There are a number of different forms of uptake/transport utilized by your body. These can be classified as passive or active. The difference between the two is whether energy is required and whether they move with or against a concentration gradient. Passive transport does not require energy and moves with a concentration gradient. Active transport requires energy to move against the concentration gradient.
The energy for active uptake/transport is provided by adenosine triphosphate (ATP), which is the energy currency in the body. The structures of adenosine and phosphate are shown below.
Figure 4.31 Structures of adenosine (left) and phosphate (right)
Tri- means three, thus ATP is adenosine with three phosphate groups bonded to it, as shown below.
Figure 4.32 Structure of adenosine triphosphate (ATP)
Phosphorylation is the formation of a phosphate bond. Dephosphorylation is the removal of a phosphate bond. Overall phosphorylation is a process that requires energy. The net effect of dephosphorylation is the release of energy. Thus, energy is required to add phosphates to ATP, energy is released through removing phosphates from ATP.
The concentration gradient is a way to describe the difference between the concentration of the solute outside of a cell versus the concentration inside of a cell. A solute is what has dissolved in a solvent in a solution; the more solute the higher the concentration. Moving with the gradient is moving from a region of higher concentration to an area of lower concentration. Moving against the gradient is moving from an area of lower concentration to an area of higher concentration.