Compound Library

Nicotinamide adenine dinucleotide — central coenzyme in cellular energy metabolism. Extensively studied for roles in aging, DNA repair, and mitochondrial function.

Synthetic tetrapeptide (Ala-Glu-Asp-Gly) derived from pineal gland research. Studied extensively in Soviet/Russian literature for telomere lengthening and longevity effects.

Mitochondrial-derived peptide encoded by the mitochondrial genome. Studied for roles in metabolic regulation, exercise performance, and longevity signaling.

Mitochondria-targeting peptide that selectively concentrates in the inner mitochondrial membrane. Studied for heart failure, kidney disease, and mitochondrial dysfunction.

Tripeptide (Glu-Asp-Arg) from pineal gland. Russian research program studied it for neuroprotective and longevity properties.

Master antioxidant tripeptide (GSH). Studied for detoxification support, oxidative stress reduction, immune function, and skin health applications.

Amino acid derivative critical for fatty acid transport into mitochondria. Studied for cardiovascular health, exercise performance, and metabolic support.

Direct NAD+ precursor studied for mitochondrial biogenesis, metabolic health, cardiovascular function, and longevity mechanisms. More bioavailable than NR for some tissues per recent comparative studies.

NAD+ precursor vitamin B3 analogue. First orally bioavailable NAD+ booster with human clinical trial data. Studied for cardiovascular health, neuroprotection, metabolic function, and healthy aging.

mTOR inhibitor — among the most studied longevity compounds. Extends lifespan in every model organism tested including mice. Human longevity trials ongoing (PEARL trial, Participatory Evaluation of Aging with Rapamycin). Immune-suppression drug repurposed for aging research.

Flavonoid polyphenol (found in strawberries, apples) studied as a senolytic — selectively clears senescent "zombie" cells. Mayo Clinic clinical trials ongoing for frailty and age-related conditions.

Naturally occurring polyamine found in aged cheese, wheat germ, and mushrooms. Studied as an autophagy inducer with potential for cardiovascular protection, neuroprotection, and lifespan extension. Declines naturally with age.

Mitochondrial electron transport chain cofactor. Studied for cardiovascular disease, statin-associated myopathy, heart failure, and mitochondrial dysfunction. Levels decline with age and statin use.