Azure Synthetics
프리미엄 연구용 펩타이드
Research family
Core research peptides for recovery, metabolic, aesthetic, immune, and performance-adjacent literature review.
ACTH fragment neuro-signaling research peptide
Researchers use Semax to study brain-cell signaling related to stress response, attention, and neuroprotection models.
GIP / GLP-1 / glucagon tri-agonist series
Researchers use Retatrutide to study how multiple gut-hormone signals may affect appetite, blood-sugar control, and weight-related markers.
GH secretagogue research stack
Researchers use CJC-1295 / Ipamorelin to study how two growth-hormone pathway peptides may work together.
PEGylated mechano growth factor research peptide
Researchers use PEG-MGF to study muscle-cell signals linked to mechanical stress and repair-model research.
Acetyl octapeptide-3 dermal research peptide
Researchers use SNAP-8 to study cosmetic peptide models and signaling linked to expression-line research.
Alpha-MSH fragment research peptide
Researchers use KPV to study how immune and barrier tissues respond to inflammation signals.
Cathelicidin antimicrobial research peptide
Researchers use LL-37 to study host-defense peptides, microbes, and inflammation-related barrier responses.
GnRH decapeptide research compound
Researchers use Gonadorelin to study reproductive hormone signaling between the brain and pituitary.
KISS1R / GPR54 research peptide
Researchers use Kisspeptin-10 to study upstream signals that help regulate reproductive hormone release.
Bremelanotide melanocortin research peptide
Researchers use PT-141 to study brain-signaling pathways tied to sexual-response research.
Melanocortin receptor research peptide
Researchers use Melanotan II to study pigment, appetite, and related brain-signaling pathways.
Afamelanotide / alpha-MSH analog research peptide
Researchers use Melanotan I to study skin-pigment signaling pathways.
AMPK-pathway research compound
Researchers use AICAR to study how cells switch on energy-use pathways similar to those seen during exercise.
Prohibitin-targeting metabolic research peptide
Researchers use Adipotide to study whether targeting the blood supply around fat tissue can change fat-storage signals in animal metabolic models.
Senescence-pathway research peptide
Researchers use FOXO4-DRI to study how aging or stressed cells handle survival and cleanup signals.
Long R3 IGF-1 research peptide
Researchers use IGF-1 LR3 to study how IGF-1 signaling affects cell growth and metabolism markers in lab models.
GH fragment 176-191 research peptide
Researchers use AOD-9604 to study how a small growth-hormone fragment may influence fat-metabolism signals.
Neuroimmune signaling research peptide
Researchers use VIP / Vasoactive Intestinal Peptide to study immune, gut, airway, and blood-vessel signaling.
Delta sleep-inducing peptide
Researchers use DSIP to study sleep-related signaling, stress biology, and neuroendocrine markers.
Tuftsin analog neuroimmune research peptide
Researchers use Selank to study stress-response, anxiety-model, and immune-brain signaling pathways.
Redox research compound
Researchers use Glutathione to study antioxidant defense and oxidative-stress balance in cells.
T-cell signaling research peptide
Researchers use Thymosin Alpha-1 to study immune-cell signaling and T-cell response markers.
ERR pathway metabolic research compound
Researchers use SLU-PP-332 to study exercise-like changes in muscle energy use and endurance markers.
Cardiolipin-targeting mitochondrial research peptide
Researchers use SS-31 / Elamipretide to study how mitochondria protect membrane function during oxidative-stress models.
Mitochondrial-derived peptide MOTS-c
Researchers use MOTS-c to study how mitochondria communicate with the cell during energy stress and metabolic adaptation.
Cellular coenzyme research compound
Researchers use NAD+ to study how cells make energy, handle oxidative stress, and manage repair signals.
Pineal tetrapeptide research compound
Researchers use Epitalon to study aging-related cell markers, circadian signals, and telomere-related models.
Copper tripeptide research compound
Researchers use GHK-Cu to study copper-peptide signals linked to skin structure, collagen, and tissue-repair models.
Stabilized GHRH analog research peptide
Researchers use Tesamorelin to study how growth-hormone signaling may relate to visceral-fat and metabolic markers.
GHRH analog research peptide
Researchers use Sermorelin to study how the pituitary responds to growth-hormone releasing signals.
GHS-R research peptide
Researchers use Hexarelin to study strong growth-hormone release signals and related metabolic markers.
Growth hormone releasing peptide-6
Researchers use GHRP-6 to study ghrelin-like signaling, growth-hormone release markers, and appetite-pathway research.
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