FMOC-D-LYS-OH HCl: Your Premier Peptide Synthesis Building Block
Unlock advanced peptide synthesis with our high-purity FMOC-D-LYS-OH HCl, a cornerstone for pharmaceutical innovation.
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FMOC-D-LYS-OH HCl
FMOC-D-LYS-OH HCl is a critical protected amino acid derivative, essential for the precise construction of complex peptides used in pharmaceuticals and research. Its high purity ensures reliable and efficient synthesis workflows.
- Leverage our high-purity FMOC-D-LYS-OH HCl for reliable peptide synthesis results.
- Explore the capabilities of this D-lysine hydrochloride derivative in your pharmaceutical research.
- Discover the advantages of using quality peptide synthesis reagents for your projects.
- Access the essential FMOC-D-LYS-OH HCl with CAS 201002-47-3 to advance your chemical synthesis needs.
Key Advantages Provided
Uncompromising Purity
Benefit from a minimum purity of 99%, ensuring consistent and predictable outcomes in your peptide synthesis applications, directly impacting the quality of your final products.
Versatile Intermediate
Utilize FMOC-D-LYS-OH HCl as a versatile building block in pharmaceutical intermediates, enabling the creation of a wide range of therapeutic compounds and advanced materials.
Facilitates Complex Structures
This crucial reagent supports the synthesis of intricate peptide chains, aiding in the development of novel drug candidates and biomolecules by providing a reliable D-lysine hydrochloride derivative.
Key Applications
Peptide Synthesis
FMOC-D-LYS-OH HCl is a cornerstone reagent in solid-phase peptide synthesis (SPPS), enabling the step-wise addition of amino acids to build complex peptide chains for therapeutic and research purposes.
Pharmaceutical Intermediates
Serve as a critical intermediate in the manufacturing of active pharmaceutical ingredients (APIs) and other fine chemicals, contributing to the development of new medications.
Biochemical Research
Aid in advanced biochemical research, including protein studies, drug discovery, and the development of diagnostic tools, leveraging its chiral properties and protective groups.
Chemical Synthesis
Function as a key building block in various organic synthesis pathways, particularly for molecules requiring protected amino acid functionalities, offering flexibility in chemical design.