metabolomics – Page 2

Changes of Active Substances in Ganoderma lucidum during Different Growth Periods and Analysis of Their Molecular Mechanism

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Scientists studied how the medicinal mushroom Ganoderma lucidum changes as it grows, discovering that different growth stages contain different beneficial compounds. The budding stage was found to have the highest levels of powerful healing compounds called triterpenoids and steroids. This research helps identify the best time to harvest the mushroom to get maximum health benefits, improving both quality and standardized production for medicinal use.

Therapeutic Potential of Bioactive Compounds in Edible Mushroom-Derived Extracellular Vesicles: Isolation and Characterization of EVs from Pleurotus eryngii

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Researchers isolated tiny particles called extracellular vesicles (EVs) from a medicinal mushroom called king oyster mushroom (Pleurotus eryngii). These EVs act like natural delivery packages containing beneficial compounds like antioxidants and anti-inflammatory molecules. The study found that EVs from mushroom mycelium (the root-like part) were purer and more potent than those from the mushroom cap, with strong abilities to neutralize harmful free radicals in the body.

Behavioral Phenotyping and Metabolomic Comparison of Chemically Synthesized Psilocybin and Psychedelic Mushroom Extract in a Zebrafish Depression Model

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Researchers compared chemically made psilocybin with whole mushroom extract in zebrafish to test for depression-like effects. Both treatments reversed depressive behaviors and produced similar changes in brain chemicals, though the mushroom extract showed more neurotransmitter precursors. This study demonstrates that zebrafish can be useful models for studying how psychedelics might help treat depression.

Untargeted metabolomics as a tool to assess the impact of dietary approaches on pig gut health: a review

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This review examines how different types of food and feed additives affect the chemical compounds in pig digestive systems. By analyzing thousands of tiny molecules in pig samples using advanced laboratory techniques, researchers can understand which dietary approaches help pigs maintain healthy guts and resist disease. The study shows that adjusting the levels of carbohydrates, proteins, and fats in pig feed can influence beneficial bacteria and protective compounds in their intestines.

Comparative transcriptomics and metabolomics provide insight into degeneration-related physiological mechanisms of Morchella importuna after long-term preservation

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This research studied how to best preserve morel mushroom cultures for long periods without them losing quality. Scientists compared five different storage methods over 7 years and found that storing cultures in nutrient-poor conditions without repeatedly replicating them produced the healthiest mushrooms. The study identified specific genes and metabolic processes that stayed healthy under the best preservation method, offering farmers better ways to maintain morel quality for cultivation.

Fungal Metabolomics: A Comprehensive Approach to Understanding Pathogenesis in Humans and Identifying Potential Therapeutics

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This review explains how scientists use metabolomics—a technique that identifies all chemical compounds in organisms—to understand how fungi cause disease and resist medicines. Fungi produce many different chemicals that help them attack our bodies and survive treatments, but these same chemicals could also be used to create new medicines. By studying these fungal chemicals, researchers can develop better antifungal drugs and understand how fungi manage to evade our immune system.

MetaFlowTrain: a highly parallelized and modular fluidic system for studying exometabolite-mediated inter-organismal interactions

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Scientists developed MetaFlowTrain, a system that allows them to study how different microorganisms communicate through chemical molecules they produce. The system uses tiny connected chambers with filters that let chemical signals pass between microbes but keep the organisms separated. This tool revealed that bacteria can inhibit fungal growth through their chemical products and showed how soil conditions affect microbial community structure and plant health.

Rice varietal intercropping mediates resistance to rice blast (Magnaporthe oryzae) through core root exudates

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Growing different varieties of rice together can help protect susceptible rice plants from blast disease. When resistant and susceptible rice varieties are planted together, the resistant plants release special chemicals from their roots that help the susceptible plants fight off the fungal disease. Scientists identified four key chemicals—azelaic acid, sebacic acid, betaine, and phenyl acetate—that work together to boost the immune system of susceptible rice plants and directly kill the blast fungus.

Analysis of Volatile Organic Compounds and Comparison of Heat Resistance Related Gene Expression in Pleurotus ostreatus Under Heat Stress

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This study examined how oyster mushrooms respond to high temperatures at different growth stages. Researchers found that young mycelium and mature fruiting bodies use different strategies to survive heat stress, which affects the flavor compounds they produce. Mycelium produces more of certain volatile compounds under heat stress, while fruiting bodies actually lose their characteristic mushroom flavor compound called 1-Octen-3-ol.

Koumiss (Fermented Mare’s Milk) as a Functional Food: Bioactive Proteins, Peptides, and Future Perspectives

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Koumiss is a fermented mare’s milk beverage consumed for centuries in Central Asia that offers unique health benefits. Unlike cow’s milk, mare’s milk is easier to digest, contains natural antimicrobial proteins, and when fermented develops thousands of bioactive peptides and beneficial bacteria. These compounds may help with cardiovascular health, gut function, and immune support, making koumiss a promising functional food for modern nutrition.

Research Topic: metabolomics