anthranilate

简明释义

英[ˌænθrəˈnɪleɪt]美[ænˈθrænlˌeɪt]

n. 邻氨基苯甲酸盐

英英释义

单词用法

同义词

反义词

例句

1.Saccharin, which has been around since 1879, is made from methyl anthranilate, a substance in grapes.

另外一种糖精在1879年就出现了。它是由葡萄中的一种含甲基的物质构成的。

2.Saccharin, which has been around since 1879, is made from methyl anthranilate, a substance in grapes.

另外一种糖精在1879年就出现了。它是由葡萄中的一种含甲基的物质构成的。

3.Researchers discovered that anthranilate plays a role in the biosynthesis of certain amino acids.

研究人员发现氨基苯甲酸盐在某些氨基酸的生物合成中起着重要作用。

4.The flavoring agent in some foods is derived from anthranilate compounds.

某些食品中的香料成分来源于氨基苯甲酸盐化合物。

5.In the pharmaceutical industry, anthranilate is often used as an intermediate in drug development.

在制药行业，氨基苯甲酸盐通常作为药物开发中的中间体。

6.The synthesis of the dye involved the use of anthranilate, which is crucial for achieving the desired color.

这种染料的合成涉及使用氨基苯甲酸盐，这对于实现所需颜色至关重要。

7.Environmental studies have shown that anthranilate can be produced by certain bacteria.

环境研究表明，某些细菌可以产生氨基苯甲酸盐。

作文

The world of chemistry is filled with fascinating compounds, each playing unique roles in various biological and industrial processes. One such compound is anthranilate, a derivative of the amino acid tryptophan. This compound has garnered attention for its significance in both plant biology and pharmaceuticals. Understanding anthranilate can lead to insights into its applications and importance in our daily lives.Firstly, anthranilate is known for its role in the biosynthesis of indole alkaloids, which are important for plant defense mechanisms. Plants produce these compounds as a response to environmental stressors, such as pests or diseases. The presence of anthranilate in plants can enhance their resilience, allowing them to survive and thrive despite challenging conditions. This aspect of anthranilate highlights its ecological significance, as it contributes to the overall health of ecosystems.Moreover, anthranilate is not just limited to plant biology; it also plays a crucial role in human health. It serves as a precursor in the synthesis of various bioactive compounds, including the neurotransmitter serotonin. Serotonin is well-known for its influence on mood regulation, sleep patterns, and appetite. Thus, understanding the pathways involving anthranilate can provide valuable information regarding mental health and well-being. Research has shown that disruptions in serotonin levels may lead to mood disorders, making anthranilate an interesting target for further studies in the field of psychiatry.In addition to its biological significance, anthranilate has found applications in the pharmaceutical industry. It serves as an intermediate in the synthesis of several drugs, including those used to treat various ailments. For instance, certain medications that target bacterial infections utilize anthranilate in their formulation. This underscores the compound's versatility and importance in drug development.Furthermore, anthranilate is utilized in the production of dyes and fragrances. Its unique chemical structure allows it to impart specific colors and scents, making it valuable in the cosmetic and textile industries. The ability to derive such products from anthranilate showcases the compound's multifaceted nature and its contributions to various sectors.Despite its many benefits, the study of anthranilate is still evolving. Researchers continue to explore its potential applications, particularly in the fields of biotechnology and medicine. As we delve deeper into the molecular mechanisms involving anthranilate, we may uncover new therapeutic targets or innovative solutions to existing problems in health and agriculture.In conclusion, anthranilate is a compound that bridges the gap between plant biology and human health. Its role in the biosynthesis of important compounds, its applications in pharmaceuticals, and its utility in various industries make it a compound worth studying. By enhancing our understanding of anthranilate, we can appreciate its significance in both nature and technology, ultimately leading to advancements that benefit society as a whole.

化学世界充满了迷人的化合物，每种化合物在各种生物和工业过程中发挥着独特的作用。其中一个化合物是氨基苯甲酸，它是氨基酸色氨酸的衍生物。由于其在植物生物学和制药中的重要性，这个化合物引起了人们的关注。理解氨基苯甲酸可以为我们提供有关其应用和在日常生活中重要性的见解。首先，氨基苯甲酸以其在吲哚生物碱合成中的作用而闻名，这些生物碱对植物防御机制至关重要。植物在应对环境压力（如害虫或疾病）时会产生这些化合物。氨基苯甲酸在植物中的存在可以增强它们的抗逆性，使它们在困难条件下生存和繁荣。这一方面突显了氨基苯甲酸的生态重要性，因为它有助于生态系统的整体健康。此外，氨基苯甲酸不仅限于植物生物学；它在人体健康中也发挥着关键作用。它作为多种生物活性化合物（包括神经递质血清素）合成的前体。众所周知，血清素对情绪调节、睡眠模式和食欲有影响。因此，了解涉及氨基苯甲酸的途径可以为心理健康和福祉提供有价值的信息。研究表明，血清素水平的干扰可能导致情绪障碍，使得氨基苯甲酸成为精神病学领域进一步研究的有趣目标。除了生物学意义外，氨基苯甲酸还在制药行业中找到了应用。它作为多种药物合成的中间体，包括用于治疗各种疾病的药物。例如，某些针对细菌感染的药物在其配方中利用了氨基苯甲酸。这强调了该化合物在药物开发中的多功能性和重要性。此外，氨基苯甲酸还用于染料和香料的生产。其独特的化学结构使其能够赋予特定的颜色和气味，使其在化妆品和纺织工业中具有价值。从氨基苯甲酸中提取此类产品的能力展示了该化合物的多面性及其对各个行业的贡献。尽管有许多好处，但对氨基苯甲酸的研究仍在发展中。研究人员继续探索其潜在应用，特别是在生物技术和医学领域。随着我们深入研究涉及氨基苯甲酸的分子机制，我们可能会发现新的治疗靶点或创新解决方案，以应对健康和农业中的现有问题。总之，氨基苯甲酸是一个连接植物生物学和人类健康的化合物。它在重要化合物合成中的作用、在制药中的应用以及在各个行业中的实用性使其成为值得研究的化合物。通过增强我们对氨基苯甲酸的理解，我们可以欣赏其在自然和技术中的重要性，最终推动造福整个社会的进步。