The most important component depends on where you are looking at it. The most important organelle in forming ATP is the mitochondria which undergo cellular respiration and oxidative phosphorylation to produce tons of ATP in eukaryotic cells. Bacteria (prokaryotes) do not need this organelle because their respiration and phosphorylation happen in the cell cytoplasm. The most important enzyme in the synthesis of ATP is the ATPase, which is dependent on the protomotor force (movement of hydrogen cations also known as protons) generated by the cell. When enough protons move across to the extracellular space, they come back into the cytoplasm, then ADP and an inorganic phosphate (Pi) bind to ATPase to make ATP. This enzyme is in both eukaryotes and prokaryotes.
In a cell, the mitochondria is responsible for making the most ATP. Chemical reactions in the cell can also make ATP.
Phosphorous.
nucleotides
ATP and NADPH
Hydrogen ions flow back down their gradient through a channel in an ATP synthase. The ATP synthase harnesses the proton-motive force to phosphorylate ADP, forming ATP.Read more: How_does_chemiosmosis_produce_ATP
ATP is important in muscle contraction. ATP is high energy bond which gives you energy required for muscle contraction.
The bond between the second and third phosphate is broken forming ADP when energy is released from ATP.
nucleotides
glucose
cool temps
No, when ATP is used, the bond between the second and third phosphate bonds are broken, forming ADP and a phosphate group, which can then reform into ATP.
ATP and NADPH
ATP
ATP
The silicates.
silicates
Silicates
The Grand Canyon
ATP - Adenosine Triphosphate