bombesin

简明释义

英[bɒmˈbiːsɪn]美[ˈbɑːmbəsɪn]

n. [生化] 铃蟾肽；[生理] 蛙皮素

英英释义

单词用法

同义词

反义词

例句

1.GES-1 cell line was incubated with varying concentrations of bombesin with or without its antagonist and growth of the cell line was determined.

观察不同浓度的蛙皮素及其受体拮抗剂对GES 1细胞生长的影响。

2.Bombesin, Gastrin Releasing Peptide (GRP), Rabbit anti.

蛙皮素，胃泌素释放肽(GRP)，兔抗。

3.Objective to investigate the regulatory effects of bombesin on the growth of human immortalized gastric epithelial cell line (GES-1), and its mechanisms.

目的观察蛙皮素对人永生细胞系(GES1)生长的调节和作用机制。

4.Certain novel substituted imidazoles are ligands of the human bombesin receptor and, in particular, are selective ligands of the human bombesin receptor subtype-3 (BRS-3).

某些新的取代的咪唑是人类韩蛙皮素受体的配体，并且尤其是人类韩蛙皮素受体亚型- 3 (BRS - 3)的选择性配体。

5.Objective to investigate the regulatory effects of bombesin on the activities of disaccharidase in the intestinal mucosal cells in neonatal rabbits.

目的探讨铃蟾肽对新生兔小肠黏膜双糖酶活性的影响。

6.Certain novel substituted imidazoles are ligands of the human bombesin receptor and, in particular, are selective ligands of the human bombesin receptor subtype-3 (BRS-3).

某些新的取代的咪唑是人类韩蛙皮素受体的配体，并且尤其是人类韩蛙皮素受体亚型- 3 (BRS - 3)的选择性配体。

7.When the outer circumstance temperature altered, function of Bombesin to animals changed too.

当外界环境温度不同时，蛙皮素对动物体温的作用不同。

8.In cancer research, bombesin 博美肽 analogs are being developed for targeted therapy.

在癌症研究中，正在开发用于靶向治疗的 bombesin 博美肽 类似物。

9.Researchers have found that bombesin 博美肽 can stimulate gastric acid secretion.

研究人员发现，bombesin 博美肽 可以刺激胃酸分泌。

10.Studies show that bombesin 博美肽 can enhance the efficacy of certain chemotherapy drugs.

研究表明，bombesin 博美肽 可以增强某些化疗药物的疗效。

11.The role of bombesin 博美肽 in regulating appetite has been a subject of many studies.

在调节食欲方面，bombesin 博美肽 的作用一直是许多研究的主题。

12.The administration of bombesin 博美肽 resulted in increased insulin secretion in diabetic rats.

给药 bombesin 博美肽 后，糖尿病大鼠的胰岛素分泌增加。

作文

In the realm of biomedical research, the peptide known as bombesin holds significant importance due to its various physiological roles and potential therapeutic applications. Bombesin is a neuropeptide that was first discovered in the skin of the European fire-bellied toad, Bombina bombina, from which it derives its name. This peptide is known for its ability to stimulate gastric secretion and has been found to have various effects on the central nervous system, making it a subject of interest for researchers exploring appetite regulation, cancer biology, and neuroendocrine functions.One of the most fascinating aspects of bombesin is its role in the regulation of food intake. Studies have shown that this peptide can influence satiety and hunger signals in the brain. When administered to animals, bombesin has been observed to reduce food consumption and increase feelings of fullness. This property has led scientists to investigate its potential as a target for obesity treatment. By modulating the action of bombesin or its receptors, researchers hope to develop new strategies to combat obesity and related metabolic disorders.Additionally, bombesin has garnered attention for its implications in cancer research. It is known that certain tumors, particularly those of the gastrointestinal tract, overexpress bombesin receptors. This characteristic has prompted scientists to explore the use of bombesin analogs as targeted therapies for cancer. For instance, radiolabeled versions of bombesin have been tested for their ability to deliver radiation directly to tumor cells while sparing healthy tissues. This targeted approach could potentially enhance the efficacy of cancer treatments and reduce side effects.The interaction of bombesin with its receptors also opens avenues for investigating various neurological conditions. Research indicates that bombesin may play a role in stress responses and anxiety regulation. Understanding how bombesin influences these processes could provide insights into developing new treatments for anxiety disorders and depression. The multifaceted nature of bombesin makes it a valuable molecule in both basic and applied biomedical research.Moreover, ongoing studies are examining the potential of bombesin in other areas, such as cardiovascular health and reproductive biology. Its diverse functions highlight the complexity of peptide signaling in the body and underscore the importance of further research in this field. As we continue to unravel the mechanisms of bombesin and its interactions within biological systems, we may uncover novel therapeutic targets that could lead to breakthroughs in treating various medical conditions.In conclusion, bombesin is not just a simple peptide; it is a key player in a wide array of physiological processes. From regulating appetite to its potential role in cancer therapy, the study of bombesin offers exciting possibilities for future research and clinical applications. As we gain a deeper understanding of this peptide, we can hope to unlock new strategies for improving human health and tackling some of the most pressing medical challenges of our time.

bombesin在生物医学研究领域中具有重要意义，因为它在多种生理功能和潜在治疗应用方面的作用。bombesin是一种神经肽，最初是在欧洲火腹蟾蜍（Bombina bombina）的皮肤中发现的，因此得名。该肽以刺激胃液分泌而闻名，并被发现对中枢神经系统有多种影响，这使得它成为研究者在食欲调节、癌症生物学和神经内分泌功能等领域的研究对象。bombesin最引人注目的方面之一是其在食物摄入调节中的作用。研究表明，这种肽可以影响大脑中的饱腹感和饥饿信号。当施用到动物身上时，bombesin被观察到能够减少食物摄入并增加饱腹感。这一特性促使科学家们探索其作为肥胖治疗靶点的潜力。通过调节bombesin或其受体的作用，研究人员希望开发出新的策略来对抗肥胖及相关的代谢疾病。此外，bombesin因其在癌症研究中的影响而受到关注。众所周知，某些肿瘤，尤其是胃肠道肿瘤，会过度表达bombesin受体。这一特征促使科学家们探索使用bombesin类似物作为癌症靶向治疗的方法。例如，放射性标记的bombesin已被测试用于将辐射直接输送到肿瘤细胞，同时保护健康组织。这种靶向方法可能增强癌症治疗的有效性并减少副作用。bombesin与其受体的相互作用还为研究各种神经系统疾病开辟了新的途径。研究表明，bombesin可能在应激反应和焦虑调节中发挥作用。了解bombesin如何影响这些过程可能为开发新的焦虑症和抑郁症治疗方法提供见解。bombesin的多面性使其成为基础和应用生物医学研究中的宝贵分子。此外，正在进行的研究正在检查bombesin在其他领域的潜力，例如心血管健康和生殖生物学。它的多种功能突显了体内肽信号传导的复杂性，并强调了进一步研究该领域的重要性。随着我们继续揭示bombesin的机制及其在生物系统中的相互作用，我们可能会发现新的治疗靶点，从而导致在治疗各种医疗条件方面的突破。总之，bombesin不仅仅是一种简单的肽；它是多种生理过程中的关键参与者。从调节食欲到其在癌症治疗中的潜在作用，bombesin的研究为未来的研究和临床应用提供了令人兴奋的可能性。随着我们对这一肽的深入理解，我们可以期待解锁改善人类健康的新策略，并应对我们时代一些最紧迫的医疗挑战。