Boc-O-(2-bromo-Cbz)-L-Tyrosine CAS 47689-67-8: A Key Building Block for Peptide Synthesis and Pharmaceutical Research
Discover the essential role of Boc-O-(2-bromo-Cbz)-L-Tyrosine (CAS 47689-67-8) as a high-purity amino acid derivative, crucial for advanced peptide synthesis and the development of novel pharmaceuticals. Explore its properties and applications.
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Boc-O-(2-bromo-Cbz)-L-Tyrosine
As a reliable supplier in China, we offer Boc-O-(2-bromo-Cbz)-L-Tyrosine (CAS 47689-67-8), a vital intermediate in the synthesis of complex peptides. Its unique structure, featuring a Boc-protecting group and a 2-bromo-Cbz moiety, is essential for precise control during peptide bond formation, making it indispensable for pharmaceutical research and drug development.
- Explore the chemical structure and properties of Boc-O-(2-bromo-Cbz)-L-Tyrosine, understanding its molecular formula C22H24BrNO7 and molecular weight 494.33.
- Leverage this Boc-protected amino acid derivative for advanced peptide synthesis, enhancing the efficiency of your drug discovery process.
- Discover its application as a key building block in pharmaceutical research, enabling the creation of novel therapeutic agents.
- Utilize this high-purity white powder to ensure the quality and reliability of your synthesized peptides, supporting your critical R&D efforts.
Advantages in Peptide Synthesis and Beyond
Enhanced Peptide Synthesis Purity
Achieve superior purity in your peptide synthesis projects by utilizing Boc-O-(2-bromo-Cbz)-L-Tyrosine. This essential amino acid derivative ensures that your final peptide products meet the stringent quality standards required for pharmaceutical applications, supporting reliable peptide synthesis.
Facilitating Drug Development
Boc-O-(2-bromo-Cbz)-L-Tyrosine serves as a critical component in drug development, particularly for peptide-based therapeutics. Its unique chemical properties facilitate the design and synthesis of new drugs targeting various diseases, making it a valuable asset for pharmaceutical research.
Versatility in Research Applications
Beyond its direct use in synthesis, this tyrosine building block is instrumental in biochemistry and organic synthesis research. It aids in studying peptide structure-function relationships and developing novel synthetic methodologies, contributing to the broader advancement of chemical sciences.
Key Applications
Peptide Synthesis
As a key building block, Boc-O-(2-bromo-Cbz)-L-Tyrosine is fundamental for the efficient and accurate synthesis of peptides, a core process in creating complex biomolecules for research and therapeutic purposes.
Pharmaceutical Research
Its use as a pharmaceutical research intermediate is significant, enabling the exploration and development of new drug candidates, especially those leveraging the therapeutic potential of peptides.
Drug Development
In drug development, this compound facilitates the creation of peptide-based therapeutics, offering specific functionalities that enhance stability and biological activity, thereby contributing to advanced drug design.
Organic Synthesis
The chemical versatility of Boc-O-(2-bromo-Cbz)-L-Tyrosine makes it a valuable reagent in broader organic synthesis, allowing chemists to construct complex molecular architectures.