Yes. ATP is formed when ADP joins with a phosphate through phosphorylation
Yes; ADP + inorganic phosphate makes ATP.
ADP is made by ATP when one of three peptide bonds of ATP are broken down.
ATP is adenosine TRIphosphate with three phosphate groups while ADP is adenosine DIphosphate with only two phosphate groups. The phosphate is used to produce energy in human muscle tissue to do work.
Yes; when ATP is used up (loses a phosphate group), it can be "re-energized" (phosphorylated) by the addition of a free phosphate. ADP is constantly being made into ATP and ATP is constantly being used up and turned into ADP.
through the release of phosphate group
Phosphorylation is the addition of a phosphate to ADP to form ATP. ADP + P = ATP Dephosphorylation is the removal of a phosphate from ATP to form ADP. ATP - P = ADP
ADP is made by ATP when one of three peptide bonds of ATP are broken down.
ADP is exactly the same as ATP except that ATP has one more phosphate group. (ATP=Adenosine Triphosphate, ADP=Adenosine Diphosphate) This means that adding a phosphate group to ADP would make it ATP simply by definition.
An ATP molecule has an extra phosphate group compared to an ADP molecule. This is because ATP has 3 phosphate groups as where ADP only has two phosphate groups.
ATP turns into ADP when energy is released along with a phosphate group. once adenine loses its phosphate groups it recylces back into ATP where the cycle starts again.
ATP is adenosine TRIphosphate with three phosphate groups while ADP is adenosine DIphosphate with only two phosphate groups. The phosphate is used to produce energy in human muscle tissue to do work.
Yes; when ATP is used up (loses a phosphate group), it can be "re-energized" (phosphorylated) by the addition of a free phosphate. ADP is constantly being made into ATP and ATP is constantly being used up and turned into ADP.
ATP and ADP are similar in the sense that they are both molecules that release energy to the cells. ADP differs from ATP because it has one less phosphate group. ADP forms after ATP has released energy.
ADP
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.
ADP is generated when the ATP molecule attempts to create energy and loses a phosphate group resulting in an ADP moleculle. You can remember this by Adenosine TRIphosphate(3 phosphate groups) and Adenosine DIphosphate(2 phosphate groups)
through the release of phosphate group
ATP synthase