NAD+
Bundle & Save
| Quantity | Discount |
|---|---|
| 1 - 3 | 0% |
| 4 - 5 | 5% |
| 6 - 7 | 8% |
| 8 + | 10% |
| Quantity | Discount |
|---|---|
| 1 - 3 | 0% |
| 4 - 5 | 5% |
| 6 - 7 | 8% |
| 8 + | 10% |
Description
NAD+ is a nicotinamide adenine dinucleotide research compound designed for laboratory investigation of cellular energy metabolism, redox biology, mitochondrial function, DNA repair-associated pathways, and longevity-associated signaling models. NAD+ is studied in preclinical research as a key cofactor involved in metabolic reactions, cellular respiration, sirtuin-associated signaling, and cellular stress-response systems.
This compound is intended strictly for in vitro and preclinical laboratory research.
Specifications
Product Classification: Research-Use-Only (RUO)
Total Content: 1000 mg lyophilized powder per vial
Compound: Nicotinamide adenine dinucleotide research compound
Form: Sterile lyophilized compound
Purity: ≥99%
Storage: Store at −20 °C, protected from light
Packaging: Glass vial in protective sleeve
Applications
Intended for preclinical laboratory research only, including:
• Cellular energy metabolism studies
• Redox biology research
• Mitochondrial function models
• Sirtuin-associated pathway studies
• DNA repair-associated pathway research
• Cellular stress-response experiments
• Longevity-associated cellular signaling models
Warning
Not for human or animal use. For research purposes only.
Scientific Report
Abstract
NAD+ is a central metabolic cofactor investigated for its role in redox reactions, mitochondrial function, cellular respiration, sirtuin-associated signaling, DNA repair-associated pathways, and stress-response models. NAD+ is designed for controlled laboratory research into cellular energy regulation, metabolic pathway activity, oxidative balance, mitochondrial signaling, and age-associated cellular function models.
Mechanistic Pathway
NAD+ is designed around cellular energy and redox pathway modeling.
Cellular Energy Metabolism Pathway
- Supports research into metabolic cofactor activity
• Used in cellular respiration pathway models
• Studied for mitochondrial energy regulation
Effect: Provides a model for NAD+-associated energy metabolism research.
Redox Biology Pathway
- Supports investigation of oxidation-reduction systems
• Used in metabolic and mitochondrial pathway studies
• Helps evaluate intracellular redox balance
Effect: Enables research into NAD+-dependent redox pathway activity.
Sirtuin-Associated Pathway
- Supports research into NAD+-dependent enzyme systems
• Used in longevity-associated pathway models
• Relevant to cellular stress-response and DNA repair-associated research
Effect: Provides a model for sirtuin-associated cellular signaling investigation.
Pharmacokinetics / Research Profile
| Compound | Pathway | Research Notes |
| NAD+ | Redox biology / mitochondrial metabolism / sirtuin-associated signaling | Cofactor model for cellular energy and longevity-associated pathway research |
Dosing Models in Research
Used only in controlled in vitro and preclinical research models to study metabolic signaling and cellular pathway response. No human or animal-use instructions are provided.
Preclinical Research Highlights
- Studied as a key metabolic and redox cofactor
• Used in mitochondrial function and cellular respiration models
• Supports sirtuin-associated and DNA repair-associated pathway research
• Relevant to cellular stress-response and energy metabolism studies
• Useful for longevity-associated cellular pathway investigation
Conclusion
NAD+ offers a research-use-only model for studying cellular energy metabolism, redox biology, mitochondrial function, sirtuin-associated signaling, DNA repair-associated pathways, and longevity-associated cellular research models.
