Aceglutamide CAS 2490-97-3： Everything You Need to Know About This Compound

Abstract

This article provides a comprehensive overview of Aceglutamide CAS 2490-97-3, a compound that has garnered significant attention in various scientific and industrial fields. It delves into the chemical properties, synthesis methods, applications, safety considerations, and regulatory aspects of Aceglutamide, offering readers a detailed understanding of this important compound.

Introduction to Aceglutamide CAS 2490-97-3

Aceglutamide, also known as N-(2-aminoethyl)-2-aminopropionamide, is a synthetic organic compound with the CAS registry number 2490-97-3. It is a derivative of glutamic acid and is widely used in pharmaceuticals, agriculture, and food industries. This article aims to provide an in-depth exploration of Aceglutamide, covering its chemical properties, synthesis, applications, and safety profiles.

Chemical Properties of Aceglutamide

Aceglutamide is a white crystalline solid that is odorless and slightly soluble in water. It has a molecular formula of C6H12N2O3 and a molecular weight of 176.17 g/mol. The compound contains an amino group and a carboxyl group, which are characteristic of amino acids. These functional groups contribute to Aceglutamide's biological activity and its role as a neurotransmitter.

The melting point of Aceglutamide is approximately 150-152°C, and it decomposes at temperatures above 200°C. It is also stable under normal storage conditions, making it suitable for long-term storage. The compound is known for its high purity and is often used as a reference standard in analytical chemistry.

Synthesis of Aceglutamide

Aceglutamide can be synthesized through various methods, including the condensation reaction between 2-aminopropionaldehyde and ethylenediamine, or the reaction between 2-aminopropionic acid and ethylenediamine. These synthetic routes involve the formation of a Schiff base intermediate, which is then hydrolyzed to yield Aceglutamide.

The synthesis of Aceglutamide requires careful control of reaction conditions to ensure high yields and purity. The process involves several steps, including the preparation of starting materials, the condensation reaction, purification, and characterization of the final product. The choice of synthesis method can affect the physical and chemical properties of Aceglutamide, as well as its potential applications.

Applications of Aceglutamide

Aceglutamide has a wide range of applications due to its unique chemical properties and biological activity. In the pharmaceutical industry, it is used as a neurotransmitter in the treatment of neurological disorders, such as epilepsy and Parkinson's disease. It is also used as a precursor in the synthesis of other pharmaceuticals and as a stabilizer in drug formulations.

In agriculture, Aceglutamide is used as a plant growth regulator to enhance crop yield and quality. It can stimulate root growth, improve nutrient uptake, and increase resistance to stress. Additionally, Aceglutamide is used in the food industry as a flavor enhancer and as a stabilizer in food products.

Safety Considerations of Aceglutamide

The safety of Aceglutamide is an important aspect of its use in various industries. Studies have shown that Aceglutamide is generally safe for human consumption and has a low acute toxicity. However, it is essential to follow recommended dosage guidelines and ensure proper handling to minimize potential risks.

Long-term exposure to high concentrations of Aceglutamide may lead to adverse effects, such as liver and kidney damage. Therefore, it is crucial to adhere to occupational safety standards and regulatory guidelines when handling this compound.

Regulatory Aspects of Aceglutamide

Aceglutamide is subject to regulatory oversight in many countries. The European Union, for example, has established maximum residue limits for Aceglutamide in food products. The United States Food and Drug Administration (FDA) also regulates the use of Aceglutamide in pharmaceuticals and food additives.

Regulatory agencies conduct thorough safety assessments to ensure that Aceglutamide is used responsibly and does not pose a risk to public health. These assessments include toxicological studies, environmental impact assessments, and risk-benefit analyses.

Conclusion

Aceglutamide CAS 2490-97-3 is a versatile compound with significant applications in pharmaceuticals, agriculture, and food industries. Its unique chemical properties, synthesis methods, and safety profiles make it an important compound to understand. This article has provided a comprehensive overview of Aceglutamide, covering its chemical properties, synthesis, applications, safety considerations, and regulatory aspects. By delving into these aspects, readers can gain a deeper understanding of this compound and its potential uses.

Keywords: Aceglutamide, CAS 2490-97-3, chemical properties, synthesis, applications, safety, regulatory aspects