Research Topic: genetic mutations

Different Infection Structures and Point Mutation of Diaporthe citri Showing Resistant against Systemic Fungicides

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Citrus melanose, a serious fungal disease affecting citrus crops, is increasingly difficult to control due to the development of fungicide-resistant fungal strains. This study examined how resistant and susceptible Diaporthe citri strains respond to two common fungicides. The researchers found that resistant strains have genetic mutations that allow them to overcome fungicide treatments, particularly a specific change in the β-tubulin gene. Understanding these resistance mechanisms is crucial for developing better strategies to manage citrus diseases.

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Comprehensive analysis of the mechanisms conferring resistance to phenamacril in the Fusarium species

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Fusarium fungi cause serious diseases in crops like wheat, rice, and vegetables worldwide, leading to significant food losses and contamination with harmful toxins. Phenamacril is a modern fungicide designed to fight these fungi by targeting a specific protein called myosin-5. However, the fungi have developed resistance to this fungicide through genetic changes and other mechanisms, making it less effective over time. Farmers need to use multiple strategies including crop rotation and resistant plant varieties rather than relying only on fungicides to successfully manage these diseases.

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Comprehensive analysis of the mechanisms conferring resistance to phenamacril in the Fusarium species

mycolabadmin

Fusarium fungi cause serious diseases in crops like wheat, corn, and fruits, causing huge losses in agriculture worldwide. Phenamacril is a new antifungal drug designed specifically to fight these fungi by blocking a protein they need to grow. However, the fungi are developing resistance to this drug through genetic mutations and other biological mechanisms, making it less effective over time. Understanding how this resistance develops helps scientists develop better strategies to maintain the drug’s effectiveness and protect our food supply.

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