Adenosine triphosphate or ATP is the most important energy currency that powers several biochemical processes inside a living cell. ATP is an organic compound that consists of an adenosine molecule represented as A, bonded to three phosphate groups represented with letter P. The three phosphates are connected to each other by two high-energy phosphoanhydride bonds. Hydrolysis of these bonds can yield around 46 to 54 kilojoules per mole of free energy, depending on the intracellular conditions. Since attachment of a phosphate group to an ADP molecule is energetically unfavorable, cells draw energy from photosynthesis or cellular respiration to form the phosphoanhydride bond between ADP and the third phosphate group. Conversely, on energy demand, ATP is hydrolyzed into inorganic phosphate and an ADP molecule. This energetically favorable reaction is coupled to other unfavorable reactions, where the released phosphate is transferred to the reactant to form a new product. Additionally, the energy released from ATP hydrolysis powers the pumps that move solutes across membranes and also powers muscle contraction and neuronal signal transmission pathways.