(2R,3S)-3-(tert-Butoxycarbonyl)amino-1,2-epoxy-4-phenylbutane CAS 98760-08-8: A Key Intermediate for Antiviral Drug Synthesis
Unlock critical pathways in antiviral drug manufacturing with this high-purity pharmaceutical intermediate.
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(2R,3S)-3-(tert-Butoxycarbonyl)amino-1,2-epoxy-4-phenylbutane
This essential compound serves as a crucial intermediate in the synthesis of Atazanavir sulfate, a vital component in the treatment of HIV-1. Its specific stereochemistry and high purity are paramount for the efficacy and safety of the final antiviral medication.
- High Purity & Stable Supply: As a key pharmaceutical intermediate, it consistently meets stringent purity requirements (≥99%) with a dependable supply chain, ensuring uninterrupted production for critical medications.
- Critical for Antiviral Therapies: Its role in Atazanavir synthesis underscores its importance in developing effective treatments for HIV-1, making it a cornerstone for HIV treatment advancements.
- Precise Chemical Synthesis: The compound's specific chiral structure is vital for successful chemical synthesis, enabling the creation of drugs with targeted therapeutic effects.
- Expertise in Chiral Synthesis: Leveraging advanced techniques in chiral synthesis, manufacturers ensure the correct enantiomeric form, which is essential for pharmaceutical applications.
Key Advantages Provided
Ensured Therapeutic Efficacy
The specific stereochemistry of this API intermediate guarantees the desired biological activity, directly contributing to the effectiveness of antiviral drugs like Atazanavir.
Streamlined Pharmaceutical Manufacturing
With stable supply and high purity, manufacturers can rely on this product for seamless pharmaceutical manufacturing processes, reducing batch variability and production costs.
Foundation for Drug Discovery
As a well-defined building block in organic chemistry, it supports ongoing drug discovery efforts, particularly in the realm of protease inhibitors and other complex therapeutic agents.
Key Applications
Atazanavir Synthesis
Serves as a direct precursor in the multi-step synthesis of Atazanavir, a critical drug for managing HIV infections.
HIV-1 Protease Inhibitor Production
Essential component in the manufacturing of advanced HIV-1 protease inhibitors, contributing to improved patient outcomes.
Antiviral Agent Development
Facilitates the development and production of novel antiviral agents by providing a precisely engineered molecular structure.
Chiral Pharmaceutical Building Blocks
A valuable chiral building block for complex pharmaceutical molecules where specific stereochemistry is paramount for biological activity.