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Deck 21: Nerve Cells
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Deck 21: Nerve Cells
1
How do researchers measure ion movements through single channels?
Patch clamping is a technique that measures the electric current caused by the movement of ions across a small patch of the plasma membrane.The membrane is electrically depolarized or hyperpolarized and maintained (clamped)at that potential by an electronic feedback device.The inward or outward movement of ions across a patch of membrane can be quantified from the amount of electric current needed to maintain the membrane potential at the designated "clamped" value.
2
Why are nongated channels important in the generation of an inside-negative electric potential (voltage)of 50-70 mV across the plasma membrane of cells?
If there is no ion movement across the membrane,there is no membrane potential.This is true even if there is a difference in ion concentrations on either side of the membrane.The presence of K⁺ channels that are usually open allows for ion movement from the inside of the cell to the outside and the creation of a negative membrane potential inside the cell.
3
During a knee jerk reflex,which of the following steps occurs first?
A)stretch receptor is activated
B)interneuron sends an inhibitory signal to the hamstring muscle
C)motor neuron stimulates the quadriceps muscle
D)action potential travels along a sensory neuron
A)stretch receptor is activated
B)interneuron sends an inhibitory signal to the hamstring muscle
C)motor neuron stimulates the quadriceps muscle
D)action potential travels along a sensory neuron
A
4
The resting potential of a typical neuron is:
A)−60 mV.
B)0 mV.
C)20 mV.
D)50 mV.
A)−60 mV.
B)0 mV.
C)20 mV.
D)50 mV.
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5
Which cells produce myelin?
A)oligodendrocytes
B)Schwann cells
C)astrocytes
D)Schwann cells and oligodendrocytes
E)all of the above
A)oligodendrocytes
B)Schwann cells
C)astrocytes
D)Schwann cells and oligodendrocytes
E)all of the above
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6
Action potentials are propagated in only one direction,down the axon.Explain how the absolute refractory period of the voltage-gated Na⁺ channels and the brief hyperpolarization resulting from K⁺ efflux produces this outcome.
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7
During an action potential,which happens first?
A)opening of voltage-gated Na⁺ channels
B)closing of voltage-gated Na⁺ channels
C)opening of voltage-gated K⁺ channels
D)closing of voltage gated K⁺ channels
A)opening of voltage-gated Na⁺ channels
B)closing of voltage-gated Na⁺ channels
C)opening of voltage-gated K⁺ channels
D)closing of voltage gated K⁺ channels
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8
The resting membrane potential in animal cells depends largely on nongated _____ channels.
A)Ca²⁺
B)H⁺
C)K⁺
D)Na⁺
A)Ca²⁺
B)H⁺
C)K⁺
D)Na⁺
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9
Action potentials:
A)vary in intensity
B)vary in frequency and timing
C)result in a decrease in resting potential
D)all of the above
A)vary in intensity
B)vary in frequency and timing
C)result in a decrease in resting potential
D)all of the above
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10
Action potentials are:
A)pulses of ion flow along axons.
B)brief local voltage changes within a neuron from inside-negative to inside-positive.
C)transmembrane potentials that result from the action of the Na⁺/K⁺ ion pump.
D)electrical signals used by glial cells to transmit information.
A)pulses of ion flow along axons.
B)brief local voltage changes within a neuron from inside-negative to inside-positive.
C)transmembrane potentials that result from the action of the Na⁺/K⁺ ion pump.
D)electrical signals used by glial cells to transmit information.
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11
In a human brain,the number of glial cells is:
A)about 1/10 the number of neurons.
B)about the same as the number of neurons.
C)about 10 times the number of neurons.
D)about 100-200 times the number of neurons.
A)about 1/10 the number of neurons.
B)about the same as the number of neurons.
C)about 10 times the number of neurons.
D)about 100-200 times the number of neurons.
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12
The birth of new neurons in the adult brain occurs in:
A)the dentate gyrus.
B)the brainstem.
C)olfactory bulb.
D)neural tube.
A)the dentate gyrus.
B)the brainstem.
C)olfactory bulb.
D)neural tube.
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13
Where are voltage-gated Na⁺ channels concentrated?
A)spaced uniformly along the axon membrane
B)clustered at the nodes of Ranvier
C)clustered at the axon terminus
D)embedded within the myelin sheath
A)spaced uniformly along the axon membrane
B)clustered at the nodes of Ranvier
C)clustered at the axon terminus
D)embedded within the myelin sheath
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14
Fruit flies carrying the shaker mutation have motor neurons with an abnormally long action potential because of:
A)a defect in the Na⁺/K⁺ pump.
B)a defect in voltage-gated Na⁺ channels.
C)a defect in non-voltage-gated K⁺ channels.
