Neuronal Signaling
Neuronal signaling is the foundation of brain communication—where electrical and chemical processes transmit information across billions of neurons. It determines everything from reflexes to consciousness and remains central to understanding cognition, learning, and disease.
The Neuronal Signaling session focuses on synaptic transmission, ion channel function, and neurotransmitter dynamics. Experts discuss signal integration in neuronal networks and how dysregulation leads to neurological and psychiatric disorders.
At the Neuronal Signaling Conference, neurophysiologists, biochemists, and pharmacologists present cutting-edge findings on membrane potential propagation, calcium signaling, and molecular communication within neurons.
This session is ideal for scientists studying the cellular basis of neural communication and drug targets for synaptic dysfunction. It also appeals to computational modelers interested in quantifying neuronal activity through biophysical equations.
Recent work in Neurotransmitter Modulators has expanded our understanding of how chemical signaling adjusts network excitability and plasticity, impacting memory and emotion.
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Submit Your Abstract Here →Core Mechanistic Insights
Electrical Signaling and Ion Channels
- Action potential generation and propagation mechanisms
- Voltage-gated channel mutations linked to channelopathies
Chemical Synaptic Transmission
- Release and reuptake of glutamate, GABA, dopamine, and serotonin
- Vesicular transport and synaptic cleft dynamics
Intracellular Signal Transduction
- Second-messenger pathways modulating neuronal responses
- Protein kinase cascades and gene regulation
Neural Network Integration
- Excitatory–inhibitory balance in cortical circuits
- Feedback and feedforward loops supporting cognition
Pathophysiology and Drug Targets
- Neurotransmitter imbalance in epilepsy and depression
- Pharmacological modulation for synaptic stabilization
Why Attend
Gain Comprehensive Insight into Neural Communication
Understand how neurons encode and transmit signals.
Explore Therapeutic Target Mechanisms
Identify molecular sites for drug intervention and neuromodulation.
Integrate Electrophysiology with Systems Biology
Learn how micro- and macro-scale signaling combine to shape behavior.
Collaborate Across Biophysics and Neurochemistry
Connect with leaders linking molecular function to brain networks.
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