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The reaction that provides energy to power muscles is ATP. ATP loses one phosphate group and converts to ADP.
ATP holds energy in its phosphate bond. When ATP's third phosphate is broken, it releases a lot of energy, often enough to drive a reaction forward.
ATP and NADH2
Glycolysis (cycle).simply put- It turns sugars to ATP's. ATP is used as energy
ATP
The reaction that provides energy to power muscles is ATP. ATP loses one phosphate group and converts to ADP.
ATP holds energy in its phosphate bond. When ATP's third phosphate is broken, it releases a lot of energy, often enough to drive a reaction forward.
Energy.
NADPH and ATP
Energy is usually released from the ATP molecule to do work in the cell by a reaction that removes one of the phosphate- oxygen groups, leaving adenosine disphosphate (ADP). When the ATP converts to ADP, the ATP is said to be spent. Then the ADP is usually immediately recycled in mitochondria where it is recharged and comes out again as ATP.
ATP holds energy in its phosphate bond. When ATP's third phosphate is broken, it releases a lot of energy, often enough to drive a reaction forward.
ATP and NADH2
Glycolysis (cycle).simply put- It turns sugars to ATP's. ATP is used as energy
The light reaction
ATP
Energy in the body is formed when ATP is broken down into ADP. This reaction is therefore exothermic. Thus, the reverse reaction is going to be endothermic because energy is required in order to attach the phosphate to the ADP.
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.