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Application Area

Nα-Z-L-asparagine 2-nitrophenyl ester

* Please kindly note that our products are not to be used for therapeutic purposes and cannot be sold to patients.

Category

CBZ-Amino Acids

Catalog number

BAT-000462

Molecular Formula

C18H17N3O7

Molecular Weight

387.30

Specification
Application

Synonyms

Z-L-Asn-o-nitrophenyl ester

Appearance

Off-white powder

Purity

≥ 98% (HPLC)

Melting Point

159-162 °C

Storage

Store at 2-8 °C

Nα-Z-L-asparagine 2-nitrophenyl ester, a versatile reagent utilized primarily in peptide synthesis and biochemistry, offers a myriad of applications. Here are the key applications expressed with a high degree of perplexity and burstiness:

Peptide Synthesis: Found commonly in solid-phase and solution-phase peptide synthesis, Nα-Z-L-asparagine 2-nitrophenyl ester acts as a shielded amino acid derivative, facilitating the selective addition of asparagine residues to evolving peptide chains. This reagent plays a pivotal role in generating peptides with specific sequences required for research and therapeutic endeavors, unveiling a realm of possibilities for peptide-based advancements.

Enzyme Assays: Serving as a valuable tool in enzymatic assays, this compound aids in exploring the actions of asparaginases and other enzymes involved in cleaving peptide bonds associated with asparagine. Its role as a substrate empowers researchers to gauge enzyme kinetics and inhibition levels accurately, a critical aspect in pharmaceutical innovation and deciphering the complexities of enzyme functionality.

Protein Modification: Through chemical manipulation, Nα-Z-L-asparagine 2-nitrophenyl ester offers a pathway to introducing asparagine residues into proteins, enhancing the exploration of protein structure-function correlations. This method is instrumental in shaping modified proteins with elevated stability or activity, permitting precise modifications in protein sequences that often evade conventional genetic engineering approaches, opening up new horizons in protein research.

Bioconjugation: Capitalizing on the ester group within Nα-Z-L-asparagine 2-nitrophenyl ester, researchers leverage its potential in bioconjugation reactions, where it acts as a bridging agent linking peptides to diverse biomolecules or surfaces. This versatile application finds utility in crafting peptide-based sensors, drug delivery systems, and diagnostic tools, fortifying the practicality of peptides in a multitude of biomedical contexts and shaping the future of bioconjugation methodologies.