Boc-(S)-3-Amino-4-(3-benzothienyl)-butyric Acid: A Key Building Block for Peptide Synthesis and Drug Development
Unlock novel therapeutic potentials with this advanced amino acid derivative.
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Boc-(S)-3-Amino-4-(3-benzothienyl)-butyric acid
This compound is a vital intermediate in the synthesis of complex peptides and serves as a foundational element in pharmaceutical research. Its protected amino group and unique benzothienyl structure make it ideal for building intricate molecular architectures necessary for novel drug discovery.
- As a Boc-protected amino acid for peptide synthesis, it facilitates controlled chain elongation, crucial for developing targeted therapeutics.
- Its role as a medicinal chemistry building block allows for precise modification, leading to compounds with enhanced efficacy and specificity.
- The benzothienyl group contributes to the compound's lipophilicity, potentially improving cell membrane permeability for drug delivery.
- Its chirality is essential for specific interactions with biological targets, making it a key component in drug development processes.
Product Advantages
Enhanced Peptide Structure
Leverage the properties of this Boc-protected amino acid for peptide synthesis to construct peptides with improved stability and defined structures.
Accelerated Drug Discovery
Utilize as drug development intermediates to streamline the process of creating new pharmaceutical agents and exploring novel therapeutic pathways.
Precision in Organic Synthesis
Employ as a chiral building block for medicinal chemistry applications, ensuring stereochemical integrity and optimal biological interaction in synthesized molecules.
Key Applications
Peptide Synthesis
This compound is a crucial Boc-protected amino acid for peptide synthesis, enabling the creation of complex peptide sequences for research and therapeutic development.
Drug Development
As a vital component in drug development intermediates, it aids medicinal chemists in designing and synthesizing novel drug candidates with specific pharmacological profiles.
Medicinal Chemistry
Its utility as a medicinal chemistry building block allows for the introduction of specific structural motifs, enhancing the potential efficacy and targeting capabilities of new chemical entities.
Organic Synthesis
The compound serves as a versatile tool in advanced organic synthesis, providing a chiral center and functional groups for creating complex organic molecules.