Epitalon 10MG

Epitalon

Epitalon is a synthetic tetrapeptide composed of four amino acids, structurally modeled after a naturally occurring peptide associated with the pineal gland. At Dobtry Peptides, Epitalon is supplied exclusively for laboratory research and in-vitro scientific investigation.

This peptide is extensively studied in experimental models focused on cellular aging mechanisms, telomerase activation pathways, genomic stability, and circadian rhythm regulation. Epitalon is valued in research settings for its stability and precise interaction with cellular signaling processes related to aging and biological timing.

Overview

Epitalon is primarily investigated for its role in regulating cellular lifespan and biological rhythm signaling. Research models examine its interaction with telomerase activity, chromosomal integrity, and circadian gene expression. Unlike anabolic or hormonal peptides, Epitalon functions through intracellular signaling mechanisms relevant to aging biology.

Due to its short amino acid sequence and targeted research profile, Epitalon is commonly incorporated into studies exploring longevity pathways, cellular senescence, and circadian regulation under controlled laboratory conditions.

• Supports investigation of telomerase activity and cellular aging pathways
• Widely studied in longevity and senescence research models
• Examined for its role in circadian rhythm regulation
• Non-hormonal and non-anabolic research peptide
• Suitable for in-vitro and preclinical laboratory investigations

Specifications

• Peptide Type: Synthetic tetrapeptide
• Amino Acid Length: 4 amino acids
• Molecular Formula: C₁₄H₂₂N₄O₅
• Molecular Weight: Approximately 330.35 Da
• Alternate Names: Epitalon, Epithalon

Research Insights

Cellular Aging and Longevity Pathways

Epitalon is widely researched for its involvement in cellular aging mechanisms, particularly telomerase activity and chromosomal stability. Laboratory studies investigate its potential influence on cellular lifespan and senescence markers.

Circadian Rhythm Regulation

Experimental models explore Epitalon’s interaction with circadian gene expression and biological rhythm regulation, making it relevant for chronobiology research.

Genomic Stability Research

Epitalon is examined for its role in maintaining genomic integrity and regulating cellular stress responses in aging-related research frameworks.

Longevity-Focused Research Applications

Due to its targeted activity profile, Epitalon is frequently utilized in research exploring longevity signaling pathways, aging biomarkers, and cellular timekeeping mechanisms.

Usage & Handling

Epitalon from Dobtry Peptides is supplied strictly for laboratory research and in-vitro use only. This product is not intended for human or animal consumption and is not approved for therapeutic, diagnostic, or clinical applications. All handling, storage, and experimental procedures must comply with institutional laboratory safety standards.

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