1-Benzofuran-5-amine: A Key Intermediate for Pharmaceutical Synthesis and Antitumor Agents
Discover the synthesis, properties, and critical applications of 1-Benzofuran-5-amine in advancing pharmaceutical research and drug development.
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1-Benzofuran-5-amine
1-Benzofuran-5-amine serves as a crucial building block in organic chemistry, particularly for the synthesis of complex pharmaceutical compounds. Its unique structure facilitates the creation of molecules with targeted biological activities, most notably in the development of potential antitumor agents.
- Exploring the synthesis of substituted pyrimidines using 1-benzofuran-5-amine as a key reagent for multi-targeted receptor tyrosine kinase and microtubule inhibitors is a significant area of research.
- Understanding the chemical properties of 1-benzofuran-5-amine, including its boiling point and density, is essential for optimizing synthesis protocols.
- The CAS number 58546-89-7 is associated with this vital compound, highlighting its recognition within the scientific community for its diverse uses in pharmaceutical intermediates.
- Research into benzofuran derivatives synthesis continues to unveil novel applications for compounds like 1-Benzofuran-5-amine in medicinal chemistry.
Product Advantages
Versatile Pharmaceutical Intermediate
This compound is indispensable for synthesizing a wide array of pharmaceutical intermediates, supporting advancements in drug discovery and development, particularly in creating potent antitumor agent synthesis pathways.
Enhances Drug Efficacy
By acting as a key component in the construction of targeted molecules, it enhances the potential efficacy of new drug candidates, especially those aimed at combating complex diseases like cancer, leveraging its role in heterocyclic chemistry applications.
Enables Advanced Organic Synthesis
The compound's reactivity and structural features make it ideal for sophisticated organic synthesis, offering researchers reliable methods for producing complex molecular architectures crucial for drug discovery building blocks.
Key Applications
Pharmaceutical Synthesis
Crucial for the creation of advanced pharmaceutical intermediates, aiding in the development of novel therapeutic agents through precise organic synthesis techniques.
Antitumor Agent Research
Used as a key reagent in synthesizing compounds that exhibit potential antitumor activity, contributing to the ongoing fight against various forms of cancer.
Chemical Reagent
A fundamental organic reagent utilized in various chemical reactions, enabling the synthesis of diverse organic compounds with potential applications in multiple scientific fields.
Medicinal Chemistry Studies
Serves as a vital component in medicinal chemistry research, allowing for the exploration and development of new drug candidates by modifying existing scaffolds and creating novel molecular structures.