GLP-1 Receptor Modulator • Appetite Signaling • Metabolic Research
Semaglutide is a long-acting GLP-1 receptor modulator widely studied in metabolic and endocrine research for its impact on appetite regulation, glucose signaling, gastric emptying, and energy homeostasis. Thanks to its enhanced molecular stability and extended activation window, Semaglutide is considered one of the most advanced peptides in GLP-1 research.
Peptide Labs offers Semaglutide in three tablets strengths, allowing researchers to select the ideal format for their experimental design:
✔️ 500 mcg — micro-dosing & receptor activation studies
✔️ 3 mg — standard metabolic research models
✔️ 7 mg — high-strength GLP-1 pathway investigations
Each capsule is produced at 99%+ purity, ensuring maximum accuracy and reproducibility in laboratory studies.
CAPSULE STRENGTHS
Semaglutide 500 mcg Tablets
Designed for micro-dosing studies, receptor sensitivity trials, and low-intensity GLP-1 activation models.
Strength: 500 mcg per Tablets
Quantity: 25 Tablets
Semaglutide 3 mg Tablets
Ideal for standard metabolic testing, endocrine pathway evaluation, and mid-range GLP-1 research models.
Strength: 3 mg per Tablets
Quantity: 25 Tablets
Semaglutide 7 mg Tablets
A high-concentration GLP-1 research format for extended or advanced metabolic studies requiring increased signaling.
Strength: 7 mg per Tablets
Quantity: 25 Tablets
Form & Stability
All Peptide Labs research capsules are produced with 99%+ purity for consistency and reliability.
Capsule Strengths:
- 500 mcg Semaglutide per Tablets
- 3 mg Semaglutide per Tablets
- 7 mg Semaglutide per Tablets
Quantity:
- 25 Tablets per bottle
Purity:
- 99%+ (HPLC-tested)
Storage:
- Store in a cool, dry place
- Avoid heat, humidity, and direct light
- Keep bottle tightly sealed
Shelf Life:
- Up to 2 years unopened under proper storage
RESEARCH APPLICATIONS OVERVIEW
- GLP-1 receptor activation
- Appetite & satiety pathway research
- Metabolic rate modulation
- Glucose and insulin signaling models
- Gastric emptying studies
- Energy balance & fat utilization
- Cardiometabolic research
