Respuesta :
The nucleoside triphosphates' (NTPs) high phosphoryl-transfer potential is dependent on a number of factors, including:
- Hydration-based stabilization
- Resonance reduction
- Growth of entropy
- Electrostatic repulsion between PO₄²⁻ groups
A nucleotide triphosphate is an organic molecule that contains a nitrogen base attached to pentose sugar along with three phosphate groups. In contrast, ATP (adenosine triphosphate) has a significant potential for phosphorylation, but the consequence of its hydrolysis is structurally distinct. The ability for phosphoryl transfer of glycerol 3-phosphate is inferior to that of ATP.
The location of ATP's phosphoryl-transfer potential is between acceptor molecules, which are molecules that require the correct addition of a phosphoryl group in order to operate well for cellular demands, and molecules with high phosphoryl potential that are obtained from fuel molecules.
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