Description
N-Acetyl Epithalon Amidate Peptide Vials
Epithalon (Epitalon) | |
CAS Number | 307297-39-8 |
Molar Mass | 90.349g.mol-1 |
Chemical Formula | C14H22N4O9 |
IUPAC Name | (4S)-4-[[(2S)-2-aminopropanoyl]amino]-5-[[(2S)-3-carboxy-1-(carboxymethylamino)-1-oxopropan-2-yl]amino]-5-oxopentanoic acid |
The N-Acetyl Epithalon Amidate variant represents an advanced research instrument tailored to support innovative studies across diverse disciplines. This peptide, a modified iteration of the Epithalon peptide, showcases improved stability and bioavailability, rendering it a superb option for various research applications.
Key Characteristics
The N-Acetyl Epithalon Amidate Vials feature a specialized formulation designed to provide researchers with a controlled substance for exploratory studies. The product is characterized by its purity, stability, and adherence to rigorous quality standards.
Research Applications
Primarily developed for laboratory use, N-Acetyl Epithalon Amidate Vials hold significant potential for diverse research applications. Researchers can leverage this product to explore various biological processes and mechanisms within controlled experimental environments.
Research Benefits
May Boost Telomerase Production in the Body
Numerous studies suggest that N-Acetyl Epithalon Amidate may play a role in promoting telomerase production. Telomerase is an enzyme associated with cellular longevity, and research indicates that increased telomerase activity may have implications for cellular health and lifespan.
May Potentially Regulate DNA
Research findings propose that N-Acetyl Epithalon Amidate has the potential to regulate DNA function. This characteristic makes it a subject of interest for studies exploring genetic expression, DNA repair mechanisms, and the broader impact on cellular processes.
Potential to Get Rid of Free Radicals
The antioxidant properties of N-Acetyl Epithalon Amidate may contribute to the removal of free radicals. Antioxidants are crucial in neutralizing oxidative stress, and preliminary research suggests that this compound may play a role in mitigating cellular damage caused by free radicals.
Disclaimer
This content is presented exclusively for educational purposes and should not be construed as medical advice. THE MATERIALS REFERENCED HEREIN ARE EXCLUSIVELY INTENDED FOR LABORATORY AND RESEARCH USE.
Any clinical research initiatives must be conducted under the guidance of the relevant Institutional Review Board (IRB). Similarly, preclinical research involving animals must comply with the directives of the Institutional Animal Care and Use Committee (IACUC), adhering to the standards delineated by the Animal Welfare Act (AWA).
Our informational content is meticulously designed for research-oriented insights and is not a substitute for individual analysis and verification from credible sources before any purchasing decisions are made.
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IMPORTANT NOTICE: All products showcased on our platform are EXCLUSIVELY INTENDED FOR LABORATORY AND RESEARCH APPLICATIONS. They are expressly not intended for veterinary or human utilization.
References
- Callaway, E. Telomerase reverses ageing process. Nature (2010). https://doi.org/10.1038/news.2010.635 [Read More]
- Kozina LS, Arutjunyan AV, Khavinson VKh. Antioxidant properties of geroprotective peptides of the pineal gland. Arch Gerontol Geriatr. 2007;44 Suppl 1:213-6. doi: 10.1016/j.archger.2007.01.029. PMID: 17317455. [Read More]
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