This lesson discusses voltage-gating kinetics of sodium and potassium channels.

In this lesson, you will learn about the ionic basis of the action potential, including the Hodgkin-Huxley model.

This lesson delves into the specifics of how action potentials propagate through individual neurons.

This lesson presents the typical setup, equipment, and solutions used in whole-cell recording of neurons. 

This lesson provides an introductory overview to synaptic transmission and associated neurotransmitters. 

In this lesson, you will learn about neurotransmitter release in the presynaptic specialization.

This lecture presents the current understanding of presynaptic short-term dynamics and plasticity.

This lesson covers synaptic modulation through diffusing neurotransmitters.

In this lesson you will learn about investigating the structure of synapses with electron microscopy. 

This lecture gives an overview of glutamatergic transmission.

This lesson discusses glutamate release after an action potential, and the resulting post-synaptic potentials. 

In this lesson, you will learn about glutamatergic excitatory neuronal circuits.

This lesson goes into the mechanisms behind changes in synaptic function created by learning.

This lesson gives an overview of neurons' dendritic spines and their function.

This lecture provides an introduction GABAergic inhibition and its receptors.

This lesson takes a closer look at GABA_A receptor mediated fast inhibition.

This lecture focuses on how benzodiazepines act on GABA_A receptors.

This lesson discusses long-range inhibitory connections in the brain, with examples from three different systems.

In this lesson, you will learn about GABAergic interneurons and local inhibition on the circuit level.

This lesson introduces the membrane potential equation