Browse by Mechanism
Understand how different peptides work at the molecular and cellular level.
GLP-1 Agonists
Makes you feel full and helps control blood sugar — the "Ozempic effect."
Mimic the incretin hormone GLP-1, stimulating insulin release and reducing appetite.
1 peptide →
GIP Agonists
Works with GLP-1 to boost weight loss and metabolic health even further.
Activate glucose-dependent insulinotropic polypeptide receptors for metabolic effects.
1 peptide →
Glucagon Agonists
Helps burn more calories and fat by revving up your metabolism.
Activate glucagon receptors to influence blood sugar and energy metabolism.
1 peptide →
Growth Hormone Secretagogues
Tells your body to release more growth hormone naturally for recovery and anti-aging.
Stimulate the release of growth hormone from the pituitary gland.
1 peptide →
Growth Hormone Releasing Hormones
Signals your brain to produce growth hormone for muscle, sleep, and healing.
Direct stimulators of growth hormone release.
1 peptide →
Melanocortin Agonists
Can darken skin (tanning) and increase sexual desire.
Activate melanocortin receptors affecting pigmentation and other pathways.
2 peptides →
Antimicrobial Peptides
Helps fight infections and supports the immune system.
Peptides with antimicrobial or immune-modulating properties.
0 peptides →
Signaling Peptides
Sends repair signals to heal injuries, tendons, and gut issues faster.
Involved in cellular signaling and tissue repair processes.
2 peptides →
Copper Peptides
Promotes wound healing and younger-looking skin by boosting collagen.
Copper-binding peptides with regenerative and skin health applications.
1 peptide →
ACTH Analogs
Boosts brain growth factors for memory, focus, and neuroprotection.
Synthetic analogs of ACTH fragments with neurotrophic properties.
2 peptides →
Tuftsin Analogs
Reduces anxiety and supports immune function without sedation.
Peptides derived from tuftsin with anxiolytic and immunomodulatory effects.
1 peptide →
HGF Modulators
Promotes new brain connections for enhanced learning and memory.
Compounds that modulate hepatocyte growth factor signaling for synaptogenesis.
1 peptide →
Neurotrophic Peptides
Supports brain cell growth and may help regenerate neural tissue.
Peptides that promote neuronal growth, survival, and differentiation.
1 peptide →
Telomerase Activators
May slow cellular aging by protecting the 'caps' on your DNA.
Compounds that activate telomerase to maintain telomere length.
1 peptide →
Metabolic Cofactors
Fuels your cells' energy factories for better vitality and healthier aging.
Essential coenzymes involved in cellular energy production and metabolic processes.
1 peptide →
Antioxidants
Protects your cells from damage and supports detoxification.
Compounds that neutralize reactive oxygen species and reduce oxidative stress.
1 peptide →