cyclosis

简明释义

英[saɪˈkləʊsɪs]美[saɪˈklosɪs]

n. [细胞] 胞质环流

复 数 c y c l o s e s

英英释义

单词用法

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例句

1.The study of cyclosis (细胞内循环) provides insight into cellular dynamics.

对cyclosis（细胞内循环）的研究提供了对细胞动态的深入了解。

2.In plant cells, the movement of organelles is often described as cyclosis (细胞内循环).

在植物细胞中，细胞器的运动通常被描述为cyclosis（细胞内循环）。

3.During cyclosis (细胞内循环), chloroplasts can move towards light sources.

在cyclosis（细胞内循环）过程中，叶绿体可以朝向光源移动。

4.The process of cyclosis (细胞内循环) helps distribute nutrients within the cell.

在细胞内，cyclosis（细胞内循环）的过程有助于分配营养物质。

5.Researchers observed cyclosis (细胞内循环) in the leaf cells under a microscope.

研究人员在显微镜下观察到叶片细胞中的cyclosis（细胞内循环）。

作文

Cyclosis is a fascinating biological phenomenon that plays a crucial role in the transport of materials within plant cells. This process involves the movement of cytoplasm around the cell, allowing for the distribution of nutrients and organelles. Understanding cyclosis (细胞质循环) not only provides insights into cellular functions but also highlights the intricate mechanisms that sustain life at the microscopic level.In the world of botany, cyclosis (细胞质循环) is particularly significant because it facilitates the movement of chloroplasts, which are essential for photosynthesis. This movement ensures that chloroplasts are optimally positioned to capture sunlight, thus maximizing the plant's ability to produce energy. The study of cyclosis (细胞质循环) reveals how plants adapt to their environment, responding to light and other stimuli by repositioning their chloroplasts through this dynamic process.The mechanism behind cyclosis (细胞质循环) involves the action of motor proteins that travel along the cytoskeleton, transporting various cellular components. This process is energy-dependent, requiring ATP (adenosine triphosphate) to fuel the movement. As such, cyclosis (细胞质循环) is not merely a passive event; it is an active and regulated process that reflects the cell's metabolic state and needs.Moreover, cyclosis (细胞质循环) can be influenced by external factors such as temperature and light intensity. For example, in low light conditions, the rate of cyclosis (细胞质循环) may slow down, affecting the overall efficiency of photosynthesis. Conversely, in optimal conditions, the rapid movement of cytoplasm enhances nutrient distribution, promoting healthy growth and development in plants.In addition to its role in plants, cyclosis (细胞质循环) has implications in other organisms as well. In animal cells, similar processes occur, albeit with different structures and mechanisms involved. The understanding of cyclosis (细胞质循环) in various cell types can lead to advancements in fields such as medicine and biotechnology. For instance, insights gained from studying cyclosis (细胞质循环) can inform the development of targeted drug delivery systems, where the efficient transport of therapeutic agents within cells is crucial for effective treatment.Furthermore, the disruption of cyclosis (细胞质循环) can lead to various cellular dysfunctions and diseases. Research into the causes of altered cyclosis (细胞质循环) patterns may reveal underlying mechanisms of diseases such as cancer, where cellular transport processes are often impaired. Thus, investigating cyclosis (细胞质循环) not only enriches our understanding of basic biology but also opens avenues for medical breakthroughs.In conclusion, cyclosis (细胞质循环) is a vital process that underscores the complexity and efficiency of cellular functions. By facilitating the movement of essential materials within cells, it supports growth, adaptation, and survival in various organisms. As research continues to uncover the intricacies of cyclosis (细胞质循环), we gain valuable knowledge that can enhance our approach to health, agriculture, and environmental sustainability.