High-Purity Fmoc-Glycine (CAS 29022-11-5): Your Essential Building Block for Peptide Synthesis and Pharmaceutical Innovation
Unlock advanced research and development with a premium amino acid derivative, essential for cutting-edge applications.
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Fmoc-Glycine
Fmoc-Glycine (CAS 29022-11-5) stands as a critical N-protected amino acid derivative, distinguished by its high purity and essential role in sophisticated chemical processes. Its white powder form and established chemical formula (C17H15NO4) make it a reliable component for advanced applications, particularly within the pharmaceutical and biochemical sectors.
- Discover the key applications of Fmoc-Glycine in drug discovery, where its unique properties facilitate the creation of novel therapeutic agents.
- Leverage high purity Fmoc-Glycine synthesis for consistent and reproducible results in complex organic reactions.
- Secure reliable Fmoc-Glycine suppliers to ensure a steady supply of this vital pharmaceutical intermediate for your ongoing projects.
- Understand the importance of Fmoc-Glycine purity standards, ensuring optimal performance in sensitive research and manufacturing.
Advantages Provided by the Product
Unmatched Purity for Precision Synthesis
Achieve exceptional accuracy in your peptide synthesis with Fmoc-Glycine that adheres to stringent purity standards, minimizing unwanted side reactions.
Versatile Building Block
As a fundamental amino acid derivative, Fmoc-Glycine serves as a versatile building block for a wide array of complex peptides, essential for various scientific and industrial applications.
Catalyst for Pharmaceutical Innovation
Fmoc-Glycine is instrumental in drug discovery and development, enabling the design and synthesis of peptide-based drugs and other novel therapeutic molecules.
Key Applications
Peptide Synthesis
Fmoc-Glycine is a cornerstone reagent in the solid-phase peptide synthesis (SPPS) methodology, facilitating the controlled assembly of peptide chains for research and therapeutic development.
Pharmaceutical Development
Utilized as a key pharmaceutical intermediate, Fmoc-Glycine contributes to the creation of peptide-based drugs, enhancing stability, bioavailability, and specificity for improved therapeutic outcomes.
Biochemical Research
In biochemical research, Fmoc-Glycine serves as a valuable tool for studying protein structures, interactions, and developing novel therapeutic agents, often labeled for in-vivo or in-vitro analysis.
Organic Synthesis
Its well-defined chemical properties and protective group make Fmoc-Glycine a dependable reagent in various organic synthesis pathways, supporting the creation of complex organic molecules.