Fmoc-His(Boc)-OH·CHA: A Cornerstone in Advanced Peptide Synthesis
Unlock the potential of sophisticated peptide creation with this vital protected amino acid.
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Fmoc-His(Boc)-OH·CHA
Fmoc-His(Boc)-OH·CHA, identified by CAS number 210820-99-8, is a critical protected amino acid derivative. It plays an indispensable role in the field of solid-phase peptide synthesis (SPPS), serving as a fundamental building block for constructing complex peptide sequences. Its protected nature ensures precise control during synthesis, leading to high-quality peptide products essential for drug discovery and advanced biochemical research.
- This essential Fmoc amino acid derivative is crucial for advancing solid-phase peptide synthesis protocols, enabling the construction of intricate peptide chains.
- Explore the utility of CAS 210820-99-8 amino acid derivative in various drug discovery pipelines, contributing to the development of novel therapeutics.
- Leverage high purity histidine derivative for reliable and reproducible results in your peptide synthesis experiments, ensuring the integrity of your research.
- Discover the application of Fmoc amino acid synthesis techniques for creating custom peptides, tailored to specific scientific needs.
Advantages Provided by the Product
Enhanced Synthesis Control
The specific protecting groups, Fmoc and Boc, on this histidine derivative allow for orthogonal deprotection strategies, fundamental to successful Fmoc chemistry applications in peptide assembly.
Critical for SPPS
As a vital component in solid-phase peptide synthesis, this amino acid derivative is instrumental in building peptides efficiently and accurately, supporting complex scientific endeavors.
Quality Assurance
High purity standards of this histidine derivative ensure minimal side reactions and impurities, directly impacting the yield and quality of the synthesized peptides for amino acid building blocks for drug discovery.
Key Applications
Peptide Synthesis
Crucial for the step-by-step assembly of peptide chains using solid-phase techniques, this derivative is a staple for researchers in biochemistry and medicinal chemistry.
Drug Discovery
Serves as a key intermediate in the synthesis of peptide-based drug candidates, contributing to the development of new pharmaceutical agents.
Biochemical Research
Utilized in various research settings to study protein structure, function, and interactions, facilitating advancements in biological sciences.
Custom Peptide Synthesis
Enables the creation of tailor-made peptides for specific experimental requirements, supporting a wide range of scientific investigations.