Research Keyword: Gene ontology enrichment

Early changes in microRNA expression in Arabidopsis plants infected with the fungal pathogen Fusarium graminearum

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Researchers studied how Arabidopsis plants respond to infection by the fungus Fusarium graminearum by examining changes in small RNA molecules called microRNAs. They found that the plant activates specific microRNAs early in infection, even before visible disease symptoms appear. Two particularly important microRNAs, miR855 and miR826a, were identified as potential key regulators of the plant’s defense response. These findings could help scientists develop crop varieties with improved resistance to fungal diseases that cause significant agricultural losses worldwide.

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Transcriptome and Metabolome Integration Reveals the Impact of Fungal Elicitors on Triterpene Accumulation in Sanghuangporus sanghuang

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Researchers studied how special fungal compounds called elicitors can boost the production of healing substances in a medicinal mushroom called Sanghuangporus sanghuang. By analyzing genes and metabolites, they found that adding elicitors increased beneficial compounds like betulinic acid and 2-hydroxyoleanolic acid by up to 114-fold. These findings suggest a practical way to produce more medicinal compounds from this mushroom for health applications.

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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.

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