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Semaglutide is a GLP-1 receptor agonist studied for its influence on metabolic signaling, appetite regulation, and insulin response. Research explores its role in modulating glucose uptake, energy balance, and endocrine function through peptide-mediated pathways.
Certificate of Analysis
Third-party tested for 99% purityβ
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Frequently asked questions
Semaglutide is a synthetic peptide analog of glucagon-like peptide-1 (GLP-1) that is structurally modified for extended activity. It is studied in laboratory and preclinical models for its ability to activate GLP-1 receptors, regulate insulin signaling, and modulate cellular pathways associated with glucose metabolism and endocrine regulation.
Research into GLP-1 biology began in the 1980s with the identification of its role in glucose regulation and endocrine signaling. Early synthetic GLP-1 receptor agonists demonstrated promise in extending receptor activation, but limited half-life restricted their utility. Semaglutide was later developed with structural modifications at specific amino acid positions to improve receptor binding and extend duration of action, making it a useful tool for studying incretin biology and metabolic pathways in research models.
Semaglutide Structure
CAS #: 910463-68-2
Molecular Formula: CβββHβββNββ Oβ β
Molecular Weight: 4113.6 g/mol
PubChem ID: 56843331
Semaglutide has been studied in metabolic, endocrine, and cardiovascular models, with research highlighting its activity in glucose regulation, insulin secretion, and weight management pathways. Studies have also reported effects on lipid metabolism, appetite regulation, and cardiovascular outcomes in preclinical and clinical settings.
Key Areas of Research:
β’ Metabolic: glucose, insulin, energy balances
β’ Endocrine: GLP-1 signaling, hormone regulation
β’ Cardiovascular: lipid, cholesterol, outcomes
Together, these findings suggest broad experimental potential for Semaglutide across metabolic, endocrine, and cardiovascular pathways. By engaging GLP-1 signaling and influencing glucose and lipid metabolism, Semaglutide provides a versatile platform for research into metabolic regulation, cardiovascular health, and systemic resilience in laboratory models.
