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Deck 3: Generating Long-Term Potentiation
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Deck 3: Generating Long-Term Potentiation
1
Glutamate is an excitatory neurotransmitter.
True
2
Glutamate receptors involved in LTP are found along the axon.
False
3
Calcium is a second messenger.
True
4
Second messengers can be quickly synthesized.
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5
Phosphatases add phosphates to other proteins.
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6
Ionotropic receptors protrude outside and inside the cell.
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7
Competitive antagonists, such as APV, can replace a ligand and cause conformational changes in the receptor.
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8
AMPA receptors influx mainly Na+; NMDA receptors influx both Na+ and Ca2+.
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9
The opening of NMDA receptor channels require synaptic depolarization.
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10
Antagonizing NMDA receptor after LTP is established prevents LTP expression.
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11
Constitutive AMPA receptor trafficking is primarily a diffusion process.
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12
Stargazin is critical to the opening of the AMPA receptor.
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13
Stargazin is critical to the trapping of AMPA receptors in the PSD.
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14
PSD-95 is critical to the trapping of AMPA receptors in the PSD.
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15
The delivery of AMPA receptors produced by LTP induction involves both lateral diffusion and the exocytic processes.
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16
CaMKII is important in the delivery of AMPA receptors to the PSD because it phosphorylates stargazin.
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17
The degradation of the actin cytoskeleton depends on spectrins degrading calpains.
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18
NMDA receptors but not AMPA receptors influx calcium.
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19
What is an excitatory synapse?
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20
What is APV, and what is its function?
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21
What were Collingridge's results that established the importance of NMDA receptors to our understanding of LTP?
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22
What are the two conditions that must be met for Ca2+ ions to flow into the neuron?
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23
Why would an increase in the population of AMPA receptors increase the fEPSP?
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24
Why is the NMDA receptor an ionotropic glutamate receptor?
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25
What is the role of calpain in the generation of LTP?
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26
Why should inhibiting NMDA receptors prevent the degradation of the actin cytoskeleton?
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27
Why should inhibiting AMPA receptors prevent the generation of LTP?
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28
Why should inhibiting AMPA receptors prevent the expression of LTP?
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29
Glutamate is a(n) _______ neurotransmitter.
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30
NMDA receptors are necessary for the _______ of LTP, but not for the _______ of LTP.
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31
A major mechanism for the expression of LTP involves increasing the number of _______ receptors in the membrane at synapses.
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32
AMPA trafficking is regulated _______ and by _______.
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33
The molecule _______ traps AMPA receptors in the PSD.
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34
You could block the expression of LTP by inhibiting _______ receptors.
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35
Which is/are shared by NMDA and AMPA receptors? (Select all that apply.)
A) Neither bind to glutamate.
B) Both have a magnesia binding site.
C) Both require depolarizing in order to open the channel.
D) Both are voltage gated.
E) None of the above.
A) Neither bind to glutamate.
B) Both have a magnesia binding site.
C) Both require depolarizing in order to open the channel.
D) Both are voltage gated.
E) None of the above.
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36
Which term(s) applies/apply to glutamate? (Select all that apply.)
A) Neurotransmitter
B) First messenger
C) Ligand
D) Receptor
E) None of the above.
A) Neurotransmitter
B) First messenger
C) Ligand
D) Receptor
E) None of the above.
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37
Which statement(s) about LTP is/are false? (Select all that apply.)
A) NMDA and AMPA receptors are required for the induction of LTP.
B) CNQX can inhibit induction, but not expression, of LTP.
C) APV can inhibit induction, but not expression, of LTP.
D) To express LTP, NMDA and AMPA channels are crucial.
E) None of the above
A) NMDA and AMPA receptors are required for the induction of LTP.
B) CNQX can inhibit induction, but not expression, of LTP.
C) APV can inhibit induction, but not expression, of LTP.
D) To express LTP, NMDA and AMPA channels are crucial.
E) None of the above
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38
Which statement(s) is/are true? (Select all that apply.)
A) Calcium influx is necessary to induce LTP.
B) AMPA receptors are necessary to induce LTP but not necessary for the expression of LTP.
C) NMDA receptors are not necessary for the expression of LTP.
D) NMDA receptors requires only the binding of glutamate to open their channel.
E) The opening of NMDA receptors is voltage dependent.
A) Calcium influx is necessary to induce LTP.
B) AMPA receptors are necessary to induce LTP but not necessary for the expression of LTP.
C) NMDA receptors are not necessary for the expression of LTP.
D) NMDA receptors requires only the binding of glutamate to open their channel.
E) The opening of NMDA receptors is voltage dependent.
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39
Which event(s) is/are necessary for the lateral diffusion of AMPA receptors into the PSD? (Select all that apply.)
A) CaMKII must phosphorylate NMDA receptors.
B) CaMKII must phosphorylate PSD95.
C) Calcium must enter the spine.
D) CaMKII must phosphorylate Stargazin.
E) None of the above
A) CaMKII must phosphorylate NMDA receptors.
B) CaMKII must phosphorylate PSD95.
C) Calcium must enter the spine.
D) CaMKII must phosphorylate Stargazin.
E) None of the above
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40
Which step(s) is/are required to degrade the actin cytoskeleton? (Select all that apply.)
A) Calcium must activate calpain.
B) Calpain must activate NMDA receptors.
C) Spectrin must degrade AMPA receptors.
D) Calpain must degrade spectrin.
E) AMPA receptors must be rapidly inserted into the PSD.
A) Calcium must activate calpain.
B) Calpain must activate NMDA receptors.
C) Spectrin must degrade AMPA receptors.
D) Calpain must degrade spectrin.
E) AMPA receptors must be rapidly inserted into the PSD.
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