brucine

简明释义

英[ˈbruːsiːn]美[ˈbrʊsɪn]

n. 二甲马钱子碱；[有化] 番木鳖碱

英英释义

单词用法

同义词

反义词

例句

1.OBJECTIVE to determine optimized prescription and technique for preparing brucine long-circulating liposomes (BLCL) by means of optimization screening, and to evaluate its quality.

目的通过优化手段筛选最佳处方及工艺，制备马钱子碱长循环脂质体，并评价其质量。

2." ah, " he exclaimed, " it is no longer brucine that is used ; let me see what it is !

「啊！ 」大声说道， 「不再是木鳖精了，我来看看杯子里到底是什么！ 」

3.Objective To evaluate and compare the effects of Brucine and Brucine liposome on restraining transplanted tumor growth, prolonging their survival time in mice with transplanted tumor cells .

目的评价和比较马钱子碱及其脂质体对移植性肿瘤模型荷瘤小鼠的肿瘤抑制作用和生存时间的影响。

4.Working with Pelletier, he isolated quinine, strychnine, brucine, cinchonine, veratrine, and colchicine, some of which became widely used as drugs.

他与佩尔蒂埃合作，分离出了奎宁、土的宁、番禾鳖宁、弱金鸡钠碱和秋水仙碱，其中一些被作为药物广泛使用。

5.Objective To evaluate and compare the effects of Brucine and Brucine liposome on restraining transplanted tumor growth, prolonging their survival time in mice with transplanted tumor cells .

目的评价和比较马钱子碱及其脂质体对移植性肿瘤模型荷瘤小鼠的肿瘤抑制作用和生存时间的影响。

6.Objective To evaluate and compare the effects of brucine and its liposome on inhibiting transplanted tumor growth and prolonging their survival time in mice with transplanted tumor cells.

目的评价和比较马钱子碱及其脂质体对移植性肿瘤模型荷瘤小鼠的肿瘤抑制作用和生存时间的影响。

7.In pharmacology, brucine is sometimes studied for its potential use in treating certain medical conditions.

在药理学中，brucine 有时被研究用于治疗某些医学状况的潜在用途。

8.Researchers discovered that brucine could be used as a precursor in the synthesis of other chemical compounds.

研究人员发现 brucine 可以用作合成其他化合物的前体。

9.The chemist explained that brucine is a toxic alkaloid derived from the seeds of the Strychnos nux-vomica tree.

化学家解释说，brucine 是一种从毒扁桃树种子中提取的有毒生物碱。

10.The toxicity of brucine makes it a subject of interest in toxicology studies.

由于 brucine 的毒性，它成为毒理学研究的一个关注点。

11.The laboratory technician had to handle brucine with extreme care due to its poisonous nature.

