neurons & synaptic transmission

avatar
Created by
Alexandra Andreea

Cards (17)

  • neuron
    - Basic building blocks of the nervous system.
    - Nerve cells that process and transmit messages through electrical & chemical signals
    View source
  • how many neurons are in the body?
    100 billion and 80% are in the brain
    View source
  • function and structure of the sensory neuron
    Function = carry message from the PNS to CNS

    Structure = long dendrites & short axons
    View source
  • function and structure of the relay neuron
    Function = connect sensory neurons to motor neurons or other relay neurons

    Structure = short dendrites
    View source
  • function and structure of the motor neuron
    Function = connect the CNS to effectors

    Structure = short dendrites & long axons
    View source
  • axon
    carries impulses away from the cell body
    - covered in the fatty layer of the myelin sheath which protects it and speeds up the electrical transmission
    View source
  • dendrites
    branch-like structures which carry nerve impulses from neighbouring neurons towards the cell body
    View source
  • myelin sheath
    nodes of ranvier
    View source
  • electrical transmission (firing of a neuron)
    - When in the resting state the inside of the cell is negatively charged compared to the outside
    - When it is activated by a stimulus, the inside becomes positively charged for a split-second causing an action potential
    Action potential = creates an electrical impose that travels down the axon to the end of the neuron
    View source
  • synaptic transmission
    Process in which neighbouring neurons communicate with each other by sending chemical messages across the gap that separates them
    View source
  • neurotransmitter
    - Chemicals that diffuse across the synapse to the next neuron
    - Taken up by the postsynaptic receptors (dendrites)
    - Then transferred back to an electrical message
    View source
  • excitation
    When a neurotransmitter increases the positive charge of the postsynaptic neuron, it increases the likelihood that the neuron will fire up and pass on the electrical impulse
    View source
  • example of excitation
    Adrenaline is both a hormone and a neurotransmitter.
    View source
  • inhibition
    When a neurotransmitter increases the negative charge of the postsynaptic neuron,it decreases the likelihood that the neuron will fire up and pass on the electrical impulse
    View source
  • example of inhibition
    Serotonin
    View source
  • summation
    Whether a post-synaptic neuron fires is decided by summation.
    That means how the excitatory and inhibitory influences are summed
    - if the net effect on the post-synaptic neuron is inhibitory, it is less likely to fire.
    -If the net effect on the post-synaptic neuron is excitatory, it is likely to fire as it will become positively charged and travel down the neuron.
    View source
  • synaptic transmission (steps)
    1. electrical impulse reaches a presynaptic neuron (end)
    2. triggers release of neurotransmitters via synaptic vesicles
    3. neurotransmitter is taken up by postsynaptic receptor site
    4. transferred back to an electrical transmission
    View source