A nerve signal (action potential) travels through a neuron beginning at the dendrites, down the axon, and to the axon terminals. The membrane of the axon is polarized, meaning the external face is is positive and the internal is negative. Once the signal arrives, the membrane depolarizes, which is the opposite of polarization.
axon
myelin
axon terminals
Neurotransmitter has a complimentary shape to the receptors.The neurotransmitter molecules are then released from the axon terminals and into the synaptic cleft
Synapse (space between two neurons)
neurotransmitter molecules
The molecules diffuse across the synapse (small gap between neurons) and then bind to the receptors of the next neuron's membrane.An action potential starts when a stimulus causes the membrane of one part of the axon to change in permeability.
QUICK! Read here! The neurotransmitters must move very quickly! Or else, they will be removed from the synapse via diffusion.
transmitter
The ion channel closes, then releases the neurotransmitter which is now broken down
Na+
The Na ion channels of the receiving neuron open up, where sodium ions enter and cause depolarisationthat spreads down the neuron as a wave of depolarisation. The inside becomes positive compared to the outside..
Ion channel
- - - - - - - - - - - - -
K+
+ + + + + + + + + + +
+ + + + + + + + + + +
Finally, repolarization occurs, where the internal face of the membrane becomes negative again and the external becomes positive. During this step, potassium ion channels open to allow potassium to diffuse out.