Pinealon Peptide Research Overview
Pinealon is a short synthetic tripeptide composed of glutamic acid, aspartic acid, and arginine (Glu-Asp-Arg). In laboratory research, Pinealon is commonly studied for its interactions with gene expression pathways, intracellular signaling mechanisms, and peptide-mediated regulatory systems.
What Is Pinealon?
Pinealon belongs to a class of short regulatory peptides investigated for their ability to influence cellular communication and transcription processes. Research often focuses on how small peptide fragments interact with intracellular pathways and molecular signaling systems.
Molecular Classification
- Type: Synthetic tripeptide
- Sequence: Glu-Asp-Arg
- Molecular Weight: 375.38 g/mol
- Category: Regulatory peptide
Areas of Research Interest
- Gene expression and transcription studies
- Cellular signaling pathway analysis
- Peptide-mediated regulatory mechanisms
- Intracellular communication models
Why Researchers Study Pinealon
Pinealon is frequently included in experimental models examining how short peptide sequences influence molecular signaling and regulatory pathways. Its simple structure allows researchers to investigate peptide behavior in controlled laboratory environments with minimal structural variability.
Related Research Compounds
Pinealon is often discussed alongside other regulatory peptides such as Epitalon, DSIP, and GHK-Cu, which are also studied for their roles in peptide signaling and regulatory systems.
Laboratory Research Supply
High-purity Pinealon is supplied for controlled laboratory research and analytical applications. Researchers utilize consistent peptide materials to support reproducibility and stability in experimental conditions.
Scientific References
- Khavinson V, et al. “Short Peptides Regulating Gene Expression.” Neurochemical Journal.
- Anisimov VN, et al. “Peptide Regulation of Cellular Functions.” Advances in Gerontology.
- Khavinson VK, Malinin VV. “Peptide Bioregulation of Aging Processes.” Biochemistry (Moscow).