Epithalon Capsules
Epithalon Capsules
Epithalon (Epitalon) is a synthetic tetrapeptide that has been studied for its potential role in cellular function, telomere support, and oxidative stress regulation. It has been a of interest in research on aging-related processes and pineal gland activity.
Potential Research Applications
Epithalon is currently being explored in research settings for its role in:
- Telomere Support: Investigated for its potential impact on telomerase activity and cellular lifespan.
- Oxidative Stress Regulation: Studied for its possible role in cellular protection and homeostasis.
- Pineal Gland & Circadian Rhythm Research: Researched for its influence on melatonin production and biological rhythms.
✔ High-Quality Research Peptide – Produced under stringent quality control standards.
✔ Lab-Tested for Purity – Ensures consistency for scientific studies.
✔ Research Use Only – Not for human consumption or medical applications.
✔ Peptides – Will arrive in a lyophilized (powder) form for maximum stability.
The peptides are available for research and laboratory purposes only. Please review and ahere to our Terms and Conditions before ordering.
- Description
- Certificate of Analysis
Epithalon, also known as Epitalon, is a synthetic peptide extensively studied for its potential in promoting cellular longevity and regulating aging. It is derived from a naturally occurring tetrapeptide called epithalamin, found in the pineal gland. Researchers have investigated its impact on biological processes such as telomere elongation, oxidative stress reduction, and cellular regeneration, making it a key focus in anti-aging and longevity research.
Studies suggest that Epithalon may directly affect telomere length, a critical factor in cellular aging. Research indicates that the peptide may activate telomerase, the enzyme responsible for maintaining and elongating telomeres. This action could improve cell division and longevity, especially in aging and age-related disease models.
Epithalon also influences the pineal gland's secretion of melatonin, a hormone that regulates sleep-wake cycles and circadian rhythms. By potentially enhancing melatonin production, Epithalon may have broader effects on cellular function, particularly in restoring cellular homeostasis during sleep, which is crucial for overall health and longevity.
Further research has examined Epithalon’s antioxidant properties, helping reduce oxidative stress, a major contributor to cellular aging. By modulating oxidative stress, Epithalon could help maintain cellular integrity and overall health.
Ongoing studies continue to explore Epithalon's effects in various biological models, with a focus on aging, cellular health, and longevity.
For Research Use Only
No Certificate of Analysis images available for this product.
