Epithalon 50MG – Research Peptide – For Laboratory Use Only

High-Purity Longevity & Telomere Research Peptide

Epithalon (Epitalon) 50MG is a research-grade synthetic tetrapeptide composed of Ala-Glu-Asp-Gly (AEDG). Originally developed from studies involving naturally occurring pineal gland peptides, Epithalon has become a significant subject in laboratory research focused on cellular aging, telomere maintenance, and longevity-associated biological pathways.

Researchers utilize Epithalon to investigate mechanisms related to cellular lifespan, circadian regulation, genomic stability, and age-related cellular function.

Product Details

Compound: Epithalon (Epitalon)
Sequence: Ala-Glu-Asp-Gly (AEDG)
Quantity: 50mg per vial
Purity: ≥98%
Form: Lyophilized Powder
Grade: Research Grade
Storage: Store at -20°C. After reconstitution, refrigerate at 2–8°C and follow laboratory handling protocols.

Research Focus Areas

Epithalon is commonly studied in:

• Telomerase activation and telomere biology research
• Cellular aging and longevity pathway investigations
• DNA repair and genomic stability studies
• Pineal gland function and signaling research
• Circadian rhythm and biological clock regulation
• Oxidative stress response and cellular resilience models
• Cellular maintenance and senescence pathway analysis

Potential Research Applications

Researchers may utilize Epithalon in studies involving:

• Telomere preservation and cellular lifespan research
• Healthy aging and longevity investigations
• DNA integrity and repair mechanism studies
• Circadian rhythm modulation models
• Cellular stress adaptation research
• Age-associated biological pathway analysis

Key Features

✔ High-purity synthetic tetrapeptide (≥98%)
✔ Large 50MG research format for extended studies
✔ Widely studied in longevity and cellular aging research
✔ Associated with telomerase and telomere pathway investigations
✔ Lyophilized for enhanced stability and storage
✔ Consistent batch-controlled quality standards

Scientific Significance

Epithalon is widely researched for its potential involvement in telomere biology, cellular aging mechanisms, and circadian regulation pathways. Its relevance to genomic stability and longevity-focused research makes it a valuable compound for advanced cellular and molecular investigations.

Research Use Disclaimer

For laboratory research use only. Not for human consumption. Not intended for medical, therapeutic, veterinary, or diagnostic use. This product is supplied exclusively for scientific research purposes.