Research Peptides

A first-in-class triple-agonist peptide targeting GLP-1, GIP, and glucagon receptors simultaneously. Studied for its potential in metabolic research and body composition.

A dual GIP/GLP-1 receptor agonist that has demonstrated significant effects in metabolic and weight management research. One of the most extensively studied incretin-based compounds.

A dual GLP-1/glucagon receptor agonist combining appetite regulation with enhanced energy expenditure. Actively studied for metabolic and hepatic fat research.

A naturally occurring neuropeptide first isolated from rabbit brain tissue, researched for its role in sleep architecture modulation and neuroendocrine regulation.

A synthetic melanocortin receptor agonist derived from Melanotan II. Researched for its central nervous system mechanism of action through hypothalamic melanocortin pathways.

The sole human cathelicidin antimicrobial peptide with broad-spectrum activity against bacteria, fungi, and viruses. Studied for immunomodulatory and wound healing properties.

A highly selective pentapeptide growth hormone secretagogue that stimulates GH release without significantly affecting cortisol, prolactin, or other hormones.

A multi-peptide research blend combining four complementary growth-promoting peptides targeting synergistic physiological pathways for enhanced research outcomes.

A dual-peptide combination pairing CJC-1295 (GHRH analog) with Ipamorelin (ghrelin mimetic) to achieve synergistic growth hormone release through complementary receptor systems.

A 28-amino acid immunomodulatory peptide naturally produced by the thymus gland. Extensively researched for T-cell maturation, dendritic cell activation, and immune regulation.

A naturally occurring tripeptide-copper complex that modulates the expression of over 4,000 human genes. Researched for tissue regeneration, wound healing, and antioxidant activity.

A synthetic tetrapeptide based on the pineal gland peptide Epithalamin. Studied for its effects on telomerase activation, melatonin regulation, and aging biomarkers.

A synthetic tripeptide bioregulator that crosses the blood-brain barrier. Researched for neuroprotective effects against oxidative stress and beta-amyloid toxicity in neuronal models.

A mitochondria-targeted tetrapeptide that selectively binds cardiolipin in the inner mitochondrial membrane. Studied for mitochondrial bioenergetics and cardioprotection research.

An essential coenzyme involved in over 500 enzymatic reactions, serving as a substrate for sirtuins and PARPs. Central to aging, DNA repair, and metabolic function research.

The most abundant intracellular antioxidant and master regulator of cellular redox homeostasis. Essential for immune function, detoxification, and oxidative stress protection.

A synthetic tripeptide bioregulator designed to target cartilage tissue. Researched for its effects on chondrocyte viability and cartilage extracellular matrix gene expression.

A synthetic fragment of Thymosin Beta-4, one of the most abundant intracellular proteins. Researched for cell migration, tissue repair, and anti-inflammatory properties via actin regulation.

A bioregulatory peptide complex extracted from thymus tissue, studied for over four decades. Researched for immune restoration, T-cell normalization, and neuroendocrine-immune interactions.

A mitochondrial-derived peptide that activates the AMPK signaling pathway. Studied as a potential exercise mimetic with effects on glucose metabolism and insulin sensitivity.

An essential cobalt-containing vitamin required for neurological function, DNA synthesis, and methylation reactions. Critical for homocysteine metabolism and mitochondrial energy production.

A 15-amino acid peptide derived from human gastric juice with over 100 published preclinical studies. Researched for cytoprotective, regenerative, and NO system-modulating properties.

A high-dose combination of BPC-157 and TB-500 targeting complementary tissue repair pathways. Researched for synergistic regenerative and anti-inflammatory effects.

A D-retro-inverso peptide designed to selectively target senescent cells by disrupting the p53-FOXO4 interaction. A novel senolytic compound studied for aging and tissue homeostasis research.

KPV is a research peptide that has been investigated for its potential immunomodulatory and anti-inflammatory properties.

GLOW is a research peptide under investigation for its potential effects on tissue repair and anti-aging.

KLOW is a research peptide investigated for its potential applications in metabolic and tissue repair studies.

MK677 is a research peptide investigated for its potential in promoting growth hormone release and enhancing IGF-1 levels.

2X TESA/IPA Blend is a specialized research peptide designed for studies in metabolic and tissue repair pathways.

Tesamorelin is a research peptide that has been investigated for its potential role in stimulating growth hormone release.

SLU332 is an injectable research peptide investigated for its potential role in metabolic modulation and tissue repair.

Bacteriostatic Water is a sterile, non-pyrogenic solution for diluting peptides in research settings.