1-Benzylpiperidin-4-One Oxime: A Key Intermediate in Pharmaceutical Synthesis
Exploring the synthesis, properties, and crucial roles of this versatile compound in modern drug discovery.
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1-Benzylpiperidin-4-one Oxime
This compound is a significant player in the realm of medicinal chemistry, serving as a fundamental building block for the creation of a wide array of biologically active molecules. Its unique structure allows for extensive modification, making it invaluable in the development of novel therapeutic agents.
- This compound is recognized as a key molecule in the synthesis of biologically active compounds, aiding in drug discovery efforts.
- Researchers leverage its properties for the development of potential therapeutic agents targeting specific diseases, contributing to advancements in medicinal chemistry.
- The molecule's versatility as a building block supports the creation of compound libraries for screening in drug development programs, accelerating research in anticancer agents.
- Its potential as an antimitotic or anticancer agent makes it a subject of interest for developing new treatments for various diseases.
Key Advantages
Versatile Synthetic Precursor
Unlock the potential of pharmaceutical intermediates synthesis with this versatile compound, enabling the creation of complex molecules with ease.
Anticancer Research Applications
Dive into anticancer drug discovery by utilizing this compound, known for its potential antimitotic properties and role in developing novel cancer therapies.
Enabling Medicinal Chemistry
As a crucial component in medicinal chemistry building blocks, it empowers researchers to explore new frontiers in designing effective pharmaceuticals.
Key Applications
Drug Discovery and Development
A cornerstone in pharmaceutical intermediates synthesis, this oxime is vital for creating novel drug candidates and advancing therapeutic research.
Medicinal Chemistry Research
Its utility as one of the key medicinal chemistry building blocks allows for detailed structural modifications and exploration of new pharmacological activities.
Anticancer Agent Development
The compound's noted potential in anticancer drug discovery makes it a prime candidate for developing treatments against various forms of cancer.
Coordination Chemistry and Catalysis
Explore its function as a ligand, facilitating advancements in catalysis and the development of new chemical processes.