Adenosine 5'-diphosphate disodium salt (ADP-Na2)

Application Areas

1. Product Overview

ADP-Na₂ (Adenosine 5'-Diphosphate Disodium Salt) is a purine nucleotide composed of adenosine and two phosphate groups. It is a key intermediate in cellular energy transfer, signal transduction, and nucleotide metabolism, forming an essential part of the ATP/ADP cycle. ADP-Na₂ plays a crucial role in cellular energy regulation, enzymatic reactions, and biochemical studies, and is widely used in pharmaceuticals, diagnostics, research, and biotechnology.

2. Main Application Fields

1) Pharmaceutical Industry

Drug intermediate: ADP-Na₂ is used as a raw material for the synthesis of nucleotide-based drugs and therapeutic agents.

Energy metabolism research: Supports studies on ATP/ADP cycles, energy regulation, and metabolic pathways.

Signal transduction: Applied in research on G-proteins, kinases, and nucleotide-dependent signaling mechanisms.

2) Scientific Research

Enzymology: ADP-Na₂ serves as a substrate or reference compound in kinase assays, ATP/ADP-dependent enzyme studies, and phosphorylation reactions.

Metabolic studies: Used to investigate purine metabolism, nucleotide biosynthesis, and cellular energy regulation.

Molecular biology: Applied in nucleic acid synthesis, protein phosphorylation, and energy-dependent biochemical processes.

3) Diagnostics & Testing Reagents

In vitro diagnostics (IVD): Incorporated into kits for enzyme activity assays, metabolic studies, and ATP/ADP measurement.

Biomarker research: ADP-Na₂ is used as a standard in studies of cellular energy status and nucleotide metabolism.

4) Biotechnology & Applied Fields

Cell-free systems: ADP-Na₂ is applied in biochemical reactions requiring diphosphate nucleotides.

Energy-dependent biosynthesis: Functions in enzymatic reactions, protein synthesis, and phosphorylation processes.

Metabolic regulation studies: Supports research on ATP/ADP cycling, energy signaling, and nucleotide-dependent pathways.