vacuolar
简明释义
英[vækjʊˈəʊlə(r)]美[vækjʊˈoʊlər]
adj. 空泡的;有液泡的
英英释义
单词用法
液泡膜 | |
液泡运输 | |
液泡储存 | |
液泡退化 | |
液泡肿胀 | |
液泡区室 |
同义词
反义词
| 固体 | The solid structure of the material provides better stability. | 材料的固体结构提供了更好的稳定性。 | |
| 密集的 | 密集的森林对维持生物多样性至关重要。 |
例句
1.Under electron microscopy, microfilament bodies, microrhoptryand vacuolar parasitic organisms at developmental stage were observed in monocytes.
电镜观察到单核细胞内有微丝体、微棒状小体和空泡状发育期寄生物;
2.Under electron microscope, vacuolate degeneration of neuronal processes with mitochondria degeneration and accumulation of microtubule near vacuolar nucleus were observed in iron treated rats.
电镜下可见铁处理大鼠神经突起空泡变性,空泡化的细胞核周线粒体变性及微管堆积。
3.Sequence analysis showed the amplified fragment was the TIV1 fragment of the vacuolar invertase gene.
测序结果表明,所获得的片段为番茄液泡转化酶基因TIV1的片段;
4.Results the adhesion, disturbance, lodge, and squamous metaplasia of cilia in tracheal epithelium; and vacuolar degeneration in epithelium cells were observed.
结果气管上皮纤毛粘连、乱、伏及鳞状化生,上皮细胞空泡变性,并可见新生的纤毛上皮细胞。
5.Results There were swelling, vacuolar degeneration and increased density of mitochondria, dissociated ribosomes in the cytoplasm, and dilation of rough endoplasmic reticulum and Golgi's apparatus.
结果艾滋病患者胃黏膜细胞的线粒体肿胀、空泡变性和密度增高,细胞质里有解聚的核糖体,粗面内质网、高尔基体有不同程度的扩张。
6.Vacuolar compartmentalization appears to be the source of tolerance of metal_accumulating plants.
金属离子在液泡中的区域化分布是植物耐重金属的主要原因。
7.The cortical opacification in CT-S digital images was linear, cuniform or clustered aggregate shadow configuration. The posterior subcapsular opacification was discal vacuolar or granular appearance.
CT S图像特征:晶状体皮质混浊为线状、楔形或聚集成簇状排列的斑块状阴影,晶状体后囊膜下混浊为成片的空泡状或颗粒状阴影。
8.Meanwhile, it was subclassed into plant vacuolar invertase by phylogenetic relation analysis.
系统进化关系聚类分析结果表明,该基因属液泡转化酶基因类型。
9.Scientists are studying the vacuolar 液泡的 transport mechanisms in plant cells.
科学家们正在研究植物细胞中的vacuolar 液泡的 运输机制。
10.The accumulation of waste products in the vacuolar 液泡的 space can lead to cellular dysfunction.
废物在vacuolar 液泡的 空间中的积累可能导致细胞功能障碍。
11.Research shows that the vacuolar 液泡的 system plays a crucial role in maintaining cell turgor pressure.
研究表明,vacuolar 液泡的 系统在维持细胞膨压方面起着至关重要的作用。
12.In many fungi, the vacuolar 液泡的 membrane is involved in osmoregulation.
在许多真菌中,vacuolar 液泡的 膜参与渗透调节。
13.The plant's cells contain a large vacuolar 液泡的 structure that stores nutrients.
植物细胞中含有一个大的vacuolar 液泡的 结构,用于储存养分。
作文
In the study of cellular biology, one of the most fascinating structures we encounter is the vacuole. The term vacuolar (液泡的) pertains to anything related to these vital compartments within a cell. Vacuoles are membrane-bound sacs that play a crucial role in maintaining cellular homeostasis. They are particularly prominent in plant cells, where they can occupy a significant portion of the cell's volume. Understanding the vacuolar (液泡的) functions is essential for grasping how cells regulate their internal environment and respond to external stimuli.Vacuoles serve multiple purposes. In plants, they store nutrients, waste products, and even pigments that give flowers their vibrant colors. This storage function is especially important for plants, as they often cannot move to seek out resources. The vacuolar (液泡的) space allows them to accumulate essential compounds and manage waste efficiently. Additionally, vacuoles help maintain turgor pressure, which is vital for keeping plants upright and supporting their structure. Without sufficient turgor pressure, plants would wilt, demonstrating the importance of vacuolar (液泡的) integrity in plant health.Moreover, vacuoles are involved in the degradation of macromolecules. They contain enzymes that break down complex substances, allowing cells to recycle materials. This process is especially important in times of stress or nutrient scarcity, as it enables cells to adapt and survive. The vacuolar (液泡的) system thus plays a critical role in cellular metabolism and energy management.In animal cells, vacuoles are generally smaller and less prominent than in plant cells. However, they still perform essential functions, such as storing ions and helping with waste removal. The presence of vacuolar (液泡的) structures in animal cells underscores the shared evolutionary history of all eukaryotic cells, emphasizing the fundamental biological processes that unite diverse life forms.The study of vacuolar (液泡的) dynamics is also crucial for understanding various diseases. For instance, in certain conditions, such as diabetes, the regulation of vacuolar transport can be disrupted, leading to complications. Furthermore, research into how cells utilize their vacuolar (液泡的) compartments can provide insights into cancer biology, as cancer cells often exhibit altered vacuolar function to support their rapid growth and survival in adverse conditions.In conclusion, the vacuolar (液泡的) components of cells are indispensable for maintaining cellular health and functionality. Their roles in storage, waste management, and metabolic processes highlight their significance in both plant and animal cells. As research continues to unveil the complexities of vacuolar (液泡的) biology, we gain a deeper appreciation for the intricate mechanisms that sustain life at the cellular level. Understanding these processes not only enhances our knowledge of biology but also opens avenues for medical advancements and agricultural improvements, ultimately benefiting society as a whole.
