Unlocking Antiviral Potential: The Role of (2'R)-2'-Deoxy-2'-fluoro-2'-methyluridine
Discover the critical intermediate driving advancements in Hepatitis C virus research and treatment.
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(2'R)-2'-Deoxy-2'-fluoro-2'-methyluridine
This compound is a pivotal deaminated metabolite of beta-D-2'-Deoxy-2'-fluoro-2'-C-methylcytidine. Its primary significance lies in its role as a crucial intermediate in the synthesis of Sofosbuvir, a groundbreaking antiviral medication. With a high purity standard of not less than 98.0%, it is essential for reliable drug development processes.
- Understanding the 2'-deoxy-2'-fluoro-2'-methyluridine antiviral intermediate is key to developing next-generation therapies.
- This compound acts as a vital HCV replication inhibitor metabolite, aiding in the study of viral mechanisms.
- Its application as a Sofosbuvir synthesis intermediate highlights its importance in the pharmaceutical supply chain.
- Researchers leverage its properties as a nucleoside analog for antiviral research, exploring new treatment avenues.
Key Advantages
High Purity and Quality
With a purity of ≥98.0%, this compound ensures reliable results in stringent pharmaceutical applications, crucial for accurate Sofosbuvir synthesis intermediate validation.
Crucial for Antiviral Drug Synthesis
As a key building block for Sofosbuvir, it directly contributes to the development of treatments targeting viral diseases, underscoring its value in the drug discovery and development of antivirals.
Inhibitory Properties
Its role as a HCV replication inhibitor metabolite provides valuable insights into viral inhibition mechanisms, supporting further research in Hepatitis C Virus (HCV) Therapeutics Research.
Key Applications
Antiviral Drug Synthesis
Essential intermediate in the production of powerful antiviral medications, directly supporting the advancement of Sofosbuvir synthesis pathways.
Pharmaceutical Research
Used extensively in research laboratories for studies on viral replication and inhibition, contributing to the field of Antiviral Nucleoside Analogs Synthesis.
Metabolite Studies
Its nature as a metabolite makes it invaluable for understanding drug metabolism and pharmacokinetics, vital for Metabolite Studies in Drug Development.
Chemical Synthesis
Serves as a versatile building block in complex organic synthesis for novel therapeutic agents, fitting into the broader context of Pharmaceutical Intermediate Manufacturing.
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