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Synthetic Tetrapeptide Research Compound
Epitalon is often investigated for its role in cellular aging pathways, particularly in relation to telomere activity and long-term cellular stability in research models. Studies commonly explore its potential effects on oxidative balance, biological aging processes, and overall cellular function within controlled laboratory settings.
This product is intended strictly for laboratory research use within Canada. It is not approved by Health Canada for the diagnosis, treatment, cure, or prevention of any disease. Not for human or veterinary use.
By purchasing, you confirm the material will be used solely for lawful research purposes in accordance with applicable Canadian regulations.
Epitalon, also known in scientific literature as Epithalon, is a synthetic tetrapeptide composed of alanine–glutamic acid–aspartic acid–glycine (Ala-Glu-Asp-Gly). It is developed for controlled laboratory research involving peptide-mediated regulatory systems.
In experimental models, Epitalon is studied in frameworks examining cellular signaling pathways, telomere-associated research systems, and regulatory peptide interaction mechanisms under in vitro and preclinical research conditions.
Third-party tested for purity, identity, quantity.
Epitalon is a short synthetic peptide evaluated in research focused on regulatory peptide signaling systems and telomere-associated biological frameworks. Experimental studies examine its interaction within cellular signaling environments and peptide-mediated pathway models under controlled laboratory conditions.
Research publications have explored its role in cellular regulatory systems and telomerase-associated research frameworks within structured experimental settings.
Epitalon was developed through investigations into short regulatory peptides derived from pineal gland research. Early experimental work examined its biochemical properties and signaling characteristics in laboratory models.
Subsequent research expanded into studies exploring peptide-mediated regulatory systems and telomere-associated pathway interaction frameworks.
Laboratory investigations into Epitalon have focused on regulatory peptide signaling models and telomere-associated pathway research systems. Research frameworks evaluate peptide interaction within cellular regulatory environments and signaling cascades under controlled in vitro and preclinical conditions.
No. Eppix Labs products are supplied exclusively for laboratory research. We do not provide dosing, administration, or usage guidance.
Each vial contains 10mg of lyophilized Epitalon. Independent third-party testing verifies purity, identity, and net content per batch.
The vial contains only the peptide preparation. Any laboratory materials required for experimental procedures must be sourced separately.
Duration depends entirely on research protocol, storage conditions, and laboratory application.
Overview of Epitalon-Highly Bioactive Pineal Tetrapeptide with Promising Properties. Int J Mol Sci 26(6):2509.
PubMedEpitalon protects against post-ovulatory aging-related damage of mouse oocytes in vitro.
PubMedAEDG Peptide (Epitalon) Stimulates Gene Expression and Protein Synthesis during Neurogenesis: Possible Epigenetic Mechanism.
PubMedIdentification of Peptide AEDG in the Polypeptide Complex of the Pineal Gland.
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