vesicular
简明释义
英[vəˈsɪkjələ(r)]美[vəˈsɪkjʊlər]
adj. 囊的;水泡的;有泡的
英英释义
单词用法
水泡性口炎;疱疹性口炎 |
同义词
反义词
| 固体 | The rock is solid and does not contain any vesicular structures. | 这块岩石是固体的,没有任何泡状结构。 | |
| 紧凑的 | The compact design of the material makes it suitable for construction. | 材料的紧凑设计使其适合用于建筑。 |
例句
1.Scarfskin: A vesicular opening was realized through the lumber panel with high-density in an imagery work of a sponge.
表皮:带有泡状开口的外立面通过有海绵图像的高密度木材面板实现。
2.The strong inflammatory reaction provoked by the death of the larvae during the colloidal vesicular stage will lead to significant patient symptomatology.
在胶样囊期,死亡的幼虫导致了强烈的炎症反应,从而引起明显的临床症状。
3.This paper discussed the cause of distinction of the particle density and the orgin of tubular and vesicular structure in spaces.
本文还讨论了细菌周膜断裂面上颗粒密度不同的原因及腔中管泡状结构的来源。
4.The best reservoir rocks in the area are dissolution volcanic breccias, vesicular basalt and tight basalts with developed fractures.
溶蚀火山角砾岩,气孔玄武岩和裂缝发育的致密玄武岩是区内最好的储集岩类。
5.AIM: to demonstrate the effect of HCV NS5A expression on vesicular stomatitis virus replication.
目的:丙型肝炎病毒NS5A的表达对水泡性口炎病毒复制的。
6.If skin is very dry, he also suggests products using a technology called vesicular emulsion.
如果皮肤非常干燥,他建议使用那些采用了被称为泡状乳剂技术的产品。
7.Full of or bearing vesicles; vesicular.
充满;承受着极大的重量。
8.The vesicular 囊泡的 transport mechanism is crucial for neurotransmitter release in neurons.
在神经元中,囊泡的运输机制对神经递质释放至关重要。
9.During the fermentation process, yeast produces vesicular 囊泡的 gas bubbles that cause the dough to rise.
在发酵过程中,酵母产生囊泡的气泡,使面团膨胀。
10.The plant cells contain a variety of organelles, including vesicular 囊泡的 structures that help in storage and transport.
植物细胞包含多种细胞器,包括有助于储存和运输的囊泡的结构。
11.In the study of lung diseases, researchers often examine vesicular 囊泡的 patterns in lung tissues.
在肺病研究中,研究人员经常检查肺组织中的囊泡的模式。
12.The presence of vesicular 囊泡的 lesions can indicate a viral infection in the skin.
存在囊泡的病变可能表明皮肤感染了病毒。
作文
In the study of biology, particularly in the field of cellular biology, the term vesicular is often used to describe structures that are related to vesicles. Vesicles are small membrane-bound sacs that transport materials within a cell. They play a crucial role in various cellular processes, including metabolism, communication, and waste disposal. Understanding the vesicular nature of these structures is essential for grasping how cells operate and interact with their environment.For instance, when we discuss the vesicular transport system, we refer to the mechanism by which substances are moved in and out of cells using vesicles. This process is vital for maintaining homeostasis within the cell. The formation of vesicles allows for the encapsulation of various molecules, such as proteins and lipids, which can then be transported to different parts of the cell or even secreted outside the cell.Another important aspect of vesicular structures is their role in neurotransmission. Neurons communicate with each other through synapses, where neurotransmitters are packaged into vesicular structures. When a nerve impulse reaches the end of a neuron, these vesicles fuse with the cell membrane, releasing their contents into the synaptic cleft. This process is fundamental for transmitting signals throughout the nervous system, highlighting the significance of vesicular transport in neural communication.Moreover, the study of vesicular structures extends beyond biology into medicine. For example, researchers are exploring how vesicular delivery systems can be utilized for drug delivery. By encapsulating therapeutic agents within vesicles, it is possible to enhance the stability and efficacy of drugs, allowing for targeted treatment of diseases. This innovative approach could revolutionize how we administer medications, making treatments more effective and reducing side effects.In addition, the characteristics of vesicular structures can vary depending on their function and origin. For example, plant cells contain specific vesicular structures known as vacuoles, which are essential for storage, waste disposal, and maintaining turgor pressure. These vacuoles differ from the vesicular structures found in animal cells, showcasing the diversity of vesicular systems across different organisms.In conclusion, the term vesicular encompasses a wide range of biological concepts, from cellular transport mechanisms to medical applications. A thorough understanding of vesicular structures is vital for anyone studying biology or related fields. As research continues to unveil the complexities of these structures, we are likely to discover even more about their roles in health and disease. Thus, the significance of vesicular components cannot be overstated; they are integral to the functioning of life itself.
在生物学研究中,特别是在细胞生物学领域,术语vesicular常用于描述与囊泡相关的结构。囊泡是小的膜结合囊,负责在细胞内运输物质。它们在各种细胞过程中发挥着至关重要的作用,包括代谢、通信和废物处理。理解这些结构的vesicular特性对于掌握细胞如何运作以及与环境相互作用至关重要。例如,当我们讨论vesicular运输系统时,我们指的是通过囊泡将物质进出细胞的机制。这个过程对维持细胞内的动态平衡至关重要。囊泡的形成使得各种分子(如蛋白质和脂质)能够被封装,然后运输到细胞的不同部分,甚至被分泌到细胞外。vesicular结构的另一个重要方面是它们在神经传递中的作用。神经元通过突触相互沟通,其中神经递质被包装在vesicular结构中。当神经冲动到达神经元的末端时,这些囊泡与细胞膜融合,将其内容物释放到突触间隙。这一过程对于在神经系统中传递信号至关重要,突显了vesicular运输在神经通信中的重要性。此外,vesicular结构的研究超越了生物学,进入了医学领域。例如,研究人员正在探索如何利用vesicular输送系统进行药物递送。通过将治疗剂封装在囊泡内,可以增强药物的稳定性和疗效,从而实现针对性治疗。这种创新的方法可能会彻底改变我们给药的方式,使治疗更加有效,并减少副作用。此外,vesicular结构的特征可能因其功能和来源而异。例如,植物细胞含有特定的vesicular结构,称为液泡,它们对储存、废物处理和维持膨压至关重要。这些液泡与动物细胞中发现的vesicular结构不同,展示了不同生物体之间囊泡系统的多样性。总之,术语vesicular涵盖了广泛的生物概念,从细胞运输机制到医学应用。对vesicular结构的透彻理解对于任何研究生物学或相关领域的人来说都是至关重要的。随着研究不断揭示这些结构的复杂性,我们可能会发现更多关于它们在健康和疾病中的作用。因此,vesicular成分的重要性不容小觑;它们是生命本身运作的不可或缺的一部分。
