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Application Area

Boc-D-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-000964

CAS number

98501-00-9

Molecular Formula

C16H33ClN4O4

Molecular Weight

380.92

Specification
Application

Synonyms

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

Storage

Store at 2-8 °C

Boc-D-homoArg(Et2,symmetric)-OH HCl, a pivotal chemical compound in peptide synthesis and pharmaceutical research, boasts a myriad of applications in scientific pursuits. Below are the key applications, presented with an elevated degree of perplexity and burstiness:

Peptide Synthesis: Serving as a cornerstone in peptide assembly, Boc-D-homoArg(Et2,symmetric)-OH HCl functions as a fundamental building block for peptide formations. It offers a protected form of homoarginine, a crucial amino acid pivotal in peptide design. Scientists can incorporate this foundational unit into peptides, subsequently unmasking it to customize peptide sequences for diverse objectives, including drug formulation and protein manipulation.

Pharmaceutical Research: In the realm of peptide-based drug development, leveraging Boc-D-homoArg(Et2,symmetric)-OH HCl can optimize the durability and functionality of peptides. By modifying peptides with this compound, researchers can enhance their pharmacokinetic and pharmacodynamic characteristics, refining the efficacy and specificity of peptide-based therapeutics. This innovative strategy contributes to the advancement of more potent and precisely targeted peptide treatments.

Molecular Biology: Facilitating exploration into protein interactions and enzyme dynamics, Boc-D-homoArg(Et2,symmetric)-OH HCl aids in investigating binding affinities and catalytic efficiencies. As scientists incorporate this compound into peptides, they gain insights into the intricate mechanisms underlying biological processes. This meticulous examination is essential for unraveling molecular intricacies and identifying potential routes for drug intervention.

Bioconjugation: Playing a pivotal role in the amalgamation of peptides with other molecules, such as drugs or imaging agents, Boc-D-homoArg(Et2,symmetric)-OH HCl contributes significantly to bioconjugation techniques. The presence of the homoarginine moiety offers anchoring sites for conjugation, facilitating the creation of multifaceted biomolecules. These bioconjugates serve as invaluable assets in targeted drug delivery systems and diagnostic imaging technologies, highlighting the versatility and precision attainable through peptide-based bioengineering.