In the realm of peptide synthesis, efficiency and accuracy are paramount for achieving high-quality results. NINGBO INNO PHARMCHEM CO.,LTD. contributes to this by providing essential Boc-amino acids, with a particular focus on Boc-O-(2-bromo-Cbz)-L-Tyrosine (CAS 47689-67-8). This advanced derivative is designed to optimize the synthesis process, making it a valuable asset for researchers in academia and industry.

Boc-amino acids are fundamental to the widely used Boc solid-phase peptide synthesis (SPPS) methodology. The tert-butyloxycarbonyl (Boc) group offers reliable protection of the alpha-amino group, allowing for sequential coupling of amino acids. Boc-O-(2-bromo-Cbz)-L-Tyrosine enhances this process by incorporating a specialized protecting group on the tyrosine side chain. The 2-bromo-carbobenzoxy (2-bromo-Cbz) moiety provides an alternative protection strategy that can offer advantages in specific synthetic contexts, such as stability under certain conditions or unique deprotection mechanisms, ultimately improving the efficiency of peptide synthesis.

The chemical properties of Boc-O-(2-bromo-Cbz)-L-Tyrosine are key to its utility. Typically presented as a white powder with an assay of 98.5% min, it adheres to strict quality standards required for reproducible synthesis. Its molecular formula (C22H24BrNO7) and molecular weight (494.33) are well-established, allowing researchers to accurately calculate molar equivalents and optimize reaction stoichiometry. Sourced from NINGBO INNO PHARMCHEM CO.,LTD., this compound guarantees the purity and consistency necessary for complex peptide assembly.

The strategic use of Boc-O-(2-bromo-Cbz)-L-Tyrosine can significantly improve peptide synthesis efficiency by minimizing side reactions and simplifying purification steps. By providing a robust and well-characterized building block, NINGBO INNO PHARMCHEM CO.,LTD. enables researchers to obtain higher yields of desired peptide products. This is particularly important when synthesizing longer or more challenging peptide sequences, where the accumulation of errors can be detrimental.

Furthermore, the application of this specific tyrosine derivative can unlock new possibilities in peptide design. Researchers can explore the impact of the bromine atom or the unique deprotection characteristics of the 2-bromo-Cbz group on the final peptide's properties. This fine-tuning capability is essential for developing peptides with enhanced therapeutic potential or novel functionalities. NINGBO INNO PHARMCHEM CO.,LTD. is proud to supply this crucial reagent, supporting the continuous advancement of peptide synthesis techniques and the broader field of peptide science.