Fmoc-His(Fmoc)-OH: A Cornerstone of Modern Peptide Synthesis
Unlock superior peptide synthesis with our high-purity Fmoc-His(Fmoc)-OH, a key reagent for advanced research.
Get a Quote & SampleProduct Core Value
Fmoc-His(Fmoc)-OH
Fmoc-His(Fmoc)-OH is a critical Fmoc-protected amino acid derivative widely utilized in Solid-Phase Peptide Synthesis (SPPS). Its unique structure and the Fmoc protecting group offer significant advantages for synthesizing complex peptide sequences with high fidelity and yield. This compound is indispensable for researchers aiming to create peptides for therapeutic, diagnostic, or research applications.
- Facilitate efficient solid-phase peptide synthesis using Fmoc-amino acid derivatives for streamlined workflows.
- Achieve high purity peptides with the help of specialized Fmoc-protected histidine for reliable results.
- Benefit from milder reaction conditions with Fmoc chemistry, reducing the risk of side reactions and epimerization.
- Explore advanced peptide chemistry by incorporating Fmoc-His(Fmoc)-OH into your custom peptide synthesis projects.
Key Advantages
Enhanced Synthesis Efficiency
The use of Fmoc-His(Fmoc)-OH in SPPS significantly boosts synthesis efficiency, allowing for the rapid assembly of peptide chains. Researchers can leverage Fmoc-amino acid derivatives for SPPS to accelerate their discovery timelines.
Superior Purity and Yield
Opting for high purity Fmoc amino acids like Fmoc-His(Fmoc)-OH directly translates to superior purity and yield in your final peptide products. This is crucial for applications requiring stringent quality control.
Milder Reaction Conditions
Compared to older protecting group strategies, Fmoc chemistry offers milder conditions, making it ideal for synthesizing sensitive peptides. This approach minimizes the risk of damaging the peptide chain during synthesis.
Key Applications
Peptide Synthesis
As a foundational Fmoc-protected amino acid, Fmoc-His(Fmoc)-OH is integral to both academic and industrial custom peptide synthesis projects.
Amino Acid Protection
Its role in protecting the histidine side chain is vital, preventing unwanted reactions during the multi-step process of peptide assembly.
Biochemistry Research
Researchers utilize Fmoc-His(Fmoc)-OH to create specific peptide sequences for studying protein function, enzyme activity, and developing novel therapeutics.
Chemical Synthesis
This compound is a key building block in various organic synthesis processes requiring protected amino acids, contributing to the development of new molecules.