Research Keyword: transcription factors

Integration of Metabolomes and Transcriptomes Provides Insights into Morphogenesis and Maturation in Morchella sextelata

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Researchers studied how morel mushrooms develop from mycelium through fruiting body maturation by analyzing changes in their metabolites and genes across four growth stages. They found that the transition from vegetative growth to reproductive growth involves dramatic changes in carbohydrate, amino acid, and lipid metabolism, regulated by specific transcription factors. This understanding could help improve the cultivation of morels, which currently struggles with low fruiting rates despite their high value as food and medicine.

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Multi-omics analysis of Taiwanofungus gaoligongensis: effects of different cultivation methods on secondary metabolites

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Scientists studied a medicinal mushroom species to understand how different growing methods affect its beneficial compounds. They found that growing the mushroom on specific wood substrates (from cinnamon trees) produced much higher levels of therapeutic compounds compared to rice-based cultivation. Using advanced molecular techniques, they identified the genes responsible for producing these medicinal compounds and how they are controlled, providing insights to improve mushroom cultivation for better health benefits.

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Leucocalocybe mongolica inoculation enhances rice growth by reallocating resources from flavonoid defense to development via MYB/bHLH/WRKY networks

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A fungal strain called Leucocalocybe mongolica (LY9) can help rice plants grow bigger and healthier by improving how they use nutrients and sunlight. Interestingly, when plants grow better with this fungus, they produce fewer defensive compounds called flavonoids, but they still maintain some protective molecules. This research shows that the fungus helps plants decide to invest more energy in growth rather than defense, making it a promising natural fertilizer for farming.

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Editorial: Fungal virulence

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This editorial discusses how fungi are becoming more dangerous to human health due to climate change and rising temperatures. Researchers are studying the specific mechanisms that make fungi harmful, including how they stick to human cells and form protective biofilms. The review highlights several important discoveries about different pathogenic fungi and suggests better ways to diagnose and treat fungal infections through understanding how environmental factors influence fungal behavior.

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