pyrazole
简明释义
英[ˈpaɪrəzəʊl]美[ˈpɪrəˌzoʊl;ˈpɪrəˌzɔːl]
n. [有化] 吡唑;邻二氮杂茂
英英释义
A five-membered aromatic heterocyclic compound containing two adjacent nitrogen atoms in the ring, often used in pharmaceuticals and agrochemicals. | 一种含有两个相邻氮原子的五元芳香杂环化合物,常用于药物和农用化学品。 |
单词用法
吡唑衍生物 | |
吡唑化合物 | |
基于吡唑的药物 | |
吡唑的合成 | |
吡唑环 | |
吡唑骨架 |
同义词
| 唑类 | 吡唑衍生物常用于制药行业。 | ||
| 1H-吡唑 | The azole class of compounds includes many antifungal agents. | 唑类化合物包括许多抗真菌剂。 |
反义词
| 非吡唑 | 非吡唑化合物常用于有机合成。 | ||
| 烷烃 | 烷烃是具有单键的饱和烃。 |
例句
1.Research into the Synthesis, Structure and Biological Activity of Pyrazole and 1, 2, 4-triazole Compounds.
含吡唑和1,2,4 -三唑杂环化合物的合成、结构和生物活性的研究。
2.The relationship between molecular connectivity indices and the antiinflammatory activity of a series of pyrazole carboxylic acid hydrazide analogs has been investigated.
之间关系的分子连接性指数和抗炎活性一系列吡唑羧酸酰肼类似物已被调查。
3.In this paper, herbicidal activities and characteristics of structures of several pyrazole derivatives which reported the most in the nearly ten years have been discussed.
本文概述了近十年文献报道最多的几类吡唑类除草剂的除草活性以及它们结构特点。
4.The invention relates to a bactericidal composition with active ingredients to be pyrazole-kresoxim-methyl and thiram, and belongs to the bactericidal composition pesticide technology field.
本发明涉及一种以吡唑醚菌酯和福美双为有效成分的杀菌组合物,属于杀菌组合物农药技术领域。
5.METHODS 5-amino-1-hydroxyethyl pyrazole-4-carboylic acid was synthesized through condensation of ethyl cyanoacetate and triethyl orthoformate followed by one-pot methodology of cyclization, hydolysis.
方法原甲酸三乙酯与氰乙酸乙酯缩合,然后和羟乙基肼经环合、水解等一锅法合成5-氨基吡唑-4-甲酸,然后在亚硫酸钠存在条件下加热脱羧得到5-氨基-1-羟乙基吡唑。
6.This section focuses on pyrazole ketones, indole acetic acids, aryl alkyl acids non-steroidal anti-inflammatory drugs.
芳基烷酸类及其他结构类型的非甾体抗炎药。
7.The synthesis of pyrazole can be achieved through various chemical reactions.
通过多种化学反应可以合成吡唑。
8.The pyrazole structure is characterized by a five-membered ring.
吡唑结构的特点是一个五元环。
9.Researchers are investigating the effects of pyrazole derivatives on cancer cells.
研究人员正在调查吡唑衍生物对癌细胞的影响。
10.The compound pyrazole is often used in the development of new pharmaceuticals.
化合物吡唑常用于新药的开发。
11.In agriculture, pyrazole compounds are used as herbicides.
在农业中,吡唑化合物被用作除草剂。
作文
The world of chemistry is vast and intricate, filled with countless compounds that serve various purposes in our daily lives. One such compound that has gained attention in the field of medicinal chemistry is pyrazole, a five-membered heterocyclic compound containing two nitrogen atoms. Pyrazole (吡唑) is not only interesting due to its unique structure but also because of its diverse applications. Its derivatives have been widely studied for their potential therapeutic effects, making it a significant subject of research in pharmaceuticals.The structure of pyrazole allows it to interact with biological systems in unique ways. Researchers have discovered that pyrazole and its derivatives exhibit a range of biological activities, including anti-inflammatory, analgesic, and antipyretic properties. This makes pyrazole a promising candidate for developing new medications. For instance, certain pyrazole derivatives have shown potential as anti-cancer agents, demonstrating the compound's versatility in medicinal applications.Moreover, the synthesis of pyrazole is relatively straightforward, which allows for the exploration of various modifications to enhance its efficacy. Chemists can create numerous analogs of pyrazole by altering its structure, leading to the discovery of compounds with improved biological activity. This process of modification is crucial in drug development, as it helps scientists identify the most effective compounds for specific diseases.In addition to its medicinal properties, pyrazole is also used in agriculture. Certain pyrazole derivatives act as effective herbicides and fungicides, showcasing the compound's utility beyond human health. The agricultural applications of pyrazole highlight the importance of this compound in promoting food security and sustainability.As we delve deeper into the study of pyrazole, it becomes evident that understanding its mechanisms of action is essential for future advancements. By uncovering how pyrazole interacts with various biological targets, researchers can design more effective drugs with fewer side effects. This knowledge is particularly important in an era where personalized medicine is gaining prominence, allowing treatments to be tailored to individual patients based on their unique genetic makeup.In conclusion, pyrazole is a fascinating compound with a rich history and a promising future in both medicinal and agricultural chemistry. Its diverse applications and the ease of synthesizing its derivatives make pyrazole a valuable asset in the quest for new therapeutic agents and sustainable agricultural practices. As research continues to unfold, the potential of pyrazole will likely expand, leading to innovative solutions that benefit society as a whole.
化学的世界广阔而复杂,充满了无数的化合物,这些化合物在我们的日常生活中发挥着各种作用。其中一种在药物化学领域引起关注的化合物是吡唑,这是一种含有两个氮原子的五元杂环化合物。吡唑不仅因其独特的结构而引人注目,还因其多样的应用而备受关注。其衍生物在潜在治疗效果方面得到了广泛研究,使其成为制药研究的重要主题。吡唑的结构使其能够以独特的方式与生物系统相互作用。研究人员发现,吡唑及其衍生物表现出一系列生物活性,包括抗炎、镇痛和退烧特性。这使得吡唑成为开发新药的有希望的候选者。例如,某些吡唑衍生物显示出作为抗癌剂的潜力,证明了该化合物在药用应用中的多功能性。此外,吡唑的合成相对简单,这使得探索各种修饰以增强其疗效成为可能。化学家可以通过改变其结构来创建大量吡唑的类似物,从而发现具有改善生物活性的化合物。这种修饰过程在药物开发中至关重要,因为它帮助科学家识别针对特定疾病的最有效化合物。除了药用特性外,吡唑在农业中也有应用。某些吡唑衍生物作为有效的除草剂和杀真菌剂,展示了该化合物在促进粮食安全和可持续性方面的实用性。随着我们深入研究吡唑,显然了解其作用机制对于未来的进步至关重要。通过揭示吡唑如何与各种生物靶标相互作用,研究人员可以设计出更有效且副作用更少的药物。这一知识在个性化医学日益受到重视的时代尤为重要,使得治疗能够根据个体患者的独特基因组成量身定制。总之,吡唑是一种迷人的化合物,拥有丰富的历史和在药物化学及农业化学中光明的未来。其多样的应用以及合成其衍生物的便利性使得吡唑成为寻找新治疗剂和可持续农业实践的宝贵资产。随着研究的不断展开,吡唑的潜力可能会扩展,导致创新解决方案的出现,造福整个社会。
