Exam 3 - Ch 43
What type of ion channel is responsible for the depolarization phase of an action potential? See Section 43.2 (Page 905) .
Voltage-gated Na+ channels
True or false? The potential energy of a membrane potential comes solely from the difference in electrical charge across the membrane.
false
A stimulus has opened the voltage-gated sodium channels in an area of a neuron's plasma membrane. As a result, _____ rushes into the neuron and diffuses to adjacent areas; this in turn results in the _____ in the adjacent areas.
sodium ... opening of voltage-gated sodium channels
A neuron has a resting potential of about _____ millivolts.
-70
Rank the axons from slowest to fastest conduction speed. If two axons have the same conduction speed, place one on top of the other.
20 um, 30 um, 40um, 30 um with bubbles
Which neurotransmitter is responsible for the voluntary movement of muscles in your arm? See Section 43.3 (Page 909) .
Acetylcholine
Which term describes an electrical signal generated by neurons?
Action potential.
Which statement correctly describes what causes the second voltage-gated Na+ channel to open?
After the first channel opens, the movement of many types of ions (both inside and outside the cell) alters the distribution of charges near the second channel, causing it to open.
Where in the neuron do action potentials begin?
Axon hillock.
What would be a best control for this experiment? See Section 43.3 (Page 909) .
Collect solution around the nerve end from heart #1 without stimulating the vagus nerve and apply to heart #2.
Sort the phrases into the appropriate bins depending on which type of postsynaptic potential they describe. If a phrase describes both types of potentials, drag it to the "both" bin.
EPSP: depolarizes the postsynaptic membrane results from the movement of \rm Na^+ ions into the postsynaptic cell brings the postsynaptic membrane potential closer to threshold IPSP: hyperpolarizes the postsynaptic membrane results from the movement of \rm K^+ ions out of the postsynaptic cell moves the postsynaptic membrane potential farther away from threshold both: is a graded potential
Which of the following terms describes how a neuronal membrane's potential is altered in the presence of inhibitory signals?
Hyperpolarization.
Drag the labels onto the graph to indicate which presynaptic neuron produced each change in the axon hillock's membrane potential. Assume that the same number of ligand-gated ion channels opens at each synapse. (To review the effect of distance between the synapse and the axon hillock, see Hint 2.) Labels can be used once, more than once, or not at all.
I2,E2,E1,I1,E2,E1
Which term describes the difference in electrical charge across a membrane?
Membrane potential.
Identify two possible mechanisms by which axons conduct action potentials more rapidly. See Section 43.2 (Page 905) .
Increase axon diameter and axon myelination
Which of the following would hyperpolarize a cell's resting potential? See Section 43.2 (Page 905) .
Increasing the permeability of the cell membrane to potassium
What would be the effect on the EPSP if the concentration of the enzyme responsible for degrading the excitatory neurotransmitter increased dramatically in the synapse? See Section 43.3 (Page 909) .
It would decrease the magnitude of the EPSP.
Resting neurons are most permeable to which of the following ions?
K+
Which structure is not part of a neuron?
Myelin sheath.
In the experiment by Otto Loewi, what type of compound was responsible for the slowing of the heart rate in the second heart? See Section 43.3 (Page 909) .
Neurotransmitter
Which channel is mainly responsible for the resting potential of a neuron?
Potassium leak channel.
What would occur if sodium channels remained open once membrane depolarization was complete?
Repolarization would occur, but much more slowly.
How is an action potential propagated down an axon after voltage-gated sodium channels open in a region of the neuron's membrane?
Sodium ions enter the neuron and diffuse to adjacent areas, resulting in the opening of voltage-gated sodium channels farther down the axon.
Which event triggers the creation of an action potential?
The membrane depolarizes above a certain threshold potential.
What behavior is observed if the voltage across a neuronal membrane is set to -20 mV?
The sodium channel opens, and Na+ ions flow in.
Which channel maintains the concentration gradients of ions across a neuronal membrane?
The sodium-potassium pump moving Na+ ions out and K+ ions in.
Which of the following statements about action potentials in a given neuron is false?
They are propagated down the length of the dendrite.
Drag the labels onto the flowchart to indicate the sequence of events that occurs in the presynaptic cell (orange background) and the postsynaptic cell (blue background) after an action potential reaches a chemical synapse.
a. Ca2+ channels in presynaptic membrane open briefly b. Ca2+ ions enter the presynaptic cell c. neurotransmitter-containing vesicles fuse with presynaptic membrane d. neurotransmitter released into presynaptic cleft e. neurotransmitter binds to ligand-gated ion channels in postsynaptic membrane; channels open f. neurotransmitter degraded or removed from cleft; ligand-gated ion channels close
Drag the appropriate labels onto the graph to indicate the status (open or closed) of the voltage-gated Na+ and K+ channels during each phase of an action potential. Labels may be used once, more than once, or not at all.
a. closed, closed b. open, closed c. closed, open d. closed, open e. closed, closed
The transmission first triggers the _____.
opening of voltage-gated sodium channels and the diffusion of sodium ions into the neuron
Drag the labels onto the table to indicate which type(s) of gated ion channels are found in each membrane associated with a chemical synapse. (The letters in the table refer to the lettered structures in the image above.) Labels can be used once, more than once, or not at all.
a. voltage-gated Na+, voltage-gated K+ b. voltage-gated Na+, voltage-gated K+, voltage-gated Ca2+ c. ligand-gated d. none e. voltage-gated Na+, voltage-gated K+
Which of these causes the release of neurotransmitter molecules?
an action potential reaching the end of the axon
An action potential moves along a(n) _____.
axon
Enter the sequence in which the action potential would pass through the points. Enter the letters in the correct order separated by commas. For example if the order is point (c), then (b), then (a), enter c, b, a. If the action potential would not pass though a point, do not include that point in your answer.
b,a,c
Neurotransmitters are released from neurons in response to the increase in intracellular concentration of what ion?
calcium
True or false? Action potentials travel in only one direction down an axon because potassium channels in the neuron are refractory and cannot be activated for a short time after they open and close.
false
Which of the following characteristics determines when the refractory period ends?
how long it takes for the voltage-gated Na+ channels to reactivate at the end of an action potential
Which of the following is most likely to result in an action potential at a postsynaptic neuron?
many EPSPs and few IPSPs
Drag the labels onto the flowchart to show the sequence of events that occurs once the membrane potential reaches threshold. You may use a label once or not at all.
membrane potential reaches threshold many voltage-gated Na+ channels open Na+ ions rush into the cell membrane potential rises
The space between an axon of one neuron and the dendrite of another neuron is called a(n) _____.
synaptic cleft
Neurons store neurotransmitter molecules in vesicles located within _____.
synaptic terminals
At rest, which of these plays a role in establishing the charge differential across a neuron's plasma membrane?
the sodium-potassium pump moving sodium ions out of the neuron and potassium ions into the neuron