ATP contains a large amount of energy because it has high-energy phosphate bonds.
ADP has less potential energy than ATP has. In fact, there are 7.3 kc less energy in ADP than in ATP.
ATP or adenosine triphosphate, is involved in energy transfer.
When the outer phosphate group detaches from ATP, energy is stored.
Cells make Adenosine Triphosphate from a protein complex called ATP Synthase. This enzyme is what actually makes ATP.
One molecule of glucose stores 90 times the amount of chemical energy than one molecule of ATP.
ATP contains a large amount of energy because it has high-energy phosphate bonds.
ADP has less potential energy than ATP has. In fact, there are 7.3 kc less energy in ADP than in ATP.
ATP or adenosine triphosphate, is involved in energy transfer.
ADP has less potential energy than ATP has. In fact, there are 7.3 kc less energy in ADP than in ATP.
A "high-energy bond" in ATP releases a large amount of energy when the phosphate group is split off during hydrolysis.
When the outer phosphate group detaches from ATP, energy is stored.
Cells make Adenosine Triphosphate from a protein complex called ATP Synthase. This enzyme is what actually makes ATP.
They store about the same amount of energy as carbohydrates, but are less likely to be broken down to make ATP.
Mitochondria in their cells produce vast amount of high energy molecules ATP.
A large amount of energy is released
They store about the same amount of energy as carbohydrates, but are less likely to be broken down to make ATP.