ATP has much more energy than ADP because it has one more phosphate bond which contains energy.
The adenylate ratio of a cell varies according to the current conditions. The adenylate ratio is known as the energy charge and the equation is as follows: EC = (1/2 [ADP] + [ATP])/([AMP] + [ADP] + [ATP]). The energy charge of most cells is about 0.8. This would indicate that cells like to keep their ATP concentrations about twice as high as their ADP and AMP concentrations.
ATP
ATP has been phosphorylated, which means a phosphate has bonded to it and made it more reactive. Molecules that are more reactive and unstable contain more potential energy. This is then transformed to chemical energy that is used in cell processes. ADP is the precursor to ATP.
ATP has much more potential energy.
The reson why is because ATP is the most important biological molecule that provides chemical energy.
ADP.
^DiPhosphate
ATP.
^Triphosphate
Yes. The ATP has substantially larger amount of energy than ADP.
it is the ratio of the ADP and ATP produced in a cell, based on the viable conditions of the cell. A proliferating cell produces more ATP than ADP. This even inlcudes cancerous cells that are proliferating out of contorl. Meanwhile, cells that are undergoing apoptosis, or natural programmed cell death, or cells that are undergoing necrosis, or death induced by harsh environmental factors, have more ADP compared to ATP because the cell is not proudcing ATP while hydrolyzing the remaining ATP into ADP. ATP, by the way, is one of the molecules that is used for energy to carry out tasks in cells.
The purpose of ATP is to store energy. ATP stands for adenosine tri-phosphate, and the energy is mostly stored in the third phosphate bond. ATP is used by cells 24/7 as a form of energy. The purpose of ADP is to have to potential to store energy. ADP stands for adenosine di-phosphate, and when another phosphate is added onto the molecule it is called ATP and will store energy. When ATP releases energy the third phosphate comes off and it becomes ADP.
adp+p(i)--->atp ADP +P ---> 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
ADP has less potential energy than ATP has. In fact, there are 7.3 kc less energy in ADP than in ATP.
it is the ratio of the ADP and ATP produced in a cell, based on the viable conditions of the cell. A proliferating cell produces more ATP than ADP. This even inlcudes cancerous cells that are proliferating out of contorl. Meanwhile, cells that are undergoing apoptosis, or natural programmed cell death, or cells that are undergoing necrosis, or death induced by harsh environmental factors, have more ADP compared to ATP because the cell is not proudcing ATP while hydrolyzing the remaining ATP into ADP. ATP, by the way, is one of the molecules that is used for energy to carry out tasks in cells.
Cells get energy in general from the use of ATP. ADP is what results from the use of ATP.
ATP and ADP are used in cellular respiration to produce sugars. (ATP= energy)
Cells reform ATP from ADP and a phosphate in the mitochondria of the cell.
ATP is the energy molecule that gives energy to the cells while ADP has one less phosphate group and contains more potential energy because more bonds could be broken.
Adp + Pi (i = inorganic) + energy = Atp.
The purpose of ATP is to store energy. ATP stands for adenosine tri-phosphate, and the energy is mostly stored in the third phosphate bond. ATP is used by cells 24/7 as a form of energy. The purpose of ADP is to have to potential to store energy. ADP stands for adenosine di-phosphate, and when another phosphate is added onto the molecule it is called ATP and will store energy. When ATP releases energy the third phosphate comes off and it becomes ADP.
The biggest difference between ATP and ADP is that ADP contains 2 phosphates. ATP contains 3 phosphates. ADP means adenine di-phosphate and ATP means adenine tri-phosphate.
adp+p(i)--->atp ADP +P ---> ATP
ATP is what energy is stored as in mitochondria in eukaryotic and prokaryotic cells. ADP is what is left when a triphosphate is used for energy in the cell for example facilitated diffusion where ATP (Adenosine Triphosphate) is used and it then becomes ADP (Adenosine Diphosphate).
The cell breaks down ATP into ADP and inorganic phospate group. The ADP gives the cells (which make up your body) energy.
no! atp stores more! :)