2-Amino-N-isopropylbenzenesulfonamide: A Versatile Chemical Compound for Research and Development
Explore the synthesis, applications, and pharmaceutical significance of this key chemical intermediate.
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2-Amino-N-isopropylbenzenesulfonamide
This compound is a crucial building block in medicinal chemistry, recognized for its potential applications in drug discovery and development. Its structure allows for diverse chemical modifications, making it valuable for creating novel therapeutic agents.
- Leverage 2-amino-N-isopropylbenzenesulfonamide synthesis pathways for novel drug candidates.
- Investigate the CDK2 inhibitor mechanism to understand its role in cancer therapy.
- Explore DPP IV inhibitors research for potential type 2 diabetes mellitus treatments.
- Discover the benefits of hydrochloride salt forms for improved solubility and pharmaceutical formulation.
Advantages Offered
Versatile Intermediate
As a key component in medicinal chemistry, its structural versatility supports a broad range of modifications essential for drug discovery and the development of specific enzyme inhibitors.
Pharmaceutical Potential
The compound's role in understanding CDK2 inhibitor mechanisms and DPP IV inhibitors research highlights its significance in developing treatments for conditions like cancer and diabetes.
Enhanced Formulation
The hydrochloride salt form offers improved solubility and stability, crucial factors for successful pharmaceutical development and better bioavailability, contributing to effective medicinal chemistry research.
Key Applications
Medicinal Chemistry
Serves as a vital intermediate for synthesizing potential drug candidates and exploring novel therapeutic targets, contributing to advancements in drug discovery.
Drug Discovery
Its use in studying enzyme inhibition, such as for CDK2 and DPP IV, aids in identifying new treatment strategies for diseases like cancer and diabetes.
Chemical Synthesis
The compound's reactivity makes it a valuable reagent for various organic synthesis reactions, enabling the creation of complex molecular structures.
Pharmaceutical Research
The improved properties of its hydrochloride salt form are essential for in-depth research into its pharmacokinetic and pharmacodynamic profiles.