Research Keyword: fungal development

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

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This study shows that nitric oxide, a chemical messenger, plays an important role in helping a wood-decay fungus called Schizophyllum commune grow and reproduce in environments without oxygen. When nitric oxide levels are boosted, the fungus grows better and can even start forming fruiting bodies (mushrooms) under low-oxygen conditions. These findings could help scientists understand how fungi survive and thrive in extreme environments like deep ocean sediments.

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Selection of reliable reference genes in Colletotrichum scovillei during different growth stages, host interactions, and plant extract treatment for qRT-PCR

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Researchers identified the best internal control genes for measuring fungal gene expression in Colletotrichum scovillei, a fungus that causes serious disease in chili peppers. Different genes worked best under different conditions: one for normal growth, another during infection, and a third when treated with plant extracts. This discovery will help scientists study how this fungus develops and causes disease, potentially leading to better ways to control it using natural plant-based treatments.

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The Kelch Repeat Protein VdKeR1 Is Essential for Development, Ergosterol Metabolism, and Virulence in Verticillium dahliae

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Verticillium dahliae is a serious fungal disease that kills many important crops like cotton and tomato by clogging their water-conducting vessels. Scientists discovered a protein called VdKeR1 that helps this fungus grow and cause disease by controlling how it makes ergosterol, a crucial component of fungal cell membranes. When researchers removed this protein, the fungus grew poorly, couldn’t form survival structures, and was much less dangerous to plants.

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