Flash Sale 70% Off
Give customers details about the banner image(s) or content on the template.
Sort by:
6 products
6 products
Synthetic actin-regulating peptide fragment.
Classification
Cell migration and tissue repair research peptide. TB-500 belongs to a class of peptides derived from thymosin beta-4, involved in cellular movement, tissue remodeling, and repair processes.
Target Receptors
• No single defined receptor. Research indicates activity through actin-binding pathways and cellular migration signaling mechanisms involved in tissue regeneration and repair.
Structure
TB-500 is a synthetic peptide fragment of thymosin beta-4 designed to replicate key functional regions responsible for actin regulation and cellular migration activity.
Research Focus
Studied for its potential effects on tissue repair, recovery acceleration, inflammation modulation, wound healing, and flexibility support.
Synthetic gastric-derived peptide.
Classification
Cytoprotective and regenerative research peptide. BPC-157 belongs to a class of synthetic peptides derived from protective proteins found in the gastric system, commonly studied for their role in tissue protection and repair mechanisms.
Target Receptors
• No single confirmed receptor target. Research suggests interaction with multiple biological pathways including nitric oxide modulation, growth factor signaling, and inflammatory regulation pathways.
Structure
BPC-157 is a 15-amino-acid peptide sequence derived from a naturally occurring protective protein found in gastric juice. Its structure is highly stable and resistant to enzymatic breakdown, allowing it to remain active in biological environments.
Research Focus
Studied for its potential effects on tissue repair, inflammation modulation, tendon and ligament support, muscle recovery, and gastrointestinal protection.
Long-acting insulin-like growth factor analogue.
Classification
Synthetic insulin-like growth factor (IGF) analogue. IGF-1 LR3 belongs to a class of growth factor peptides that directly interact with IGF receptors involved in cellular growth, tissue development, and anabolic signaling pathways.
Target Receptors
• IGF-1 Receptor (IGF-1R) – Involved in cellular growth, protein synthesis, tissue development, and anabolic signaling.
• Insulin Receptor (weak affinity) – May interact at higher concentrations due to structural similarity with insulin.
Structure
IGF-1 LR3 is a modified version of IGF-1 containing an extended amino acid sequence and structural alterations that reduce binding to IGF-binding proteins, resulting in a substantially prolonged half-life.
Research Focus
Studied for its potential effects on muscle cell growth, protein synthesis, recovery, tissue development, and anabolic signaling pathways.
Synthetic growth hormone releasing hormone analogue peptide.
Classification
Stabilized GHRH analogue peptide. Tesamorelin belongs to the growth hormone releasing hormone family and is designed to stimulate endogenous growth hormone production through pituitary receptor activation while offering improved resistance to enzymatic degradation.
Target Receptors
• GHRH Receptor – Responsible for initiating growth hormone release from the anterior pituitary gland.
Structure
Tesamorelin is a synthetic analogue of human GHRH with amino acid modifications that increase stability and prolong biological activity compared with native GHRH.
Research Focus
Studied for its potential effects on growth hormone release, IGF-1 production, body composition, recovery, and metabolic function.
Selective growth hormone secretagogue peptide.
Classification
Growth hormone secretagogue (GHS) and ghrelin receptor agonist. Ipamorelin belongs to a class of peptides designed to stimulate pulsatile growth hormone release through activation of the ghrelin signaling pathway. It is recognized for its high receptor selectivity compared with earlier secretagogues.
Target Receptors
• Growth Hormone Secretagogue Receptor (GHS-R1a) – Commonly known as the ghrelin receptor and involved in regulating growth hormone release.
Structure
Ipamorelin is a synthetic pentapeptide engineered to selectively activate the GHS-R1a receptor while minimizing interaction with other hormonal pathways.
Research Focus
Studied for its potential effects on growth hormone secretion, recovery, lean muscle development, body composition, and exercise-related adaptation.
Growth hormone releasing hormone (GHRH) analogue peptide.
Classification
Long-acting growth hormone releasing hormone (GHRH) analogue. CJC-1295 belongs to a class of peptides designed to stimulate the body’s natural production of growth hormone through activation of the growth hormone axis. It is commonly researched for its ability to promote sustained growth hormone and IGF-1 signaling without directly supplying exogenous growth hormone.
Target Receptors
• GHRH Receptor – Located primarily within the anterior pituitary gland and responsible for stimulating growth hormone secretion.
Structure
CJC-1295 is a modified analogue of naturally occurring GHRH. The peptide contains structural modifications designed to improve stability and significantly extend its duration of activity compared to native GHRH.
Research Focus
Studied for its potential effects on growth hormone secretion, IGF-1 production, body composition, recovery, and lean tissue development.
Four travel-sized remedies for jet lag, tension, dry skin, and summer stress.
Show your customers' feedbacks on social posts