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Recent advances in natural polysaccharides for type 2 diabetes management: sources, structural characteristics, and mechanistic insights

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Natural polysaccharides from plants, mushrooms, and seaweed show promise as treatments for type 2 diabetes. These complex sugar molecules work through multiple mechanisms including improving how the body uses insulin, reducing inflammation and oxidative stress, and promoting beneficial gut bacteria. The effectiveness of these polysaccharides depends on their specific chemical structure, particularly their molecular weight and how their sugar units are linked together.

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.

Neutral Polysaccharides From Hohenbuehelia serotina With Hypoglycemic Effects in a Type 2 Diabetic Mouse Model

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Researchers extracted and studied special compounds called polysaccharides from H. serotina mushrooms. They found that these compounds significantly reduced blood sugar levels in mice with type 2 diabetes and also protected the liver. The study shows that mushroom polysaccharides could be a safe, natural alternative to existing diabetes medications with fewer side effects.

Advances in the extraction, purification, structural characterization, and elucidation of the biological functions of polysaccharides from Hericium erinaceus

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Hericium erinaceus, commonly known as the monkey head mushroom, contains special molecules called polysaccharides that have numerous health benefits. Researchers have found that these polysaccharides can boost immunity, lower cholesterol and blood sugar, fight tumors, reduce inflammation, and promote healthy gut bacteria. Different extraction methods and purification processes can be used to obtain these beneficial compounds, making them useful for developing health supplements and medicines.

Crab vs. Mushroom: A Review of Crustacean and Fungal Chitin in Wound Treatment

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Chitin, a natural material found in crab shells and mushrooms, can be used to make wound dressings that speed up healing and fight infection. The review compares these two sources, finding that crab-derived chitin has been studied more extensively and has several commercial products available, while mushroom-derived chitin offers advantages like lower cost and easier processing. Both types work by promoting cell growth, stopping bleeding, and killing bacteria, making them promising alternatives to traditional wound dressings for treating difficult-to-heal wounds.

Structure and Bioactivity of Intracellular and Extracellular Polysaccharides of Trametes lactinea Mycelium

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Researchers extracted and studied polysaccharides from Trametes lactinea mushroom mycelium grown in liquid culture. They found that these polysaccharides have strong antioxidant properties and can boost immune cell function, with the intracellular polysaccharide IP-3 showing the most promising results. These findings suggest that polysaccharides from mushroom fermentation could have potential health benefits and could be developed into medicinal supplements.

Chitosan and Chitooligosaccharide: The Promising Non-Plant-Derived Prebiotics with Multiple Biological Activities

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Chitosan and chitooligosaccharide are natural compounds derived from crustacean shells and fungi that act as prebiotics to improve gut health. These compounds can fight bacteria and viruses, reduce inflammation, protect against oxidative stress, and help maintain healthy weight and blood sugar levels. They represent a promising, biodegradable alternative to synthetic pharmaceuticals with multiple health benefits.

Three-phase extraction of polysaccharide from Stropharia rugosoannulata: Process optimization, structural characterization and bioactivities

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Researchers developed an efficient new method called three-phase extraction to isolate beneficial compounds called polysaccharides from wine cap mushrooms (Stropharia rugosoannulata). These polysaccharides showed strong antioxidant properties and boosted immune cell activity in laboratory tests by triggering specific cellular pathways. The findings suggest these mushroom extracts could become useful ingredients in functional foods or medicines to support immune health.

Physicochemical Characteristics of Chitosan Extracted from Pleurotus ostreatus and Its Anticancer Activity Against the MDA-MB-231 Breast Cancer Cell Line

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Researchers extracted a compound called chitosan from oyster mushrooms (Pleurotus ostreatus) and tested its ability to fight breast cancer cells. The chitosan successfully killed cancer cells by triggering apoptosis, a natural cell death process, while showing promise as a safer alternative to conventional chemotherapy. The study demonstrates that mushroom-derived compounds could have significant therapeutic potential for cancer treatment with fewer side effects than traditional drugs.

Purification, Structural Characteristics, Bioactive Properties, and Applications of Naematelia aurantialba Polysaccharides: A Comprehensive Review

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Golden ear (Naematelia aurantialba) is a traditional Chinese fungus that is becoming increasingly popular for its health benefits. This comprehensive review explains how scientists extract and purify the beneficial polysaccharides from golden ear, and what makes them effective against diseases like diabetes and inflammation. The research shows these mushroom polysaccharides could be used in medicines, functional foods, and even cosmetics to improve human health.

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