cells
简明释义
n. [细胞]细胞;单元格(cell 的复数);牢房;小屋
v. 住在牢房中(cell 的三单形式)
英英释义
单词用法
肝细胞 |
同义词
单元 | 实验室里充满了各种测试单元。 | ||
隔间 | 这些细胞隔间被设计用于特定功能。 | ||
腔室 | 结构中的每个腔室都有不同的用途。 | ||
模块 | The software consists of several modules that work together. | 该软件由几个协同工作的模块组成。 |
反义词
组织 | 组织是由一组细胞组成的,它们共同工作。 | ||
生物体 | Organisms consist of multiple cells that form complex structures. | 生物体由多个细胞组成,形成复杂的结构。 |
例句
1.Increasing gravity is known to speed up the multiplication of cells.
为人所知的是,不断增加的重力会加速细胞数量的递增。
2.Radiation may damage cells in a way that was previously unforeseen.
辐射也许会以以前未预见的方式损坏细胞。
3.You have to understand how cells interact.
你必须得了解细胞之间是如何相互作用的。
4.The antibodies will bind to the glycophorin and cause the blood cells to coagulate.
抗体将会捆住血型糖蛋白并使血细胞凝固。
5.The two men broke out of their cells and cut through a perimeter fence.
那两个男人逃出牢房并穿过了一道围墙。
6.All living things are composed of cells.
所有的生物都由细胞组成。
7.Muscle cells need lots of fuel and therefore burn lots of calories.
肌肉细胞需要很多“燃料”,并因此燃烧大量卡路里。
8.Lung cells die and are replaced about once a week.
肺细胞约每周死亡、更新一次。
9.The cells began to divide rapidly.
细胞迅速分裂。
10.Cancer occurs when cells (细胞) start to grow uncontrollably.
癌症发生在细胞(细胞)开始失控生长时。
11.Blood cells (细胞) are essential for transporting oxygen throughout the body.
血液细胞(细胞)对全身氧气运输至关重要。
12.The human body is made up of millions of cells (细胞) that perform various functions.
人体由数百万个细胞(细胞)组成,执行各种功能。
13.Researchers are studying how cells (细胞) communicate with each other.
研究人员正在研究细胞(细胞)之间如何相互沟通。
14.In biology class, we learned how plant cells (细胞) differ from animal cells (细胞).
在生物课上,我们学习了植物细胞(细胞)与动物细胞(细胞)的区别。
作文
In the realm of biology, understanding the fundamental unit of life is crucial. This unit is known as cells (细胞), which serve as the building blocks for all living organisms. Each organism, whether it be a simple bacterium or a complex human being, is composed of cells (细胞). These cells (细胞) are not merely structural components; they perform a variety of functions essential for survival. There are two primary types of cells (细胞): prokaryotic and eukaryotic. Prokaryotic cells (细胞), such as those found in bacteria, are simpler in structure. They lack a nucleus and other membrane-bound organelles. In contrast, eukaryotic cells (细胞), which make up plants, animals, and fungi, have a defined nucleus and complex organelles that allow for specialized functions. The study of cells (细胞) has led to significant advancements in medicine and science. For instance, understanding how cells (细胞) function can help researchers develop treatments for diseases like cancer. Cancer occurs when cells (细胞) begin to divide uncontrollably, leading to the formation of tumors. By targeting the mechanisms that regulate cell (细胞) division, scientists can create therapies that specifically attack cancerous cells (细胞) while sparing healthy ones. Moreover, the concept of cells (细胞) extends beyond biology into technology. In recent years, scientists have been exploring the use of biological cells (细胞) for bioengineering purposes. For example, researchers are developing synthetic cells (细胞) that can mimic natural cells (细胞) to perform specific tasks, such as drug delivery or environmental monitoring. These innovations could revolutionize various fields, including healthcare and environmental science. In addition to their biological significance, cells (细胞) also play a crucial role in our daily lives. For instance, the concept of cells (细胞) is integral to understanding how our body responds to exercise. During physical activity, muscle cells (细胞) require more energy, prompting the body to increase blood flow and oxygen delivery to these cells (细胞). This process highlights the interconnectedness of cells (细胞) and overall health. Furthermore, the exploration of cells (细胞) has philosophical implications as well. The idea that all living things are composed of cells (细胞) challenges us to reconsider our place in the natural world. It emphasizes the shared characteristics of life, reminding us that we are all part of a larger ecosystem made up of countless cells (细胞). In conclusion, cells (细胞) are more than just tiny structures; they are the essence of life itself. From their role in health and disease to their applications in technology and their philosophical significance, cells (细胞) are foundational to our understanding of biology and the world around us. As we continue to explore the mysteries of cells (细胞), we unlock new possibilities for innovation and a deeper appreciation of life.
在生物学领域,理解生命的基本单位至关重要。这个单位被称为细胞(cells),它们作为所有生物体的构建块。每个生物体,无论是简单的细菌还是复杂的人类,都是由细胞(cells)组成的。这些细胞(cells)不仅仅是结构组件;它们执行一系列对生存至关重要的功能。细胞(cells)主要分为两种类型:原核细胞(cells)和真核细胞(cells)。原核细胞(cells),例如细菌中发现的那些,结构更简单。它们没有细胞核和其他膜结合的细胞器。相比之下,真核细胞(cells),即构成植物、动物和真菌的细胞(cells),具有明确的细胞核和复杂的细胞器,允许进行专业化功能。对细胞(cells)的研究促成了医学和科学的重大进展。例如,了解细胞(cells)的功能可以帮助研究人员开发针对癌症等疾病的治疗方法。癌症发生在细胞(cells)开始失控分裂时,导致肿瘤的形成。通过针对调节细胞(cells)分裂机制,科学家可以创造出专门攻击癌变细胞(cells)而不伤害健康细胞(cells)的疗法。此外,细胞(cells)的概念不仅限于生物学,还扩展到技术领域。近年来,科学家们开始探索将生物细胞(cells)用于生物工程目的。例如,研究人员正在开发合成细胞(cells),这些细胞(cells)可以模仿自然细胞(cells)以执行特定任务,例如药物递送或环境监测。这些创新可能会彻底改变医疗保健和环境科学等多个领域。除了其生物学意义外,细胞(cells)在我们的日常生活中也发挥着重要作用。例如,细胞(cells)的概念对于理解我们身体如何应对运动至关重要。在体育活动期间,肌肉细胞(cells)需要更多能量,促使身体增加血流和氧气输送到这些细胞(cells)。这个过程突显了细胞(cells)与整体健康的相互联系。此外,细胞(cells)的探索也具有哲学意义。所有生物体都是由细胞(cells)组成的这一观点挑战我们重新考虑自己在自然界中的位置。它强调了生命的共享特征,提醒我们,我们都是由无数细胞(cells)组成的更大生态系统的一部分。总之,细胞(cells)不仅仅是微小的结构;它们是生命本身的精髓。从它们在健康和疾病中的作用,到它们在技术中的应用,以及它们的哲学意义,细胞(cells)是我们理解生物学和周围世界的基础。随着我们继续探索细胞(cells)的奥秘,我们开启了创新的新可能性以及对生命更深刻的欣赏。