Overview:
Hexamollin is a synthetic research peptide examined for its influence on cellular signaling pathways involved in metabolic and endocrine regulation models. In in-vitro systems, it is often used to explore how peptide messengers interact with G-protein–coupled receptors and downstream cascades tied to hormone modulation, intracellular communication, and signal amplification.
Scientific Background:
Early laboratory studies place Hexamollin within a class of peptides capable of affecting cyclic AMP (cAMP) pathways and receptor sensitivity in isolated cellular systems. Its structure allows researchers to investigate ligand–receptor binding dynamics, peptide stability, and enzymatic degradation patterns. These characteristics make it a valuable reference point in studies aimed at understanding how peptides modulate communication between metabolic tissues in controlled environments.
Why Researchers Study Hexamollin:
Hexamollin provides a reliable model for researchers interested in peptide–receptor interactions and intracellular signaling behavior. Its consistency in in-vitro studies makes it useful for exploring metabolic pathway mapping, receptor activation behavior, and endocrine-related signal transduction.
For Laboratory Research Use Only. Not for Human 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.