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What ATP bond is broken to release energy?
ATP stands for Adenosine Tri-Phosphate. This means there are three phosphate groups stuck together on the tail of the molecule. Packing that many negatively charged groups together takes energy which is stored in the structure. When the bond between the second and third phosphates is broken, energy is released and the molecule becomes ADP or Adenosine Di-Phosphate.
What is a high energy bond of an ATP molecule is located between?
The high-energy bond of an ATP molecule is located between the second and third phosphate groups. This bond stores energy that can be released when needed for cellular processes.
When the bond is broken between what molecule is energy released from ATP?
When the bond is broken between the phosphate groups in ATP, energy is released.
What is the difference between bisphosphate and diphosphate?
The difference between a bisphosphate and diphosphate is very simple. For a diphosphate, the 2 phosphate groups in the compound are directly attached to one another. For a bisphosphate, the 2 phosphate groups in the compound are attached to different atoms on the compound, meaning that they are not attached to one another.
What bond is broken in ATP hydrolysis that leads to the release of energy?
The bond broken in ATP hydrolysis that releases energy is the high-energy bond between the second and third phosphate groups in ATP.
Where are the high energy bonds found in ATP?
between phosphate groups
Where are high energy bonds found in ATP?
High energy bonds in ATP are found between the second and third phosphate groups. This bond is called a phosphoanhydride bond and contains a large amount of chemical energy due to the repulsion between the negatively charged phosphate groups.
What ATP bond is broken to release energy?
ATP stands for Adenosine Tri-Phosphate. This means there are three phosphate groups stuck together on the tail of the molecule. Packing that many negatively charged groups together takes energy which is stored in the structure. When the bond between the second and third phosphates is broken, energy is released and the molecule becomes ADP or Adenosine Di-Phosphate.
What is a high energy bond of an ATP molecule is located between?
The high-energy bond of an ATP molecule is located between the second and third phosphate groups. This bond stores energy that can be released when needed for cellular processes.
The energy available to the cell is stored in which part of the ATP molecule?
The energy available to the cell is stored in the form of a high-energy phosphate bond in the ATP molecule. This bond between the second and third phosphate groups is easily hydrolyzed to release energy for cellular processes.
When the bond is broken between what molecule is energy released from ATP?
When the bond is broken between the phosphate groups in ATP, energy is released.
In DNA what do phosphate groups bond to?
Phosphate groups in DNA bond to sugar molecules through a phosphodiester bond to form the backbone of the DNA strand.
Which bond must break in ATP for energy to be released?
The bond between the second and third phosphate groups in ATP must break in order for energy to be released. This releases energy by breaking the high-energy bond and forming ADP (adenosine diphosphate) and inorganic phosphate.
Using the analogy of a battery how is ATP stored and released from ATP?
ATP (with 3 Phosphate Groups) would be the full charged battery. ADP (with 2 Phosphate Groups) would be the partially charged battery. To release energy, the bond between the 2nd and 3rd phosphate group is released. To store energy, a bond is made between the 2nd and 3rd phosphate group.
What is the difference between bisphosphate and diphosphate?
The difference between a bisphosphate and diphosphate is very simple. For a diphosphate, the 2 phosphate groups in the compound are directly attached to one another. For a bisphosphate, the 2 phosphate groups in the compound are attached to different atoms on the compound, meaning that they are not attached to one another.
Use the analogy of a battery to explain how energy is stored in and released from ATP?
ATP (with 3 Phosphate Groups) would be the full charged battery. ADP (with 2 Phosphate Groups) would be the partially charged battery. To release energy, the bond between the 2nd and 3rd phosphate group is released. To store energy, a bond is made between the 2nd and 3rd phosphate group.
Where in the ATP molecule is the energy located?
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