Fmoc-L-Aspartic Acid Beta-Tert-Butyl Ester: A Foundation for Advanced Peptide Synthesis
Discover the critical role of CAS 71989-14-5 in creating sophisticated peptides and novel pharmaceuticals.
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Fmoc-L-Aspartic Acid Beta-Tert-Butyl Ester
As a high-purity (>99%) white powder, this derivative is indispensable for advanced peptide synthesis. Its Fmoc protection and beta-tert-butyl ester group streamline solid-phase synthesis, ensuring efficiency and quality in the development of complex biomolecules and pharmaceuticals.
- High Purity for Reliable Synthesis: Achieve superior results in peptide synthesis with our Fmoc-L-Aspartic Acid Beta-Tert-Butyl Ester, boasting exceptional purity for consistent outcomes.
- Facilitating Peptide Synthesis: Explore the benefits of using this key building block for creating complex therapeutic peptides and novel drug candidates.
- Enhancing Drug Development: Understand how protected amino acid derivatives like Fmoc-Asp(OtBu)-OH are vital in the intricate process of pharmaceutical research and development.
- Versatile Applications in Biotechnology: Discover its utility beyond basic peptide synthesis, extending into biopharmaceuticals and advanced material science applications.
Key Advantages
Streamlined Synthesis Processes
Leverage the Fmoc protection strategy for efficient and selective amino acid coupling, a cornerstone of modern peptide synthesis.
Enhanced Product Quality
The high purity of Fmoc-L-Aspartic Acid Beta-Tert-Butyl Ester contributes directly to the overall quality and reliability of synthesized peptides, minimizing side reactions.
Broad Applicability in Research
From academic research labs to industrial drug discovery, this compound serves as a versatile reagent for various amino acid derivative applications.
Key Applications
Peptide Synthesis
A fundamental component for building peptide chains, enabling the creation of peptides for research and therapeutic purposes, crucial for peptide synthesis.
Drug Development
Essential in the design and synthesis of novel pharmaceuticals, particularly those targeting specific biological pathways or acting as bioconjugates.
Biotechnology
Used in the production of biopharmaceuticals and therapeutic proteins, where precise amino acid sequences are critical for efficacy and stability.
Material Science
Its unique structure allows for incorporation into novel materials such as hydrogels and advanced drug delivery systems.