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Vial labeled 'PRG NAD+ 1000 mg' on a white background
  • Vial labeled 'PRG NAD+ 1000 mg' on a white background
  • NAD peptide vial (RUO) for research use only
  • PeptideRegenesis pre-filled pen RUO
NAD+ – High Purity Longevity Peptide (1000mg per vial)

NAD+ – High Purity Longevity Peptide (1000mg per vial)

€280,00
Standard Vial or Pen Format ( RUO )

Overview:

Nicotinamide adenine dinucleotide (NAD+) is a vital coenzyme found in every living cell, playing a central role in energy production, redox reactions, and cellular signaling. NAD+ supports mitochondrial efficiency, influences gene expression through sirtuin activation, and contributes to DNA repair. Research shows NAD+ levels decline with age, which may contribute to metabolic disorders, cognitive decline, and other age-related conditions. Supplementation aims to restore optimal levels, potentially improving resilience to oxidative stress and supporting overall cellular health.

Research:

Studies have demonstrated that NAD+ participates in critical oxidation–reduction reactions, acting as a cofactor for enzymes in glycolysis, the Krebs cycle, and oxidative phosphorylation. Beyond its metabolic role, NAD+ regulates signaling pathways involved in calcium homeostasis, inflammation, and chromatin remodeling. Declines in NAD+ during aging have been linked to increased oxidative stress, DNA damage, and mitochondrial dysfunction. This creates a cycle of metabolic decline, contributing to cellular senescence and impaired tissue function. Enhancing NAD+ availability has been shown to activate DNA repair enzymes, boost mitochondrial biogenesis, and improve metabolic performance in various models of aging and disease.

NAD+ Product Description:

  • Synonyms: nadide, coenzyme I, beta-NAD, beta-nicotinamide adenine dinucleotide

  • Molecular Formula: C21H27N7O14P2

  • Molar Mass: 663.4 g/mol

  • CAS Number: 53-84-9

  • PubChem: 5892

  • Total Amount of the Active Ingredient: 1000 mg (1 vial)

  • Shelf Life: 36 months

NAD+Β structure:Β 

Chemical structure of nucleotides with labeled components

Source: PubMed

See our similar products: SS-31 Peptide
Product Usage

This item is supplied for research purposes only and is intended solely for in vitro studies and laboratory experiments. All information provided on this website is for educational use only. Any form of administration to humans or animals is strictly prohibited by law. This product must only be handled by licensed, qualified professionals. It is not a drug, food, or cosmetic, and must not be misrepresented, mislabeled, or used as such.
Peptide Storage

All information provided by Regenesis is for educational and informational purposes only. All Regenesis products are supplied for in-vitro research use onlyβ€”meaning experiments conducted outside of a living organism (β€œin glass”). These compounds are not medicines or drugs, have not been evaluated by the FDA, and are not intended to diagnose, treat, cure, or prevent any disease. Any administration to humans or animals is strictly prohibited by law.

Best Practices for Storing Peptides

To maintain the reliability of laboratory results, correct peptide storage is essential. Proper storage conditions help preserve peptide stability for years while protecting against contamination, oxidation, and breakdown. Although certain peptides are more sensitive than others, following these best practices will greatly extend their shelf life and structural integrity.

  • Short-Term Storage (days to months): Keep peptides cool and protected from light. Temperatures below 4 Β°C (39 Β°F) are generally suitable. Lyophilized peptides often remain stable at room temperature for several weeks, but refrigeration is still preferred if use is not immediate.
  • Long-Term Storage (months to years): Store peptides at –80 Β°C (–112 Β°F) for maximum stability. Avoid frost-free freezers, as defrost cycles can cause damaging temperature fluctuations.
  • Minimize Freeze–Thaw Cycles: Repeated freezing and thawing accelerates degradation. Instead, divide peptides into aliquots before freezing.

Preventing Oxidation & Moisture Damage

Peptides can be compromised by exposure to moisture and airβ€”especially immediately after removal from a freezer.

  • Let the vial warm to room temperature before opening to prevent condensation.
  • Keep containers sealed as much as possible, and if possible, reseal under a dry, inert gas such as nitrogen or argon.
  • Amino acids like cysteine (C), methionine (M), and tryptophan (W) are particularly sensitive to oxidation.


Storing Peptides in Solution

Peptides in solution have a much shorter lifespan compared to lyophilized form and are prone to bacterial degradation.

  • If storage in solution is unavoidable, use sterile buffers at pH 5–6.
  • Prepare single-use aliquots to avoid repeated freeze–thaw cycles.
  • Most peptide solutions are stable for up to 30 days at 4 Β°C (39 Β°F), but sensitive sequences should remain frozen when not in use.


Containers for Peptide Storage

Select containers that are clean, intact, chemically resistant, and appropriately sized for the sample.

  • Glass vials: offer clarity, durability, and chemical resistance.
  • Plastic vials: polystyrene (clear but less resistant) or polypropylene (translucent but chemically resistant).
  • Peptides shipped in plastic vials may be transferred to glass for long-term storage if desired.


Regenesis Peptide Storage Quick Tips

  • Keep peptides in a cold, dry, dark environment
  • Avoid repeated freeze–thaw cycles
  • Minimize exposure to air
  • Protect from light
  • Avoid storing in solution long term
  • Aliquot peptides to match experimental needs

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