Fmoc-Ser(HPO3Bzl)-OH: Your Advanced Peptide Synthesis Partner
Unlock the potential of complex peptide sequences with this essential Fmoc-protected building block.
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Fmoc-Ser(HPO3Bzl)-OH
Fmoc-Ser(HPO3Bzl)-OH, also known as N-Fmoc-O-(benzylphospho)-L-serine, is a critical Fmoc-protected amino acid derivative that plays a vital role in modern solid-phase peptide synthesis (SPPS). Its unique structure, incorporating a benzylphosphoryl group, allows for the introduction of phosphorylated serine residues into peptide chains. This capability is essential for synthesizing peptides with specific biological activities, as phosphorylation is a key post-translational modification involved in numerous cellular processes.
- Discover the utility of Fmoc-Ser(HPO3Bzl)-OH for creating intricate peptide structures in your research.
- Explore why buy Fmoc-Ser(HPO3Bzl)-OH is a crucial step for researchers focusing on peptide-based therapeutics.
- Learn how CAS 158171-14-3 applications extend to creating peptides with enhanced stability and specific binding properties.
- Partner with a trusted Fmoc-Ser(HPO3Bzl)-OH supplier to ensure the quality and consistency of your synthetic peptides.
Key Advantages
Enhanced Peptide Functionality
Utilize Fmoc-Ser(HPO3Bzl)-OH to introduce controlled phosphorylation into peptides, mimicking natural biological modifications and potentially enhancing their therapeutic efficacy.
Streamlined Synthesis Process
The Fmoc protection strategy with this building block ensures efficient and selective peptide chain elongation, a cornerstone for successful Fmoc-amino acid derivatives in complex peptide synthesis.
Research Versatility
Whether for drug discovery, biochemical research, or materials science, the applications of N-Fmoc-O-(benzylphospho)-L-serine are diverse, making it a valuable asset for any laboratory.
Key Applications
Solid-Phase Peptide Synthesis (SPPS)
Fmoc-Ser(HPO3Bzl)-OH is a fundamental component in SPPS, enabling the sequential addition of amino acids to a solid support to build complex peptide sequences.
Drug Discovery & Development
Its role in creating phosphorylated peptides makes it invaluable for developing novel peptide-based therapeutics targeting specific disease pathways.
Biochemical & Pharmaceutical Research
Researchers leverage this compound to study protein phosphorylation mechanisms and develop new diagnostic tools or research reagents.
Custom Peptide Synthesis
As a high-quality building block, it is essential for custom peptide synthesis services, allowing for the precise creation of peptides with specific modifications.