inert cell

简明释义

未充电池

英英释义

例句

1.In our study, we used an inert cell 惰性电池 to ensure that external variables did not affect the results.

在我们的研究中，我们使用了一个惰性电池 inert cell 来确保外部变量不会影响结果。

2.The laboratory experiment showed that the inert cell 惰性电池 did not react with any of the chemicals present.

实验室实验表明，惰性电池 inert cell 与任何存在的化学物质都没有反应。

3.The inert cell 惰性电池 was crucial for maintaining a stable environment during the reaction.

在反应过程中，惰性电池 inert cell 对于维持稳定环境至关重要。

4.The research team utilized an inert cell 惰性电池 to isolate the effects of the active components.

研究团队利用一个惰性电池 inert cell 来隔离活性成分的影响。

5.We discovered that the inert cell 惰性电池 could be used in various applications without any degradation.

我们发现，惰性电池 inert cell 可以在各种应用中使用而没有任何降解。

作文

In the realm of biology and cellular studies, the term inert cell refers to a type of cell that exhibits minimal activity or responsiveness to external stimuli. These cells are often characterized by their lack of metabolic processes and inability to react to environmental changes. Understanding the concept of an inert cell is crucial for researchers and students alike, as it opens up discussions about cellular functions, behaviors, and the overall dynamics of life at the microscopic level.Cells are the building blocks of life, and they come in various forms, each with specific roles. While many cells actively participate in metabolic activities, such as energy production and nutrient absorption, inert cells stand out due to their passive nature. This passivity can be attributed to several factors, including genetic mutations, environmental conditions, or the specific stage of development they are in.For instance, in certain plants, we can find inert cells that serve as protective structures. These cells may not engage in photosynthesis or growth but play an essential role in safeguarding more active tissues from damage. Similarly, in human physiology, some cells may become inert due to aging or disease processes, leading to a decline in their functionality.The study of inert cells also raises intriguing questions about cellular differentiation and the potential for regeneration. Scientists are particularly interested in understanding how these cells can be reactivated or transformed into more functional states. This aspect has significant implications for regenerative medicine, where the goal is to repair or replace damaged tissues and organs.Moreover, the presence of inert cells in a biological system can influence the behavior of neighboring cells. For example, if a group of cells contains both active and inert cells, the latter may alter the signaling pathways or resource distribution among the active cells. This interaction highlights the importance of studying all types of cells within a given tissue or organism, as they collectively contribute to the overall health and functionality.In conclusion, the concept of an inert cell is vital for understanding the complexities of cellular biology. These cells, while seemingly unremarkable, play essential roles in various biological contexts. By studying inert cells, researchers can gain insights into cellular behavior, tissue dynamics, and the potential for therapeutic interventions. The exploration of these cells not only enhances our knowledge of life at the microscopic level but also paves the way for advancements in medical science and biotechnology. As we continue to investigate the mysteries of cellular functions, the significance of inert cells will undoubtedly remain a topic of interest and discovery.

在生物学和细胞研究领域，短语惰性细胞指的是一种对外部刺激表现出最小活动或反应的细胞。这些细胞通常以其缺乏代谢过程和无法对环境变化作出反应而特征化。理解惰性细胞的概念对研究人员和学生来说至关重要，因为它开启了关于细胞功能、行为和微观生命整体动态的讨论。细胞是生命的基本单元，它们有各种形式，每种形式都有特定的角色。虽然许多细胞积极参与代谢活动，如能量生产和营养吸收，但惰性细胞因其被动性质而脱颖而出。这种被动性可以归因于多个因素，包括基因突变、环境条件或它们所处的特定发育阶段。例如，在某些植物中，我们可以发现惰性细胞作为保护结构。这些细胞可能不参与光合作用或生长，但在保护更活跃的组织免受损伤方面发挥着重要作用。同样，在人体生理中，由于衰老或疾病过程，一些细胞可能变得惰性，导致其功能下降。对惰性细胞的研究还引发了有关细胞分化和再生潜力的有趣问题。科学家们特别感兴趣的是了解这些细胞如何被重新激活或转化为更具功能的状态。这一方面对再生医学具有重要意义，其目标是修复或替换受损的组织和器官。此外，生物系统中惰性细胞的存在可能会影响邻近细胞的行为。例如，如果一组细胞包含活跃细胞和惰性细胞，后者可能会改变活跃细胞之间的信号通路或资源分配。这一相互作用突显了研究特定组织或生物体内所有类型细胞的重要性，因为它们共同促进了整体健康和功能。总之，惰性细胞的概念对于理解细胞生物学的复杂性至关重要。这些细胞看似平凡，但在各种生物背景中发挥着重要作用。通过研究惰性细胞，研究人员可以深入了解细胞行为、组织动态以及治疗干预的潜力。对这些细胞的探索不仅增强了我们对微观生命的认识，也为医学科学和生物技术的进步铺平了道路。随着我们继续研究细胞功能的奥秘，惰性细胞的重要性无疑将始终是一个备受关注和探索的话题。