(S)-Tert-Butyl 3-Oxo-1-Phenylpropylcarbamate: A Crucial Pharmaceutical Intermediate
Unlock the potential of CCR5 receptor modulation with our high-purity chemical intermediate.
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(S)-Tert-Butyl 3-Oxo-1-Phenylpropylcarbamate
As a vital pharmaceutical intermediate, (S)-Tert-Butyl 3-Oxo-1-Phenylpropylcarbamate (CAS: 135865-78-0) is indispensable in the synthesis of advanced spirotropane compounds. These compounds are at the forefront of developing novel therapeutics targeting CCR5 chemokine receptors, which play a critical role in managing diseases such as HIV and certain oncological conditions. Its application as a Maraviroc UK427857 intermediate underscores its significance in the pharmaceutical landscape.
- This key intermediate, N-Boc-(3S)-3-Phenyl-3-Aminopropionaldehyde, facilitates the complex synthesis pathways for innovative drug candidates.
- Leveraging the precise structure of CAS 135865-78-0, researchers can achieve the targeted synthesis of spirotropane compounds, crucial for CCR5 receptor modulation.
- Our commitment to quality ensures the highest purity for (S)-Tert-Butyl 3-Oxo-1-Phenylpropylcarbamate, making it a reliable building block for drug discovery and development.
- The compound's role in Maraviroc synthesis highlights its importance in creating treatments for significant global health challenges.
Key Advantages
Unmatched Purity for Reliable Synthesis
Experience consistent and predictable results in your Maraviroc synthesis or other complex organic chemistry projects by utilizing the high purity of our (S)-Tert-Butyl 3-Oxo-1-Phenylpropylcarbamate.
Enabling Advanced Therapeutic Development
As a critical N-Boc-(3S)-3-Phenyl-3-Aminopropionaldehyde, this intermediate empowers the creation of novel CCR5 chemokine receptor modulators, essential for tackling diseases like HIV.
Streamlined Chemical Synthesis Processes
The well-defined structure of CAS 135865-78-0 simplifies intricate synthesis routes, accelerating the journey from laboratory research to potential therapeutic applications.
Key Applications
Pharmaceutical Synthesis
Serve as a crucial building block for synthesizing active pharmaceutical ingredients (APIs), particularly those targeting complex receptor pathways like CCR5.
Drug Discovery Research
Essential for R&D efforts aimed at discovering new treatments for viral infections, cancers, and inflammatory diseases by modulating CCR5 chemokine receptors.
Chiral Chemistry
Its chiral nature makes it a valuable component in asymmetric synthesis, leading to enantiomerically pure drug candidates.
Intermediate for Spirotropanes
Facilitates the construction of spirotropane scaffolds, which are key structural motifs in many advanced pharmaceutical compounds.