Yes, two phosphorus atoms (one in each phosphate group) per ADP molecule.
You make ATP after you "break" the phosphorus group off and produce ADP. You can add another phosphorus group to ADP producing then another ATP.
ATP and ADP are not considered fuels. The fuels that are utilized in order to produce ATP and ADP usually come from the food that people eat.
Ribose is the sugar found in both ATP and ADP.
ATP ---> ADP + Pi + Energy it's a coupled reaction THIS ANSWER IS WRONG - IT IS BACKWARDS! IF YOU MAKE THE ARROW GO IN THE OPPOSITE DIRECTION, IT WOULD BE CORRECT.
yes ADP + iP ----- ATP
phosphate ion
You make ATP after you "break" the phosphorus group off and produce ADP. You can add another phosphorus group to ADP producing then another ATP.
ADP + Inorganic phosphorus + Energy
Creatine Phosphate
ADP stands doe adenosine diphosphate have 2 phosphate molecules. the prefix "di" gives a clear clue of what it is. It's former form ATP adenosine triphosphate have 3 phosphate molecules.
no. nadph carries ions of hydrogen and phosphorus. atp disposes of its phosphate group and nadph carries it into the chloroplast ot turn adp into atp
Phosphorus is found in the bones and teeth in the form of phosphate salts. It is a component of ADP and ATP, molecules essential for the transfer of energy in the cells. phosphorus is also in the sugar-phosphate "backbone" of nucleic acids (DNA and RNA) that holds the molecules together.
Most foods contain a very, very small amount, it is part of chemicals (ADP and ATP) that are very important in living things.
No ADP is not an enzyme
Adensosine Di-Phosphate is at a lower energy configuration than Adenosine Tri-Phosphate. When we have the hydrolysis reaction of ATP such that ATP+H20→ADP+Inorganic Phosphate+Energy, the Inorganic Phosphate has more stability as the split off phosphorus has more resonance configurations to achive stability. Also, the phosphate groups of ATP are repelled by the negative charges on theconsecutiveoxygen's bonded tophosphorus, thus ATP is much more stable than ADP. As a result, ATP→ADP is an important process as it isspontaneous as the splitting reaction into smaller molecules wants to occur, and would thus release stored energy which was originally needed to convert ADP→ATP.
Phosphorylation is the addition of a phosphate to ADP to form ATP. ADP + P = ATP Dephosphorylation is the removal of a phosphate from ATP to form ADP. ATP - P = ADP
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