Delmitide Acetate features a peptide architecture designed for studies of folding, membrane affinity, and receptor-binding motifs. Residue diversity creates a balanced hydrophobic-polar environment. Researchers examine its conformational transitions and solubility. Uses include peptide engineering, structural evaluation, and interaction mapping.
CAT No: R2485
CAS No:501019-16-5
Synonyms/Alias:Delmitide acetate;Delmitide acetate [USAN];RSP58;UNII-5Y1CNW44Y5;501019-16-5;5Y1CNW44Y5;Delmitide (acetate);Delmitide acetate (USAN);RSP-58;D-Arginyl-(2R)-2-aminohexyanoyl-(2R)-2-aminohexyanoyl-(2R)-2-aminohexyanoyl-D-arginyl-(2R)-2-aminohexyanoyl-(2R)-2-aminohexyanoyl-(2R)-2-aminohexyanoylglycyl-D-tyranosinamide monoacetate;D-Tyrosinamide, D-arginyl-D-norleucyl-D-norleucyl-D-norleucyl-D-arginyl-D-norleucyl-D-norleucyl-D-norleucylglycyl-, acetate;HY-106359A;DA-72646;CS-0025649;D08902;Q27263027;
Delmitide Acetate, a synthetic peptide derivative, is recognized for its distinctive structure and bioactive properties, making it a valuable tool in scientific research and biochemical exploration. Characterized by its sequence-specific composition and acetylated terminal, Delmitide Acetate offers enhanced stability and solubility in aqueous environments, which is advantageous for a range of laboratory applications. The peptide's unique molecular configuration allows for selective interaction with target proteins and cellular components, facilitating precise modulation of biological pathways. Researchers appreciate Delmitide Acetate for its high degree of reproducibility and compatibility with various experimental protocols, which supports its integration into both in vitro and in vivo studies. Its versatility and adaptability have positioned it as a preferred reagent in peptide-based investigations, particularly in fields that demand rigorous control over experimental variables and outcomes.
Peptide-Protein Interaction Studies: Delmitide Acetate serves as an effective probe for elucidating peptide-protein interactions, providing researchers with a means to investigate binding affinities, conformational changes, and functional consequences of such interactions. By incorporating Delmitide Acetate into binding assays or surface plasmon resonance experiments, scientists can gain insights into the molecular mechanisms governing signal transduction, enzyme regulation, and cellular communication. The peptide's stable structure and defined sequence enable consistent results, which are critical for mapping interaction domains and validating potential therapeutic targets in fundamental research.
Cell Signaling Pathway Analysis: In the context of dissecting complex cell signaling networks, Delmitide Acetate is employed to modulate specific pathways and observe downstream effects. Its ability to mimic or inhibit endogenous peptide ligands allows for targeted interrogation of receptor-mediated processes, such as phosphorylation cascades and gene expression regulation. By introducing Delmitide Acetate into cultured cell systems, investigators can delineate the roles of individual signaling components, identify novel regulatory nodes, and assess the impact of pathway perturbations on cellular behavior.
Drug Discovery and Screening: Delmitide Acetate finds application in early-stage drug discovery, where it is utilized as a reference compound or functional analog in high-throughput screening platforms. Its well-characterized activity profile enables the identification of lead compounds that modulate similar biological targets, thereby streamlining the hit-to-lead optimization process. The peptide's compatibility with various assay formats, including fluorescence-based and label-free detection methods, enhances its utility in evaluating compound efficacy, specificity, and mechanism of action.
Structure-Activity Relationship (SAR) Studies: The defined sequence and modifiable structure of Delmitide Acetate make it an ideal candidate for SAR investigations aimed at optimizing peptide function. Researchers can systematically alter amino acid residues or introduce chemical modifications to assess the impact on biological activity, stability, and target selectivity. These studies contribute to the rational design of improved peptide analogs with enhanced therapeutic or research potential, supporting the advancement of peptide engineering and medicinal chemistry initiatives.
Biomarker Identification and Validation: Delmitide Acetate is also leveraged in the identification and validation of novel biomarkers associated with disease states or physiological processes. By serving as a standard or competitive ligand in immunoassays and mass spectrometry-based analyses, it facilitates the quantification and characterization of endogenous peptides or proteins of interest. The reproducibility and specificity of Delmitide Acetate in these applications enable the generation of robust datasets that inform biomarker discovery, disease mechanism elucidation, and translational research efforts. Through these diverse applications, Delmitide Acetate continues to drive innovation and discovery across multiple scientific disciplines, reinforcing its status as a critical reagent in peptide-based research.
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