Research Keyword: metabolomics

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.

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The microbial strategies for the management of chemical pesticides: A comprehensive review

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Chemical pesticides used to protect crops contaminate soil and water, harming both ecosystems and human health. Scientists have discovered that specific microorganisms—bacteria, fungi, and algae—can naturally break down these harmful pesticides into harmless substances. By using advanced technologies to understand how these microbes work and even genetically enhancing them, researchers are developing sustainable solutions to clean up pesticide-contaminated environments without the toxic side effects of traditional cleanup methods.

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Metabolomics Profiling of White Button, Crimini, Portabella, Lion’s Mane, Maitake, Oyster, and Shiitake Mushrooms Using Untargeted Metabolomics and Targeted Amino Acid Analysis

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Researchers analyzed seven popular mushroom varieties to understand their chemical makeup. They found over 10,000 different compounds across all mushrooms, with each variety having its own unique set of chemicals. Lion’s mane and oyster mushrooms were particularly rich in L-ergothioneine, a special amino acid thought to have antioxidant and anti-aging properties. The common white button, crimini, and portabella mushrooms had similar nutrient profiles, while specialty mushrooms had distinct chemical signatures.

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Biotransformation of Pesticides across Biological Systems: Molecular Mechanisms, Omics Insights, and Biotechnological Advances for Environmental Sustainability

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This review explains how living organisms like bacteria, plants, and animals break down pesticides through biological processes called biotransformation. The body uses special enzymes to transform pesticides into forms that are easier to eliminate. Understanding these natural cleanup processes helps scientists develop better strategies to remove pesticide pollution from soil and water, protecting both human health and ecosystems.

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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.

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The impact of continuous cultivation of Ganoderma lucidum on soil nutrients, enzyme activity, and fruiting body metabolites

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This study examined how growing Ganoderma lucidum (a medicinal mushroom) on the same land for two consecutive years affects the soil and the mushroom’s beneficial compounds. Researchers found that continuous cultivation depleted soil nutrients and reduced enzyme activity, particularly in the top layer of soil. The mushrooms grown in the first year had more beneficial compounds than those grown in the second year, with differences linked to changes in soil quality and microbial activity.

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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.

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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.

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A tale for two roles: Root-secreted methyl ferulate inhibits P. nicotianae and enriches the rhizosphere Bacillus against black shank disease in tobacco

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Tobacco plants release a natural chemical called methyl ferulate from their roots that has a powerful two-pronged defense against a devastating soil disease called black shank. First, the methyl ferulate directly kills the fungus by disrupting its energy production. Second, it attracts beneficial bacteria called Bacillus to the soil around the roots, which further fight the disease. Scientists found they could boost this defense by engineering a tobacco gene that produces more methyl ferulate, making plants much more resistant to infection. This discovery offers farmers an affordable, natural way to control soil diseases without synthetic chemicals.

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