Disease: immune deficiency

Fruiting Body Heterogeneity, Dimorphism and Haustorium-like Structure of Naematelia aurantialba (Jin Er Mushroom)

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Jin Er mushroom, a popular health food in Asia, is actually made up of two different types of fungi growing together. This study discovered that Jin Er can change its form depending on temperature and nutrients, switching between yeast-like and filament-like structures. The research also found special hook-like structures that may help the two fungi interact with each other, which could help improve how Jin Er mushrooms are grown commercially.

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Polysaccharide prediction in Ganoderma lucidum fruiting body by hyperspectral imaging

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Researchers developed a quick, damage-free method to measure the health-promoting polysaccharide content in Ganoderma lucidum mushrooms using special imaging technology that analyzes light reflection. This technology combines visible and near-infrared light imaging with computer learning to predict polysaccharide levels across the entire mushroom cap. The method achieved 92.4% accuracy and could help mushroom farmers determine the best time to harvest for maximum nutritional value.

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A high-quality genome assembly of Lactarius hatsudake strain JH5

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Scientists have completed a detailed genetic blueprint of the red milk mushroom (Lactarius hatsudake), an edible and medicinal fungus that grows in pine forests. This mushroom is nutritious and has been shown to help with diabetes, boost immunity, and fight harmful bacteria. The new genetic map is much more complete and detailed than previous versions, which will help farmers grow these valuable mushrooms more reliably and sustainably, and could lead to developing better varieties.

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Transcriptome Analysis Reveals Critical Genes Involved in the Response of Stropharia rugosoannulata to High Temperature and Drought Stress

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This study examined how a type of edible mushroom called Stropharia rugosoannulata responds to high heat and dry conditions by analyzing which genes become active. Researchers found that under stress, the mushroom activates specific genes that help it survive, particularly through a cellular communication pathway called MAPK. They identified 15 key genes that could be useful for breeding mushroom varieties that better withstand harsh growing conditions, which could improve mushroom farming efficiency.

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