Metabolic syndromes – mycolab.ai

Olive mill solid waste induces beneficial mushroom-specialized metabolite diversity revealed by computational metabolomics strategies

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This study shows how adding olive mill waste to mushroom growing substrate can increase beneficial compounds in mushrooms while reducing harmful toxins. Researchers grew two types of edible mushrooms (lion’s mane and king oyster) on substrate containing different amounts of olive mill waste and used advanced chemical analysis to identify how the waste affected the mushrooms’ medicinal compounds. Adding olive mill waste increased healthy compounds like hericenones and erinacerins while decreasing toxic enniatin compounds, potentially creating safer and more nutritious mushrooms for consumers.

Investigating the Knowledge of Prebiotics, Probiotics, and Synbiotics That May Help to Improve the Gut-Organ Axis Function in Middle-Aged and Older Adults

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This study examined what middle-aged and older adults know about probiotics, prebiotics, and synbiotics—special food components that can improve gut health. Researchers found that many people had little knowledge about these products, even though they may help with various health conditions including heart disease and mental health. After giving people an educational information sheet about gut biotics, their knowledge significantly improved, suggesting that simple education can help people make better choices about their digestive health.

Edible Mushrooms as Functional Ingredients for Development of Healthier and More Sustainable Muscle Foods: A Flexitarian Approach

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This comprehensive review explains how edible mushrooms can be added to meat and fish products to make them healthier and more environmentally friendly. Mushrooms are rich in protein, fiber, vitamins, and natural compounds that fight disease and prevent spoilage. By replacing part of the meat with mushrooms, food makers can create products with better nutrition, longer shelf-life, and reduced salt content, while supporting those pursuing flexitarian diets.

Emerging paradigms for target discovery of traditional medicines: A genome-wide pan-GPCR perspective

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Traditional medicines from plants, animals, and fungi contain chemical compounds that can interact with specific proteins in our cells called G protein-coupled receptors (GPCRs). These receptors control many important body functions and are targeted by about one-third of all FDA-approved medications. This review explains how scientists are discovering new therapeutic compounds from traditional medicines by systematically screening them against the complete library of human GPCRs, using advanced techniques to identify which compounds bind to which receptors. Famous examples include morphine from poppies for pain relief and compounds from ginseng that help regulate blood sugar.

Research progress of edible mushroom polysaccharide-metal trace element complexes

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This research reviews how edible mushroom polysaccharides can be combined with essential metals like iron, selenium, and zinc to create health-boosting supplements. These complexes improve how our bodies absorb and use these important minerals, offering benefits like better immune function, antioxidant protection, and potential cancer-fighting properties. Scientists are studying different ways to make these complexes and testing their effectiveness for treating various health conditions.

Olive mill solid waste induces beneficial mushroom-specialized metabolite diversity revealed by computational metabolomics strategies

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Researchers studied how adding olive mill waste to mushroom growing substrate affects the beneficial compounds in two edible mushrooms. They used advanced computer analysis of chemical data to find that this waste product increases healthy compounds like hericenones while reducing potentially harmful mycotoxins. This discovery could help make mushroom farming more sustainable and produce safer, healthier mushrooms for consumers.

Inonotus obliquus upregulates muscle regeneration and augments function through muscle oxidative metabolism

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Researchers studied chaga mushroom (Inonotus obliquus) and found it helps muscles grow stronger and regenerate better. When mice were given chaga extract, their muscles became larger and stronger after injury, particularly through increased energy production in muscle cells. The mushroom works by activating specific proteins that promote muscle growth and boost the mitochondria (the energy factories) in muscle cells, suggesting it could help prevent age-related muscle weakness.

Disease: Metabolic syndromes

Olive mill solid waste induces beneficial mushroom-specialized metabolite diversity revealed by computational metabolomics strategies

Investigating the Knowledge of Prebiotics, Probiotics, and Synbiotics That May Help to Improve the Gut-Organ Axis Function in Middle-Aged and Older Adults

Edible Mushrooms as Functional Ingredients for Development of Healthier and More Sustainable Muscle Foods: A Flexitarian Approach

Emerging paradigms for target discovery of traditional medicines: A genome-wide pan-GPCR perspective

Research progress of edible mushroom polysaccharide-metal trace element complexes

Olive mill solid waste induces beneficial mushroom-specialized metabolite diversity revealed by computational metabolomics strategies

Inonotus obliquus upregulates muscle regeneration and augments function through muscle oxidative metabolism