NINGBO INNO PHARMCHEM CO.,LTD. is committed to empowering scientific endeavors by providing high-quality, specialized chemical compounds. Among our extensive catalog, H-D-Lys(Z)-OH (CAS 34404-32-5), also known as N-epsilon-Benzyloxycarbonyl-D-lysine, stands out as a versatile building block with broad applications across the life sciences.

The fundamental utility of H-D-Lys(Z)-OH lies in its role as a protected amino acid, essential for the precise construction of peptides. The benzyloxycarbonyl (Z) group protects the epsilon-amino moiety of D-lysine, preventing it from reacting prematurely during the stepwise assembly of peptide chains. This feature is central to 'peptide synthesis' and is particularly critical for implementing 'orthogonal protection strategies in peptide chemistry'. Researchers frequently investigate 'H-D-Lys(Z)-OH applications' to leverage its unique protection and deprotection characteristics in their specific research contexts, whether for creating therapeutic peptides or chemical probes.

The careful selection of protected amino acids directly influences the efficiency and purity of synthesized peptides. By using H-D-Lys(Z)-OH, scientists can 'optimize synthesis methodologies', ensuring higher yields and reducing the occurrence of unwanted side products. This focus on quality is why 'protected amino acid quality control' is a critical aspect of our supply chain at NINGBO INNO PHARMCHEM CO.,LTD. We ensure that each batch meets rigorous standards, providing researchers with reliable materials for their critical experiments.

Beyond direct peptide synthesis, H-D-Lys(Z)-OH is invaluable in 'studying protein structure and function'. By enabling the controlled incorporation of modified lysine residues, researchers can investigate the impact of specific side chain modifications on protein activity, folding, and interactions. The incorporation of D-amino acids also contributes to creating peptides with enhanced biological stability, a desirable trait for peptide-based drug development. The versatility of this compound as a 'building block for research' underscores its importance in advancing multiple areas within the life sciences, from molecular biology to pharmacology.