GLP-1/GIP TZ (GLP-2) synthetic dual agonist designed for advanced metabolic research and incretin pathway studies. Our GLP-1/GIP TZ provides scientists with high-purity dual receptor agonist for investigating glucose homeostasis mechanisms and integrated incretin biology in laboratory settings.
Product Specifications
- Molecular Weight: 4,813.5 Da
- Chemical Formula: C₂₂₅H₃₄₈N₄₈O₆₈
- Structure: Dual GIP/GLP-1 receptor agonist with C20 fatty diacid chain
- Purity: 99% minimum via third-party testing
- Mechanism: High affinity for both GIP and GLP-1 receptors
Research Applications
This dual incretin agonist enables comprehensive laboratory investigations including:
- Dual incretin receptor activation research examining complementary signaling pathways
- Glucose homeostasis mechanism studies via insulin secretion and glucagon suppression
- Metabolic regulation pathway investigations using integrated incretin biology models
- Receptor signaling dynamics research through GIP/GLP-1 crosstalk analysis
- Cellular pathway studies examining synergistic metabolic effects
Molecular Mechanism
This research compound demonstrates high affinity for both GIP and GLP-1 receptors, with preferential activity at the GIP receptor. The dual-receptor engagement activates complementary signaling pathways that regulate insulin secretion, glucagon suppression, and satiety signals, making it valuable for studying integrated incretin biology and receptor signaling dynamics.
Laboratory Protocols
- Store lyophilized powder at -20°C
- Reconstitution: Bacteriostatic water recommended for research applications
- Reconstituted solutions store at 2-8°C
- Protect from light during storage and experimentation
- Follow standard peptide handling protocols
Quality Assurance
Every batch undergoes rigorous third-party testing through Freedom Diagnostic Testing, ensuring molecular weight verification, purity confirmation, and bioactivity screening with complete Certificate of Analysis documentation.
For research purposes only. Not for human consumption or medical use.
