Product Name: NAD+
500 MG
CAS Number: 53-84-9
Molecular Formula: C21H27N7O14P2
Molecular Weight: 663.43 g/mol
Nicotinamide Adenine Dinucleotide

NAD+ is a coenzyme studied for its role in energy metabolism and cellular function. As part of the Electron Transport Chain, it carries electrons that drive ATP production and redox balance. Stored properly, NAD+ 500MG provides researchers with a consistent tool for exploring mitochondrial activity, energy regulation, and cellular pathways.

KEY BENEFITS OF NAD+

Supports research into cellular energy metabolism
Provides insights into mitochondrial function
Acts as an electron carrier in the Electron Transport Chain
Helps investigate redox balance in cells
Offers a stable and consistent format for laboratory use
Useful in studies of energy regulation and cellular pathways
Trusted tool for controlled biochemical and molecular research

Nicotinamide Adenine Dinucleotide, or NAD+, is the oxidized form of NADH. This coenzyme plays a central role in how cells make energy. As part of the Electron Transport Chain, NAD+ carries electrons from biological reactions. Because of this role, it is essential for research on energy metabolism and redox balance.

Researchers use NAD+ 500MG to study how cellular energy links to mitochondrial activity and other pathways. In addition, it supports work that explores how cells adapt and stay in balance. Therefore, NAD+ 500MG serves as a dependable compound for many laboratory studies on cell health.

Each vial contains lyophilized powder that keeps the peptide stable during storage. Researchers dissolve it into a solution before use. For best care, store it in a cool, dry place away from light. After reconstitution, refrigerate it right away. For long-term storage, freeze it at –20°C to protect its integrity.

All products meet pharmaceutical-grade standards but exist only for research and development. They are not for human or animal use, and no dosing details are supplied. In conclusion, NAD+ 500MG remains a trusted tool for studying energy, mitochondria, and cellular function.