Hangzhou Leap Chem Co., Ltd. is one of the most professional manufacturers and suppliers of epithalon丨cas 307297-39-8 in China. Welcome to wholesale bulk high quality chemical products at competitive price from our factory. If you have any enquiry about custom service, please feel free to email us.
Specifications
| Appearance | White powder or granule |
| Identity by MS | 390.35 ± 1 |
| Peptide purity (By HPLC) | 98% min |
| Acetic Acid Content | Reported value |
| TFA Content | Reported value |
| Peptide Content | Reported value |
| Solubility | 60 mg/ml in H2O min |
Applications
Epithalon is primarily used in biochemical and molecular biology research as a synthetic tetrapeptide with regulatory properties. It is applied in studies investigating cell cycle regulation, cellular aging, and peptide-mediated modulation of biological processes. The compound is used in experimental designs to explore its effects on gene expression, protein activity, and enzymatic pathways related to cellular maintenance and function. In laboratory settings, Epithalon serves as a reference or experimental peptide in assays designed to examine peptide stability, delivery mechanisms, and interactions with cellular receptors or nucleic acids. It is also utilized in research on oxidative stress, mitochondrial function, and molecular signaling pathways that contribute to cellular longevity and homeostasis.
Benefits
Epithalon offers several advantages in research contexts due to its defined tetrapeptide sequence and high purity. Its small size allows efficient cellular uptake and penetration in in vitro studies, supporting reliable experimental results. The compound exhibits stability under standard laboratory storage conditions, reducing degradation and ensuring reproducibility in multi-step or long-term studies. Its predictable chemical behavior facilitates incorporation into peptide assays, solution-based experiments, and analytical protocols. Additionally, Epithalon's specific sequence enables targeted studies on regulatory pathways, providing a consistent model for examining peptide interactions and cellular responses. These properties make it a convenient and dependable tool for controlled laboratory investigations.
Conclusion
Epithalon is a synthetic tetrapeptide widely used in biochemical research to study cellular regulation and peptide-mediated processes. Its applications in experimental assays and molecular biology, combined with benefits such as stability, predictable behavior, and reliable performance, make it a valuable research compound. The peptide continues to support detailed investigations into cellular function, signaling pathways, and experimental exploration of regulatory molecules.

