NAD+ 500mg Pen
Dhs. 1,000.00
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NAD+ 500mg Pen
Dhs. 1,000.00
NAD+ (Nicotinamide Adenine Dinucleotide) is a critical coenzyme involved in cellular energy production, DNA repair, and metabolic regulation. Widely studied in human-relevant research, NAD+ supports investigations into mitochondrial function, anti-aging mechanisms, and neuroprotection.
Key Features
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🧪 cGMP manufactured in an FDA-registered facility
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✅ ≥98% purity confirmed by HPLC analysis
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đź“„ Batch-specific Certificates of Analysis (COAs) included
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đź’‰ Sterile, lyophilized pens for research use only
Human-Relevant Research Applications
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⚡ Mitochondrial energy studies — NAD+ is a central coenzyme in cellular respiration and supports mitochondrial ATP production and energy metabolism. PubMed: https://pubmed.ncbi.nlm.nih.gov/40604314/
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🧬 Anti‑aging and longevity research — NAD+ modulates sirtuin pathways that regulate metabolic homeostasis and aging‑associated processes. PubMed: https://pubmed.ncbi.nlm.nih.gov/23870130/
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❤️ Metabolic health research — NAD+‑dependent pathways (e.g., sirtuins) are linked to insulin sensitivity and systemic metabolic resilience. PubMed: https://pubmed.ncbi.nlm.nih.gov/24003918/
Mechanism Summary
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Functions as a coenzyme in redox reactions supporting cellular energy
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Activates sirtuin pathways involved in DNA repair and longevity
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Supports neuronal and metabolic resilience in human-relevant models
Frequently Research Questions
How does NAD+ improve metabolic research?
It enhances mitochondrial function and cellular energy metabolism, making it ideal for human-relevant studies
Can it support anti-aging research?
Yes. NAD+ regulates sirtuin activity and DNA repair pathways, supporting longevity studies
Does NAD+ impact brain function?
Research demonstrates improved neuronal energy metabolism and neuroprotection, especially in aging models
Scientific References
Yoshino et al. (2018) – NAD+ metabolism and mitochondrial function — The biology and therapeutic potential of NAD+ precursors outlines how NAD+ metabolism impacts mitochondrial function, energy homeostasis, and aging‑relevant processes. PubMed:https://pubmed.ncbi.nlm.nih.gov/29249689/
Imai & Guarente (sirtuins and NAD+ anti‑aging mechanisms) — NAD+‑dependent sirtuin pathways regulate metabolic and longevity processes by influencing mitochondrial and cellular homeostasis. PubMed:https://pubmed.ncbi.nlm.nih.gov/23870130/
Neuroprotection & cognitive metabolism (NAD+ roles) — NAD+ is central to neuronal metabolic resilience, synaptic function, and energy homeostasis in models of brain aging and neurodegenerative conditions. PubMed/PMC review:https://pubmed.ncbi.nlm.nih.gov/31577933/
Legal & Research Disclaimer
This material is supplied exclusively for laboratory research use. It is not intended for diagnostic, therapeutic, cosmetic, human, or veterinary applications. The purchaser assumes all responsibility for compliance with applicable local, state, and federal regulations governing research compounds.