lipidomics – mycolab.ai

Evaluation of Lipid Changes During the Drying Process of Cordyceps sinensis by Ultra Performance Liquid Chromatography–Tandem Mass Spectrometry (UPLC-MS/MS)-Based Lipidomics Technique

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This study examines how different drying methods affect the lipid content of Cordyceps sinensis, a valuable medicinal mushroom. Researchers compared three drying techniques—freeze-drying, oven-drying, and air-drying—and found that freeze-drying best preserves the mushroom’s beneficial lipids, while oven-drying causes significant degradation. The findings provide practical guidance for mushroom producers on selecting optimal drying methods to maintain the medicinal quality and nutritional value of this prized fungus.

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.

Effect of alterations in phospholipids and free fatty acids on aroma-active compounds in instant-boiled chuck tender, sirloin and silverside beef

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This study examined how different beef cuts (chuck tender, sirloin, and silverside) develop their unique flavors when instantly boiled. Researchers analyzed the fat composition in each cut and identified twelve compounds responsible for the beef’s aroma. They found that certain types of unsaturated fats in the meat are key to creating the distinctive meaty, savory flavors, with silverside producing the strongest aroma compounds overall.

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.

Stage-Specific Lipidomes of Gastrodia elata Extracellular Vesicles Modulate Fungal Symbiosis

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Researchers studied how a special orchid called Gastrodia elata communicates with its fungal partner Armillaria. They found that tiny fat-like packages called extracellular vesicles carry specific molecules that help the orchid and fungus work together. These special molecules, including compounds like 7,8-dehydroastaxanthin, are most abundant when the orchid is actively absorbing nutrients from the fungus.

Multi-omics Analysis of Experimentally Evolved Candida auris Isolates Reveals Modulation of Sterols, Sphingolipids, and Oxidative Stress in Acquired Amphotericin B Resistance

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Researchers studied how the fungus Candida auris develops resistance to amphotericin B, an important antifungal drug. By evolving two laboratory strains of this fungus under drug pressure, they discovered two different ways the fungus can become resistant: one through stress management genes, the other through changes in its protective lipids. These findings help explain why some clinical infections with this dangerous fungus are so hard to treat.

Mechanistic insights into volatile odor changes in surimi gels with typical cross-linking degrees during frozen storage based on lipidomics analysis

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When surimi (a fish-based food product) is frozen for long periods, its pleasant fish aroma fades while unpleasant fishy and oily smells develop. This study found that this change happens because fats in the surimi oxidize and break down during freezing. Using faster freezing methods and chemically strengthening the surimi’s structure can help preserve the original flavor. The research identified specific fats that are responsible for creating unwanted odors, providing guidance for better preservation techniques.

Speciation analysis of fungi by liquid atmospheric pressure MALDI mass spectrometry

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Scientists developed a fast new method using a technique called LAP-MALDI mass spectrometry to identify dangerous fungal infections within minutes instead of days. The method analyzes the unique fatty acids and proteins in fungal cells to distinguish between different species. This could help doctors quickly identify which fungal infection a patient has and choose the right treatment, potentially saving lives.

Research Keyword: lipidomics