Molecular Neuroscience
Molecular neuroscience explores the intricate molecular mechanisms that drive neuronal function, communication, and plasticity. It connects biochemical processes to complex behaviors and neurological disorders. By studying neurotransmitters, receptors, ion channels, and signaling molecules, molecular neuroscience provides insights into how brain chemistry influences cognition, emotion, and disease.
The Molecular Neuroscience session focuses on the study of how genes and proteins regulate neural activity and how molecular dysfunction contributes to neurodegeneration, synaptic failure, and cognitive decline. Researchers highlight advances in proteomics, transcriptomics, and metabolomics that reveal novel biomarkers and drug targets.
At the Molecular Neuroscience Conference, experts present recent breakthroughs in intracellular signaling, neuronal gene regulation, and molecular imaging. Discussions also include protein misfolding in Alzheimer’s and Parkinson’s diseases, mechanisms of neuroinflammation, and therapeutic modulation of neurotransmission.
This session is vital for neuroscientists, molecular biologists, and pharmacologists working to link laboratory findings to clinical solutions. It emphasizes how molecular studies drive innovation in gene therapy, neuropharmacology, and regenerative medicine.
Ongoing research in Molecular Neurobiology continues to bridge microscopic understanding with systems neuroscience—connecting molecules to memory, mood, and behavior.
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Submit Your Abstract Here →Major Focus Areas
Neurochemical Signaling
• Neurotransmitter synthesis, release, and receptor regulation
• Synaptic vesicle cycling and exocytosis mechanisms
Intracellular Communication and Plasticity
• Calcium signaling, kinase activation, and protein phosphorylation
• Molecular cascades driving long-term potentiation and memory
Molecular Pathology of Brain Disorders
• Protein aggregation and oxidative stress in neurodegeneration
• Genetic mutations altering neurotransmission and repair pathways
Technological and Therapeutic Advances
• CRISPR, RNA interference, and small-molecule modulators
• Imaging of protein dynamics and molecular biomarkers
Translational and Integrative Approaches
• Linking cellular biochemistry to behavioral outcomes
• Multi-omics integration in personalized neuroscience
Why Attend
Explore the Chemistry of the Brain
Understand how molecular interactions shape cognition and behavior.
Gain Insights into Neurodegenerative Mechanisms
Discover new pathways influencing brain health and repair.
Advance Molecular Therapeutics
Learn how gene and protein research inform next-gen drug design.
Collaborate Across Neuroscience Frontiers
Engage with experts driving precision and molecular-level discoveries.
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