PO43- HPO32- H2PO2-
Adenosine Triphosphate (ATP) has three Phosphate Groups, hence Triphosphate.
No it is not. There are three phosphate
The potential energy in an ATP molecule is derived from its three phosphate groups that are linked by phosphate bonds. The energy of ATP is locked within these bonds.
Two, as it now becomes adenosine diphosphate. when it has three it is adenosine triphosphate.
ATP means adenosine triphosphate. It consists of carbon, hydrogen, nitrogen, oxygen, and phorphorus, with the formula C10H16N5O13P3. Structurally it is a nucleoside made up of adenine (a nucleobase) and a ribose sugar molecule, with three phosphate groups. It transfers a phosphate group to another molecule to phosphorylate it (give it energy to get the bonds into a transition state).
That is true; the potential energy in an ATP molecule is derived mainly from its three phosphate groups.
Phosphate groups
The nucleoside adenosine triphosphate (ATP) contain 3 phosphate groups.ATP is a very important biochemical compound and act as a coenzyme in many processes.ATP is known as a carrier of energy in the cells.
A phosphate, a sugar, and an adenine group. Or there are 3 phosphates together.
Binds between three phosphate groups.
A phosphate group is a part of a molecule (i.e. group) with the formula PO4. Depending on the molecule it is part of it can be either inorganic phosphate or organic phosphate. Phosphate groups are essential to many biochemical processes (e.g. ATP for energy storage, phosphorylation of DNA to inhibit/enable gene expression).
The formula for lead (II) phosphate is Pb3(PO4)2, because phosphate anions have a charge of minus three and lead (II) cations have a charge of plus two.