The inhibition of the Na/K pump will allow Na ions to accumulate in the cell, as K ion will fall. So if the Na/K pump was inhibited and stops working, then many functional problems will occur in the cell. Na ion concentration will accumulate within the cell and intracellular K ion concentration falls.Click to see full answer. Correspondingly, what specifically would happen to a cell if its Na +/ K+ pump were defective?If this pump stops working (as occurs under anoxic conditions when ATP is lost), or if the activity of the pump is inhibited (as occurs with cardiac glycosides such as digoxin), Na+ accumulates within the cell and intracellular K+ falls.Additionally, what is the sodium potassium pump responsible for? The sodium-potassium pump uses active transport to move molecules from a high concentration to a low concentration. The sodium-potassium pump moves sodium ions out of and potassium ions into the cell. This pump is powered by ATP. For each ATP that is broken down, 3 sodium ions move out and 2 potassium ions move in. Thereof, why do cells swell up if Na K pumps stop working? Every cycle of an Na/K pump removes three cations (3 Na+) for every two (2 K+) that it imports into the cell. Thus there is a net loss of one cation for every cycle of the pump. Therefore, without these pumps, the cell swells up.Is the sodium potassium pump always working?The Sodium-Potassium Pumps are always at work. One can think of them as a continuous process that maintains the equilibrium potential for the individual ions. They always are grabbing internal sodium and exchanging it with external potassium at the cost of ATP.
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