therapeutic action: enhanced root development

Molecular mechanisms of metal toxicity and transcriptional/post-transcriptional regulation in plant model systems

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Plants face serious damage from heavy metals like cadmium, arsenic, and chromium in contaminated soils and water. Scientists are discovering how plants defend themselves through changes in gene expression, special proteins that trap metals, and modifications to their DNA that control stress response genes. Understanding these natural defense mechanisms could help us develop crops that survive in polluted environments and remove heavy metals from contaminated areas, making food safer and protecting human health.

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Evaluating Beauveria bassiana Strains for Insect Pest Control and Endophytic Colonization in Wheat

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Scientists tested three strains of a beneficial fungus called Beauveria bassiana to control crop-damaging insects and promote wheat growth. The best-performing strain, CBM1, successfully killed multiple types of pest insects and colonized wheat plants when applied to the soil. Wheat plants colonized with this fungus grew taller with longer roots and showed significantly better protection against fall armyworms, suggesting this fungus could be a valuable tool for sustainable, pesticide-free crop protection.

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Plant–Fungi Mutualism, Alternative Splicing, and Defense Responses: Balancing Symbiosis and Immunity

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Fungi and plants form partnerships that help plants grow better and resist stress, with fungi receiving sugars from plants in return for nutrients from the soil. This review explains how a cellular process called alternative splicing acts like a molecular switch that lets plants accept beneficial fungi while keeping the ability to fight off harmful pathogens. Understanding this balance could help farmers grow healthier crops with less chemical pesticides and fertilizers.

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