Semax + Selank Research Bundle — Description (FDA-Compliant Tone)
The Semax + Selank Research Bundle provides two established synthetic peptides that are commonly studied for their structural and biochemical properties. This bundle is intended solely for qualified research professionals and controlled laboratory environments.
Semax
Semax is a synthetic analog of a naturally occurring peptide fragment. Researchers often explore its stability, binding characteristics, and interaction pathways under a variety of laboratory conditions. It is supplied in a sterile, lyophilized form to support consistent handling and measurement during controlled research protocols.
Selank
Selank is a synthetic peptide derivative designed for examination of its molecular behavior and structural profile. Research typically focuses on its sequence-specific properties, degradation patterns, and compatibility with standardized laboratory assays. It is also provided in lyophilized format for reliable storage and reconstitution.
Bundle Purpose
Packaging both peptides together allows researchers to efficiently conduct comparative or parallel studies where matched handling, storage conditions, and experimental environments are required. This bundle does not imply any combined biological effect or intended use outside of laboratory research.
Intended Use
This bundle is not for human consumption, clinical application, therapeutic use, or any form of personal administration. All materials are supplied strictly for in vitro, ex vivo, or other authorized research activities. Handling should follow all applicable regulatory guidelines and institutional safety practices.
 
Overview
Glucagon-Like Peptide-3 (GLP-3) is a peptide of growing interest in academic and laboratory studies. Within controlled research environments, GLP-3 has been examined as part of the incretin family to better understand biochemical processes tied to gastrointestinal signaling, nutrient responsiveness, and cellular energy activity.
 
Research Context
GLP-3 has been studied in relation to pathways involving glucose regulation, lipid processing, and intracellular signaling. Researchers frequently evaluate GLP-3 alongside other incretin peptides to investigate neuroendocrine communication, mitochondrial activity, and adaptive metabolic responses in experimental systems.
 
Research Relevance
As an emerging area of inquiry, GLP-3 provides a valuable framework for examining peptide-driven models of cellular communication, metabolic efficiency, and signaling across gastrointestinal and energy-related pathways. Its study contributes to broader investigations into peptide-based regulation and systems-level metabolic research under controlled laboratory conditions.
 
⚠️ Compliance Disclaimer
For laboratory research use only. Not intended for human or animal consumption
 
 
Specs
Purity: ≥98% (HPLC)
Form: Lyophilized powder (vials)
Solubility: Sterile Water / Bacteriostatic Water / DMSO (depending on protocol)
Molecular Weight (approx.): ~190 Da
Appearance: White to off-white crystalline/lyophilized powder
Lab Notes
Storage (dry): −20 °C long-term, protected from light and humidity
After reconstitution: 2–8 °C (refrigerated); use within standard lab stability window
Handling: Maintain aseptic conditions; aliquot to minimize freeze–thaw cycles
Reconstitution: Dissolve in bacteriostatic water or sterile solution under sterile technique
Compliance
🔬 For laboratory research only. Not for human consumption, clinical use, or veterinary use.