A glass vial of White Rabbit Labs Epitalon 10mg, featuring a black label and silver cap, set against a dark blue starry space background with a glowing blue circular base.

Epitalon 10mg

R 3,960.00

Epitalon 10mg – Research Peptide for Cellular Aging & Telomere Biology

Epitalon 10mg is a synthetic tetrapeptide that has become a widely studied compound in longevity and healthy aging research. Derived from the naturally occurring peptide Epithalamin, Epitalon has been investigated for its potential role in telomere maintenance, cellular aging, circadian rhythm regulation, oxidative stress, and healthy lifespan research.

Researchers have explored Epitalon for its interaction with telomerase activity, making it one of the most recognized peptides within the field of longevity science. While research remains ongoing, Epitalon continues to attract interest in studies examining cellular regeneration, mitochondrial function, immune modulation, and age-related biological processes.

This product is intended strictly for laboratory and scientific research purposes.

Key Features
  • 10mg Lyophilized Epitalon peptide

  • High-purity research material

  • Laboratory-grade quality

  • Suitable for qualified scientific research

  • Securely packaged vial

  • Designed for peptide research applications
Dosage & Usage

Research Reference & Study Protocol Notes

Published studies have investigated Epitalon using a variety of experimental protocols. There is currently no universally accepted standardized research protocol, and study designs vary considerably depending on the research model and objectives.

Research has explored Epitalon in relation to:


  • Telomere biology and telomerase activity

  • Cellular aging and senescence

  • Circadian rhythm regulation

  • Pineal gland function

  • Oxidative stress

  • DNA stability

  • Healthy aging biomarkers

  • Longevity research

Study duration has ranged from short-term investigations lasting several days to longer-term experimental studies, with protocols differing across published literature.

Researchers should consult the methodology of individual peer-reviewed publications when evaluating experimental designs relevant to their area of investigation.

For laboratory and scientific research purposes only.

FAQ's & Tips

1. What is Epitalon?

Epitalon is a synthetic tetrapeptide that has been widely studied for its potential role in telomere biology, cellular aging, circadian rhythm regulation, and longevity research.

2. What is Epitalon being researched for?

Researchers have investigated Epitalon in studies relating to:


  • Telomere maintenance

  • Telomerase activity

  • Cellular aging

  • Healthy lifespan

  • Circadian rhythm

  • Oxidative stress

  • DNA stability

  • Pineal gland function

3. How does Epitalon work?

Current research suggests Epitalon may influence biological pathways associated with telomerase activity, cellular repair, and age-related molecular processes. The exact mechanisms remain under investigation.

4. Why is Epitalon popular in longevity research?

Epitalon is one of the most extensively studied peptides in longevity science due to published research exploring its potential effects on cellular aging and chromosome protection.

5. What is telomerase?

Telomerase is an enzyme involved in maintaining telomeres, the protective caps at the ends of chromosomes. Epitalon has been investigated for its potential interaction with this enzyme in research settings.

6. Is Epitalon naturally occurring?

Epitalon is a synthetic version of peptides originally isolated from the pineal gland.

7. What research fields commonly use Epitalon?

Epitalon is commonly studied in:


  • Geroscience

  • Molecular biology

  • Cellular biology

  • Endocrinology

  • Neuroscience

  • Longevity research

  • Regenerative medicine research

8. Can Epitalon be combined with other research peptides?

Some published studies investigate Epitalon alongside other research compounds depending on the objectives of the experiment. Combination protocols vary by study design.

9. How should Epitalon be stored?

Lyophilized peptides are generally stored refrigerated (2–8°C). Once reconstituted, storage conditions should follow laboratory best practices and the requirements of the specific research protocol.

10. Is this product intended for medical or therapeutic use?

No. This product is supplied strictly for laboratory and scientific research purposes and is not intended for human or veterinary use.

Research Reference & Study Protocol Notes

Published scientific literature has explored a variety of Epitalon research protocols. Protocols differ substantially depending on the experimental model, study duration, and research objectives.

Examples of study designs reported in the literature include:


  • Investigations lasting from several days to multiple weeks.

  • Evaluation of cumulative exposure across repeated administration schedules.

  • Studies examining telomerase activity and telomere biology.

  • Research into circadian rhythm regulation and pineal gland function.

  • Investigations of oxidative stress and cellular aging biomarkers.

  • Assessment of DNA stability and cellular repair pathways.

  • Long-term longevity and healthy aging research models.

Research

Why Researchers Study Epitalon

Epitalon has gained significant attention because of its unique relationship with telomeres, the protective structures found at the ends of chromosomes. Telomeres naturally shorten over time, making them an important focus in aging research.

Published studies have investigated Epitalon's potential influence on:


  • Cellular longevity pathways

  • Telomerase enzyme activity

  • DNA stability

  • Oxidative damage reduction

  • Circadian rhythm regulation

  • Melatonin production pathways

  • Healthy immune aging

  • Cellular repair processes

Its broad range of ongoing investigations has positioned Epitalon as one of the leading peptides in longevity and regenerative biology research.

Research Applications

Epitalon is commonly investigated in laboratory settings involving:


  • Longevity research

  • Geroscience

  • Molecular biology

  • Cellular regeneration

  • DNA repair mechanisms

  • Oxidative stress models

  • Neuroscience research

  • Endocrine signaling

  • Sleep and circadian biology

  • Healthy aging biomarker studies
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