Peptide Synthesis and Protein Engineering: DL-Glu(OMe) serves as an important building block in peptide synthesis, enabling the construction of peptides and proteins with tailored properties. Its glutamic acid residue, with a methylated side chain, offers unique structural and functional characteristics that can be exploited in protein engineering efforts.
Bioconjugation and Chemical Modification: The carboxylic acid group of DL-Glu(OMe) allows for bioconjugation reactions, enabling the attachment of peptides or proteins to other molecules or surfaces. This property is exploited in the development of targeted drug delivery systems, biosensors, and other biotechnological applications where controlled modification or labeling is required.
Biochemical Research: DL-Glu(OMe) is a valuable tool in biochemical research, allowing scientists to investigate the role of glutamic acid-containing peptides or proteins in cellular processes. It can be used to probe protein-protein interactions, enzyme activities, or signaling pathways, providing insights into cellular mechanisms and disease processes.
Drug Discovery and Design: The unique properties of DL-Glu(OMe) may offer potential in drug discovery efforts. Its structure can be exploited to design molecules with specific binding affinities or inhibitory activities against target proteins or enzymes. This reagent could serve as a starting point for the development of novel therapeutic agents against diseases or conditions that involve glutamic acid-containing proteins. | 
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