N-Acetyl-Epitalon-Amidate carries both N-acetyl and C-terminal amide modifications, producing a highly stabilized tetrapeptide. The dual protection reduces terminal flexibility and enhances conformational consistency. Researchers apply it in structural mapping, peptide-membrane studies, and proteolytic profiling. Its balanced architecture supports detailed biochemical evaluation.
N-Acetyl-Epitalon-Amidate is a synthetic peptide derivative structurally related to the tetrapeptide epitalon, distinguished by both N-terminal acetylation and C-terminal amidation. These modifications enhance its biochemical stability and resistance to enzymatic degradation, making it a valuable tool in peptide research. As a research-use-only compound, N-Acetyl-Epitalon-Amidate is of significant interest in the study of peptide structure-activity relationships, molecular signaling, and the development of peptide-based assay systems. Its unique configuration and robust peptide backbone render it particularly suitable for advanced investigations in protein biochemistry and molecular biology.
Peptide stability studies: Due to its dual terminal modifications, N-Acetyl-Epitalon-Amidate serves as an excellent model for examining how acetylation and amidation influence peptide half-life, conformational integrity, and susceptibility to proteolytic enzymes. Researchers employ this compound to dissect the mechanisms by which terminal modifications affect peptide turnover in vitro, offering insights that inform the design of more durable peptide analogs for experimental applications.
Receptor interaction assays: The compound's defined sequence and enhanced stability make it a useful probe for investigating peptide-receptor interactions. In receptor binding studies, it enables the assessment of affinity, specificity, and activation profiles of peptide ligands, particularly in systems where endogenous peptide degradation would otherwise confound results. Its resistance to enzymatic breakdown allows for more accurate mapping of ligand-receptor dynamics over extended timeframes.
Peptide signaling pathway elucidation: N-Acetyl-Epitalon-Amidate is frequently utilized in cellular and biochemical assays to interrogate signaling cascades modulated by short peptides. Its structure allows researchers to explore downstream effects on gene expression, enzymatic activity, or cellular responses with minimal interference from metabolic degradation. Such studies are instrumental in clarifying the mechanistic roles of small peptides within complex biological networks.
Analytical method development: The compound's physicochemical properties and well-defined modifications make it a reliable standard or reference material in analytical chemistry. It is used to calibrate chromatographic and mass spectrometric methods for peptide detection, quantification, and characterization. Employing this peptide as a benchmark aids in validating assay sensitivity, resolution, and reproducibility, especially in laboratories focused on peptide analytics.
Peptide synthesis optimization: N-Acetyl-Epitalon-Amidate is also leveraged in method development for solid-phase peptide synthesis (SPPS) and peptide purification protocols. Its incorporation into synthesis workflows enables chemists to assess the efficiency of terminal modification strategies, optimize cleavage conditions, and evaluate purification techniques. Insights gained from working with this model peptide inform best practices for producing other modified peptides with enhanced stability and bioavailability for research use.
1. TMEM16F and dynamins control expansive plasma membrane reservoirs
2. Low bone turnover and low BMD in Down syndrome: effect of intermittent PTH treatment
3. Adipose tissue is a key organ for the beneficial effects of GLP-2 metabolic function
4. An Open-label, Single-center, Safety and Efficacy Study of Eyelash Polygrowth Factor Serum
If you have any peptide synthesis requirement in mind, please do not hesitate to contact us at . We will endeavor to provide highly satisfying products and services.
Creative Peptides is a trusted CDMO partner specializing in high-quality peptide synthesis, conjugation, and manufacturing under strict cGMP compliance. With advanced technology platforms and a team of experienced scientists, we deliver tailored peptide solutions to support drug discovery, clinical development, and cosmetic innovation worldwide.
From custom peptide synthesis to complex peptide-drug conjugates, we provide flexible, end-to-end services designed to accelerate timelines and ensure regulatory excellence. Our commitment to quality, reliability, and innovation has made us a preferred partner across the pharmaceutical, biotechnology, and personal care industries.
Read More