Discover the Chemical Synthesis and Applications of 3-(2-Chloro-6-fluorophenyl)-5-methylisoxazole-4-carbonyl chloride
An in-depth look at a key intermediate for pharmaceuticals and its role in advanced chemical research.
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3-(2-Chloro-6-fluorophenyl)-5-methylisoxazole-4-carbonyl chloride
This compound is a critical chemical intermediate, playing a vital role in the synthesis of advanced pharmaceutical compounds, most notably Ceftaroline. Its chemical structure and reactivity make it invaluable in medicinal chemistry for developing novel therapeutic agents.
- Explore the 3-(2-Chloro-6-fluorophenyl)-5-methylisoxazole-4-carbonyl chloride synthesis pathways to understand its production. This section details various preparation methods, ensuring high purity and yield for its intended applications.
- Investigate the anticancer properties of isoxazole derivatives, including this compound, which show promise in inhibiting cancer cell proliferation and inducing apoptosis.
- Learn about the neuroprotective effects of chemical compounds like this isoxazole derivative, which can protect neuronal cells from damage and may be key in treating neurodegenerative diseases.
- Understand its applications in medicinal chemistry, where its unique structure is leveraged for the development of drugs with targeted biological activities.
Key Advantages Offered
High Purity and Certification
Achieve reliable results with a compound boasting 99.5% MIN assay and GMP SGS certification, meeting USP BP EP FCC standards. This ensures the quality needed for pharmaceutical development.
Versatile Intermediate
Serve as a key building block in pharmaceutical synthesis, enabling the creation of complex molecules like Ceftaroline and contributing to advancements in targeted therapies.
Promising Biological Activity
Benefit from its potential in anticancer research and neuroprotection, offering avenues for developing treatments for serious diseases through its unique chemical properties.
Key Applications
Pharmaceutical Synthesis
Act as a crucial intermediate in the synthesis of APIs, significantly contributing to the development of new drugs and treatment modalities.
Medicinal Chemistry Research
A valuable tool for medicinal chemistry applications of isoxazoles, allowing researchers to explore structure-activity relationships and design novel compounds with therapeutic potential.
Anticancer Drug Development
Its potential anticancer activity makes it a subject of study for new treatments, contributing to the ongoing fight against various forms of cancer.
Neuroscience Research
Investigate its neuroprotective effects to understand mechanisms behind neurodegenerative diseases and to discover potential therapeutic interventions.
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