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Researchers studied a combination of three medicinal mushroom extracts to see if they work better together than separately. They tested this formula on human immune cells called macrophages and found that the combination was significantly more powerful at boosting immune responses than any single mushroom extract alone. This synergistic effect means the three mushrooms enhance each other’s immune-stimulating properties, suggesting this formula combination could have potential therapeutic benefits for immune support.

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Ganoapplanilactone C from Ganoderma applanatum Ameliorates Metabolic Dysfunction-Associated Steatotic Liver Disease via AMPK/mTOR-Mediated Lipid Regulation in Zebrafish

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Researchers found that a compound called ganoapplanilactone C from the medicinal mushroom Ganoderma applanatum can protect the liver from fat accumulation and damage caused by high-fat diets. In zebrafish studies, this compound worked better than a common cholesterol drug at reducing liver fat and improving liver health. The compound appears to work by activating a protein called AMPK that helps regulate how the body processes fats and reduces inflammation.

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Impact of Dehydration Techniques on the Nutritional and Microbial Profiles of Dried Mushrooms

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This comprehensive review examines different methods for drying mushrooms and how each technique affects their nutritional value and safety. Freeze drying maintains the best nutritional quality but is expensive, while microwave and hot air drying are faster and more cost-effective while still reducing harmful bacteria. The study helps consumers and food producers understand which drying methods produce the highest quality dried mushrooms for cooking and health benefits.

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Effects of adding food ingredients rich in dietary fiber and polyphenols on the microstructure, texture, starch digestibility and functional properties of Chinese steamed bun

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Researchers created an improved version of Chinese steamed bun by adding dragon fruit, kudzu root, and a medicinal mushroom called Hericium erinaceus. This new bun has much more fiber and antioxidants, and importantly, it causes much smaller increases in blood sugar after eating compared to traditional steamed buns. The study shows it can help promote beneficial gut bacteria and may be beneficial for people managing diabetes and metabolic health.

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Screening of a Fraction with Higher Amyloid β Aggregation Inhibitory Activity from a Library Containing 210 Mushroom Extracts Using a Microliter-Scale High-Throughput Screening System with Quantum Dot Imaging

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Researchers screened 210 mushroom species from Japan to find those that could prevent harmful protein clumping in the brain associated with Alzheimer’s disease. They identified a purified fraction from the mushroom Elfvingia applanata that was more effective than a known anti-Alzheimer’s compound at stopping these protein clumps from forming. The extract also protected nerve cells from damage in laboratory tests. This finding suggests mushrooms could potentially be developed into a functional food to help prevent Alzheimer’s disease.

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Role of Genetically Modified Microorganisms for Effective Elimination of Heavy Metals

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Heavy metals like lead, mercury, and arsenic are dangerous pollutants that accumulate in our environment and food chain, causing serious health problems. Traditional methods to remove these metals are expensive and inefficient. Scientists have created genetically modified bacteria and fungi that are much better at absorbing and breaking down heavy metals from contaminated water and soil, offering a cheaper and more environmentally friendly solution to clean up pollution.

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