In conclusion, ATP and ADP molecules are types of “universal power source” and the key difference between them is the number of phosphate group and energy content. Both ATP and ADP are involved in the important biochemical reactions in the human body and thus they are considered as vital biological molecules.

ATP functions as the energy currency for cells. It allows the cell to store energy briefly and transport it within the cell to support endergonic chemical reactions.

Almost all cellular processes need ATP to give a reaction its required energy. ATP can transfer energy and phosphorylate (add a phosphate) to other molecules in cellular processes such as DNA replication, active transport, synthetic pathways and muscle contraction.

Complete answer: When energy is available to the cell, it can store very small amounts of energy by addition of a phosphate group to ADP molecules forming ATP molecules. The energy stored as ATP is then released when the ATP is converted back to ADP(Adenosine diphosphate) and a phosphate group.

Glucose is the carbohydrate produced by photosynthesis. Energy-rich glucose is delivered through your blood to each of your cells. ATP is the usable form of energy for your cells.

Why Organisms Need Both Glucose and ATP Glucose is also more stable than ATP. Therefore, glucose is better for storing and transporting energy. However, glucose is too powerful for cells to use. ATP, on the other hand, contains just the right amount of energy to power life processes within cells.

Glucose has more chemical bonds that can be rearranged through chemical reactions. The rearrangement of some of these bonds releases energy – thus the bonds in glucose contain much more potential energy. About 34% of the energy is used to generate ATP.

Glucose is made up of carbon, hydrogen and oxygen only whereas ATP has phosphorus and nitrogen in addition to the aforementioned three elements. Also, glucose is different from ATP in that the glucose does not have an aromatic ring even if it has a six membered cyclic ring.

The source of energy that is used to power the movement of contraction in working muscles is adenosine triphosphate (ATP) – the body’s biochemical way to store and transport energy. However, ATP is not stored to a great extent in cells. So once muscle contraction starts, the making of more ATP must start quickly.