Boc-L-3-(3-Thienyl)-alanine DCHA Salt: A Key Component in Peptide Synthesis
Discover the properties and applications of this vital non-natural amino acid derivative for your research needs.
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Boc-L-3-(3-Thienyl)-alanine DCHA Salt
Boc-L-3-(3-Thienyl)-alanine DCHA Salt is a crucial building block in the field of peptide synthesis. Its protected nature and unique thiophene side chain make it invaluable for creating complex peptides and peptidomimetics, advancing drug discovery and biochemical research.
- Synthesis of Boc-L-3-(3-Thienyl)-alanine DCHA Salt enables researchers to incorporate novel structures into peptide chains.
- The high purity of this non-natural amino acid ensures reliable results in sensitive biochemical research.
- Understanding the Boc-L-3-(3-Thienyl)-alanine DCHA Salt price can help optimize research budgets for advanced projects.
- Sourcing from reliable Boc-L-3-(3-Thienyl)-alanine DCHA Salt suppliers is key to obtaining quality materials for your work.
Advantages Provided by the Product
Enhanced Peptide Properties
Incorporating Boc-L-3-(3-Thienyl)-alanine DCHA Salt can imbue peptides with novel structural and functional characteristics, important for drug discovery.
Reliable Synthesis
The stable dicyclohexylamine salt form of this amino acid derivative ensures ease of handling and consistency in peptide synthesis.
Research Versatility
As a key intermediate, Boc-L-3-(3-Thienyl)-alanine DCHA Salt supports a wide range of applications in organic synthesis and biochemical research.
Key Applications
Peptide Synthesis
Utilizing Boc-L-3-(3-Thienyl)-alanine DCHA Salt as a building block allows for the creation of peptides with unique side chains, crucial for targeted therapies.
Drug Discovery
This non-natural amino acid plays a role in developing novel drug candidates by providing diverse structural motifs in peptidomimetics.
Organic Synthesis
Boc-L-3-(3-Thienyl)-alanine DCHA Salt serves as a valuable intermediate in complex organic transformations, supporting chemical innovation.
Biochemical Research
Researchers rely on high-quality reagents like Boc-L-3-(3-Thienyl)-alanine DCHA Salt for accurate and reproducible experimental outcomes.