Peptides are one of the most rapidly expanding areas of scientific exploration. In this research‑only section, we summarize peer‑reviewed studies on the molecules we carry, focusing on mechanisms, pathways, and preclinical findings.
More peptides will be added to the Research Library as we continue to review emerging studies, evaluate new data, and expand our molecule categories. Our goal is to build a clear, transparent, research‑driven resource that grows month by month.
Products are sold for laboratory and research use only. Not for human consumption. Educational content only. Not medical advice.
GHK‑Cu (Copper Peptide)
A naturally occurring peptide complex known for supporting skin repair, collagen health, and visible rejuvenation. Research highlights its role in cellular signaling, tissue remodeling, and antioxidant activity.
BPC‑157
A peptide studied for its potential role in supporting tissue repair, gut integrity, and recovery. Research explores its influence on cellular healing pathways and inflammatory balance.
CJC‑1295 (No DAC)
A growth‑hormone–releasing hormone analog studied for its role in supporting natural GH secretion, recovery, and metabolic health. Often paired with Ipamorelin in research settings.
Ipamorelin
A selective GH secretagogue studied for its gentle, targeted stimulation of growth hormone release. Research explores its role in recovery, body composition, and sleep quality.
Tesamorelin / CJC‑1295 / Ipamorelin 6/3/3 mg Blend
A research‑only triple blend combining three GH‑related peptides to explore synergistic effects on recovery, metabolism, and cellular signaling.
PT‑141 (Bremelanotide)
A melanocortin‑based peptide studied for its effects on sexual wellness, arousal pathways, and mood. Research focuses on neural signaling rather than vascular mechanisms.
GLP‑2
A peptide studied for its role in gut integrity, nutrient absorption, and digestive support. Research highlights its influence on intestinal lining and recovery.
GLP‑1 / GLP‑2 / GLP‑3
Peptides studied for their roles in metabolic regulation, appetite signaling, and digestive health. GLP‑1 and GLP‑2 are the most commonly researched.
TB‑500 (Thymosin Beta‑4 Fragment)
A peptide fragment associated with cellular migration, tissue repair, and recovery processes. Often discussed in research for its role in supporting mobility and soft‑tissue resilience.
BPC‑157 / TB‑500 Blend
A research‑focused combination often explored for synergistic effects on tissue repair, mobility, and recovery pathways. Frequently used in studies examining musculoskeletal support.
CJC‑1295 / Ipamorelin Blend
A widely studied combination that pairs GHRH (CJC) with a GHRP (Ipamorelin) to support natural GH signaling, recovery, and metabolic pathways.
Tesamorelin
A peptide studied for its effects on visceral fat metabolism, GH secretion, and metabolic health. Research highlights its role in supporting body composition and cellular repair.
MOTS‑C
A mitochondrial‑derived peptide studied for its role in metabolic regulation, energy production, and exercise performance. Research explores its influence on cellular resilience and longevity pathways.
KPV
A tripeptide fragment of alpha‑MSH studied for its anti‑inflammatory properties and potential role in gut health, skin health, and immune balance.
NAD+ (Nicotinamide Adenine Dinucleotide)
A coenzyme essential for cellular energy, mitochondrial function, and longevity pathways. Research explores its role in aging, metabolism, and cellular repair.
Melanotan I (MT‑I)
A peptide studied for its role in supporting skin pigmentation and photoprotection through melanocyte stimulation.
Melanotan II (MT‑II)
A melanocortin peptide studied for its effects on pigmentation, appetite signaling, and libido pathways.