Peptide Synthesis: β-Ala-Ome.HCl can be used as a building block for the synthesis of peptides and peptidomimetics. It allows for the introduction of specific amino acid sequences into peptides, which can modulate their biological activities or stability.
Drug Discovery and Design: β-Ala-Ome.HCl may serve as a starting point for the development of novel drugs or bioactive compounds. Its structure can be modified or incorporated into larger molecules to target specific biological processes or receptors.
Biological Probing and Imaging: β-Ala-Ome.HCl can be conjugated to fluorescent probes or radiolabels, enabling its use in biological imaging techniques. This allows researchers to visualize and track the behavior of β-alanine or related molecules within cells or tissues.
Biochemical Research: β-Ala-Ome.HCl can be employed as a reagent in biochemical experiments to study the interactions between β-alanine and other biological molecules, such as enzymes or receptors. This can provide insights into biological processes and disease mechanisms.
Protein Engineering and Modification: β-Ala-Ome.HCl can be used to introduce β-alanine moieties into proteins, altering their functional properties or stability. This technique can be used in protein engineering efforts to create proteins with novel or enhanced activities. |