Respuesta :
ATP has a lower phosphate transfer potential than phosphoenolpyruvate but a higher transfer potential than glucose-6-phosphate. This means that a phosphate group can be readily removed from phosphoenolpyruvate same and transferred to ADP during Glycolysis.
About ATP
The energy produced by catabolism is captured and put into ATP. ATP is like a shuttle that stores and carries energy to all places in the body.
So it can be concluded that adenosine triphosphate is a molecule that carries energy in large quantities. This energy will be stored in ATP until when it is needed by the body, ATP will release its phosphate group.
ATP has the molecular formula C₁₀H₁₆N₅O₁₃P₃ (adenosine triphosphate). ATP dissolves in water because it has a phosphorylide bond. The phosphorhydrid bond with ATP is very unstable, easily broken but easily reconnected.
This is why ATP can instantly release large amounts of energy when needed very quickly. This allows us to move the body rapidly without any pause between the thought to move and the movement itself.
Learn more about ATP at https://brainly.com/question/2992319.
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