Fmoc-D-Cys(Phacm): A Crucial Intermediate for Advanced Peptide Synthesis and Pharmaceutical Development
Unlock the potential of complex peptide synthesis with this high-purity, specialized pharmaceutical intermediate.
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Fmoc-D-Cys(Phacm)
Fmoc-D-Cys(Phacm) is a vital pharmaceutical intermediate, recognized for its critical role in the sophisticated field of peptide synthesis. With a precise molecular formula of C27H26N2O5S and identified by CAS number 1565818-55-4, this compound is instrumental in crafting advanced therapeutic agents.
- Unlock complex peptide synthesis with Fmoc-D-Cys(Phacm) as a key building block, enabling precise amino acid sequencing.
- Discover the distinct chemical properties of N-[(9H-Fluoren-9-ylmethoxy)carbonyl]-S-{[(phenylacetyl)amino]methyl}-D-cysteine, a derivative of D-cysteine with enhanced stability.
- Ensure project success with high purity Fmoc-D-Cys(Phacm) supplied for demanding pharmaceutical applications.
- Leverage this white crystalline powder pharmaceutical intermediate to advance your drug development pipeline.
Key Advantages
Exceptional Purity
Achieve reliable and reproducible results in your synthesis with a product boasting purity of ≥98%, a hallmark of quality for any peptide synthesis building block.
Enhanced Stability and Reactivity
Benefit from the unique structural elements that provide superior stability and controlled reactivity, crucial for the synthesis of complex peptides.
Versatile Application in Drug Development
Utilize this compound as an indispensable tool in Fmoc-D-Cys(Phacm) in drug development, supporting the creation of novel peptide-based therapeutics.
Key Applications
Pharmaceutical Intermediates
As a critical component, it serves as a foundational element for numerous active pharmaceutical ingredients, directly impacting the efficacy of final drug products.
Peptide Synthesis
This amino acid derivative is essential for creating specific peptide sequences, playing a significant role in research and development for peptide-based drugs.
Drug Development
Its unique properties make it a preferred choice in the complex processes of drug discovery and development, particularly for novel therapeutic agents.
Chemical Synthesis
Beyond pharmaceuticals, it finds utility in various organic synthesis pathways, showcasing its broad applicability as a versatile chemical building block.