vesiculation

简明释义

英[ˌvɛsɪkjuˈleɪʃən]美[ˌvɛsɪkjuˈleɪʃən]

n. 起疱；水疱形成；囊泡形成

英英释义

单词用法

同义词

反义词

例句

1.Methods32patients with bronchial asthma were treated with medicinal vesiculation. The amount of cyclic nucleotide of their blood plasma was determined before and after treatment.

方法对32例支气管哮喘患者行天灸治疗，测定治疗前后血浆环核苷酸含量。

2.Methods32patients with bronchial asthma were treated with medicinal vesiculation. The amount of cyclic nucleotide of their blood plasma was determined before and after treatment.

方法对32例支气管哮喘患者行天灸治疗，测定治疗前后血浆环核苷酸含量。

3.This work was to observe the clinic effects of medicinal vesiculation therapy in treating wind dampness arthralgia syndrome.

本文观察了以天灸发泡法治疗风湿痹症的临床疗效。

4.Objective: To study the effect of medicinal vesiculation on bone marrow inhibition caused by chemotherapy.

目的：观察天灸抗化疗骨髓抑制副作用的效应。

5.This vesiculation phenomenon, pinocytosis, certainly occurs in some animal and higher green plants.

这种泡囊化现象即胞饮作用确实发生于某些动物和高等绿色植物细胞。

6.Conclusion Vesiculation moxibustion has a good therapeutic effect on allergic rhinitis.

结论天灸对变应性鼻炎有良好疗效。

7.The doctor explained that the vesiculation 水泡形成 on the patient's skin was a common reaction to the medication.

医生解释说，患者皮肤上的vesiculation 水泡形成是对药物的常见反应。

8.In botany, vesiculation 气泡形成 can refer to the development of blisters on certain plant leaves due to environmental stress.

在植物学中，vesiculation 气泡形成可以指某些植物叶子因环境压力而产生的水泡。

9.The researcher noted that vesiculation 水泡形成 was observed in the cell cultures after exposure to high temperatures.

研究人员注意到，在暴露于高温后，细胞培养物中观察到了vesiculation 水泡形成。

10.During the experiment, the team recorded instances of vesiculation 水泡形成 in the samples treated with the new chemical compound.

在实验过程中，团队记录了用新化合物处理的样本中出现的vesiculation 水泡形成实例。

11.The presence of vesiculation 水泡形成 indicates that there may be an underlying issue requiring further investigation.

存在vesiculation 水泡形成表明可能存在需要进一步调查的潜在问题。

作文

In the study of biology, particularly in cellular biology, there are many fascinating processes that contribute to the functioning of living organisms. One such process is known as vesiculation, which refers to the formation of small membrane-bound sacs, or vesicles, within cells. This phenomenon is crucial for various cellular activities, including transport, storage, and communication between different parts of the cell. Understanding vesiculation can provide insights into how cells operate and how they respond to their environments. Vesicles play a significant role in the transport of materials within cells. For example, during the process of secretion, cells package proteins and other molecules into vesicles that then migrate to the cell membrane. Once they reach the membrane, these vesicles fuse with it, releasing their contents outside the cell. This mechanism is essential for the delivery of hormones, neurotransmitters, and other vital substances that influence the behavior of surrounding cells. The study of vesiculation thus offers valuable information about how cells communicate and coordinate their activities, which is fundamental to the overall functioning of multicellular organisms. Moreover, vesiculation is not only limited to the transport of materials but also plays a critical role in the recycling of cellular components. Cells constantly undergo a process called endocytosis, where they engulf extracellular material and form new vesicles. These new vesicles can either be used to bring nutrients into the cell or to degrade unwanted materials. This recycling process is vital for maintaining cellular health and homeostasis. By understanding the mechanisms behind vesiculation, scientists can develop better strategies to combat diseases that arise from cellular dysfunction, such as cancer and neurodegenerative disorders. In addition to its role in transportation and recycling, vesiculation is also important in the context of cell signaling. Many signaling pathways rely on vesicle-mediated transport to relay messages from one part of the cell to another. For instance, when a cell receives a signal from its environment, it may trigger the release of specific vesicles containing signaling molecules. These vesicles then travel to target sites within the cell, where they can activate certain pathways or initiate responses. This intricate system of communication underscores the importance of vesiculation in cellular regulation and response to external stimuli. Furthermore, research into vesiculation has implications beyond basic biology; it extends into fields such as medicine and biotechnology. For instance, scientists are exploring the potential of using engineered vesicles as drug delivery systems. By encapsulating therapeutic agents within vesicles, researchers aim to enhance the targeted delivery of drugs to specific tissues or cells, minimizing side effects and improving treatment efficacy. This innovative approach highlights how a deeper understanding of vesiculation can lead to advancements in medical treatments and technologies. In conclusion, vesiculation is a fundamental biological process that encompasses the formation and function of vesicles within cells. Its significance spans across various cellular functions, including transport, recycling, and signaling. As we continue to explore the complexities of cellular mechanisms, the study of vesiculation will undoubtedly remain a vital area of research, offering insights that could lead to breakthroughs in health and disease management. Through ongoing investigations, we can appreciate the elegance of cellular processes and their profound impact on life itself.

