Potassium channels open first following stimulation leading to an action potential Select one: True False The...
Potassium channels open first following stimulation leading to an action potential
Select one:
True
False
The concentration of sodium ions are highest in the cytoplasm of neurons
Select one:
True
False
Homework Answers
1) Potassium channels open first following stimulation leading to an action potential.
FALSE
First the sodium channels open following stimulation. This opening of sodium channels will lead to entry/influx of sodium ions (Na+) into the cell making the membrane potential more positive.
Depolarization of the plasma membrane due to opening of gated Na+ channels. This depolarization causes Action potential after crossing the threshold level.
Opening of potassium channels causes efflux of K+ outside the cell. This will make the membrane potential more negative and thus causes repolarisation.
So the above statement is false.
2) The concentration of sodium ions are highest in the cytoplasm of neuron :-
FALSE
The inside of the cell has a low concentration of sodium ions, and the outside of the cell has a higher concentration of sodium ions.
The concentration of sodium is higher on the outside of the cell and low concentration on the inside of the cell because the cell has low permeability to sodium than potassium so the high concentration of (Na+) outside the cell pushes this ion into the cell down the concentration gradient.
Thus the above statement is false that concentration of concentration of sodium ions are highest in the cytoplasm of neurons.
Add Answer to:
Potassium channels open first following stimulation leading to
an action potential
Select one:
True
False
The...
The graph illustrates an action potential. Label when sodium and potassium channels are opening and closing....
The graph illustrates an action potential. Label when sodium and potassium channels are opening and closing. Answer Bank potassium channels open sodium channels open sodium channels close Membrane potential (mV) Rest potential potassium channels close Time (ms)
An action potential does not move back wards in the axon because.. a.Voltage-gated sodium channels behind...
An action potential does not move back wards in the axon because.. a.Voltage-gated sodium channels behind the action potential are inactivated. b. Potassium leak channels no longer let potassium ions through c. Voltage-gated sodium channels are open d. Mechanically-gated channels prevent outflow of sodium e. Voltage-gated potassium channels are closed
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.
With respect to the membrane potential which of the following is NOT true? A. In resting...
With respect to the membrane potential which of the following is NOT true? A. In resting cells, the membrane potential is negative because sodium ions are less permeable than potassium ions. B. The resting potential of the nerve cell depends on voltage gated potassium channels C. While chloride is much more permeable than sodium, it adds relatively little to the negative membrane potential. D. The concentration of chloride inside/outside the cell is the reciprocal of the potassium concentration of the...
If necessary, refer to Animation: Chemical Synapses. When an action potential reaches the axon terminal: sodium...
If necessary, refer to Animation: Chemical Synapses. When an action potential reaches the axon terminal: sodium ions are released from the axon terminal, enter the cell body of the postsynaptic neuron through its sodium channels, and may initiate an action potential in that neuron. neurotransmitter molecules are released from the axon terminal and bind to receptors on the postsynaptic neuron, causing either an inhibitory hyperpolarization or an excitatory depolarization. neurotransmitter molecules are released from the axon terminal, bind to and...
Neurons are electrically excitable cells in the nervous system that function to process and transmit information...
Neurons are electrically excitable cells in the nervous system that function to process and transmit information from one part the body to another, through specialized connections called synapses. The signaling process is partly electrical and partly chemical. In vertebrate animals, neurons are the core components of the brain, spinal cord and peripheral nerves. Neurons carry messages in the form of electrical signals called nerve impulses or action potentials. An action potential occurs when the resting membrane potential at a specific...
3. Many neurons contain "delayed K channels". Like voltage-gated Nat channels, these voltage-gated K+ channels open in response to a rise in membrane potential and then undergo inactivati...
3. Many neurons contain "delayed K channels". Like voltage-gated Nat channels, these voltage-gated K+ channels open in response to a rise in membrane potential and then undergo inactivation. However, opening of the voltage-gated K channels lags behind opening of the voltage-gated Na channels. a) Why does neuronal function require the voltage-gated K channels to open more slowly than the voltage-gated Na channels? b) Compared to a neuron that lacks voltage-gated K channels, what differences would you expect in the shape...
Assume a mutation of the gene coding for the voltage-gated sodium channel resulted in channels that...
Assume a mutation of the gene coding for the voltage-gated sodium channel resulted in channels that do not have the ball and chain part of the protein. Which of the following would you expect to see? a. A change in the ion selectivity of the channel of the mutated channels, allowing ions other than sodium to move through it. b. A change in the voltage sensitivity of the channel so that it does not open until more depolarized voltages. c....
Order the following events that occur in a neuron in response to a stimulus Sodium Potassium...
Order the following events that occur in a neuron in response
to a stimulus
Sodium Potassium Pumps and Potassium Leak Channels re-establish the resting potential Voltage Gated Potassium channels close The inside of the cell becomes more negative than the original resting potential V Voltage Gated Sodium channels open Sodium ions rush into the cell The inside of the cell becomes temporarily positive Votage Cated Potatalum channels open which causes potassium to flood out of the cell
need help In this 4 question please and thank you Question 10 (2 points) (True/false) During...
need help In this 4 question please and thank you
Question 10 (2 points) (True/false) During the rising phase of the action potential, the charge inside of the axon changes from negative to positive (depolarizes) True False Question 11 (2 points) (True/false) During the rising phase of the action potential, potassium channels (gates) open and allow the cell to depolarize. True False An interneuron OA) Receives excitatory or inhibitory inputs from other neurons and then can activate or not activate...
The graph illustrates an action potential. Label when sodium and potassium channels are opening and closing. Answer Bank potassium channels open sodium channels open sodium channels close Membrane potential (mV) Rest potential potassium channels close Time (ms)
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.
Neurons are electrically excitable cells in the nervous system that function to process and transmit information from one part the body to another, through specialized connections called synapses. The signaling process is partly electrical and partly chemical. In vertebrate animals, neurons are the core components of the brain, spinal cord and peripheral nerves. Neurons carry messages in the form of electrical signals called nerve impulses or action potentials. An action potential occurs when the resting membrane potential at a specific...
3. Many neurons contain "delayed K channels". Like voltage-gated Nat channels, these voltage-gated K+ channels open in response to a rise in membrane potential and then undergo inactivation. However, opening of the voltage-gated K channels lags behind opening of the voltage-gated Na channels. a) Why does neuronal function require the voltage-gated K channels to open more slowly than the voltage-gated Na channels? b) Compared to a neuron that lacks voltage-gated K channels, what differences would you expect in the shape...
Order the following events that occur in a neuron in response
to a stimulus
Sodium Potassium Pumps and Potassium Leak Channels re-establish the resting potential Voltage Gated Potassium channels close The inside of the cell becomes more negative than the original resting potential V Voltage Gated Sodium channels open Sodium ions rush into the cell The inside of the cell becomes temporarily positive Votage Cated Potatalum channels open which causes potassium to flood out of the cell
need help In this 4 question please and thank you
Question 10 (2 points) (True/false) During the rising phase of the action potential, the charge inside of the axon changes from negative to positive (depolarizes) True False Question 11 (2 points) (True/false) During the rising phase of the action potential, potassium channels (gates) open and allow the cell to depolarize. True False An interneuron OA) Receives excitatory or inhibitory inputs from other neurons and then can activate or not activate...
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