High-Purity Boc-Orn(Z)-OH: Synthesis, Properties, and Applications in Peptide Chemistry
Discover the essential role of Boc-Orn(Z)-OH in advancing peptide synthesis. Explore its chemical characteristics and applications for your research needs.
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Boc-Orn(Z)-OH
As a leading supplier in China, we offer high-quality Boc-Orn(Z)-OH, a vital protected amino acid derivative. Its chemical formula, C18H26N2O6, and molecular weight of 366.4 g/mol underscore its precise nature. This compound serves as a fundamental building block, particularly for the introduction of ornithine residues in Boc solid-phase peptide synthesis (SPPS). Our commitment as a reliable manufacturer in China ensures the integrity and purity required for sophisticated chemical applications.
- Leverage Boc-Orn(Z)-OH for efficient peptide synthesis, a key component for creating complex peptide chains in your research endeavors.
- Explore the versatility of Boc-Orn(Z)-OH as a standard building block, enabling precise incorporation of ornithine into peptide structures.
- Benefit from the reliable supply of Boc-Orn(Z)-OH from our China-based facility, ensuring consistent quality for your manufacturing processes.
- Utilize our high-purity Boc-Orn(Z)-OH for advanced research, supporting breakthroughs in pharmaceutical and biochemical fields.
Advantages Offered by Boc-Orn(Z)-OH
Exceptional Purity for Reliable Results
Our Boc-Orn(Z)-OH exhibits high purity, often exceeding 98% by TLC and 99.0% by HPLC, ensuring reliable and reproducible outcomes in your peptide synthesis projects.
Versatile Building Block for Peptide Design
This derivative is instrumental in constructing complex peptide sequences, allowing researchers to tailor molecular properties for specific applications.
Consistent Quality from a Trusted Manufacturer
As a dedicated manufacturer, we guarantee batch-to-batch consistency, providing you with a dependable source for your research and production needs.
Key Applications
Peptide Synthesis
Boc-Orn(Z)-OH is a cornerstone in peptide synthesis, particularly in solid-phase peptide synthesis (SPPS) for introducing ornithine residues with protected amine groups.
Chemical Research
Researchers utilize this compound in various chemical synthesis pathways for creating novel molecules and exploring structure-activity relationships.
Pharmaceutical Development
It plays a role in the development of peptide-based therapeutics, contributing to the creation of targeted and effective drug candidates.
Biochemical Studies
The compound is valuable in biochemical studies investigating protein-peptide interactions and enzyme mechanisms.