Research Keyword: morphogenesis

Functions of the Three Common Fungal Extracellular Membrane (CFEM) Domain-Containing Genes of Arthrobotrys flagrans in the Process of Nematode Trapping

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Researchers studied three genes (CFEM1-3) in a fungus called Arthrobotrys flagrans that traps and kills parasitic worms. By deleting or increasing these genes, scientists found they control how the fungus makes sticky trap networks and how thick the trap walls are. This knowledge could help develop natural pest control products to protect plants and animals from harmful parasitic nematodes.

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Hyphal swelling induced in the phagosome of macrophages

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When Candida albicans yeast cells are engulfed by immune cells called macrophages, they transform into thread-like hyphae. Researchers discovered that these hyphae sometimes develop swollen, bulbous compartments rather than maintaining their normal shape. Surprisingly, these swollen fungal cells survive much better inside the hostile macrophage environment than normal-shaped hyphae. This swelling appears to be a clever survival strategy that helps the fungus resist being killed by the immune system.

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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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Exploring the Critical Environmental Optima and Biotechnological Prospects of Fungal Fruiting Bodies

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This research identifies the ideal growing conditions for fungal fruiting bodies like mushrooms, showing that temperature around 25°C, high humidity, and proper light exposure are key factors. The study reveals that exceeding these optimal conditions typically harms development more than staying slightly below them. Scientists discovered that fungal fruiting bodies have important uses in medicine, food production, and environmental cleanup, and new genetic technologies like CRISPR could improve cultivation methods for better yields and quality.

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Candida albicans Goliath cells pioneer biofilm formation

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When Candida albicans fungi run out of zinc, they transform into larger cells called ‘Goliath cells’ that are exceptionally sticky to plastic surfaces. Scientists found that these Goliath cells are much better at sticking to catheters and other medical devices than regular yeast cells, even when blood is flowing past them. This discovery helps explain why fungal infections on catheters are so common and could lead to better ways to prevent these dangerous infections that affect hospitalized patients.

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