Peptide and Protein Synthesis and Modification:H-ALA-OIPR HCl serves as a building block in peptide synthesis, enabling the production of peptide chains with specific sequences and functions. It can also be used to modify proteins, introducing specific amino acid residues that alter their properties such as stability, activity, or interaction capabilities.
Drug Design and Development:As a component of drug molecules, H-ALA-OIPR HCl can be combined with other chemical groups to synthesize drug candidates with specific biological activities. By manipulating its structure, targeted drugs can be designed to address specific diseases or biological processes.
Biological Probing and Imaging:Leveraging the unique properties of H-ALA-OIPR HCl, it can be employed as a biological probe to detect or image specific molecules or cells within biological systems. This is particularly useful in biomedical research, aiding in the understanding of biological processes, disease mechanisms, and drug-biological interactions.
Biochemical Research:H-ALA-OIPR HCl serves as a reagent in biochemical experiments, enabling the investigation of protein structure, function, and interactions with other molecules. By observing and analyzing its reactions with various biological molecules, complex biological processes can be revealed. | 
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