Exam qs

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Created by
Dorcas ᶻ 𝗓 𐰁

Cards (18)

  • The blink reflex involves synapses. Channel proteins on presynaptic neurones are involved in reflex responses. Explain how. (3)
    • Allows calcium ions in;
    • At end of presynaptic neurone
    • Causing release of neurotransmitter
  • Serotonin diffuses across the synaptic gap and binds to a receptor on the post-synaptic membrane. Describe how this causes depolarisation of the post-synaptic membrane (2)
    • Causes sodium ion channels to open
    • Sodium ions enter cell and cause depolarisation
  • It’s important that a neurotransmitter such as serotonin is transported back out of synapses. Explain why. (2)
    • If not removed keeps binding to receptors
    • Keeps causing action potentials / depolarisation in post-synaptic membrane
  • Substances, called hormones, can also stimulate effectors. Humans produce a large number of different hormones but only a small number of different neurotransmitters. Explain the significance of this difference. (3)
    • Hormones reach all cells (via blood);
    • Neurotransmitters secreted directly on to target cell;
    • Different hormones specific to different target cells;
  • Explain the effect of myelination on the rate of nerve impulse conduction. (2)
    • myelin insulates
    • saltatory conduction - impulse jumps from node to node
  • Explain how the release of acetylcholine at an excitatory synapse reduced the membrane potential of the postsynaptic membrane (3)
    • binds to receptors
    • and opens Na+ channels
    • Na+ enter and make membrane potential less negative / depolarised
  • Explain what causes transmission at a synapse to occur in only one direction (3)
    • vesicles containing neurotransmitter only in presynaptic membrane
    • receptors only in postsynaptic membrane
    • so neurotransmitters diffuse down concentration gradient
  • Describe the sequence of events leading to the release of acetylcholine and its binding to the postsynaptic membrane (5)
    • action potential arrives / depolarisation occurs
    • calcium ions enter synaptic knob
    • vesicles fuse with membrane
    • acetylcholine diffuses across synaptic cleft
    • binds to receptors
  • Describe the sequences of events which allow information to pass from one neurone to the next neurone across a cholinergic synapse. (6)
    • impulse causes calcium ions to enter axon
    • vesicles move to / fuse with presynaptic membrane
    • acetylcholine released
    • acetylcholine diffuses across synaptic cleft
    • binds with receptors on postsynaptic membrane
    • sodium ions enter postsynaptic neurone
    • depolarisation of postsynaptic membrane
    • if above threshold nerve impulse / action potential produced
  • Give two differences between a cholinergic synapse and a neuromuscular junction (2)
    • neurone to neurone and neurone to muscle
    • action potential in neurone and no action potential in muscle / sarcolemma
    • muscle response always excitatory
    • some neuromuscular junctions have different neurotransmitters
  • Describe how calcium ions are involved in synaptic transmission (2)
    • Ca+ enter presynaptic neurone/membrane
    • causes fusion of vesicles with presynaptic membrane
  • Describe how the release of acetylcholine into a neuromuscular junction causes the cell membrane of a muscle fibre to depolarise (3)
    • movement by diffusion
    • binding to receptors on postsynaptic membrane
    • causing Na channels to open/Na+ move into muscle
  • What is the function of the mitochondria in synaptic transmission?
    • Aerobic respiration, providing ATP (energy)
    • For neurotransmitter re-synthesis/reabsorption
    • For active transport of ions
    • To move vesicles
  • How are neurotransmitters made and stored?
    • made by endoplasmic reticulum
    • in the pre-synaptic neurone
    • stored in synaptic vesicles
  • Describe what happens when neurotransmitters bind to the post-synaptic membrane
    • the membrane becomes more permeable to Na+ ions
    • Na+ ion channels in the membrane open
    • Na+ ions diffuse down the electrochemical gradient into the cell
    • the inside of the axon becomes positively charged
    • the threshold is reached inside of the axon, the membrane becomes depolarised / an action potential is established
  • When a nerve impulse arrives at a synapse, it causes the release of neurotransmitters from vesicles in the presynaptic knob. Describe how. (3)
    • Nerve impulses / depolarisation of membrane causes Ca2+ channel proteins to open
    • Ca2+ enters by facilitated diffusion
    • Causes presynaptic vesicles to fuse with presynaptic membrane
  • Describe the sequence of events involved in transmission across a cholinergic synapse (5)

    • depolarisation of pre-synaptic membrane
    • calcium channels open and calcium ions enter
    • causing synaptic vesicles to move/fuse with presynaptic membrane AND release acetylcholine
    • acetylcholine diffuses across synaptic cleft
    • attaches to receptors on post-synaptic membrane
    • sodium ions enter postsynaptic neurone leading to depolarisation
  • Synapses are unidirectional. Explain how acetylcholine contributes to a synapse being unidirectional. (2)
    • (Acetylcholine) released from presynaptic side
    • Receptors in postsynaptic (side) / binds on postsynaptic (side)