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N-α-Carbobenzoxy-D-aspartic acid α-t-butyl ester dicyclohexylammonium salt is a chemical compound commonly used in organic synthesis, particularly in peptide chemistry. This molecule features a protected aspartic acid residue, with the carbobenzoxy group (Cbz) shielding the α-amino group and a t-butyl ester protecting the carboxyl group. Such protective groups are crucial in multi-step organic syntheses as they prevent unwanted reactions at certain reactive sites. The dicyclohexylammonium salt form enhances the compound's solubility and facilitates its handling in industrial processes.
One major industrial application of N-α-Carbobenzoxy-D-aspartic acid α-t-butyl ester dicyclohexylammonium salt is in the pharmaceutical sector, where it serves as an intermediate in the synthesis of complex peptides and proteins. These compounds are used in drug discovery and development, especially for therapeutic proteins and biologics. The use of this compound ensures selective protection of reactive groups, allowing for efficient synthesis of the target peptides.
Another significant application lies in the production of specialty chemicals, where this compound is utilized to create specific molecules with desired biological activities. The protective groups, like Cbz and t-butyl ester, allow for controlled chemical reactions, which are essential in generating high-value intermediates and final products used in cosmetics, agrochemicals, and other fine chemical industries.
This compound also finds use in research and development within biotechnology firms and academic institutions. It is instrumental in producing modified peptides for research in enzymatic reactions, protein structure, and function studies. By controlling the reactivity of specific amino acids during peptide assembly, researchers can study biochemical pathways and enzyme mechanisms with higher precision.
Lastly, the material is employed in the manufacturing of bioactive peptides used in diagnostics and therapeutic treatments. The protective groups on the molecule allow precise peptide chain elongation and sequence specificity, crucial for developing peptides that act as biomarkers or therapeutic agents. The dicyclohexylammonium salt ensures stability during peptide synthesis, which is critical for large-scale production processes.
