Research Keyword: fruiting body formation

Identification of Critical Candidate Genes Controlling Monokaryon Fruiting in Flammulina filiformis Using Genetic Population Construction and Bulked Segregant Analysis Sequencing

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Scientists studied enoki mushrooms to understand how they form fruiting bodies (the edible mushroom part). They created special genetic populations and used advanced DNA sequencing to find a key gene that controls whether mushroom strains can produce fruiting bodies. This discovery helps explain how mushrooms develop and could lead to better ways to grow edible mushrooms commercially.

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The Role of Nitric Oxide in the Growth and Development of Schizophyllum commune Under Anaerobic Conditions

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This research shows that nitric oxide (NO) acts like a chemical messenger that helps mushroom fungi grow and reproduce when oxygen is scarce. Scientists studied a fungus found deep below the ocean floor and discovered that NO helps the fungus extend its root-like structures, germinate spores, and even initiate the formation of fruiting bodies (the mushroom stage). When they blocked NO with chemicals, growth slowed down, but when they added extra NO, growth accelerated. This discovery could help us understand how fungi survive in extreme environments with little oxygen.

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Influence of Culture Conditions on Bioactive Compounds in Cordyceps militaris: A Comprehensive Review

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Cordyceps militaris is a medicinal fungus used in traditional medicine for treating fatigue, boosting immunity, and fighting cancer. This review explains how growing conditions—such as the type of grain or insect substrate used, light exposure, temperature, and nutrient balance—dramatically affect the production of beneficial compounds like cordycepin. The research shows that mixing grains with insect-based materials and using specific light wavelengths can significantly increase the potency of these medicinal fungi, making them more effective for health applications.

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