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The nitrogen base adenine, a ribose sugar molecule, and three phosphate groups.
ATP synthase catalyzes the addition of a phosphate group to an ADP molecule. ADP + ATP synthase + P --> ATP + ATP synthase (ATP synthase on both sides of the equation indicates that, as an enzyme, it is not used up in the reaction.)
There are five carbon atoms in adenine.Its molecular formula is C5H5N5.For structural formulae, see the link below.
One molecule of glucose yields ~ 38 ATP, so sugar has much more energy tied up in its bonds than one ATP.
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.
The nitrogen base adenine, a ribose sugar molecule, and three phosphate groups.
nitrogen containing base, 3 phosphate groups and 5 carbon sugar
The nitrogen base adenine, a ribose sugar molecule, and three phosphate groups.
ATP is adenosine tryphosphate. This molecule contain carbon, hydrogen, oxygen, nitrogen and phosphorus.
Adenosine triphosphate
The sugar ribose, the nitrogen base adenine, and three phosphate groups
ATP synthase catalyzes the addition of a phosphate group to an ADP molecule. ADP + ATP synthase + P --> ATP + ATP synthase (ATP synthase on both sides of the equation indicates that, as an enzyme, it is not used up in the reaction.)
34 ATP molecules per molecule of glucose.
Most are taken up by mitochondria and reprocessed into ATP.
There are five carbon atoms in adenine.Its molecular formula is C5H5N5.For structural formulae, see the link below.
One molecule of glucose yields ~ 38 ATP, so sugar has much more energy tied up in its bonds than one ATP.
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.