metabolomics – Page 5

Targeted metabolomic and transcriptomic reveal the regulatory network of ultrasound on polyphenol biosynthesis in tender coconut flesh during storage

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Researchers studied how ultrasound treatment affects the polyphenolic compounds (natural antioxidants) in coconut flesh during storage. By analyzing both the chemicals and genes involved, they found that ultrasound helps preserve important polyphenols like catechin and epicatechin by controlling the expression of genes that break them down. This discovery could help extend the shelf life of tender coconut products and maintain their nutritional value.

Metabolic Patterns of Fluconazole Resistant and Susceptible Candida auris Clade V and I

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Researchers used advanced chemical analysis to identify different compounds produced by a dangerous fungus called Candida auris that can cause serious infections. They compared fungal strains that were resistant to the antifungal drug fluconazole with those that were susceptible, finding that resistant strains produced different metabolites (chemical compounds) than susceptible ones. These findings could help doctors develop better treatments by identifying what makes this fungus resistant to current medications.

Integrated Transcriptomics and Metabolomics Provide Insight into Degeneration-Related Molecular Mechanisms of Morchella importuna During Repeated Subculturing

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Morel mushrooms lose quality when repeatedly cultured in laboratories, becoming slower-growing and less vibrant. Scientists discovered this happens because genes controlling antioxidant production shut down, allowing harmful free radicals to damage cells. By avoiding frequent subculturing and using cold storage or antioxidant supplements, farmers can keep their morel strains healthy and productive for longer.

Metabolic profiling of endophytic fungi acting as antagonists of the banana pathogen Colletotrichum musae

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Scientists found three special fungi living inside rainforest plants in the Philippines that can fight the fungus causing banana rot. These endophytic fungi produce chemical compounds that stop the disease-causing fungus from growing, offering a natural alternative to traditional fungicides. The researchers found that the type of growing medium affects which compounds these fungi produce, and two promising strains could potentially be used to reduce fruit losses during storage and transport.

Strain and contact-dependent metabolomic reprogramming reveals distinct interaction strategies between Laccaria bicolor and Trichoderma

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This research explores how two types of soil fungi interact with each other through chemical signals. When Trichoderma (a beneficial biocontrol fungus) encounters Laccaria bicolor (a helpful fungus that aids plant growth), they communicate through airborne volatile compounds and secreted chemicals. The study found that these fungi employ different strategies depending on how close they are to each other, changing their chemical production to either compete or coexist, which has implications for improving agricultural biocontrol applications.

The Involvement of Glycerophospholipids in Susceptibility of Maize to Gibberella Root Rot Revealed by Comparative Metabolomics and Mass Spectrometry Imaging Joint Analysis

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Maize plants can suffer from a serious root disease called Gibberella root rot caused by a fungus. Researchers studied two types of maize—one resistant and one susceptible to this disease—and found that certain fatty compounds called lysophospholipids are more abundant in the susceptible plants. When these compounds build up, they damage plant cells and help the fungus spread. The resistant plants can break down these harmful compounds more effectively. This discovery could help plant breeders create maize varieties that resist this damaging disease.

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

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This study analyzed the chemical composition of ‘magic mushrooms’ (Psilocybe) at different growth stages—liquid cultures, grain cultures, and mature fruiting bodies. Using advanced laboratory techniques, researchers found that fruiting bodies contain the highest levels of psilocybin (the psychoactive compound), while mycelium contains unique beneficial compounds like alpha-glycerylphosphorylcholine that may have therapeutic value without strong psychedelic effects. The findings suggest that Psilocybe mycelium could be developed as a non-intoxicating health supplement with potential therapeutic applications.

Multi-omics reveals novel forage advantages of Potentilla anserina Linnaeus in high-salt habitats

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Potentilla anserina, a traditional Tibetan plant, can be grown as animal feed on salty, unused land. Researchers found that when the plant is fermented as silage, it becomes more nutritious and develops beneficial microbes that help it resist salt and drought. This makes it a promising sustainable feed option for livestock raised in areas with saline soils.

Miniaturized high-throughput conversion of fungal strain collections into chemically characterized extract libraries for antimicrobial discovery

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Scientists developed a fast, automated method called FLECS-96 to screen hundreds of fungal species for antimicrobial compounds in a small 96-well plate format. The method combines fungal culture, chemical extraction, and analysis to identify promising candidates against resistant bacteria like Staphylococcus aureus. The team successfully identified two bioactive compounds from the fungi tested. This innovation could significantly speed up the discovery of new antibiotics to combat antibiotic-resistant infections.

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

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Scientists have isolated and studied tiny capsule-like particles called extracellular vesicles from the oyster mushroom Pleurotus eryngii. These vesicles, which are naturally produced by the mushroom, contain beneficial compounds like antioxidants that help protect cells from damage. The researchers found that vesicles from mushroom mycelium (the root-like part) were of higher quality and had stronger antioxidant effects than those from the fruiting body. These findings suggest that mushroom-derived vesicles could potentially be developed into health supplements or therapeutic treatments.

Research Topic: metabolomics