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Epithalon
$55.00
Epithalon (also known as Epitalon) is a synthetic tetrapeptide derived from the naturally occurring pineal peptide epithalamin. It has gained significant interest within the scientific research community for its involvement in cellular aging mechanisms, telomere regulation, and circadian rhythm signaling. Current research focuses on Epithalon’s potential role in telomerase activation, cellular longevity pathways, and neuroendocrine regulation, particularly those associated with melatonin signaling and biological rhythm synchronization. These properties position Epithalon as a compound of interest in aging, longevity, and cellular regeneration research models.
Quantity
Research
Molecular Overview
Epithalon is a synthetic peptide that mimics endogenous pineal gland signaling molecules involved in chronobiology and cellular lifespan regulation. It has been studied for its interaction with nuclear and epigenetic pathways related to aging and circadian control. Research associates Epithalon with:
· Telomere length regulation – supporting chromosomal stability
· Telomerase activity modulation – influencing cellular replication capacity
· Circadian rhythm signaling – interacting with melatonin-related pathways
· Cellular aging pathways – supporting genomic integrity and longevity mechanisms
Through these mechanisms, Epithalon is explored as a research peptide relevant to systemic cellular resilience, biological timing, and age-related molecular processes.
Mechanisms of Action
1. Telomere & Chromosomal Stability Support
Epithalon has been shown in research models to influence telomerase activity, contributing to the maintenance of telomere length. Telomeres play a critical role in cellular replication limits and genomic stability.
2. Epigenetic & Gene Expression Modulation
Studies suggest Epithalon may interact with gene regulatory mechanisms, influencing the expression of genes associated with aging, repair, and cellular metabolism.
3. Circadian Rhythm & Pineal Signaling
Epithalon is linked to pineal gland signaling pathways and melatonin synthesis regulation, supporting research into circadian rhythm alignment and biological clock restoration.
Physiological & Performance-Related Benefits (Non-Medical, Research-Based)
· Support for cellular longevity mechanisms
· Maintenance of telomere structure in aging models
· Improved circadian rhythm synchronization
· Enhanced cellular repair signaling
· Support for mitochondrial and metabolic efficiency
· Increased cellular resilience to age-related stressors
Common Research Applications
Epithalon is commonly explored in studies related to:
· Aging and Longevity Research
· Telomere Biology & Telomerase Activation
· Cellular Senescence and Regeneration Models
· Circadian Rhythm and Chronobiology Studies
· Epigenetic Regulation and Gene Expression Research
· Neuroendocrine and Pineal Gland Function Research
Disclaimer
All products sold on this site are for research and development use only. They are not intended for human or animal use.
The statements on this website have not been evaluated by the US Food and Drug Administration (FDA). Our products and content are not intended to diagnose, treat, cure, or prevent any disease.
Tides Peptides is a chemical supplier, not a compounding pharmacy or a chemical compounding facility as defined under section 503A of the Federal Food, Drug, and Cosmetic Act.
Ingredients
Molecular Formula
Epithalon
· Molecular Formula: C₁₄H₂₂N₄O₄
· Molecular Sequence: Ala-Glu-Asp-Gly (Alanine–Glutamic Acid–Aspartic Acid–Glycine)
· Molecular Weight: Approximately 390.4 g/mol
FAQ
1. What is Epithalon, and why is it important in research?
Epithalon is a synthetic tetrapeptide studied for its involvement in cellular aging, telomere regulation, and circadian rhythm signaling.
· Telomeres are essential for chromosomal stability and cellular lifespan
· Epithalon has demonstrated interactions with telomerase-related pathways in research models
· It is widely studied in longevity, aging, and epigenetic research contexts
2. What are the potential research benefits of Epithalon?
Potential Research Benefits Include:
· Support of telomere length maintenance
· Activation of telomerase in select cellular models
· Regulation of circadian and pineal signaling pathways
· Influence on gene expression related to aging and repair
· Support for cellular replication fidelity
· Reduction of age-associated cellular stress markers (observed in studies)
3. What is Epithalon used for in research settings?
Aging & Longevity Research
· Telomere and telomerase studies
· Cellular lifespan extension models
· Investigation of senescence markers
Circadian Rhythm & Neuroendocrine Research
· Pineal gland signaling studies
· Melatonin pathway interactions
· Biological clock synchronization research
Cellular & Molecular Biology
· Epigenetic regulation studies
· DNA repair and chromosomal stability research
· Mitochondrial and metabolic efficiency models
