They should differ from each other depending on their genetic constitution
Answer:
Active transport necessary for the sodium-potassium pump to work because It allows sodium and potassium to move against their concentration gradient.
Explanation:
The transport of sodium ions outside the cell and potassium ions inside the cells is called active transport that requires the ATP hydrolysis. ATP provides the energy required for this procedure. This sodium-Potassium pump works to move the ions against their concentration gradient to keep the sodium concentration low inside the cells and potassium concentration high inside the cells.
Answer:
The movement water or a solvent through a semipermeable membrane like the cell membrane into a solution of higher solute concentration is known as osmosis. An easy way to learn the net movement of water is that water tends to move to the hypertonic solution. In this question water will have a tendency to move out of the cell (plasmolysis).
Cells could have a higher concentration of salt inside the cell, this would require a mechanism like membrane channels that could facilitate the entrance of salts. This could be complemented with having membranes that are more permeable allowing more water to enter the cell to avoid plasmolisis.
Explanation:
The Adenosine triphosphate molecule ATP in short is the chemical which provides energy to the cells to carry out their functions. The chemical formula is . It coverts into two forms adenosine diphosphate (ADP) or to adenosine monophosphate (AMP).
There are 10 carbon atoms, 16 hydrogen atoms, 5 nitrogen atoms, 13 oxygen atoms and 3 phosphorous atoms.