ATP ---> ADP + Pi + Energy it's a coupled reaction THIS ANSWER IS WRONG - IT IS BACKWARDS! IF YOU MAKE THE ARROW GO IN THE OPPOSITE DIRECTION, IT WOULD BE CORRECT.
No, they simply provide the energy for the reaction to occur. Specific enzymes are the catalysts, as they are the ones to lower the Ea of the reaction and use the energy from ATP --> ADP + Pi. These processes are often exergonic and irreversible.
Usually energy in the body's obtained from converting ATP into ADP. However, glycolysis, the process of converting glucose to pyruvate, releases energy that turns ADP into ATP.
Across the inner membrane. As H+ ions are pumped through ATP synthase, ADP + Pi --> ATP
ADP Inorganic Phosphate Energy
ATP ---> ADP + Pi + Energy it's a coupled reaction THIS ANSWER IS WRONG - IT IS BACKWARDS! IF YOU MAKE THE ARROW GO IN THE OPPOSITE DIRECTION, IT WOULD BE CORRECT.
It is a hydrolysis reaction.
The product is energy and H2O is also released.
To make ATP you must add ADP to a reaction. In the reaction ADP will be reduced and the other molecule will be oxidized by breaking the bond between the phosphate group and the oxygen. Your products will be a phosphate group, another molecule, and ATP.
ATP + H2O → ADP + Pi + Energy ATP = Adenosine Triphosphate ADP = Adenosine Diphosphate
Exothermic - big time.
The most energy is contained in ATP>ADP>AMP>Pi.
ADP + Pi
The energy stored in ATP is located within the bonds between phosphate groups. That's why when ATP is used in a reaction, ADP + Pi are products of the reaction.
ATP + H2O → ADP + Pi
ADP+Pi→ATP
Adp + Pi (i = inorganic) + energy = Atp.