Fmoc-Orn(Z)-OH: Synthesis, Applications, and Sourcing of a Key Peptide Building Block
Discover the essential Fmoc-Orn(Z)-OH, a vital component for advanced peptide synthesis and life science research.
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Fmoc-Orn(Z)-OH
Fmoc-Orn(Z)-OH is a critical Fmoc-protected amino acid derivative widely utilized in solid-phase peptide synthesis (SPPS) and solution-phase peptide synthesis. Its unique structure makes it invaluable for incorporating ornithine residues with specific protection strategies into peptide chains, facilitating the creation of complex biomolecules.
- Explore the synthesis of Fmoc-Orn(Z)-OH to ensure high purity for your peptide research.
- Investigate Fmoc-Orn(Z)-OH applications in creating novel peptide therapeutics and cosmetic peptides.
- Find reliable Fmoc-Orn(Z)-OH suppliers to secure consistent quality for your manufacturing needs.
- Understand the pricing structure for Fmoc-Orn(Z)-OH to budget effectively for your projects.
Key Advantages
Enhanced Peptide Synthesis
Leveraging Fmoc-Orn(Z)-OH in your synthesis streamlines the incorporation of ornithine, a crucial amino acid in many biologically active peptides, thereby enhancing the efficiency of peptide synthesis.
Antifungal Evaluation Potential
The compound's utility extends to antifungal evaluation, as it serves as a key intermediate in synthesizing cyclic aminohexapeptides and other derivatives with potential therapeutic benefits.
Reliable Chemical Properties
With its white solid appearance and stable chemical characteristics, Fmoc-Orn(Z)-OH offers predictable performance in various chemical reactions, supporting reproducible research outcomes.
Key Applications
Peptide Synthesis
As a protected amino acid, Fmoc-Orn(Z)-OH is a cornerstone in constructing complex peptide sequences for research and pharmaceutical development, making peptide synthesis more manageable.
Pharmaceutical Intermediates
Its role as a pharmaceutical intermediate is vital for the development of new drug candidates, particularly those involving ornithine-containing peptides with diverse biological activities.
Life Science Research
In life sciences, Fmoc-Orn(Z)-OH supports research into protein structure, function, and the development of novel biomaterials, aiding scientific discovery.
Organic Synthesis
Beyond peptides, it can be employed in various organic synthesis pathways, offering versatility for chemists working on complex molecular architectures.
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