The question is quite broad.
Please make the question narrower.
But I can give some of the things that might happen in relation to the question:
It could be that sugar is produced,
It could be the assemble of some photosynthetic components,
it could be the conversion of matter into energy,
it could be the dark reaction... etc
Adenosine diphosphate (ADP) can be converted into adenosine triphosphate (ATP) through the process of phosphorylation, where a phosphate group is added to ADP to form ATP. This process typically occurs during cellular respiration or photosynthesis, where energy is used to combine ADP with an inorganic phosphate molecule.
In biological systems, adenosine diphosphate (ADP) is converted to adenosine triphosphate (ATP) through a process called phosphorylation. This involves adding a phosphate group to ADP using energy from cellular processes like respiration or photosynthesis. This conversion of ADP to ATP is essential for storing and transferring energy within cells for various functions.
The ADP formed from ATP can be converted back to ATP through the process of cellular respiration, where it can once again be used as a source of energy for cellular activities. Alternatively, ADP can also be converted into AMP (adenosine monophosphate) through the addition of another phosphate group in specific cellular processes.
ADP can be recharged by adding another phosphate group to it, converting it back to ATP through phosphorylation. This process replenishes the energy stores that were used up when ATP was converted to ADP during cellular activities.
If a molecule of ATP is oxidized, it loses a phosphate group and is converted into ADP (adenosine diphosphate) along with release of energy that can be used by the cell for various processes.
There is no specific site. Anywhere where energy is needed
ADP + Pi
ATP will be broken down to form ADP plus energy and that ADP will be combined to form ATP once again. And the cycle will continue again and again.
ATP can't lose energy......... because it is energy.
Energy
chemical energy
ATP is converted to ADP when it is used for energy. This can happen during many activities of the cell including replication or transcription of DNA or for "pumping" molecules in and out of the cell against the ion gradient through channels in the bilipid layer.
A*D*2P
Adenosine diphosphate (ADP) can be converted into adenosine triphosphate (ATP) through the process of phosphorylation, where a phosphate group is added to ADP to form ATP. This process typically occurs during cellular respiration or photosynthesis, where energy is used to combine ADP with an inorganic phosphate molecule.
In biological systems, adenosine diphosphate (ADP) is converted to adenosine triphosphate (ATP) through a process called phosphorylation. This involves adding a phosphate group to ADP using energy from cellular processes like respiration or photosynthesis. This conversion of ADP to ATP is essential for storing and transferring energy within cells for various functions.
ATP (converted to ADP). Aerobically it is converted back by mitrochondria by oxidizing hydrogen.
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.