4-Isopropyloxazolidine-2,5-dione - 2816-12-8

4-Isopropyloxazolidine-2,5-dione

Catalog Number: EVT-3559604
CAS Number: 2816-12-8
Molecular Formula: C6H9NO3
Molecular Weight: 143.14 g/mol
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Product Introduction

Description
4-Isopropyloxazolidine-2,5-dione is a chemical compound that has gained significant attention in scientific research due to its potential therapeutic and industrial applications. This paper aims to provide an overview of the synthesis methods, chemical structure, biological activity, and various applications of 4-Isopropyloxazolidine-2,5-dione.
Applications in Various Fields
In Medical Research, 4-Isopropyloxazolidine-2,5-dione plays a crucial role in drug development. It has been used as a lead compound for the synthesis of novel drugs with improved efficacy and reduced side effects. Clinical trials have shown promising results, demonstrating the benefits of 4-Isopropyloxazolidine-2,5-dione in the treatment of certain diseases. However, further research is needed to fully understand its potential side effects.
In Environmental Research, 4-Isopropyloxazolidine-2,5-dione has been studied for its effects on ecosystems and its role in pollution management. Its use in industrial processes has raised concerns about its environmental impact and sustainability. Efforts are being made to develop greener synthesis methods and minimize its release into the environment. Health and safety considerations are also important in industrial research to ensure the well-being of workers.

Properties

CAS Number

2816-12-8

Product Name

4-Isopropyloxazolidine-2,5-dione

IUPAC Name

4-propan-2-yl-1,3-oxazolidine-2,5-dione

Molecular Formula

C6H9NO3

Molecular Weight

143.14 g/mol

InChI

InChI=1S/C6H9NO3/c1-3(2)4-5(8)10-6(9)7-4/h3-4H,1-2H3,(H,7,9)

InChI Key

XNCNNYXFGGTEMT-UHFFFAOYSA-N

SMILES

CC(C)C1C(=O)OC(=O)N1

Canonical SMILES

CC(C)C1C(=O)OC(=O)N1
Method of Synthesis or Extraction
Several methods have been developed for the synthesis of 4-Isopropyloxazolidine-2,5-dione. The most commonly used method involves the reaction of isocyanates with amino acids, such as glycine or alanine, followed by cyclization. This method offers good efficiency and yield, with minimal environmental and safety considerations.
Chemical Structure and Biological Activity
The chemical structure of 4-Isopropyloxazolidine-2,5-dione consists of a five-membered ring containing an oxygen and nitrogen atom. This unique structure contributes to its biological activity. Studies have shown that 4-Isopropyloxazolidine-2,5-dione exhibits potent inhibitory effects on various biological targets, including enzymes and receptors. Its mechanism of action involves binding to specific sites and interfering with normal cellular processes.
Biological Effects
The biological effects of 4-Isopropyloxazolidine-2,5-dione on cell function and signal transduction have been extensively studied. It has been found to modulate key signaling pathways involved in cell growth, differentiation, and apoptosis. Additionally, 4-Isopropyloxazolidine-2,5-dione has shown potential therapeutic effects in the treatment of various diseases, including cancer, inflammation, and neurodegenerative disorders. However, its high potency also raises concerns about potential toxic effects.
Future Perspectives and Challenges
Despite the potential of 4-Isopropyloxazolidine-2,5-dione, there are current limitations in its use and study. The compound's stability, bioavailability, and selectivity need to be further optimized. Possible solutions include structural modifications and formulation strategies. Future trends and prospects in the application of 4-Isopropyloxazolidine-2,5-dione in scientific research include its integration into personalized medicine and targeted therapies.
In conclusion, 4-Isopropyloxazolidine-2,5-dione is a versatile compound with significant potential in various fields. Its synthesis methods offer good efficiency and yield, with minimal environmental and safety considerations. The compound's unique chemical structure contributes to its potent biological activity, making it a promising candidate for drug development. However, further research is needed to fully understand its biological effects, potential side effects, and environmental impact.

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