Homework Answers
The blocked potassium channels lead to depolarization, repetitive firing, action potential prolongation, and an increase in endocrine activity and transmitter release. The blocked potassium channels result in the accumulation of positive charge in the cell since the potassium ions are charged positively. This leads to a difference in the potential of the membrane from negative to zero (depolarization).
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Question 17 (6 points) Consider the typical action potential. Predict what would happen and how the...
Please answer question According to the plot of an action potential, select the answer that is...
Please answer question
According to the plot of an action potential, select the answer that is false. Membrane Potential (mv) The voltage gated sodium channel is inactivated at time point 3. The membrane is repolarizing at time point 3. Voltage gated potassium channels are open at time point 4. The membrane cannot undergo another action potential at time point 4. The voltage gated sodium channels are closed at time point 2.
could you please explain how you did each one 5. Draw a graph showing what would...
could you please explain how you did each one
5. Draw a graph showing what would happen to resting membrane potential over time, if the sodium/potassium pump were not functioning. How would this affect a neuron's ability to produce action potentials? What does this imply about the quantity of ions that normally cross the membrane during the course of an action potential? (Group D). Topic 2: Action potential conduction and synaptic transmission 6. How would you alter sodium and/or potassium...
You are studying the permeability on Voltage-Gated Sodium Channels involved in action potential generation. Predict what...
You are studying the permeability on Voltage-Gated Sodium Channels involved in action potential generation. Predict what would happen to the permeability of Sodium in the following cases (would it decrease, increase or stay the same?). Explain why you chose your answer. i.Increased receptor number. ii. Add a drug that make channel stay open longer. iii. Raise Vm above+35mV. iv.Lower Vm below -70mV. v.Add a drug that prevents channel opening. vi. Add more Na+ to the extracellular environment.
9. What would an action potential look like if an animal had a mutation in a...
9. What would an action potential look like if an animal had a mutation in a voltage-gated potassium channel that caused it to open at -10mV instead of +40mV? Use diagrams to illustrate your answers (4 points).
Help! What might be the "stimulus" that initiates the action potential? Incorrect Question 10 0/1 pts...
Help! What might be the "stimulus" that initiates the action
potential?
Incorrect Question 10 0/1 pts Action potential +40 Voltage (mv) 5 Stimulus 1 4 2 3 Time (ms) What might be the "stimulus" that initiates the action potential? the activty of sodium/potassium ATPase the activty of calcium ATPase the activity of potassium ion channels the activity of ligand gated channels the activity of sodium ion channels
2. Neuron during an action potential: a. What triggers the first action potential (which ion)? b....
2. Neuron during an action potential: a. What triggers the first action potential (which ion)? b. What is the typical threshold potential of a neuron? c. The calculated equilibrium potential of Na+ (EN) is approx. +60mV (calculated). Explain how this is related to the rising phase of an action potential (depolarization). d. The calculated equilibrium potential of K+ (EK) is approx. -90mV. Explain how this is related to the falling phase (repolarization). e. Direction of Nation movement (influx/efflux). f. Direction...
ant Score: 10% Resources C Give Up? O Hint Check Answer of 10 Use the Action...
ant Score: 10% Resources C Give Up? O Hint Check Answer of 10 Use the Action Potential Transmission tab of the Membrane Potentials interactive to help you answer the question. What would happen to the action potential transmission if voltage-gated sodium (Na+) channels in the initial axon segment were abnormally far apart from one another? The action potential would propagate more quickly than normal because saltatory conduction enables the depolarization signal to jump between voltage-gated Na+ channels. The action potential...
During the propagation of an action potential, what would be the effect of a mutation in...
During the propagation of an action potential, what would be the effect of a mutation in the voltage-gated Na+-channels that does not allow “inactivation” phase to occur, such that these channels go directly from open to closed conformations? a) The neuron with the mutant Na+ channels will start letting in calcium ions and generate a calcium-based action potential that is stronger than the sodium-based action potential. b) The neuron with the mutant Na+ channel will exhibit a reverse electrochemical gradient...
