Research Keyword: dimorphic transition

Interference with sexual mating of Sporisorium scitamineum by verrucarin A isolated from Paramyrothecium sp

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Scientists discovered that a naturally occurring fungus called Paramyrothecium sp. produces a compound called verrucarin A that prevents sugarcane smut disease. This compound works by stopping the mating process between fungal spores, preventing the disease from developing without harming the sugarcane plant. Greenhouse experiments showed that using this natural compound reduced disease occurrence from 80% to just 37%, offering a safe and eco-friendly alternative to chemical pesticides for protecting sugarcane crops.

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Interference with sexual mating of Sporisorium scitamineum by verrucarin A isolated from Paramyrothecium sp

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Scientists discovered a fungus called Paramyrothecium that produces a natural compound called verrucarin A, which stops sugarcane smut disease by preventing infected fungus cells from mating with each other. In greenhouse experiments, using this compound reduced disease symptoms from 80% infection down to 37%, and it didn’t harm the sugarcane plants. This provides a safe, natural way to control an important crop disease without using chemical pesticides.

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Species-specific circular RNA circDS-1 enhances adaptive evolution in Talaromyces marneffei through regulation of dimorphic transition

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Researchers discovered a special type of RNA called circDS-1 that helps a deadly fungus switch between two different forms depending on temperature. This fungus normally grows as a mold in soil but transforms into a yeast when it infects humans at body temperature. The circDS-1 RNA acts like a molecular switch that controls this transformation and helps the fungus cause infection. This discovery reveals that fungi may use hidden genetic elements beyond traditional genes to adapt to their environment.

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