neurons

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Created by
Jaime

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  • less than a millimetre to up to a meter long
  • structure
    cell body- has a nucleus, containing genetic material of a cell
    dendrites- branches that protrude from cell body, carry impulses from neighbouring neurones towards cell body
    axon- carries impulses away from cell body, down length of neurone. covered in fatty layer of myelin sheath.
    myelin sheath- protects axon and speeds up electrical transmission of impulse
    nodes of ranvier- speed up transmission of impulse (x200) by forcing it to 'jump' across gaps along the axon
    terminal buttons- at end of axon, and communicate with the next neurone in the chain across a gap known as a synapse
  • if myelin sheath was continuous.. would have the reverse effect and instead slow down the electrical impulse, which is why it is segmented by gaps called nodes of ranvier.
  • three types
    • sensory
    • relay
    • motor
  • sensory
    neurone
  • relay
    neurone
  • motor
    neurone
  • sensory
    • carry messages from PNS to CNS
    • have long dendrites and short axons
    • carry nerve impulses from sensory receptors (vision, taste, touch) to the brain and spinal cord
    • when impulses reach the brain, they are translated into sensation (visual input, heat and pain) so that the organism can react appropriately
    • information that only travels as far as the spinal cord, allows reflex actions to occur quickly without delay of sending impulses to the brain
  • relay
    • often lack myelin
    • connect sensory neurone to motor neurone
    • short dendrites and short axons
  • motor
    • connect the CNS to effectors (muscles and glands)
    • they have short dendrites and axons
    • form synapses with muscles, and control their contractions
    • when stimulated, motor neurone releases neurotransmitters that bind to receptors on the muscle, triggering a response which leads to muscle movement
    • connects with the muscle/gland
  • reflex arc
    the knee-jerk reflex is an example of a reflex arc:
    • a stimulus, such as a hammer, kits the knee
    • this is detected by sense organs in the PNS (peripheral nervous system), which conveys a message along a sensory neurone
    • the message reaches the CNS (central nervous system)
    • this then transfers the message to a motor neurone
    • this then carries the message to an effector, such as a muscle, which causes the muscle to contract and causes the knee to move or jerk
  • synaptic transmission (stages 1-4)
    • stage one - electrical impulse arrives
    • stage two - vesicles move towards presynaptic membrane because of calcium
    • stage three - vesicles fuse with presynaptic membrane, releasing their contents to the synaptic gap
    • stage four - neurotransmitters diffuse across the gap
  • synaptic transmission (stages 5-7)
    • stage five - neurotransmitters may reach postsynaptic membrane, and bind into receptors
    • stage six - if sufficient neurotransmitters bind onto the postsynaptic membrane, can cause a new electrical impulse, that can travel down the neurone towards the cell body (can only happen if the threshold is reached)
    • stage seven - synapse needs to be reset, enzymes unbind from receptors
  • synaptic transmission
    steps
  • synaptic transmission
    image
  • synaptic transmission - impulse causes an influx of calcium, which makes the vesicles move
  • exam q - why can an impulse only move one way? (synaptic transmission)
    • due to the different structures
    • only the post synaptic membrane can receive impulses as it is the only one membrane with receptors