immune dysfunction – mycolab.ai

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.

Biphasic Fermentation of Trapa bispinosa Shells by Ganoderma sinense and Characterization of Its Polysaccharides and Alcoholic Extract and Analysis of Their Bioactivity

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This study investigated fermenting water chestnut shells with a medicinal mushroom called Ganoderma sinense to create a more potent health product. Under optimal fermentation conditions, the resulting material showed significantly improved immune-boosting and antioxidant properties when tested in laboratory cells. The fermentation process changed the structure of polysaccharides and increased beneficial compounds, potentially transforming agricultural waste into a valuable functional food or supplement.

Enhancing Viability of Lactobacillus rhamnosus GG and Total Polyphenol Content in Fermented Black Goji Berry Beverage Through Calcium–Alginate Encapsulation with Hydrocolloids

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Researchers developed a special technique to protect beneficial bacteria (Lactobacillus rhamnosus GG) in black goji berry juice so they survive the harsh conditions of the stomach and intestines. They used a coating made from alginate combined with ingredients like carrageenan or gelatin, which created a protective shield around the bacteria and helpful plant compounds. When this coated juice was taken with milk, the bacteria survived even better, making it a promising new way to deliver probiotics through plant-based beverages instead of traditional dairy products.

Enhancement of polysaccharides production using microparticle enhanced technology by Paraisaria dubia

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Researchers developed a new method to produce medicinal polysaccharides from a Cordyceps fungus using tiny talc particles to improve fermentation. By adding the right amount and size of talc particles, they were able to produce significantly more polysaccharides with beneficial health properties. The method works well in large-scale bioreactors and could be used to produce these valuable medicinal compounds more efficiently.

Bioactive Potential of Tocosh Supplemented with Selenium-Enriched Saccharomyces Cerevisiae Biomass

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Researchers enhanced a traditional Peruvian fermented potato food called tocosh by adding selenium-enriched yeast. This combination reduced inflammation markers in immune cells without affecting its blood sugar impact or antioxidant properties. The resulting product shows promise as a functional food that could help people manage inflammatory conditions while improving nutritional content.

Influence of Culture Conditions on Bioactive Compounds in Cordyceps militaris: A Comprehensive Review

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Cordyceps militaris is a medicinal fungus used in traditional medicine to treat fatigue, boost immunity, and fight disease. This comprehensive review explains how different growing conditions—including the type of food (substrate), light exposure, temperature, and nutrient ratios—affect the production of powerful healing compounds like cordycepin and polysaccharides. The review compares growing methods using grains versus insects, showing that insect-based cultivation produces higher concentrations of beneficial compounds. Key recommendations for the future include developing standardized growing protocols and integrating advanced research techniques to scale up production sustainably.

Insights into microbiome-triterpenoid correlation in Poria cocos via comparative analysis of sclerotial and soil microenvironments

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Researchers discovered that the medicinal fungus Poria cocos creates its own specialized microbial environment in its underground structure that is closely linked to the production of pachymic acid, a compound with anti-cancer and immune-boosting properties. By comparing the microbes living in the fungus versus surrounding soil, they found specific beneficial bacteria and fungi that thrive in the fungus but are rare in soil. This discovery could help improve cultivation techniques to produce higher quality medicinal fungi with more therapeutic compounds.

Influence of Culture Conditions on Bioactive Compounds in Cordyceps militaris: A Comprehensive Review

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Cordyceps militaris is a medicinal fungus used in traditional medicine for treating fatigue, boosting immunity, and fighting cancer. This review explains how growing conditions—such as the type of grain or insect substrate used, light exposure, temperature, and nutrient balance—dramatically affect the production of beneficial compounds like cordycepin. The research shows that mixing grains with insect-based materials and using specific light wavelengths can significantly increase the potency of these medicinal fungi, making them more effective for health applications.

Influence of Culture Conditions on Bioactive Compounds in Cordyceps militaris: A Comprehensive Review

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This review examines how growing conditions affect the medicinal compounds produced by Cordyceps militaris mushrooms. The research shows that factors like light exposure, specific nutrient combinations, and growing on insect-based substrates can significantly boost production of beneficial compounds like cordycepin. These findings suggest ways to produce more effective and affordable medicinal mushroom products for use in supplements and pharmaceuticals.

Influence of Culture Conditions on Bioactive Compounds in Cordyceps militaris: A Comprehensive Review

mycolabadmin

Cordyceps militaris is a medicinal fungus that produces powerful health-promoting compounds used to boost energy, strengthen immunity, and fight cancer. This review explains how different growing conditions—like the type of food the fungus is grown on, light exposure, and temperature—affect which beneficial compounds it produces and how much. By optimizing these conditions, producers can create more effective products for health supplements and medicines, though more research is needed to standardize production methods.

Disease: immune dysfunction