Unlock Breakthroughs with Boc-(R)-3-Amino-3-(3-methyl-phenyl)-propionic Acid
A high-purity chiral building block essential for advanced peptide synthesis and pharmaceutical research.
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Boc-(R)-3-Amino-3-(3-methyl-phenyl)-propionic Acid
This high-quality amino acid derivative is a vital component in the synthesis of complex peptides and novel therapeutic agents. Its defined stereochemistry and the presence of the Boc protecting group make it invaluable for precise molecular construction in drug discovery and development.
- Essential for advanced peptide synthesis, enabling the creation of peptides with specific biological activities, utilizing its role as a key intermediate in peptide synthesis.
- Facilitates drug discovery and development processes by serving as a crucial building block in medicinal chemistry.
- Offers high purity (typically >=97% or >=99%), ensuring reliable and reproducible results in demanding research applications.
- The Boc protecting group enhances stability and solubility, making it an ideal candidate for various chemical transformations and bioconjugation techniques.
Key Advantages
Enhanced Peptide Structure
The chiral nature and specific arrangement of this amino acid derivative contribute to the creation of peptides with unique conformational properties and improved resistance to degradation, a significant advantage in peptide synthesis.
Streamlined Drug Development
As a versatile pharmaceutical intermediate, it aids in the efficient synthesis of targeted therapeutics, particularly for neurological disorders, thereby streamlining drug development pipelines.
Reliable Research Outcomes
The consistent high purity of this compound guarantees reproducible and dependable results in complex chemical reactions and biological assays, supporting robust drug discovery efforts.
Key Applications
Peptide Synthesis
A fundamental building block for solid-phase and solution-phase peptide synthesis, crucial for creating novel peptide-based drugs and research tools.
Drug Development
Serves as a key intermediate in the synthesis of diverse pharmaceutical compounds, particularly those targeting neurological conditions and other diseases.
Medicinal Chemistry
Enables the design and synthesis of new drug candidates with tailored properties and improved efficacy, supporting broader medicinal chemistry research.
Bioconjugation
Its functional groups make it suitable for bioconjugation processes, linking biomolecules to drugs or imaging agents for targeted delivery and diagnostics.