High-Purity Boc-D-3-Cyanophenylalanine: A Versatile Building Block for Peptide Synthesis and Pharmaceutical Research
Discover the power of non-natural amino acids for your next breakthrough in peptide synthesis and drug development.
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Boc-D-3-Cyanophenylalanine
Boc-D-3-Cyanophenylalanine (CAS 205445-56-3) is a crucial non-natural amino acid derivative widely used in advanced chemical synthesis. Its unique structure, featuring a tert-butyloxycarbonyl (Boc) protecting group and a cyano group on the phenyl ring, makes it an invaluable tool for creating modified peptides and complex organic molecules with tailored properties.
- Explore the advantages of using Boc-D-3-Cyanophenylalanine in peptide synthesis for enhanced biological activity.
- Discover how this compound serves as a key pharmaceutical intermediate in drug discovery efforts.
- Learn about the synthesis and purification methods essential for obtaining high-purity Boc-D-3-Cyanophenylalanine.
- Understand the role of non-natural amino acids like Boc-D-3-Cyanophenylalanine in biochemical research and protein studies.
Key Advantages
Enhanced Peptide Properties
Incorporating Boc-D-3-Cyanophenylalanine into peptides can significantly improve their stability, binding affinities, and overall biological function, as discussed in research related to peptide synthesis reagents.
Drug Development Potential
This compound is a vital building block in medicinal chemistry, enabling the design and synthesis of novel therapeutic agents, aligning with the needs of drug discovery.
Structural Versatility
The cyano-substituted phenylalanine backbone offers unique chemical properties, making it a versatile component for creating a wide range of complex organic molecules in chemical synthesis.
Key Applications
Peptide Synthesis
As a key component in solid-phase peptide synthesis, Boc-D-3-Cyanophenylalanine allows for the precise incorporation of modified amino acids into peptide chains, contributing to research in unnatural amino acids.
Pharmaceutical Research
It serves as a critical intermediate in the development of new pharmaceuticals, aiding in the exploration of novel drug candidates and therapeutic strategies in pharmaceutical intermediates.
Biochemical Studies
Researchers utilize this compound to investigate protein structure-function relationships and enzyme mechanisms, furthering our understanding in biochemical research.
Custom Synthesis
The compound is essential for custom synthesis projects, providing a unique building block for academic and industrial research requiring specialized molecular structures, supporting custom peptide synthesis reagents.