Research compounds studied for cellular longevity, mitochondrial function, cognitive enhancement, sleep regulation, and systemic wellness. All 3-lab verified. All research grade.
The wellness category spans multiple research disciplines — here are the primary areas covered in our catalog.
Mitochondrial function, NAD+ metabolism, ATP production, cellular respiration research
Telomere signaling, DNA repair, epigenetic regulation, lifespan mechanisms
Neurogenesis, BDNF signaling, anxiolytic pathways, memory consolidation research
T-cell activation, immune modulation, thymic peptide signaling research
Circadian rhythm, melatonin axis, HGH secretion, recovery signaling research
Systemic inflammation signaling, antioxidant pathways, oxidative stress research
Essential coenzyme studied for roles in mitochondrial function, DNA repair mechanisms, sirtuin activation (SIRT1-7), and cellular energy metabolism. One of the most cited molecules in longevity biology research.
Pineal-derived tetrapeptide studied in preclinical and clinical models for telomere elongation, DNA repair, melatonin normalization, antioxidant gene expression, and lifespan research.
Heptapeptide derived from ACTH fragment. Studied in clinical models for BDNF upregulation, VEGF signaling, neuroprotective pathways, and cognitive function enhancement.
Synthetic analogue of immunomodulatory peptide tuftsin. Studied in clinical models for anxiolytic activity without dependence, GABA-A modulation, and cognitive performance research.
Naturally occurring copper-binding tripeptide. Among the most documented peptides in skin biology and longevity research — studied for collagen synthesis, antioxidant activity, and anti-inflammatory gene regulation.
Cardiolipin-targeting tetrapeptide studied in models for mitochondrial membrane protection, ROS reduction, and metabolic disease research. Investigated in cardiovascular and renal function models.
Naturally occurring thymus-derived peptide. Studied in clinical research for immune system modulation, T-cell activation, NK cell activity, and dendritic cell maturation.
Mitochondria-derived peptide encoded in mitochondrial 12S rRNA. Studied in preclinical models for metabolic homeostasis, insulin sensitivity, exercise adaptation, and aging-related signaling.
The most-studied compound combinations in wellness and longevity research literature.
NAD+ and SS-31 studied together in mitochondrial function and cellular energy research models.
Epithalon and GHK-Cu studied together for telomere signaling and connective tissue research.
Semax and Selank studied in combination for BDNF modulation and cognitive research.
All compound combinations listed for reference to published research literature only. Not prescriptive. Research use only.
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