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When ATP loses a phosphate group, it is converted into ADP (adenosine diphosphate). This conversion releases energy that can be used by cells for various biochemical processes. The remaining molecule, ADP, can then be converted back into ATP through the process of cellular respiration to restore its energy-storing capacity.
Chemical energy that is contained in and transported by the molecule called Adenosine Tri Phosphate.
ATP energy is stored in its 3 phosphate bonds. When the 3rd phosphate bond is broken, the energy is released. Then it only has 2 phosphate bonds.
Cells transform chemical energy into kinetic energy. This is usually done either through cellular respiration or photosynthesis. The molecule used for energy is known as adenosine triphosphate (ATP). A typical cell generates roughly 10 million ATP each second. This molecule has three phosphate groups attached to it. As one of the phosphate groups is removed the energy within its chemical bond is released. In short, cells use chemical energy.
Adinosine TriPhosphate (ATP) is the energy transport and releasing molecule for all cells. ATP is produced in the Mitocondria by adding another Phosphate group to Adinosine DiPhosphate (ADP) to produce ATP. Then ATP travels to where energy is required, where the third Phosphate group is broken off the ATP molecule energy is released in a form that can be utilized by the cell to perform many cellular functions. The resulting ADP molecule is then returned to the Mitocondria where it is again recharged into ATP.
phosphate
a third phosphate group is bonded to an ATP molecule
a third phosphate group is bonded to an ADP molecule.
When ATP loses a phosphate group, it is converted into ADP (adenosine diphosphate). This conversion releases energy that can be used by cells for various biochemical processes. The remaining molecule, ADP, can then be converted back into ATP through the process of cellular respiration to restore its energy-storing capacity.
Adenosine triphosphate, abbreviated ATP. The molecule contains adenosine and three phosphate groups. When the cell needs energy, the bond between the second and third phosphate groups breaks, and the energy released is used by the cell to do work.
ATP-PC system Adenosine triphosphate.- phosphocreatine phosphocreatine is broken down into phosphate and creatine molecules. as with any bonds that are broken energy is released. The phosphate molecule bonds to ADP (adenosine diphosphate) which produced an ATP molecule. This ATP molecule is used within cells to make energy.
energy
Chemical energy that is contained in and transported by the molecule called Adenosine Tri Phosphate.
ATP energy is stored in its 3 phosphate bonds. When the 3rd phosphate bond is broken, the energy is released. Then it only has 2 phosphate bonds.
ATP or Adenine Triphosphate.
Cells transform chemical energy into kinetic energy. This is usually done either through cellular respiration or photosynthesis. The molecule used for energy is known as adenosine triphosphate (ATP). A typical cell generates roughly 10 million ATP each second. This molecule has three phosphate groups attached to it. As one of the phosphate groups is removed the energy within its chemical bond is released. In short, cells use chemical energy.
Protein molecules are considered the functional units of the cells. They primarily drive the actions of enzymes in order to sustain life.