D)a defect in voltage-gated K⁺ channels.
A)a defect in the Na⁺/K⁺ pump.
B)a defect in voltage-gated Na⁺ channels.
C)a defect in non-voltage-gated K⁺ channels.
D)a defect in voltage-gated K⁺ channels.
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15
Repolarization during the refractory period is largely due to the:
A)opening of non-voltage-gated K⁺ channels.
B)opening of voltage-gated K⁺ channels.
C)opening of voltage-gated Na⁺ channels.
D)action of the Na⁺/K⁺ pump.
A)opening of non-voltage-gated K⁺ channels.
B)opening of voltage-gated K⁺ channels.
C)opening of voltage-gated Na⁺ channels.
D)action of the Na⁺/K⁺ pump.
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16
Which of the following is NOT a function of astrocytes?
A)stimulate blood vessels in the brain to maintain tight junctions
B)provide growth factors to neurons
C)produce extracellular matrix
D)excite muscle cells
A)stimulate blood vessels in the brain to maintain tight junctions
B)provide growth factors to neurons
C)produce extracellular matrix
D)excite muscle cells
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17
Which of the following represents a correct structure-function relationship for neurons?
A)cell body - sends signal to another cell
B)axon - contains the nucleus of the cell
C)dendrite - forms synapses with other neurons
D)axon termini - receive incoming signals
A)cell body - sends signal to another cell
B)axon - contains the nucleus of the cell
C)dendrite - forms synapses with other neurons
D)axon termini - receive incoming signals
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18
What starts an action potential in a post-synaptic neuron?
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19
How are most voltage-gated channels inactivated?
A)by ligand binding
B)by changes in membrane potential
C)through interaction with other membrane proteins
D)by closing spontaneously soon after opening
A)by ligand binding
B)by changes in membrane potential
C)through interaction with other membrane proteins
D)by closing spontaneously soon after opening
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20
Which cells produce myelin sheaths?
A)Schwann cells and oligodendrocytes
B)astrocytes
C)afferent neurons
D)interneurons
A)Schwann cells and oligodendrocytes
B)astrocytes
C)afferent neurons
D)interneurons
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21
Botulinum toxin acts on:
A)SNARES to promote vesicle fusion.
B)AMPA receptors to inhibit LTP.
C)calcium receptors to increase acetylcholine release.
D)VAMP to prevent fusion with SNARE complexes.
A)SNARES to promote vesicle fusion.
B)AMPA receptors to inhibit LTP.
C)calcium receptors to increase acetylcholine release.
D)VAMP to prevent fusion with SNARE complexes.
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22
Acetylcholine receptor loss is observed in people with:
A)schizophrenia.
B)drug addiction.
C)myasthenia gravis.
D)all of the above
A)schizophrenia.
B)drug addiction.
C)myasthenia gravis.
D)all of the above
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23
Reception of taste causes:
A)an action potential that travels along the axon of a taste cell.
B)release of neurotransmitters that are detected by adjacent neurons.
C)an increase in cGMP that inactivates ligand gated Na⁺/Ca⁺² channels.
D)activation of TRPV1,which is a ligand gated Na⁺/Ca⁺² channel.
A)an action potential that travels along the axon of a taste cell.
B)release of neurotransmitters that are detected by adjacent neurons.
C)an increase in cGMP that inactivates ligand gated Na⁺/Ca⁺² channels.
D)activation of TRPV1,which is a ligand gated Na⁺/Ca⁺² channel.
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24
Electrical synapses depend on:
A)neurotransmitters and receptor proteins.
B)calcium channels.
C)gap junction channels.
D)all of the above
A)neurotransmitters and receptor proteins.
B)calcium channels.
C)gap junction channels.
D)all of the above
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25
How does opening and closing of voltage-gated cation channels occur?
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26
Botulinum toxin inhibits nerve transmission by targeting:
A)the acetylcholine receptor.
B)VAMP.
C)dynamin.
D)synaptotagmin.
A)the acetylcholine receptor.
B)VAMP.
C)dynamin.
D)synaptotagmin.
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27
Which of the following proteins is NOT part of a four-helix complex that mediates fusion of synaptic vesicles with the plasma membrane?
A)NSF
B)SNAP-25
C)syntaxin
D)VAMP
A)NSF
B)SNAP-25
C)syntaxin
D)VAMP
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28
Touch receptors are:
A)non-gated cation channels.
B)gated cation channels.
C)calcium ion pumps.
D)G protein-coupled receptors.
A)non-gated cation channels.
B)gated cation channels.
C)calcium ion pumps.
D)G protein-coupled receptors.
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29
Evidence that synaptotagmin is the Ca²⁺ sensor for exocytosis of neurotransmitters includes:
A)Ca²⁺ binding by synaptotagmin.
