metabolomics – Page 11

Exploring Psilocybe spp. mycelium and fruiting body chemistry for potential therapeutic compounds

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Scientists studied magic mushrooms at different growth stages to understand their chemical makeup. They found that mature mushroom caps contain high levels of psilocybin (the psychedelic compound) but the root-like mycelium contains different beneficial compounds like ergothioneine and choline. This suggests mycelium could be developed as a therapeutic product without the psychedelic effects, potentially offering health benefits while avoiding the mind-altering properties.

Impact of a Formulation Containing Chaga Extract, Coenzyme Q10, and Alpha-Lipoic Acid on Mitochondrial Dysfunction and Oxidative Stress: NMR Metabolomic Insights into Cellular Energy

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A new supplement formula combining Chaga mushroom extract, Coenzyme Q10, and alpha-lipoic acid was tested on nerve cells in the laboratory. The formula increased the cells’ energy production and protected them from harmful oxidative stress. This could potentially help people with conditions like fibromyalgia and neurodegenerative diseases that involve mitochondrial dysfunction.

Integration of Metabolomes and Transcriptomes Provides Insights into Morphogenesis and Maturation in Morchella sextelata

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Researchers studied how morel mushrooms develop from mycelium through fruiting body maturation by analyzing changes in their metabolites and genes across four growth stages. They found that the transition from vegetative growth to reproductive growth involves dramatic changes in carbohydrate, amino acid, and lipid metabolism, regulated by specific transcription factors. This understanding could help improve the cultivation of morels, which currently struggles with low fruiting rates despite their high value as food and medicine.

Transcriptome and metabolome profiling reveal the inhibitory effects of food preservatives on pathogenic fungi

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This research tested three common food preservatives to see how well they stop harmful molds from growing on fruits and vegetables. Scientists found that all three preservatives worked well at different concentrations, with sec-butylamine being particularly effective. By studying the genes and chemical changes in treated fungal cells, they discovered that these preservatives work by damaging the mold’s cell walls and disrupting how it processes sugars, essentially starving and weakening the fungal cells.

Characterizing flavor determinants and α-glucosidase inhibitory components in ancient tea plants and ‘Qiancha 1’ white teas

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Researchers compared white teas made from ancient tea plants (over 100 years old) with modern cultivated tea varieties. The ancient teas had stronger floral aromas and more bitter taste due to higher levels of beneficial compounds. These compounds, particularly trans-β-ionone and β-damascenone, may help regulate blood sugar levels, making ancient tea plants valuable for both flavor and potential health benefits.

Marine-derived Acremonium strain prioritization using untargeted metabolomics approach for the identification of cytotoxic cyclic depsipeptides

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Researchers studied six fungal strains from Arctic driftwood to find cancer-fighting compounds. Using advanced chemical analysis methods, they identified one strain that was particularly good at killing cancer cells in the lab. From this strain, they isolated five related compounds called depsipeptides that showed strong activity against multiple types of cancer cells. This discovery highlights how fungi from extreme environments like the Arctic could be valuable sources for developing new cancer treatments.

Marine-derived Acremonium strain prioritization using untargeted metabolomics approach for the identification of cytotoxic cyclic depsipeptides

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Researchers studied fungi collected from Arctic driftwood to find new cancer-fighting compounds. Using advanced chemical analysis tools, they identified six different fungal strains and found that one strain, Acremonium synnematoferum, produced five unique compounds called depsipeptides. These compounds killed cancer cells in laboratory tests, showing promise as potential cancer treatments. This research highlights how extreme Arctic environments can harbor fungi with powerful medicinal properties.

Human Gut Microbiome: A Connecting Organ Between Nutrition, Metabolism, and Health

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Your gut bacteria function like an extra organ, helping digest food and producing important compounds that affect your whole body. The type of bacteria in your gut depends on diet, delivery method at birth, and antibiotics you’ve taken. Eating more fiber and taking certain probiotics can improve your bacterial balance and help prevent diseases like diabetes, obesity, and heart problems. This suggests that managing your gut microbiome through diet might be just as important as taking traditional medicines for staying healthy.

Multi-omics analysis of Taiwanofungus gaoligongensis: effects of different cultivation methods on secondary metabolites

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Scientists studied a medicinal mushroom species to understand how different growing methods affect its beneficial compounds. They found that growing the mushroom on specific wood substrates (from cinnamon trees) produced much higher levels of therapeutic compounds compared to rice-based cultivation. Using advanced molecular techniques, they identified the genes responsible for producing these medicinal compounds and how they are controlled, providing insights to improve mushroom cultivation for better health benefits.

Exploring the Critical Environmental Optima and Biotechnological Prospects of Fungal Fruiting Bodies

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This research identifies the ideal growing conditions for fungal fruiting bodies like mushrooms, showing that temperature around 25°C, high humidity, and proper light exposure are key factors. The study reveals that exceeding these optimal conditions typically harms development more than staying slightly below them. Scientists discovered that fungal fruiting bodies have important uses in medicine, food production, and environmental cleanup, and new genetic technologies like CRISPR could improve cultivation methods for better yields and quality.

Research Keyword: metabolomics