aminophenylarsonic acid

简明释义

氨基苯胂酸

英英释义

例句

1.The pharmaceutical company is developing a new drug based on aminophenylarsonic acid 氨基苯砷酸 to combat resistant strains of bacteria.

这家制药公司正在开发一种基于氨基苯砷酸的新药，以对抗耐药菌株。

2.In the field of veterinary medicine, aminophenylarsonic acid 氨基苯砷酸 is used as a treatment for certain infections in livestock.

在兽医学领域，氨基苯砷酸被用作治疗家畜某些感染的药物。

3.The toxicology report highlighted the potential risks associated with exposure to aminophenylarsonic acid 氨基苯砷酸 in agricultural settings.

毒理学报告强调了农业环境中接触氨基苯砷酸的潜在风险。

4.The researchers discovered that aminophenylarsonic acid 氨基苯砷酸 can inhibit bacterial growth effectively.

研究人员发现，氨基苯砷酸可以有效抑制细菌生长。

5.Environmental studies have shown that aminophenylarsonic acid 氨基苯砷酸 can accumulate in water sources, raising concerns about its impact on aquatic life.

环境研究表明，氨基苯砷酸可以在水源中积累，引发对其对水生生物影响的担忧。

作文

Aminophenylarsonic acid, often abbreviated as APA, is a compound that has garnered attention in both the fields of chemistry and medicine. This unique chemical structure, which combines an amino group with a phenyl group and an arsenic atom, presents intriguing properties that have led to various applications. Understanding the significance of aminophenylarsonic acid (氨基苯砷酸) requires a closer look at its composition, uses, and the implications of its arsenic content.The chemical formula for aminophenylarsonic acid is C6H8AsNO3, which indicates it consists of carbon, hydrogen, arsenic, nitrogen, and oxygen. The presence of the amino group (-NH2) makes this compound an amine, while the phenyl group (C6H5) gives it aromatic characteristics. These features contribute to its reactivity and potential interactions with biological systems. Researchers have explored the medicinal properties of aminophenylarsonic acid due to its ability to influence various biochemical pathways.Historically, aminophenylarsonic acid has been utilized in veterinary medicine, particularly as an anti-parasitic agent. It has shown effectiveness against certain types of parasites in livestock, helping to improve animal health and productivity. The use of aminophenylarsonic acid in agriculture has raised discussions about the safety and environmental impacts of arsenic-containing compounds. While it can be beneficial in controlling pests, the potential for arsenic accumulation in the food chain poses risks that must be managed carefully.In recent years, researchers have also investigated the role of aminophenylarsonic acid in cancer treatment. Some studies suggest that it may have cytotoxic effects on tumor cells, making it a candidate for further exploration in oncology. The dual nature of this compound, as both a therapeutic agent and a potential toxin, exemplifies the complexities of drug development. The challenge lies in maximizing its therapeutic benefits while minimizing any harmful side effects associated with arsenic exposure.Moreover, the environmental impact of aminophenylarsonic acid cannot be overlooked. As a compound containing arsenic, its use necessitates stringent regulations and monitoring to prevent contamination of soil and water sources. The legacy of arsenic pollution from historical agricultural practices serves as a cautionary tale for current and future applications of such chemicals. Ongoing research aims to develop safer alternatives or methods to mitigate the risks associated with aminophenylarsonic acid while retaining its efficacy.In conclusion, aminophenylarsonic acid (氨基苯砷酸) represents a fascinating intersection of chemistry and medicine. Its unique structure and properties open avenues for various applications, particularly in veterinary medicine and cancer therapy. However, the challenges posed by its arsenic content highlight the need for responsible usage and thorough research to ensure safety for both human health and the environment. As our understanding of such compounds deepens, we can better harness their potential while addressing the associated risks.