B)partial loss-of-function mutations of synaptotagmin in Drosophila and C.elegans that result in neurons that are defective in Ca²⁺-stimulated vesicle exocytosis.
C)uncoordinated embryonic muscle contractions in Drosophila and c.elegans mutants that lack synaptotagmin.
D)all of the above
A)Ca²⁺ binding by synaptotagmin.
B)partial loss-of-function mutations of synaptotagmin in Drosophila and C.elegans that result in neurons that are defective in Ca²⁺-stimulated vesicle exocytosis.
C)uncoordinated embryonic muscle contractions in Drosophila and c.elegans mutants that lack synaptotagmin.
D)all of the above
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30
How does the nicotinic acetylcholine receptor function as a ligand-gated ion channel at nerve-muscle synapses?
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31
Myelinated axons have the conduction velocity of much larger axons (unmyelinated of course)because of all the following reasons,except:
A)voltage channels are only present at the nodes of Ranvier.
B)saltatory conduction.
C)more ion channels are present in myelinated axons.
D)insulation.
A)voltage channels are only present at the nodes of Ranvier.
B)saltatory conduction.
C)more ion channels are present in myelinated axons.
D)insulation.
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32
Two signaling proteins,agrin and neuregulin,have been identified in studies of neuromuscular junction development.In the absence of neuregulin:
A)Schwann cells die.
B)postsynaptic structures do not form in muscle cells.
C)the acetylcholine receptor protein is not synthesized.
D)all of the above
A)Schwann cells die.
B)postsynaptic structures do not form in muscle cells.
C)the acetylcholine receptor protein is not synthesized.
D)all of the above
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33
Why do chili peppers seem hot?
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34
During the development of specialized postsynaptic structures at a neuromuscular junction,preexisting AChR proteins on the surface of the uninnervated muscle are induced to aggregate by:
A)agrin,a signal released from the neuron.
B)the muscle membrane protein,MuSK.
C)the cytosolic protein,rapsyn.
D)all of the above
A)agrin,a signal released from the neuron.
B)the muscle membrane protein,MuSK.
C)the cytosolic protein,rapsyn.
D)all of the above
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35
Neurotransmitters are stored in:
A)the cell body.
B)the dendrite.
C)the axon hillock.
D)synaptic vesicles.
A)the cell body.
B)the dendrite.
C)the axon hillock.
D)synaptic vesicles.
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36
Explain how the expression of the H⁺/acetylcholine antiporter and the choline acetyltransferase enzyme are coordinated.
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37
Signaling at synapses is usually terminated by:
A)calcium influx.
B)potassium influx.
C)inhibitory neurotransmitters.
D)degradation or reuptake of neurotransmitters.
A)calcium influx.
B)potassium influx.
C)inhibitory neurotransmitters.
D)degradation or reuptake of neurotransmitters.
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38
How are neurotransmitters packaged at synaptic endings for quantal release?
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39
Describe the common features of the GABA,norepinephrine,dopamine,and serotonin transporter proteins.
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40
Taste receptors are either channel proteins or:
A)sodium ion pumps.
B)potassium ion pumps
C)calcium ion pumps
D)G protein-coupled receptors.
A)sodium ion pumps.
B)potassium ion pumps
C)calcium ion pumps
D)G protein-coupled receptors.
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41
Long-lasting memories:
A)are formed in the subventricular zone.
B)trigger a loss of CAMKII alpha activity.
C)do not require protein expression to be potentiated.
D)trigger increases in AMPA receptors postsynaptically.
A)are formed in the subventricular zone.
B)trigger a loss of CAMKII alpha activity.
C)do not require protein expression to be potentiated.
D)trigger increases in AMPA receptors postsynaptically.
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42
Silencing of the gene encoding FMRP:
A)decreases translation of mRNAs near the dendrites.
B)is associated with Huntington's disease.
C)results in less spatiotemporal regulation of neuron-specific protein expression.
D)causes mice to solve mazes more quickly.
A)decreases translation of mRNAs near the dendrites.
B)is associated with Huntington's disease.
C)results in less spatiotemporal regulation of neuron-specific protein expression.
D)causes mice to solve mazes more quickly.
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43
Long-lasting effects of habituation involve:
A)stimulation of sensitizing interactions.
B)decreasing numbers of connections between sensory and motor neurons.
C)movement of the Golgi apparatus out into the dendrites.
D)rewiring of neurons in the spinal cord.
A)stimulation of sensitizing interactions.
B)decreasing numbers of connections between sensory and motor neurons.
C)movement of the Golgi apparatus out into the dendrites.
D)rewiring of neurons in the spinal cord.
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