Epithalon (Epitalon), 50mg

$72.00

SKU ET50 Category
  • Product Name: Epithalon
  • Sequence: Ala-Glu-Asp-Gly 
  • Molecular Formula: C14H22N4O9 
  • Molecular Weight: 390.35 g/mol 
  • Research Only: Yes
  • Form: Lyophilized Solid
  • Purity: >99%
  • Storage: Keep refrigerated upon reconstitution

Availability: 20 in stock

Bulk Pricing

  • Buy 1 - 2 vials for $72.00 each
  • Buy 3 - 4 vials for $68.40 each (5% off)
  • Buy 5 - 7 vials for $64.80 each (10% off)
  • Buy 8 - 11 vials for $63.36 each (12% off)
  • Buy 12 - 15 vials for $61.20 each (15% off)
  • Buy 16+ vials for $57.60 each (20% off)

We offer free shipping for orders over $400

Description

Epithalon, also known as Epitalon, is a synthetic tetrapeptide composed of Alanine–Glutamic Acid–Aspartic Acid–Glycine (Ala-Glu-Asp-Gly). Originally developed as a synthetic analog of naturally occurring pineal peptides, Epithalon has been the subject of research investigating cellular aging, telomere biology, circadian regulation, oxidative stress, and gene expression.

Research has explored the peptide’s interactions with biological pathways associated with cellular maintenance and age-related processes. Much of the published research has been conducted in laboratory and animal models.

Telomere and Telomerase Research

One of the primary areas of interest surrounding Epithalon is its potential interaction with telomerase, an enzyme involved in maintaining telomere length. Telomeres are protective structures located at the ends of chromosomes that naturally shorten during cellular replication.

Experimental studies have investigated whether Epithalon may influence telomerase activity and cellular replicative capacity. Researchers have reported observations related to telomere maintenance, cellular lifespan, and markers associated with cellular senescence in laboratory settings.

Cellular Aging Research

Epithalon has been studied for its potential role in cellular aging processes. Research has explored its effects on cellular proliferation, genomic stability, and age-associated biological markers.

Various experimental models have examined whether Epithalon may influence pathways associated with cellular maintenance, stress response, and biological aging. These findings continue to be investigated to better understand the peptide’s biological activity.

Circadian Rhythm and Pineal Research

The peptide has also been studied in relation to pineal gland function and circadian regulation. Researchers have explored potential interactions with biological processes involved in sleep-wake cycles, hormonal signaling, and age-related changes in circadian function.

This area of investigation remains an active field of research and continues to contribute to understanding the broader physiological role of pineal peptides.

Oxidative Stress and Mitochondrial Function

Scientific studies have examined the effects of Epithalon on oxidative stress markers and cellular antioxidant systems. Research has investigated whether the peptide may influence reactive oxygen species (ROS), mitochondrial function, and cellular responses to oxidative stress.

These studies have contributed to ongoing research into the relationship between oxidative stress, cellular aging, and overall cellular function.

Longevity Research

Epithalon has been evaluated in several experimental longevity models. Researchers have investigated its effects on lifespan, age-associated biological changes, and cellular maintenance mechanisms in laboratory organisms.

While findings from animal and laboratory studies have generated scientific interest, additional research is required to further understand the significance and applicability of these observations.

Gene Expression Research

Studies have explored whether Epithalon may influence gene expression patterns associated with cellular maintenance, stress response pathways, and age-related biological processes. Researchers continue to investigate the molecular mechanisms through which the peptide may interact with cellular regulatory systems.

Research Applications

Current scientific interest in Epithalon includes investigation into:

  • Telomere biology and telomerase activity
  • Cellular senescence and replicative aging
  • Circadian rhythm and pineal function research
  • Oxidative stress and antioxidant pathways
  • Mitochondrial biology
  • Gene expression and cellular regulation
  • Experimental longevity models

Epithalon is not approved by the U.S. Food and Drug Administration for human use, and its safety, efficacy, and pharmacological profile have not been established in approved FDA clinical trials. It is not intended to diagnose, treat, cure, or prevent any disease.

Lyophilized Peptides

These peptides are freeze-dried, a process that not only extends shelf life but also preserves the purity and integrity of the peptides during storage. 

Disclaimer: For Research Purposes only

This content is provided strictly for research purposes and does not constitute an endorsement or recommendation for the non-laboratory application or improper handling of peptides designed for research. The information, including discussions about specific peptides and their researched benefits, is presented for informational purposes only and must not be construed as health, clinical, or legal guidance, nor an encouragement for non-research use. Peptides described here are solely for use in structured scientific study by authorized individuals. We advise consulting with research experts, medical practitioners, or legal counsel prior to any decisions about obtaining or utilizing these peptides. The expectation of responsible, ethical utilization of this information for legitimate investigative and scholarly objectives is paramount. This notice is dynamic and governs all provided content on research peptides.