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Application Area

Fmoc-D-Cys(S-Tmp)-OH

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

Category

Fmoc-Amino Acids

Catalog number

BAT-008432

Molecular Formula

C27H27NO7S2

Molecular Weight

541.64

Specification
Application

IUPAC Name

(S)-2-((((9H-fluoren-9-yl)methoxy)carbonyl)amino)-3-((2,4,6-trimethoxyphenyl)disulfanyl)propanoic acid

Fmoc-D-Cys(S-Tmp)-OH, a specialized amino acid derivative, plays a vital role in peptide synthesis and biochemical research. Here are four key applications of Fmoc-D-Cys(S-Tmp)-OH:

Peptide Synthesis: A cornerstone in the realm of solid-phase peptide synthesis, Fmoc-D-Cys(S-Tmp)-OH facilitates the incorporation of D-cysteine residues fortified with a stable protecting group, enabling precise sequential addition of amino acids. This meticulous process is paramount in generating peptides of unparalleled purity and specificity, indispensable for both research endeavors and therapeutic interventions.

Protein Engineering: In the intricate world of protein engineering, the integration of Fmoc-D-Cys(S-Tmp)-OH offers a gateway to deliberate modifications within protein structures. This strategic inclusion allows for the controlled introduction of cysteine residues, shedding light on protein folding dynamics, stability, and functionality. Such modifications are integral to unraveling the mysteries of protein behavior and crafting proteins with augmented functionalities or innovative roles.

Drug Development: Pivotal in the realm of drug discovery, Fmoc-D-Cys(S-Tmp)-OH plays a pivotal role in the construction and refinement of peptide-based therapeutic agents. By incorporating this derivative into therapeutic peptides, researchers can bolster the stability and bioavailability of these potential drug candidates. This strategic enhancement paves the way for pioneering treatments targeting diseases where peptide-based drugs present a compelling alternative to conventional small molecules.

Bioconjugation: At the crossroads of bioconjugation techniques, Fmoc-D-Cys(S-Tmp)-OH emerges as a key player, facilitating the attachment of diverse functional groups or labels to peptides. This innovative approach allows for the creation of peptide-based probes, imaging agents, and precision-targeted delivery systems. Such applications hold significant value in diagnostic assays, precision-targeted therapies, and the exploration of intricate biological interactions at the molecular level.