Final answer:
The false statement regarding ATP is likely related to the type of bond broken for energy release; it is the phosphoanhydride bond that is broken to release energy, not the phosphodiester or glycosidic bonds.
Step-by-step explanation:
The question is asking to identify the false statement about adenosine triphosphate (ATP), which is a molecule that acts as the primary energy carrier within the cell. The true statements about ATP are that it is indeed broken down during cellular respiration, and energy is released when the bond between the second and third phosphate group is broken, which is known as the phosphoanhydride bond and not the glycosidic or the phosphodiester bond. ATP also does store high potential energy. Additionally, ATP is created through the process of glycolysis and cellular respiration, where it serves as a temporary energy store that can be quickly mobilized to fuel cellular activities.
Therefore, the false statement in the given options would likely relate to the type of bond broken for energy release; ATP releases energy when the phosphoanhydride bond is broken, not the phosphodiester or glycosidic bond. This is a critical distinction as ATP breakdown involves the hydrolysis of a phosphoanhydride bond and not the other types of bonds mentioned.