Ethyl 7-chloro-2-oxoheptanoate: A Key Pharmaceutical Intermediate for Antibacterial Synthesis
Unlock potent antibacterial treatments with this essential building block for Cilastatin production.
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Ethyl 7-chloro-2-oxoheptanoate
This compound is a crucial intermediate in the synthesis of Cilastatin, a dehydropeptidase inhibitor vital for enhancing the effectiveness and reducing the nephrotoxicity of Imipenem, a broad-spectrum antibiotic. Its reliable synthesis ensures the availability of critical antibacterial therapies.
- Discover the synthesis of cilastatin intermediate with high purity and efficiency.
- Explore the key properties of ethyl 7-chloro-2-oxoheptanoate, essential for pharmaceutical applications.
- Learn about the process for cilastatin sodium synthesis, reliant on this intermediate.
- Find out where to buy ethyl 7-chloro-2-oxoheptanoate for your pharmaceutical research and production needs.
Advantages Offered
Enhanced Antibacterial Efficacy
By facilitating the synthesis of Cilastatin, this intermediate directly contributes to more effective bacterial infection treatments, supporting the work related to antibacterial drug manufacturing.
Reliable Pharmaceutical Synthesis
Its consistent quality and high purity (typically >98.0%) make it a dependable component in complex pharmaceutical synthesis pathways, ensuring the integrity of the final drug product.
Versatile Chemical Intermediate
Beyond Cilastatin, it serves as a valuable building block for other pharmaceutical compounds, including selective BCL-XL inhibitors used in cancer treatment research, highlighting its role in pharmaceutical chemistry building blocks.
Key Applications
Cilastatin Synthesis
The primary application is as a direct precursor in the multi-step synthesis of Cilastatin, a critical component for combination antibiotics.
Pharmaceutical Intermediates
Serves as a foundational chemical intermediate for the development of various new drugs and active pharmaceutical ingredients (APIs).
Organic Synthesis
A versatile reagent in organic chemistry, enabling complex molecular constructions for research and development in fine chemicals.
Cancer Treatment Research
Used in the synthesis of specialized compounds like selective BCL-XL inhibitors, contributing to advancements in cancer therapy research.