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Application Area

Boc-homoArg(Et2,symmetric)-OH HCl

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

Category

BOC-Amino Acids

Catalog number

BAT-000965

CAS number

108415-20-9

Molecular Formula

C16H33ClN4O4

Molecular Weight

380.92

Specification
Application

Synonyms

Boc-Har(Et2,symmetric)-OH HCl; N-α-(t-Butoxycarbonyl)-N-ω1,N-ω2-diethyl-L-homoarginine hydrochloride; (2S)-6-[Bis(ethylamino)methylideneamino]-2-[(2-methylpropan-2-yl)oxycarbonylamino]hexanoic acid hydrochloride

Storage

Store at 2-8 °C

Boc-homoArg(Et2,symmetric)-OH HCl is a versatile chemical compound widely utilized in peptide synthesis, showcasing a myriad of applications in biochemical and pharmaceutical research. Here are the key applications intricately presented with high perplexity and burstiness:

Peptide Synthesis: Integral to solid-phase peptide synthesis (SPPS), Boc-homoArg(Et2,symmetric)-OH HCl serves as a protected amino acid derivative, facilitating the inclusion of homoarginine residues into peptides. This incorporation leads to a spectrum of structural and functional variations paramount for the advancement of peptide-based drugs and the creation of diverse biochemical probes.

Protein Engineering: Delving into the realm of protein engineering, Boc-homoArg(Et2,symmetric)-OH HCl stands out as a tool for introducing positively charged homoarginine residues into proteins. These modifications enable the exploration of the impacts of charge and structure on protein stability, functionality, and interactions with other molecules. Such tailored adjustments are pivotal in the design of proteins with heightened therapeutic or industrial attributes.

Enzyme Activity Studies: Within the domain of enzyme activity investigations, Boc-homoArg(Et2,symmetric)-OH HCl plays a pivotal role in synthesizing substrates and inhibitors for probing enzyme functionalities. By incorporating homoarginine into peptide-based substrates, researchers can delve into the specificity and kinetics of proteolytic enzymes. This in-depth analysis aids in unraveling enzyme mechanisms and devising potential enzyme inhibitors, fostering advancements in enzyme-related research.

Drug Delivery Systems: Stepping into the realm of drug delivery systems, Boc-homoArg(Et2,symmetric)-OH HCl emerges as a key player in crafting innovative peptidic carriers. The integration of homoarginine residues amplifies the binding affinity and cellular uptake of these carriers, imparting a significant boost to the efficacy and precision targeting of peptide-based therapeutics. This enhancement holds substantial promise for refining drug delivery mechanisms and optimizing therapeutic outcomes.