Researchers comparing Epitalon and NAD+ are usually mapping which compound fits a given cellular-aging research question. This is descriptive reference information about how they differ, not guidance or a recommendation. Both are sold strictly for in-vitro laboratory research and are not for human or veterinary use.
| Epitalon | NAD+ | |
|---|---|---|
| Type | Synthetic tetrapeptide (Ala-Glu-Asp-Gly) | Redox coenzyme (small molecule) |
| Primary research area | Telomerase expression, pineal/circadian biology | Sirtuin activity, redox metabolism, DNA repair |
| Handling | Lyophilized; water-soluble, store frozen | Store frozen; reconstitute for cell-culture work |
Epitalon is a synthetic tetrapeptide studied in telomere-biology and chronobiology research models.
Epitalon product page and batch COA · Epitalon reconstitution guide
NAD+ is a redox coenzyme studied in energy-metabolism, sirtuin, and cellular-senescence research.
NAD+ product page and batch COA
Both feature in cellular-aging research but via different mechanisms: Epitalon in telomerase and circadian pathways, NAD+ in redox and sirtuin metabolism. Selection depends on the pathway under study; no human effect is claimed.
Epitalon is a synthetic tetrapeptide studied in telomere/chronobiology research; NAD+ is a redox coenzyme studied in metabolism and sirtuin research. Different molecule types and mechanisms.
Both appear in aging-research contexts, but any combination is a researcher and study-design decision, not guidance.
No. Both are sold strictly for in-vitro laboratory research and are not for human or veterinary use.