Synaptic transmission is really important for how our brain works. It helps neurons, or nerve cells, talk to each other. Here's a simple breakdown of how it happens:
Action Potentials: When a signal called an action potential reaches a synapse (the gap between neurons), it makes neurotransmitters (the special chemicals) get released.
Neurotransmitter Binding: These neurotransmitters then attach to receptors on the next neuron, which starts a reaction in that cell.
Examples: For example, when dopamine is released in the brain, it helps us feel pleasure. This is important because it encourages us to repeat good behaviors and helps us learn and remember things.
In summary, synaptic transmission is not just about neurons sending messages to each other. It also helps shape our experiences and influences our actions!
Synaptic transmission is really important for how our brain works. It helps neurons, or nerve cells, talk to each other. Here's a simple breakdown of how it happens:
Action Potentials: When a signal called an action potential reaches a synapse (the gap between neurons), it makes neurotransmitters (the special chemicals) get released.
Neurotransmitter Binding: These neurotransmitters then attach to receptors on the next neuron, which starts a reaction in that cell.
Examples: For example, when dopamine is released in the brain, it helps us feel pleasure. This is important because it encourages us to repeat good behaviors and helps us learn and remember things.
In summary, synaptic transmission is not just about neurons sending messages to each other. It also helps shape our experiences and influences our actions!