Cellular Repair / Longevity
Research on mitochondrial function, cellular resilience, oxidative stress, longevity pathways, and repair biology.
Glutathione
Tripeptide of glutamate, cysteine, and glycine, the body's primary intracellular antioxidant studied for redox balance, detoxification, mitochondrial support, and cellular resilience.
LL-37
Human cathelicidin host-defense peptide studied for antimicrobial activity, anti-biofilm effects, epithelial barrier protection, immune modulation, and wound-repair biology.
MOTS-C
16 amino acid mitochondrial-derived peptide studied for energy metabolism, insulin sensitivity, AMPK signaling, exercise adaptation, and age-related metabolic resilience.
NAD+
Foundational cellular coenzyme studied for energy metabolism, mitochondrial function, DNA repair signaling, sirtuin activity, and age-associated cellular resilience.
SS-31
Mitochondria-targeted tetrapeptide (elamipretide) studied for cardiolipin binding, inner mitochondrial membrane support, ATP production, and oxidative stress resilience.
Epitalon
Synthetic AEDG tetrapeptide studied for telomerase activity, telomere maintenance, pineal peptide biology, and cellular aging pathways.