• NAD+ 500mg research compound - laboratory grade nicotinamide adenine dinucleotide for cellular energy studies by Aeternum Labs
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Aeternum Labs

NAD+ 500mg - Research Compound | Aeternum Labs

NAD+ 500mg - Research Compound | Aeternum Labs

$89.99
$89.99
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NAD+ 500mg Research Compound - Premium Laboratory Grade

NAD+ (Nicotinamide Adenine Dinucleotide) is a critical coenzyme designed for research applications in cellular energy metabolism, DNA repair mechanisms, and longevity pathway studies. This laboratory-grade 500mg formulation is intended for investigating mitochondrial function, sirtuin activation, and age-related cellular decline at the molecular level.

Research Applications

  • Cellular energy metabolism and ATP production research
  • DNA repair mechanism and PARP enzyme activity studies
  • Sirtuin activation and longevity pathway investigation
  • Mitochondrial function and biogenesis research
  • Circadian rhythm regulation and cellular clock studies
  • Age-related NAD+ decline and cellular resilience analysis

Product Specifications

  • Purity: β‰₯98% (HPLC verified)
  • Quantity: 500mg per vial
  • Form: Powder
  • Compound Type: Coenzyme (dinucleotide)
  • Alternative Names: Nicotinamide Adenine Dinucleotide, Ξ²-NAD+
  • Molecular Weight: 663.4 Da
  • CAS Number: 53-84-9
  • Storage: Store at -20Β°C for long-term, 2-8Β°C for short-term
  • Solubility: Water soluble
  • Grade: Research use only

About NAD+

NAD+ is a ubiquitous coenzyme found in all living cells, essential for redox reactions and cellular energy metabolism. Laboratory models demonstrate its critical role in converting nutrients into ATP through glycolysis, the citric acid cycle, and oxidative phosphorylation. Research suggests NAD+ serves as a substrate for sirtuins (longevity proteins), PARPs (DNA repair enzymes), and CD38 (immune regulator), making it valuable for investigating cellular energy homeostasis, DNA repair mechanisms, and age-related metabolic decline.

Mechanism of Action in Research

In research settings, NAD+ functions as an electron carrier in redox reactions, accepting and donating electrons in metabolic pathways. Studies examine its role as a substrate for NAD+-consuming enzymes including sirtuins (SIRT1-7), PARPs, and CD38. Researchers investigate how cellular NAD+ levels decline with age (approximately 50% reduction by middle age) and the impact on mitochondrial function, DNA repair capacity, and cellular resilience. NAD+ research explores its involvement in circadian rhythm regulation, metabolic efficiency, and longevity pathways.

Quality Assurance

  • βœ“ Third-party laboratory tested
  • βœ“ Certificate of Analysis (COA) available
  • βœ“ HPLC and Mass Spectrometry verified
  • βœ“ Manufactured in certified facilities
  • βœ“ High purity standards

Why Aeternum Labs

Aeternum Labs provides premium research-grade compounds with rigorous quality control. Every batch undergoes comprehensive testing to ensure purity, potency, and consistency for your cellular metabolism and longevity research needs.

For research purposes only. Not for human consumption.

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