improved stress resistance

Genome-wide analysis of bZIP gene family members in Pleurotus ostreatus, and potential roles of PobZIP3 in development and the heat stress response

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Scientists identified 11 genes that code for special proteins called bZIP transcription factors in oyster mushrooms. One particular protein, PobZIP3, was found to help mushrooms survive high temperatures and grow faster. When researchers increased this protein in mushroom strains, the mushrooms became more heat-resistant and produced edible fruiting bodies more quickly, suggesting this discovery could help farmers grow oyster mushrooms more reliably.

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

mycolabadmin

Fungi form beneficial partnerships with plant roots, helping plants absorb nutrients and resist stress. A key process called alternative splicing allows cells to make different versions of proteins from the same genes, fine-tuning how plants and fungi cooperate. This review explains how alternative splicing acts like a molecular switch that balances the plant’s immune system with accepting the beneficial fungus, and how understanding this could help farmers grow healthier crops with less chemical fertilizers.

therapeutic action: improved stress resistance

Genome-wide analysis of bZIP gene family members in Pleurotus ostreatus, and potential roles of PobZIP3 in development and the heat stress response

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