Research Topic: post-transcriptional regulation

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.

Read More »

ELAV/Hu RNA-binding protein family: key regulators in neurological disorders, cancer, and other diseases

mycolabadmin

ELAV/Hu proteins are molecular machines that control how cells read and use genetic instructions. Found mostly in the brain and nervous system, these proteins help manage which genes get turned on or off, which is crucial for proper brain development and function. When these proteins go wrong, they can contribute to serious diseases like Alzheimer’s, Parkinson’s, cancer, and autism, making them promising targets for new treatments.

Read More »

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

mycolabadmin

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.

Read More »
Scroll to Top