Diallyl N,N-Diisopropylphosphoramidite: A Versatile Phosphorylating Reagent in Chemical Synthesis
Unlock advanced synthesis with our high-purity phosphorylating agent, crucial for drug discovery and chemical biology.
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Diallyl N,N-Diisopropylphosphoramidite
This specialized organophosphorus compound is a highly effective phosphorylating reagent, essential for intricate molecular constructions in modern synthetic chemistry. Its strategic design facilitates precise phosphorus introduction, making it indispensable for developing pharmacologically active molecules and tools for chemical biology research.
- Explore the detailed applications in the nucleoside phosphoramidite preparation, a cornerstone of modern biotechnology.
- Discover its role in the antifungal prodrug synthesis, offering a path to improved therapeutic agents.
- Learn how this reagent aids in the synthesis of selective S1P1 agonist compounds for immunomodulatory treatments.
- Understand its utility in the preparation of antitumor agent analogs, contributing to cancer research and treatment development.
Key Advantages
High Reactivity and Selectivity
Leverage the unique chemical properties of this compound for efficient phosphorylating reagent for alcohols reactions, ensuring high yields and targeted modifications.
Broad Application Spectrum
This reagent is critical for various fields, from pharmaceutical development to advanced material science, enabling breakthroughs in chemical biology.
Enabling Complex Molecule Synthesis
Facilitates the creation of complex biological molecules, including those vital for oligonucleotide synthesis and advanced research.
Key Applications
Pharmaceutical Synthesis
Essential for the creation of prodrugs, receptor agonists, and antitumor agents, contributing significantly to medicinal chemistry and drug discovery.
Chemical Biology Research
Used in the development of peptide substrates and fluorescent probes, aiding in the study of biological pathways and molecular mechanisms.
Nucleic Acid Chemistry
Plays a vital role in the synthesis of oligonucleotides, which are foundational for genetic research, diagnostics, and therapeutics.
Bioconjugation
Enables the precise modification of biomolecules through phosphorylation, crucial for understanding protein function and developing targeted therapies.