Pumps:
The pumps are proteins that transport ions in reverse to the electrochemical potential gradients that use ATP as an energy source. The sodium-potassium pump maintains the sodium and potassium concentrations within the cell in living cells and regulates the absorption of water and salt by the epithelial cells present in the intestine and kidney kidneys. The sodium-potassium pump transmits three sodium ions to the extracellular versus two potassium chardates into the cell that consumes one molecule of ATP. The results of the 3: 2 ratio result in a net loss of sodium oxides to the electrochemical inducer in the cell and maintain cell size. Large-scale research is currently trying to explain the structure of various symmetric forms and units of sodium-potassium pumps.
The pumps are proteins that transport ions in reverse to the electrochemical potential gradients that use ATP as an energy source. The sodium-potassium pump maintains the sodium and potassium concentrations within the cell in living cells and regulates the absorption of water and salt by the epithelial cells present in the intestine and kidney kidneys. The sodium-potassium pump transmits three sodium ions to the extracellular versus two potassium chardates into the cell that consumes one molecule of ATP. The results of the 3: 2 ratio result in a net loss of sodium oxides to the electrochemical inducer in the cell and maintain cell size. Large-scale research is currently trying to explain the structure of various symmetric forms and units of sodium-potassium pumps.