Neurons

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    • What is a cell?

      A small alive object that makes up all living things and is surrounded by a thin wall called a cell membrane.
    • Different cells can have different functions, one important function is that cells can transmit information.
    • Neuronal cells are cells that receive and transmit electrical signals. These electrical signals are called nerve impulses, or action potentials.
    • What are the four main components of the neuron?
      dendrite, cell body, axon and axon terminal
    • A nerve impulse is triggered at the cell of the body and travels in one direction from the dendrites down to the axon terminal.
    • Nerve impulses occur if there is a big enough change in voltage at the cell body.
    • The process through which nerve impulses are transmitted across the synapse is called synaptic transmission.
    • The gap between the axon terminal of one neuron, and the dendrites of a second neuron is called the synapse.
    • The part where the nerve impulse first arrives is called the pre-synaptic terminal and the membrane surrounding it is called the pre-synaptic membrane. The bit on the other side is the post-synaptic terminal, and the membrane around it is the post-synaptic membrane. The gap in the middle is the synaptic cleft.
    • The little round bags in the pre-synaptic terminal are called synaptic vesicles, and they are filled with chemicals called neurotransmitters.
    • What are the steps of synaptic transmission?
      1. Nerve impulse arrives at the pre-synaptic terminal causing synaptic vesicles to travel to the pre-synaptic membrane.
      2. Synaptic vesicle and pre-synaptic membrane fuse causing neurotransmitters to be released into the synaptic cleft.
      3. Neurotransmitters diffuse across the synaptic cleft towards the post-synaptic terminal.
      4. Neurotransmitters bind to receptors on the post-synaptic terminal allowing particles to flow into it.
      5. Neurotransmitters are released from receptors and are removed through the process of re-uptake (by re-uptake proteins)
    • The more positively charged particles flow into the post-synaptic terminal the more likely it is that a nerve impulse is generated at the cell body.
    • What is Re-uptake?
      The process of removing neurotransmitters from the synaptic cleft
    • When can Summation occur?
      When multiple nerve impulses occur in the pre-synaptic neuron in close succession or when multiple nerve impulses occur at multiple synapses at the same time.
    • What is summation?
      when multiple small changes in voltage add up together and make it more likely a nerve impulse will be triggered.
    • Excitatory neurotransmitters cause positively charged particles to enter the post-synaptic neurons, and inhibitory neurotransmitters cause negatively charged particles to enter the post-synaptic neurons.
    • Excitatory neurotransmitters make a nerve impulse more likely to occur where as inhibitory neurotransmitters make a nerve impulse less likely to occur.
    • Excitatory neurotransmitters
      • cause positively charged particles to enter the post-synaptic neuron
      • make nerve impulses more likely to occur
      • creates excitatory post-synaptic potentials
    • Inhibitory neurotransmitters
      • cause negatively charged particles to enter the post-synaptic neuron
      • create inhibitory posy-synaptic potentials
      • make nerve impulses less likely to occur
    • For a nerve impulse to occur there need to be more excitatory post-synaptic potentials than inhibitory post-synaptic potentials, or there needs to be more excitatory neurotransmitter release than inhibitory neurotransmitter release.
    • Excitatory posy-synaptic potentials and inhibitory post-synaptic potentials can summate, but inhibitory post-synaptic potentials cancel out the excitatory post-synaptic potentials.
    • Whether a nerve impulse occurs, depends on the balance of excitatory and inhibitory neurotransmitters binding to post-synaptic receptors.
    • What are the Types of Neurotransmitter?
      Excitatory neurotransmitters:
      • Acetylcholine,
      Inhibitory neurotransmitters:
      • GABA
      Both:
      • Dopamine
      • Serotonin
    • What is Dopamine?
      Released between neurons that help control the brain's response to reward.
      • both Excitatory and Inhibitory.
    • What is Serotonin?
      Released between neurons that help control mood
      • both Excitatory and Inhibitory
    • What is GABA?
      Main inhibitory neurotransmitter used in the brain
      Makes nerve impulses less likely to happen
    • What is Acetylcholine?
      Released by neurons controlling our muscles
      Makes nerve impulses more likely to happen.
    • what are the 3 main types of neurons?
      • Sensory
      • Relay
      • Motor
    • What are motor neurons?
      Neurons that carry information away from the brain and control muscle movement.
    • What are relay neurons?
      Neurons that transform and process are located between sensory neurons and motor neurons within the central nervous system.
    • What are Sensory neurons?
      Neurons that carry information towards the brain and react to sensory information
    • What is different for a sensory neuron structure than a relay one?
      Sensory neurons have smaller dendrites due to having to connect to sensory receptors, not other axon terminals. It also has a cell body that sticks out of the axon and the axon is coated with a substance called the myelin sheath.
    • What is the structural difference between a motor and a relay neuron?
      Motor neurons form synapses with muscle fibers at their axon terminals, and unlike motor neurons relay neurons do not have a myelin sheath.
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