
Liraglutide
Research Peptide | Lyophilized Powder | Batch Tested
For laboratory research use only. Not for human or animal consumption. Insulated shipping · Styrofoam box available.
Product Overview
Liraglutide is a GLP-1 receptor agonist peptide carrying a fatty-acid chain that binds serum albumin and extends its half-life to roughly one day. As one of the earlier long-acting incretin analogs, it is widely used as a research reference for GLP-1 receptor pharmacology and acylation-based half-life extension.
| Test | Result | Status |
|---|---|---|
| Purity | 99.7% | Passed ✓ |
| Test | Result | Status |
|---|---|---|
| Purity | 99.2% | Passed ✓ |
| Test | Result | Status |
|---|---|---|
| Purity | 99.8% | Passed ✓ |
Research Information
Liraglutide is studied for GLP-1 receptor signaling and its effects on glucose-dependent insulin secretion, appetite pathways and gastric emptying in laboratory models. Its well-characterized acylation makes it a useful benchmark for comparing receptor kinetics, binding affinity and duration of action across newer incretin compounds. Supplied strictly for in-vitro and laboratory research use only — not for human or animal consumption.
Liraglutide Research & Studies
What is Liraglutide?
Liraglutide is a synthetic peptide analog of glucagon-like peptide-1 (GLP-1) that incorporates a fatty-acid side chain designed to bind serum albumin. This structural modification is studied as a means of extending circulating half-life relative to native GLP-1. In laboratory settings it serves as a reference long-acting GLP-1 receptor agonist for comparing receptor pharmacology and acylation strategies. Research use is limited to in-vitro and controlled experimental models.
Mechanism of Action
Liraglutide is examined for its ability to activate the GLP-1 receptor, a G-protein-coupled receptor that elevates intracellular cyclic AMP in responsive cell systems. Receptor engagement is studied in relation to glucose-dependent insulin secretion pathways and modulation of downstream signaling cascades. The albumin-binding fatty-acid moiety is investigated for its influence on free peptide concentration and prolonged receptor occupancy. These interactions are characterized primarily in cultured cells and isolated tissue preparations.
Primary Areas of Research
Investigators employ liraglutide to probe GLP-1 receptor signaling kinetics, ligand-binding affinity, and duration of receptor activation. Laboratory work also addresses effects on appetite-related neural circuits and gastric emptying rates within experimental model systems. Its well-defined acylation chemistry makes it a benchmark for evaluating newer incretin analogs. Comparative studies focus on structure-activity relationships that govern half-life extension and receptor selectivity.
Key Research Findings
Published laboratory data indicate that liraglutide maintains measurable GLP-1 receptor agonism over an extended period relative to unmodified GLP-1 peptides. Binding and functional assays demonstrate albumin association that reduces free peptide clearance in experimental media. Studies of receptor desensitization and internalization kinetics have used liraglutide as a reference ligand. These observations support its utility in mechanistic comparisons across acylated incretin analogs.
Structural Features and Half-Life Extension
The peptide backbone of liraglutide retains key GLP-1 sequence elements while a C16 fatty-acid chain is covalently attached via a spacer. This acylation is studied for reversible binding to albumin, which is hypothesized to shield the peptide from rapid enzymatic degradation and renal filtration in model systems. Researchers quantify free versus bound fractions to model effective receptor exposure over time. Such data inform design principles for other long-acting peptide ligands.
Research Handling and Considerations
Liraglutide is supplied strictly for in-vitro and laboratory research applications. Standard peptide-handling practices apply, including protection from repeated freeze-thaw cycles and appropriate solvent selection for dissolution. Investigators should verify peptide integrity by analytical methods before use in receptor assays or binding studies. All work must remain confined to controlled research environments with no extension beyond laboratory model systems.
Frequently Asked Questions
Liraglutide is investigated as an agonist of the GLP-1 receptor in cell-based and biochemical assays that measure cAMP accumulation, binding affinity, and downstream signaling.
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