5. Did you notice that during the action potential the neuron membrane potential reaches -90mV and...
5. Did you notice that during the action potential the neuron membrane potential reaches -90mV and stops? How/why does it stop at -90mV? Why doesn't it get more negative than -90mV? Hint: When the voltage-gated K+ channels are open on a neuron, there are so many voltage- gated K+ channels open that in reality you can think of the cell as being only permeable to K+. It's the main ion moving. Based on this and what we talked about on...
Question 4 2 pts During and action potential, sodium (Na+) rushes into the cell causing of...
Question 4 2 pts During and action potential, sodium (Na+) rushes into the cell causing of the cell. Then sodium channels close and potassium (K+) rushes out of the cell, causing of the cell. However, the potassium overshoots and causes Question 5 2 pts During the refractory period, the pumps Na+ ions out of the cell and K+ions into the cell, re-establishing the resting membrane potential and concentration gradient. Serotonin Acetylcholine Glutamate Endorphins Barbiturates GABA Dopamine Cocaine Sodium Potassium Calcium...
Please answer question
According to the plot of an action potential, select the answer that is false. Membrane Potential (mv) The voltage gated sodium channel is inactivated at time point 3. The membrane is repolarizing at time point 3. Voltage gated potassium channels are open at time point 4. The membrane cannot undergo another action potential at time point 4. The voltage gated sodium channels are closed at time point 2.
could you please explain how you did each one
5. Draw a graph showing what would happen to resting membrane potential over time, if the sodium/potassium pump were not functioning. How would this affect a neuron's ability to produce action potentials? What does this imply about the quantity of ions that normally cross the membrane during the course of an action potential? (Group D). Topic 2: Action potential conduction and synaptic transmission 6. How would you alter sodium and/or potassium...
9. What would an action potential look like if an animal had a mutation in a voltage-gated potassium channel that caused it to open at -10mV instead of +40mV? Use diagrams to illustrate your answers (4 points).
Help! What might be the "stimulus" that initiates the action
potential?
Incorrect Question 10 0/1 pts Action potential +40 Voltage (mv) 5 Stimulus 1 4 2 3 Time (ms) What might be the "stimulus" that initiates the action potential? the activty of sodium/potassium ATPase the activty of calcium ATPase the activity of potassium ion channels the activity of ligand gated channels the activity of sodium ion channels
2. Neuron during an action potential: a. What triggers the first action potential (which ion)? b. What is the typical threshold potential of a neuron? c. The calculated equilibrium potential of Na+ (EN) is approx. +60mV (calculated). Explain how this is related to the rising phase of an action potential (depolarization). d. The calculated equilibrium potential of K+ (EK) is approx. -90mV. Explain how this is related to the falling phase (repolarization). e. Direction of Nation movement (influx/efflux). f. Direction...
ant Score: 10% Resources C Give Up? O Hint Check Answer of 10 Use the Action Potential Transmission tab of the Membrane Potentials interactive to help you answer the question. What would happen to the action potential transmission if voltage-gated sodium (Na+) channels in the initial axon segment were abnormally far apart from one another? The action potential would propagate more quickly than normal because saltatory conduction enables the depolarization signal to jump between voltage-gated Na+ channels. The action potential...
5. Did you notice that during the action potential the neuron membrane potential reaches -90mV and stops? How/why does it stop at -90mV? Why doesn't it get more negative than -90mV? Hint: When the voltage-gated K+ channels are open on a neuron, there are so many voltage- gated K+ channels open that in reality you can think of the cell as being only permeable to K+. It's the main ion moving. Based on this and what we talked about on...
Question 4 2 pts During and action potential, sodium (Na+) rushes into the cell causing of the cell. Then sodium channels close and potassium (K+) rushes out of the cell, causing of the cell. However, the potassium overshoots and causes Question 5 2 pts During the refractory period, the pumps Na+ ions out of the cell and K+ions into the cell, re-establishing the resting membrane potential and concentration gradient. Serotonin Acetylcholine Glutamate Endorphins Barbiturates GABA Dopamine Cocaine Sodium Potassium Calcium...
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