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57 Cards in this Set
- Front
- Back
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What is the refractory period?
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The refractory period is the time when neuron is unable to fire a second AP
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What is the absolute refractory period?
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The absolute refractory period is the time when a second AP is not possible
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When does the absolute refractory period take place? Are Na+ channels open or closed?
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The absolute refractory period takes place during depolarization. Na+ channels are either completely open or closed and locked
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What does the absolute refractory period ensure?
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It ensures that each AP is an all-or-none event
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What does the absolute refractory period enforce?
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It enforces one-way transmission of nerve impulses
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Why is a second AP not possible during the absolute refractory period?
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Because the first AP is still occurring
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During the relative refractory period, what is occurring?
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Hyperpolarization is occurring
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During the relative refractory period, which channels are open and which are closed?
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Most Na+ channels are closed but ready to open and some K+ channels are still open
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During the relative refractory period, what may occur?
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If there's a exceptionally strong stimulus opening enough Na+ channels, a second AP may occur
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During one AP, what is occurring at time = 2 ms?
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AP peak is at the recording electron
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During one AP, what is occurring at time = 4 ms?
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AP peak has passed and recording electrode is recording hyperpolarization
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Why doesn't NA+ travel the other way in AP?
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Na+ does go the other way but the channels are closed and locked immediately after AP passes
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You only see continuous conduction on what kind of neurons?
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Unmyelinated neurons
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What is conduction velocity?
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Conduction velocity is how fast the axon conducts an AP
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Unmyelinated axons propagate by what?
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Continuous Conduction
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Is the conduction velocity fast or slow with continuous conduction?
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Slow: 1 m/s
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What does continuous conduction require?
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Requires voltage-gated channels all along entire axon
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Why is continuous conduction inefficient?
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Because it must depolarize and repolarize each patch of membrane
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What does myelination of the axon prevent?
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Prevents leak of charge
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What does myelination of the axon do to the conduction velocity?
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Speeds it up
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What are the Nodes of Ranvier?
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Nodes of Ranvier are bare patches of axon
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In myelinated axons, voltage gated channels are located where?
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They are only clustered at the nodes of Ranvier
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What is saltatory conduction?
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Saltatory conduction is where APs appear to jump rapidly from node to node on myelinated axons
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In a bare plasma membrane, voltage decays why?
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Because current leaks across the membrane
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On myelinated axons, conduction velocity with saltatory conduction can propagate APs how fast?
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Up to 150 m/sec
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What is Multiple Sclerosis?
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MS is an autoimmune disease that mainly affects young adults
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In MS, what is occurring?
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Immune system is destroying myelin in the CNS
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What are some symptoms of MS?
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Loss of muscular control, disturbances of vision of speech
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What does the presynaptic neuron do?
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Conducts APs toward the synapse
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What does the postsynaptic neuron do?
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Transmits APs away from the synapse
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Neurons are separated by what?
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The synaptic cleft
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What is the synaptic cleft?
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Fluid-filled space through which NT diffuses
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What does the cleft do?
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Keeps presynaptic AP from directly reaching postsynaptic neuron
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What are the 5 events at the Chemical Synapse?
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1. Action potential arrives at axon terminal.
2. Voltage-gated Ca+2 channels open and Ca+2 enters axon terminal 3. Ca+2 entry triggers exocytosis of NT 4. NT diffuses across the synaptic cleft which binds to specific receptors on the postsynaptic neuron 5. Binding of NT opens chemically-gated ion channels which sets of GP |
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What 3 ways are NT effects terminated?
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1. Diffusion away from the synapse
2. Enzymatic degradation 3. Reuptake by transport proteins (NE, or serotonin) |
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What does EPSP stand for?
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Excitatory Post-Synaptic Potentials
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What do EPSPs do?
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Graded depolarization, excites AP
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What does IPSP stand for?
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Inhibitory Post-Synaptic Potentials
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What do IPSPs do?
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Graded hyperpolarizations, inhibits AP
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How are post-synaptic potentials graded?
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Amount of NT released and how long NT is in the area
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The amount of NT released depends on what?
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Depends on number of ion channels opened
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How long NT is in the area depends on what?
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How long channels stay open
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Graded potentials may last for how long? How long do APs last?
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Seconds to minutes. APs last only 2 msec
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A single EPSP cannot do what?
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A single EPSP cannot set off an AP
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A neuron receives input from one or many other neurons?
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Many other neurons
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What can EPSPs do to reach threshold?
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Summate
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When IPSPs and EPSPs summate, what occurs?
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They cancel each other out
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What are the two types of summation?
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Temporal summation and Spatial summation
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What is temporal summation?
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Temporal summation is when one or more pre-synaptic neurons transmit impulses in rapid fire order
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What is spatial summation?
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Spatial summation is when the neuron is stimulated by a large number of pre-synaptic neurons at the same time
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Most neurons make how many NTs?
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2 or more
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What does Acetylcholine do?
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Excites skeletal muscle to contract and inhibits cardiac muscle and slows heart
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What does norepinephrine do/
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Excites cardiac muscle (speeds heart up, stronger contractions)
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What is Tetrodotoxin?
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Tetrodotoxin is a powerful poison that selectively blocks voltage-gated Na+ channels.
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What does Tetrodoxin cause?
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After it blocks the Na+ channels, APs can't occur and then muscles everywhere can't contract. Death ensues
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How far do EPSPs and IPSPs travel?
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1-2 mm
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On what are EPSPs and IPSPs carried?
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Carried by local currents along dendrites
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