7.8 : Hydrolysis of ATP

The molecule adenosine triphosphate (ATP) stores energy for use in cells. It consists of an adenine base, a ribose sugar, and three phosphate groups, with the latter attached to each other through high-energy phosphoanhydride bonds.

These bonds can be broken through the addition of water, releasing one or two phosphate groups in an exergonic process called hydrolysis. This reaction liberates the energy in the bonds for use in the cell. For instance, the sodium-potassium pump utilizes energy from ATP hydrolysis to pump three sodium ions out of the cell and two potassium ions into the cytoplasm.

When one phosphate group is removed from an ATP molecule, it forms ADP and inorganic phosphate. ADP can be further hydrolyzed to AMP or adenosine monophosphate by the removal of a second phosphate group.

The bonds of adenosine triphosphate (ATP) can be broken through the addition of water, releasing one or two phosphate groups in an exergonic process called hydrolysis. This reaction liberates the energy in the bonds for use in the cell—for instance, to synthesize proteins from amino acids.

If one phosphate group is removed, a molecule of ADP—adenosine diphosphate—remains, along with inorganic phosphate. ADP can be further hydrolyzed to AMP—adenosine monophosphate—by the removal of a second phosphate group.

Structure of ATP

ATP consists of an adenine base, a ribose sugar, and three phosphate groups, with the latter attached to each other through high-energy phosphoanhydride bonds.

Tags

Hydrolysis ATP Adenosine Triphosphate Energy Storage Phosphate Groups Water Addition Exergonic Process ADP Adenosine Diphosphate Inorganic Phosphate AMP Adenosine Monophosphate Bonds Cell Energy Use Protein Synthesis

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