Research Keyword: qPCR analysis

Effects of adding food ingredients rich in dietary fiber and polyphenols on the microstructure, texture, starch digestibility and functional properties of Chinese steamed bun

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Researchers created an improved version of Chinese steamed bun by adding dragon fruit, kudzu root, and a medicinal mushroom called Hericium erinaceus. This new bun has much more fiber and antioxidants, and importantly, it causes much smaller increases in blood sugar after eating compared to traditional steamed buns. The study shows it can help promote beneficial gut bacteria and may be beneficial for people managing diabetes and metabolic health.

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Hypoglycemic Effect of Edible Fungi Polysaccharides Depends on Their Metabolites from the Fermentation of Human Fecal Microbiota

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Edible mushrooms like Ganoderma lucidum, cordyceps, shiitake, and poria contain beneficial compounds called polysaccharides that may help control blood sugar. When these polysaccharides are digested by beneficial gut bacteria, they produce eight special metabolites that enhance the body’s ability to use glucose and improve insulin sensitivity. The research identified specific bacteria, such as Faecalibacterium and Coprococcus, that produce these beneficial metabolites, suggesting that measuring these markers could help evaluate which mushroom polysaccharides work best for diabetes prevention.

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Apple replant disease: unraveling the fungal enigma hidden in the rhizosphere

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Apple orchards that are replanted in the same location often develop a disease that stunts growth and can kill young trees. Scientists discovered that harmful fungi, especially Fusarium species, grow excessively in the soil around diseased trees. These harmful fungi appear to be the main culprits behind the disease. The study identified specific fungicides that can control these pathogenic fungi, offering hope for preventing the disease in future plantings.

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Characterization of Biofilm Formation by the Dermatophyte Nannizzia gypsea

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This study examined how Nannizzia gypsea, a fungus that causes skin infections in humans and animals, forms protective biofilms that make it resistant to antifungal drugs. Researchers found that the fungus creates a robust protective layer with specific molecular components and highly expresses genes related to virulence and drug resistance when in biofilm form. These findings help explain why dermatophyte infections are difficult to treat and recur frequently.

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