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The sodium-potassium pump (aka Na-K ATPase) a.pumps Na out of and K* into the cell b....
Predict the outcome of an abdominal epithelial cell with a mutation that disables the Na+K+ ATPase...
Predict the outcome of an abdominal epithelial cell with a mutation that disables the Na+K+ ATPase (sodium/potassium pump). (select all that apply) The cell will not maintain its proper electrochemical gradient. The cell will not uptake glucose. The cell will not make ATP. The cell will not have a glucose channel. The cell will not have functional potassium channels. The cell will cease to be able to have an action potential.
What would most likely happen if the Na+K+ Pump (ATPase) stopped functioning in the cell? A....
What would most likely happen if the Na+K+ Pump (ATPase) stopped functioning in the cell? A. The cell would swell by taking up water. B. The cell would shrink by pumping out water. C. The inside of the cell would be more negative. D. Nothing would happen to the cell.
In considering active transport by Na+-K+-ATPase, 3 Na+ are pumped out of the cell and 2...
In considering active transport by Na+-K+-ATPase, 3 Na+ are pumped out of the cell and 2 K+ are pumped in for each ATP that is hydrolyzed to ADP + Pi. Given a ΔG for ATP hydrolysis of -10 kcal/mol, and that V is -60 mV (more electronegative inside), and that the pump typically maintains the internal Na+ at 10mM, external Na+ at 145 mM, internal K+ at 140 mM and external K+ at 5mM, what is the efficiency of the...
how are the sodium potassium pump and action potential related? as far as I know, the...
how are the sodium potassium pump and action potential related? as far as I know, the sodium potassium atpase pumps potassium in & sodium out, yet with the action potential sodium is pumped in (depolarization) and potassium is pumped out (repolarization). please explain how they are related?
The Na+/K+ pump transports 2 K+ into the cell and 3 Nat out of the cell...
The Na+/K+ pump transports 2 K+ into the cell and 3 Nat out of the cell under the use of ATP. Under normal circumstances, the concentration of K+ inside the cell is 140 mm, while the [K] outside of the cell is 6 mM. The concentration of Nat inside the cell is 16 mM, while the [Na] outside the cell is 145 mm. The membranpotential is -0.07 V The temperature is 37°C/310,15K c) Calculate how much energy (kJ/mol it takes...
that moves out the cell The sodium-potassium pump is an A. Enzyme ATP B. Enzyme, sodium...
that moves out the cell The sodium-potassium pump is an A. Enzyme ATP B. Enzyme, sodium C. Peripheral protein sodium D. Peripheral protein potassium E. All of the above reactions Activation energy is required for A. Anabolic B. Catabolic C. A&B D. None of the above In which environment would an organism benefit from having a high concentration of unsaturated lipids in the cell membrane? A. Extreme cold temperatures B. Extreme hot temperature C. Dry Conditions D. Wet conditions E....
ana ion channels. The two ions in questions are Na+ (sodium ion) and K+ (potassium ion)....
ana ion channels. The two ions in questions are Na+ (sodium ion) and K+ (potassium ion). The on channels/pumps are a) voltage-gated sodium channel, b) voltage-gated potassium channel, and c) sodium/potassium pump. a) Depolarization: b) Repolarization: c) Restoring ion concentrations:
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...
Question 61 The ATP dependent sodium-potassium pump forces potassium ions the cell and sodium ions the...
Question 61 The ATP dependent sodium-potassium pump forces potassium ions the cell and sodium ions the cell. out of, out of out of into into; out of into: into
V-type proton ATPase (proton pump): a: What type of transport is a V-type proton ATPase (an...
V-type proton ATPase (proton pump): a: What type of transport is a V-type proton ATPase (an integral membrane protein) uses ATP directly to transport protons across the membrane ? (PRIMARY OR SECONDARY) b: With the understanding of sodium-potassium pump, describe how a proton pump would use ATP to move protons against their concentration gradient (out of the cell) ? please do not say energy.
The Na+/K+ pump transports 2 K+ into the cell and 3 Nat out of the cell under the use of ATP. Under normal circumstances, the concentration of K+ inside the cell is 140 mm, while the [K] outside of the cell is 6 mM. The concentration of Nat inside the cell is 16 mM, while the [Na] outside the cell is 145 mm. The membranpotential is -0.07 V The temperature is 37°C/310,15K c) Calculate how much energy (kJ/mol it takes...
that moves out the cell The sodium-potassium pump is an A. Enzyme ATP B. Enzyme, sodium C. Peripheral protein sodium D. Peripheral protein potassium E. All of the above reactions Activation energy is required for A. Anabolic B. Catabolic C. A&B D. None of the above In which environment would an organism benefit from having a high concentration of unsaturated lipids in the cell membrane? A. Extreme cold temperatures B. Extreme hot temperature C. Dry Conditions D. Wet conditions E....
ana ion channels. The two ions in questions are Na+ (sodium ion) and K+ (potassium ion). The on channels/pumps are a) voltage-gated sodium channel, b) voltage-gated potassium channel, and c) sodium/potassium pump. a) Depolarization: b) Repolarization: c) Restoring ion concentrations:
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...
Question 61 The ATP dependent sodium-potassium pump forces potassium ions the cell and sodium ions the cell. out of, out of out of into into; out of into: into
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