O-Ethyl-N-Fmoc-D-tyrosine, known by its CAS number 162502-65-0, stands out as a vital specialty amino acid derivative with broad applicability across various scientific disciplines. Its utility spans from the precise construction of peptides through solid-phase peptide synthesis to its instrumental role in cutting-edge proteomics research and drug discovery initiatives. Researchers looking to buy O-Ethyl-N-Fmoc-D-tyrosine are often driven by the need for high-purity reagents that can reliably contribute to the success of complex experiments.

In the realm of proteomics, O-Ethyl-N-Fmoc-D-tyrosine serves as a unique building block for synthesizing modified peptides that mimic naturally occurring protein structures or contain specific labels. This allows scientists to investigate protein folding, enzyme activity, and signal transduction pathways with greater accuracy. The ethyl ether modification on the tyrosine side chain can alter the peptide's interaction with its biological environment, providing insights into structure-activity relationships. These detailed studies are crucial for understanding cellular mechanisms and identifying potential targets for new therapies.

For drug discovery efforts, the incorporation of O-Ethyl-N-Fmoc-D-tyrosine into peptide sequences can lead to the development of novel peptide-based drugs. These custom peptides might exhibit enhanced stability, improved bioavailability, or targeted delivery capabilities. The reliable Fmoc-protected nature of the compound ensures efficient and clean synthesis, minimizing the risk of side products and maximizing the yield of the desired therapeutic agent. The accessibility of this compound through reliable suppliers further supports the progression of drug development pipelines.

Beyond these prominent fields, O-Ethyl-N-Fmoc-D-tyrosine is also a key reagent in general biochemical studies. Its well-defined chemical properties and consistent purity make it suitable for exploring various biochemical reactions, enzyme assays, and the development of diagnostic tools. The compound's versatility underscores its importance as a specialty amino acid derivative that empowers researchers to push the boundaries of scientific understanding and innovation.