在生物学的研究中，特别是在细胞生物学中，有许多迷人的过程促成了生物体的功能。其中一个过程被称为vesiculation，指的是在细胞内形成小的膜结合囊泡或囊泡。这一现象对各种细胞活动至关重要，包括运输、储存和细胞不同部分之间的通信。理解vesiculation可以提供关于细胞如何运作以及它们如何响应环境的见解。 囊泡在细胞内材料运输中发挥着重要作用。例如，在分泌过程中，细胞将蛋白质和其他分子打包成囊泡，然后这些囊泡迁移到细胞膜。一旦它们到达膜，这些囊泡就会与其融合，释放其内容物到细胞外。这一机制对于激素、神经递质和其他影响周围细胞行为的重要物质的输送至关重要。因此，vesiculation的研究提供了有关细胞如何通信和协调活动的宝贵信息，这对多细胞生物的整体功能是基础。 此外，vesiculation不仅限于物质运输，而且在细胞组分的回收中也发挥着关键作用。细胞不断经历一种称为内吞作用的过程，在该过程中，它们吞噬细胞外材料并形成新的囊泡。这些新囊泡可以用于将营养物质带入细胞或降解不需要的材料。这个回收过程对维持细胞健康和稳态至关重要。通过理解vesiculation背后的机制，科学家可以制定更好的策略来对抗因细胞功能障碍而引发的疾病，如癌症和神经退行性疾病。 除了在运输和回收中的作用外，vesiculation在细胞信号传递的背景下也很重要。许多信号通路依赖于囊泡介导的运输来传递来自细胞一个部分的信息到另一个部分。例如，当细胞接收到来自其环境的信号时，可能会触发特定囊泡的释放，这些囊泡含有信号分子。这些囊泡随后移动到细胞内的目标位点，在那里它们可以激活某些通路或启动反应。这种复杂的通信系统突显了vesiculation在细胞调节和对外部刺激反应中的重要性。 此外，对vesiculation的研究不仅限于基础生物学；它还扩展到医学和生物技术等领域。例如，科学家们正在探索使用工程化囊泡作为药物输送系统的潜力。通过将治疗药物封装在囊泡内，研究人员旨在增强药物对特定组织或细胞的靶向输送，从而最小化副作用并提高治疗效果。这种创新的方法突显了对vesiculation的更深层理解如何导致医疗治疗和技术的进步。 总之，vesiculation是一个基础的生物过程，涵盖了囊泡在细胞内的形成和功能。其重要性跨越了各种细胞功能，包括运输、回收和信号传递。随着我们继续探索细胞机制的复杂性，vesiculation的研究无疑将继续成为一个重要的研究领域，提供可能导致健康和疾病管理突破的见解。通过持续的研究，我们可以欣赏细胞过程的优雅及其对生命本身的深远影响。