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Here's the problem:
The sodium potassium pump is an ATPase that pumps 3 Na+ out of the cell and 2 K+ into the cell for each ATP hydrolyzed. Cells can use the pump to help maintain cell volume. Which of the following would most likely happen to the rate of ATP consumption immediately after a cell is moved to a hypotonic environment?
A. It would increase.
B. It would decrease.
C. It would increase and then decrease.
D. It would decrease and then increase.
E. It would remain the same.
My thinking it is that it's A. The cell is placed in an environment of lower solute concentration, so it's going to increase ATP consumption to pump net ions out to equalize the concentration between it and the environment. I basically just want to make sure it's not C. (But I'm thinking that since the question says immediately after it's just increase.)
The sodium potassium pump is an ATPase that pumps 3 Na+ out of the cell and 2 K+ into the cell for each ATP hydrolyzed. Cells can use the pump to help maintain cell volume. Which of the following would most likely happen to the rate of ATP consumption immediately after a cell is moved to a hypotonic environment?
A. It would increase.
B. It would decrease.
C. It would increase and then decrease.
D. It would decrease and then increase.
E. It would remain the same.
My thinking it is that it's A. The cell is placed in an environment of lower solute concentration, so it's going to increase ATP consumption to pump net ions out to equalize the concentration between it and the environment. I basically just want to make sure it's not C. (But I'm thinking that since the question says immediately after it's just increase.)
