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Cells stores energy when?
a third phosphate group is bonded to an ADP molecule.
What process adds the third phosphate to an ADP molecule?
The third phosphate group releases energy using hydrolysis. Then, the third phosphate group will be released too. The adenosine diphosphate (ADP) will absorb the energy back to regain the third phosphate group.
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.
How is energy releaded from ATP?
The bond between the third phosphate molecule and the second in the ATP molecule is broken down and energy is released. Because it is an exergonic reaction.
What is released when the chemical when the chemical bond is broken between the second and third phosphate of an ATP molecule?
When the chemical bond between the second and third phosphate of an ATP molecule is broken, a high-energy phosphate bond is broken, releasing energy that is used for cellular activities. This process converts ATP (adenosine triphosphate) into ADP (adenosine diphosphate) and inorganic 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.
What bond in ATP breaks to release energy during the formation of ADP?
The major molecule involved in energy release and storage is ADENOSINE TRIPHOSPHATE. It contains a large ADENOSINE molecule connected to three PHOSPHATE groups via PHOSPHATE bond. When the bond that connects one of the three PHOSPHATE groups to the ADENOSINE molecule is broken down, energy is released. The resulting molecule would be ADENOSINE DIPHOSPHATE, one free PHOSPHATE group and energy.
Explain why ATP molecule splits?
ATP contains three phosphate groups. The third phosphate group (the outermost one) is called the alpha phosphate. The breaking of this phosphate bond is accompanied by the release of a large amount of energy which can be used to drive key steps in metabolic reactions. With the removal of alpha phosphate, the remainder molecule is ADP
Which part of adenosine triphosphate molecule is released when it is hydrolized to provide energy for biological reactions?
The -phosphate is the primary phosphate group on the ATP molecule that is hydrolyzed when energy is needed to drive anabolic reactions. Located the farthest from the ribose sugar, it has a higher energy than either the - or -phosphate.
What is the reaction that results in ADP and provides energy for the cell?
The bond between the second and third phosphate group of an ATP molecule are broken, releasing energy and producing ADP.
When is energy released from a APT molecule?
I don't know what APT is, but ATP (adenosine triphosphate) releases energy when a phosphate group is removed from the rest of the ATP. When the bond that holds the phosphate group to the rest of the ATP is broken, it releases energy. The products are ADP (adenosine diphosphate) and a free phosphate group.
How does the molecule ATP store and release energy?
ATP is, on its own, a rather unstable molecule. Because of this, the conversion to a more stable molecule releases energy that can be used by other parts of the cell.
