Boc-D-Val-OH: Your Essential Protected Amino Acid for Advanced Peptide Synthesis and Drug Discovery
Unlock precision in your research with N-Boc-D-valine, a cornerstone for peptide synthesis and pharmaceutical innovation.
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Boc-D-Val-OH
Boc-D-Val-OH, scientifically known as N-Boc-D-valine, is a pivotal amino acid derivative integral to sophisticated peptide synthesis and cutting-edge pharmaceutical research. Its strategically incorporated N-terminal Boc (tert-butyloxycarbonyl) protecting group is paramount in bolstering the stability and solubility of peptide chains throughout the intricate synthesis process. This characteristic makes it a highly favored building block among medicinal chemists aiming for high purity and yield in their creations.
- The Boc-D-Val-OH peptide synthesis process is streamlined by this compound's protective group, ensuring accuracy in chain elongation.
- Leveraging N-Boc-D-valine pharmaceutical research, scientists can develop novel therapeutic agents with enhanced efficacy.
- As a key component for protected amino acid drug discovery, it facilitates the creation of complex molecules for targeted therapies.
- Exploring the Boc-D-Val-OH synthesis cost allows for efficient budgeting in large-scale research projects.
Advantages Offered by the Product
Enhanced Peptide Purity
The use of Boc-D-Val-OH in peptide synthesis directly contributes to achieving higher purity levels, crucial for reliable research outcomes.
Streamlined Synthesis
The protective Boc group of N-Boc-D-valine simplifies complex synthesis protocols, leading to more efficient and cost-effective drug discovery processes.
Versatile Application Potential
As a critical element in protected amino acid drug discovery, Boc-D-Val-OH is vital for developing a wide array of bioactive compounds and potential therapeutics.
Key Applications
Peptide Synthesis
Boc-D-Val-OH is a fundamental reagent for solid-phase and solution-phase peptide synthesis, enabling the construction of peptide chains with precision.
Pharmaceutical Development
Its role as a pharmaceutical intermediate is critical in the creation of new drug candidates, particularly those targeting metabolic disorders or requiring specific peptide structures.
Biotechnology
In biotechnology, Boc-D-Val-OH contributes to the production of modified proteins and enzymes, enhancing their stability and functional activity.
Drug Design
Researchers utilize Boc-D-Val-OH in drug design studies to develop novel therapeutic agents, especially in areas like targeted cancer therapy and regenerative medicine.