Daclatasvir Intermediate: Key to HCV Antiviral Breakthroughs
Unlock advanced pharmaceutical synthesis with this critical building block for Hepatitis C treatment.
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Pyrrolidinecarboxylic acid, biphenyldiylbis-imidazole-diyl-bis-pyrrolidinecarboxylate ester
This high-purity chemical, known as a key Daclatasvir intermediate, is essential for the development of advanced antiviral therapies targeting Hepatitis C. Its precise molecular structure and quality are paramount for successful drug synthesis.
- Facilitating HCV treatment: This compound serves as a crucial building block in the synthesis of Daclatasvir, an effective antiviral agent for Hepatitis C.
- Enabling pharmaceutical research: Essential for drug discovery and development, it supports R&D efforts in creating novel treatments.
- Ensuring high purity: With a purity of 99%, it meets the stringent requirements for pharmaceutical applications, minimizing impurities in the final drug product.
- Supporting drug synthesis: Its well-defined chemical properties and structure make it a reliable component in complex organic synthesis pathways.
Key Advantages
Critical for Antiviral Drug Development
As a primary Daclatasvir intermediate, this compound plays a pivotal role in the fight against Hepatitis C, contributing directly to the production of life-saving medications.
Precision in Pharmaceutical Synthesis
The high purity and specific stereochemistry (2S,2'S) ensure that it integrates seamlessly into complex organic synthesis, a vital aspect of creating effective pharmaceutical agents.
Advancing Chemical Research
This advanced chemical intermediate is invaluable for researchers engaged in drug discovery, offering a reliable starting point for exploring new therapeutic avenues.
Key Applications
Hepatitis C Treatment
The primary application is as a vital intermediate in the synthesis of Daclatasvir, a leading drug for treating Hepatitis C virus infection.
Pharmaceutical R&D
It is extensively used in research and development laboratories for creating and testing new drug candidates and improving synthesis routes.
Antiviral Drug Discovery
Its chemical structure makes it a significant component for exploring new antiviral agents beyond Hepatitis C, contributing to broader infectious disease research.
Organic Synthesis Projects
As a complex organic molecule, it is a valuable compound for advanced organic synthesis projects, offering opportunities for chemical innovation.