Unlock the Potential: Advanced (2R)-2-Deoxy-2-Fluoro-2-Methyl-D-Erythropentonic Acid y-Lactone 3,5-Dibenzoate in Pharmaceutical Synthesis
Discover a key intermediate for groundbreaking antiviral therapies.
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(2R)-2-Deoxy-2-Fluoro-2-Methyl-D-Erythropentonic Acid y-Lactone 3,5-Dibenzoate
This high-purity chemical intermediate plays a vital role in the development of advanced antiviral treatments, specifically targeting Hepatitis C. Its unique fluorinated sugar derivative structure makes it an essential building block for novel pharmaceutical synthesis.
- Explore the role of this chemical intermediate in pharmaceutical synthesis of antiviral drugs. Learn how this compound serves as a critical building block for next-generation Hepatitis C therapies.
- Understand the properties of a key Hepatitis C polymerase inhibitor. Delve into the specific characteristics that make this molecule effective in antiviral drug development.
- Source high purity chemical intermediates for your research. We offer compounds with exceptional assay percentages, ensuring reliability in your scientific endeavors.
- Discover the benefits of fluorinated sugar derivatives in medicinal chemistry. Investigate how incorporating fluorine can enhance the efficacy and pharmacokinetic profiles of drug candidates.
Key Advantages
Exceptional Purity
With an assay of 98.5% Min, this compound guarantees the quality and reliability needed for critical pharmaceutical synthesis, a crucial factor when dealing with antiviral drug intermediates.
Therapeutic Application
Its function as a Hepatitis C polymerase inhibitor or intermediate is paramount, making it a valuable component in the fight against viral infections.
Advanced Synthesis Building Block
As a fluorinated sugar derivative, it offers unique chemical properties beneficial for creating novel drug molecules, streamlining complex pharmaceutical synthesis processes.
Key Applications
Antiviral Drug Development
This chemical intermediate is instrumental in the research and development of new treatments for viral diseases, particularly Hepatitis C, serving as a direct Hepatitis C polymerase inhibitor or key precursor.
Pharmaceutical Synthesis
Its high purity and specific chemical structure make it an indispensable raw material for complex pharmaceutical synthesis, enabling the creation of advanced drug compounds.
Medicinal Chemistry Research
Researchers leverage its properties as a fluorinated sugar derivative for exploring novel therapeutic agents and understanding their interactions within biological systems.
Specialty Chemical Supply
As a reliable source of high purity chemical intermediates, it supports the diverse needs of the pharmaceutical and chemical research sectors.