Lecture

Ion Channels: Structure and Function

Related lectures (32)

Explores the physical basis of signal propagation in neurons, focusing on membrane potential setup and ion channels.

Explores the biophysics of ion channels and their vital role in neuronal signaling and physiological processes.

Explores the structure, function, and classification of ion channels, their role in brain function, and their significance in various diseases.

Ion Channels: Structure and Function

Explores the structure and function of ion channels, their classification, membrane permeability, and role in single-cell activities.

Resting Membrane Potential

Discusses resting membrane potential, ion channels, and the Na+/K+ pump.

Ion channels: Structure and Function

Explores the structure and function of ion channels, including their rapid conformational changes and key features like open probability.

Action Potentials and Electrical Excitability

Explores the generation and propagation of action potentials in neurons, including the historical significance of Hodgkin & Huxley's work.

Biological Electricity: Action Potential Propagation and Modeling

Explores action potential propagation, membrane modeling, conductance, and encoding signals through action potential trains.

Na Transport: Ussing's Model

Discusses Ussing's model for epithelial transport and its experimental investigation.

Ion Channels

Explores the profiling and behavior of ion channels, including their diversity and classes.

Voltage-gated channels

Explores the cellular mechanisms of brain function through voltage-gated ion channels and their role in regulating membrane potential.

Cellular Mechanisms of Brain Function

Explores the electrical properties of cell membranes and their role in brain function.

Understanding Neuron Electrical Properties: Ion Transport Mechanisms

Covers the electrical properties of neurons, focusing on ion transport mechanisms and their role in generating electrical signals.

Electrophysiology: Ion Channels and Recordings

Explores electrophysiology principles, ion channels modulation, recording techniques, and analysis of cellular activity.

Modeling the electrical activity of the neuron

Explores the modeling of neuron electrical activity, including ion channels and concentrations, Nernst equation, and resting potential.

Cellular Mechanisms of Brain Function

Explores cellular mechanisms of brain function, focusing on ion channels and action potentials.

Untitled

Nicotinic Receptors: Structure and Function

Explores the structure and function of nicotinic receptors, focusing on Cys-loop receptors, ion conductance, and the effects of nicotine.

Micro-ElectroMechanical Systems (MEMS)

Explores Micro-ElectroMechanical Systems (MEMS) development, ion channels, patch clamp technique, drug discovery, and PDMS integration in microfluidic systems.

Membrane Deformation: Modes and Mechanisms

Explores membrane deformation modes, shape changes, and transport mechanisms in cells.