1. The Process of Synaptic Transmission – Neurotransmitters, Excitation and Inhibition
Biopsychology

2. Label your synapse – use these descriptions to increase your knowledge.
carries the electrical impulse and is protected by a fatty sheath
The space between neurons at a nerve synapse across which a nerve impulse is transmitted by a neurotransmitter
extend out- ward from the cell body and are specialized to receive chemical signals from the axon termini of other neurons.
These are in the axon terminal and store and release neurotransmitters
Receive signals that trigger an electrical signal. Works like a lock and key
brain chemicals that communicate information throughout our brain and body.

3. Definitions A neurotransmitter is a chemical released at a synapse.
An example of a neurotransmitter is dopamine
The function of a neurotransmitter is to play an important role in synaptic transmission. As the electrical impulse (action potential) arrives at the axon terminal it cannot cross the gap (synaptic cleft) so a neurotransmitter is released in order to continue the synaptic transmission.
An excitatory neurotransmitter is a chemical that makes it more likely that the post synaptic neuron will fire.
An example is dopamine
An inhibitory neurotransmitter is one that calms the activity in the brain and makes the post synaptic neuron less likely to fire.
An example is GABA

4. The Neuron Billions of these in the nervous system
They are the cells of the nervous system
They are specialised to conduct electrical impulses (action potential)

7. Things to know about the Neuron
Neurons are elongated
Nerve impulses begin in the dendrites
Travel across the cell body to the axon
The electrical impulse is known as an action potential

8. Synaptic Transmission
Synaptic transmission begins at the dendrite and an action potential goes across the cell body to the axon. It travels down the axon to the axon terminal. Vesicles in the axon terminal store neurotransmitters and the electrical impulse causes these to release neurotransitters into the synaptic cleft, which is the gap between neurons. These neurotransmitters bind with the receptors in the post synaptic neuron and, if they are in sufficient quantities, will cause this post synaptic neuron to fire.

10. Starter
Will this neuron fire?

11. Excitation and Inhibition
The action of the neurotransmitter can be excitatory or inhibitory.
Dopamine and acetylcholine are mainly excitatory as they make the action potential in the post synaptic neuron more likely.
GABA is inhibitory as it makes the action potential less likely Therefore has a calming effect on the brain.
Summation is the adding up of the total inhibitory and excitatory neurotransmitters.

12. Find out whether these neurotransmitters are excitatory or inhibitory
Function
Excitatory or Inhibitory
Dopamine
Acetylcholine
Gaba
Serotonin

14. Summation
When a neuron receives excitatory and/or inhibitory inputs at the same time it ‘adds’ the inputs together. If the number of excitatory inputs overall are sufficient it will result in the generation of an action potential in the post synaptic neuron.
The addition of the inputs is known as summation

15. ABC A Talk to B for one minute about what you have learnt today B
Write down any key terms that A explains clearly

17. Question Explain what the function of a neuron is (2)
A neuron is a cell that makes up the nervous system and the function is to conduct electrical impulses (action potentials) and so transmit information throughout the nervous system.

18. Question
Briefly outline how excitation and inhibition are involved in synaptic transmission (4)
Neurotransmitters can be excitatory or inhibitory and many can be both. (1) If a neurotransmitter is excitatory it will be more likely to cause the post synaptic neuron to fire (1) and if it is inhibitory the post synaptic neuron is less likely to fire. (1)When a neuron receives inhibitory and/or excitatory neurotransmitters is will ‘add’ up the inputs together. If there are sufficient excitatory then the Post synaptic neuron will fire but if there are more inhibitory messages it will not. (1)

19. What is stress?
What does stress feel like?
What makes you stressed?

20. Do you remember the Fight of Flight Response.
What does the sympathetic nervous system do?
When is it stimulated?
What chemical is released from the adrenal gland as a result of sympathetic arousal?

22. Questions
Sympathetic arousal results in being released from the adrenal
Identify one role of the hypothalamus.
The adrenal cortex releases an example of this is
Sympathetic arousal is an response.
The pituitary - adrenal axis results in the production of