KEGG pathway analysis – Page 3

Exploring the Mechanisms of Amino Acid and Bioactive Constituent Formation During Fruiting Body Development in Lyophyllum decastes by Metabolomic and Transcriptomic Analyses

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This study examined how Lyophyllum decastes mushrooms develop and build up their nutritious compounds. Researchers tracked amino acids and polysaccharides across four growth stages and identified which genes control their production. The mature mushrooms contained the highest levels of beneficial compounds, with amino acids reaching 45,107.39 μg/g and polysaccharides at 13.66 mg/g. These findings help explain why these mushrooms are nutritious and suggest ways to grow them better for maximum health benefits.

New insights into the stress response mechanisms of stress-resistant Listeria monocytogenes via multi-omics and cell morphological changes

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Researchers studied how a dangerous food-poisoning bacterium called Listeria monocytogenes survives in harsh conditions like cold temperatures, acidic environments, and salty food products. Using advanced molecular analysis techniques, they identified specific genes and proteins that help the bacteria survive these stressful conditions. They also observed that the bacteria changed shape when exposed to stress, becoming elongated and bumpy. This research helps food safety experts better understand and combat this persistent food contaminant.

Transcriptomic profiling revealed important roles of amino acid metabolism in fruiting body formation at different ripening times in Hypsizygus marmoreus

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Researchers studied why the marbled puffball mushroom takes such a long time to produce fruit bodies by analyzing gene expression at different growth stages. They found that genes involved in amino acid processing and lignin breakdown are particularly important during fruiting body formation. By understanding these molecular processes, scientists can potentially develop ways to shorten cultivation time and improve mushroom farming efficiency.

Research Keyword: KEGG pathway analysis

Exploring the Mechanisms of Amino Acid and Bioactive Constituent Formation During Fruiting Body Development in Lyophyllum decastes by Metabolomic and Transcriptomic Analyses

New insights into the stress response mechanisms of stress-resistant Listeria monocytogenes via multi-omics and cell morphological changes

Transcriptomic profiling revealed important roles of amino acid metabolism in fruiting body formation at different ripening times in Hypsizygus marmoreus