O-Ethyl-N-Fmoc-D-tyrosine: A Key Building Block for Advanced Peptide Synthesis and Proteomics
Unlock novel peptide sequences with our high-purity O-Ethyl-N-Fmoc-D-tyrosine, essential for cutting-edge research.
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O-Ethyl-N-Fmoc-D-tyrosine
O-Ethyl-N-Fmoc-D-tyrosine (CAS: 162502-65-0) is a premium Fmoc-protected D-amino acid derivative, specifically a modified form of tyrosine. Its primary value lies in its role as a fundamental building block in sophisticated peptide synthesis workflows, including solid-phase peptide synthesis (SPPS). The ethyl ether modification on the tyrosine side chain offers unique properties that can influence peptide solubility, stability, and biological activity, making it a sought-after reagent in advanced pharmaceutical research and proteomics studies.
- Leverage O-Ethyl-N-Fmoc-D-tyrosine for enhanced peptide solubility and stability in your custom peptide synthesis projects.
- Explore the applications of O-Ethyl-N-Fmoc-D-tyrosine in proteomics to uncover novel protein interactions and functions.
- Utilize this high-purity Fmoc-protected amino acid derivative for precise and efficient solid phase peptide synthesis.
- Incorporate O-Ethyl-N-Fmoc-D-tyrosine into your research to develop innovative peptide-based therapeutics.
Key Advantages Offered
Enhanced Peptide Design
The unique ethyl ether modification of O-Ethyl-N-Fmoc-D-tyrosine allows for finer control over peptide characteristics, aiding in the design of peptides with specific therapeutic or diagnostic properties.
Superior Synthesis Efficiency
As a crucial component in peptide synthesis reagents, Fmoc-D-Tyr(Et)-OH facilitates efficient coupling reactions, leading to higher yields and purer peptide products for your research needs.
Broad Proteomics Applicability
Researchers can confidently employ O-Ethyl-N-Fmoc-D-tyrosine in proteomics studies to investigate protein modifications and interactions, contributing to a deeper understanding of biological pathways.
Key Applications
Peptide Synthesis
As a protected amino acid derivative, it's indispensable for building complex peptide chains in both research and industrial settings, supporting custom peptide synthesis.
Proteomics Research
Its distinct structure makes O-Ethyl-N-Fmoc-D-tyrosine valuable for studying protein structure, function, and post-translational modifications.
Drug Discovery
The compound aids in the development of novel peptide-based pharmaceuticals by providing a versatile building block for therapeutic peptide design.
Biochemical Studies
Used as a biochemical reagent, it helps in investigating enzyme kinetics, receptor-ligand interactions, and other fundamental biological processes.