实验室技术员必须小心处理 brucine，因为它具有毒性。

作文

Brucine is a fascinating compound that has garnered attention in the fields of chemistry and pharmacology. It is an alkaloid derived from the seeds of the Strychnos nux-vomica tree, which is native to Southeast Asia. The chemical structure of brucine (布鲁辛) is similar to that of strychnine, another well-known alkaloid, but it possesses distinct properties that make it unique. For instance, while strychnine is notorious for its toxicity, brucine (布鲁辛) is less toxic and has been explored for various medicinal applications.The interest in brucine (布鲁辛) extends beyond its chemical composition; it also plays a significant role in traditional medicine. In some cultures, it has been used as a stimulant and a tonic. Researchers have been investigating its potential benefits in enhancing cognitive functions and improving physical performance. However, it is crucial to approach such claims with caution and rely on scientific evidence to support them.One of the most intriguing aspects of brucine (布鲁辛) is its interaction with the nervous system. Studies suggest that it may have a stimulating effect on the central nervous system, which could explain its historical use as a tonic. This property has led scientists to explore its potential in treating certain neurological disorders. However, much research is still needed to fully understand the implications of using brucine (布鲁辛) in clinical settings.Moreover, the extraction and synthesis of brucine (布鲁辛) are topics of ongoing research. Scientists are looking for efficient methods to obtain this compound from natural sources or through synthetic means. This pursuit is essential not only for pharmaceutical applications but also for ensuring the sustainable use of natural resources. As demand for compounds like brucine (布鲁辛) increases, it becomes imperative to balance ecological considerations with scientific progress.In addition to its medicinal properties, brucine (布鲁辛) has also found applications in the field of analytical chemistry. It can be used as a reagent in various chemical reactions, contributing to the development of new methodologies for analyzing complex mixtures. This versatility makes brucine (布鲁辛) a valuable compound in both research and industrial settings.Despite its promising attributes, the use of brucine (布鲁辛) is not without risks. As with any bioactive compound, there are potential side effects and interactions that must be considered. It is essential for researchers and healthcare professionals to thoroughly evaluate the safety profile of brucine (布鲁辛) before recommending it for therapeutic use. Regulatory agencies play a critical role in overseeing the research and approval processes for new drugs, ensuring that only safe and effective treatments reach the market.In conclusion, brucine (布鲁辛) is a compound that holds significant promise in various fields, including medicine and chemistry. Its unique properties and potential applications make it a subject of ongoing research and interest. As we continue to explore the capabilities of brucine (布鲁辛), it is vital to approach its study with a balanced perspective, weighing the benefits against the risks. With further investigation, brucine (布鲁辛) may one day play a crucial role in advancing our understanding of pharmacology and improving health outcomes for many individuals around the world.

布鲁辛是一种引人入胜的化合物，在化学和药理学领域引起了关注。它是一种生物碱，来源于产于东南亚的苦木树的种子。brucine（布鲁辛）的化学结构与另一种著名的生物碱—士的宁相似，但它具有独特的特性。例如，虽然士的宁以其毒性而臭名昭著，但brucine（布鲁辛）毒性较低，并已被探索用于各种药用应用。对brucine（布鲁辛）的兴趣不仅限于其化学成分；它在传统医学中也发挥着重要作用。在一些文化中，它被用作兴奋剂和补品。研究人员一直在调查其在增强认知功能和改善身体表现方面的潜在益处。然而，重要的是要谨慎对待这些说法，并依赖科学证据来支持它们。brucine（布鲁辛）最令人感兴趣的方面之一是它与神经系统的相互作用。研究表明，它可能对中枢神经系统有刺激作用，这可能解释了它作为补品的历史使用。这一特性促使科学家探索其在治疗某些神经疾病中的潜力。然而，仍需进行大量研究，以全面了解在临床环境中使用brucine（布鲁辛）的影响。此外，提取和合成brucine（布鲁辛）是正在进行的研究主题。科学家们正在寻找有效的方法，从天然来源或通过合成手段获得这种化合物。这一追求对于制药应用至关重要，同时也确保了自然资源的可持续利用。随着对像brucine（布鲁辛）这样的化合物需求的增加，平衡生态考虑与科学进步变得至关重要。除了药用特性外，brucine（布鲁辛）还在分析化学领域找到了应用。它可以作为各种化学反应中的试剂，有助于开发分析复杂混合物的新方法。这种多功能性使得brucine（布鲁辛）在研究和工业环境中都是一种宝贵的化合物。尽管具有前景，但brucine（布鲁辛）的使用并非没有风险。与任何生物活性化合物一样，必须考虑潜在的副作用和相互作用。研究人员和医疗专业人员在推荐brucine（布鲁辛）用于治疗之前，必须彻底评估其安全性。监管机构在监督新药的研究和批准过程中发挥着关键作用，确保只有安全有效的治疗方法才能进入市场。总之，brucine（布鲁辛）是一种在医学和化学等多个领域具有重要前景的化合物。其独特的特性和潜在应用使其成为持续研究和关注的对象。随着我们继续探索brucine（布鲁辛）的能力，重要的是以平衡的视角看待其研究，权衡益处与风险。通过进一步的研究，brucine（布鲁辛）可能有一天在推动我们对药理学的理解和改善全球许多人的健康结果方面发挥关键作用。