somatoplasm

简明释义

英[ˈsəʊmətəˌplæzəm]美[ˈsoʊmətəplæzəm]

n. 体细胞；体细胞浆；体细胞原生质

英英释义

单词用法

同义词

反义词

例句

1.The phenomenon of human somatoplasm has intimate correlation with our health and illness.

人类体质现象与健康、疾病密切相关。

2.The phenomenon of human somatoplasm has intimate correlation with our health and illness.

人类体质现象与健康、疾病密切相关。

3.During mitosis, changes in the somatoplasm can indicate the health of the cell.

在有丝分裂期间，somatoplasm中的变化可以指示细胞的健康状况。

4.In cellular biology, the term somatoplasm refers to the cytoplasmic material surrounding the nucleus.

在细胞生物学中，术语somatoplasm指的是包围细胞核的细胞质材料。

5.Scientists often analyze the somatoplasm to identify abnormalities in cell structures.

科学家们常常分析somatoplasm以识别细胞结构中的异常。

6.The study of somatoplasm is crucial for understanding cellular functions and processes.

研究somatoplasm对理解细胞功能和过程至关重要。

7.The somatoplasm plays a vital role in maintaining the overall integrity of the cell.

在维持细胞整体完整性方面，somatoplasm起着至关重要的作用。

作文

The concept of somatoplasm is crucial in the study of cellular biology. It refers to the living substance of a cell, excluding the nucleus, which contains the genetic material. Understanding somatoplasm helps us grasp how cells function, grow, and interact with their environment. In essence, somatoplasm encompasses all the organelles and cytoplasm that play vital roles in cellular processes. For instance, the mitochondria within the somatoplasm are often referred to as the powerhouse of the cell, as they generate energy through respiration. This energy is essential for the cell's survival and functionality. Moreover, the somatoplasm contains various other organelles, such as ribosomes, which synthesize proteins necessary for cell structure and function. The endoplasmic reticulum, another component of the somatoplasm, is involved in the synthesis of lipids and steroids, as well as the folding of proteins. These processes are fundamental to maintaining cellular health and ensuring that the cell can respond to changes in its environment. In multicellular organisms, the role of somatoplasm extends beyond individual cells. It plays a significant part in tissue formation and function. Different types of cells have specialized somatoplasm that enables them to perform unique functions. For example, muscle cells have a high concentration of mitochondria within their somatoplasm to support their energy-intensive activities. Similarly, neurons have specialized structures within their somatoplasm that facilitate communication between cells. Understanding the properties and functions of somatoplasm is also vital in medical science. Abnormalities in the somatoplasm can lead to various diseases, including cancer. Research has shown that changes in the composition and function of the somatoplasm can contribute to uncontrolled cell growth. Therefore, scientists focus on understanding these changes to develop targeted therapies that can restore normal cellular function. Furthermore, advancements in biotechnology have allowed researchers to manipulate somatoplasm for various applications. For instance, the use of stem cells, which contain undifferentiated somatoplasm, offers promising avenues for regenerative medicine. By understanding how to control the differentiation of stem cells, scientists hope to develop treatments for degenerative diseases and injuries. In conclusion, somatoplasm is a fundamental concept in biology that encompasses the living components of a cell. Its significance spans from basic cellular functions to complex interactions within tissues and organs. As we continue to explore the intricacies of somatoplasm, we uncover new possibilities for medical advancements and a deeper understanding of life itself. The study of somatoplasm not only enriches our knowledge of biology but also paves the way for innovations that could transform healthcare and improve human life. In summary, somatoplasm (细胞质) is an integral part of cellular biology, representing the living matter within cells that is essential for their function and health.

单词somatoplasm在细胞生物学的研究中至关重要。它指的是细胞的活性物质，排除细胞核，后者包含遗传物质。理解somatoplasm有助于我们掌握细胞如何运作、成长以及与环境相互作用。本质上，somatoplasm包括所有的细胞器和细胞质，这些成分在细胞过程中发挥着重要作用。例如，位于somatoplasm中的线粒体通常被称为细胞的动力源，因为它们通过呼吸产生能量。这种能量对细胞的生存和功能至关重要。此外，somatoplasm还包含各种其他细胞器，如合成细胞所需蛋白质的核糖体。内质网，作为somatoplasm的另一个组成部分，参与脂质和类固醇的合成，以及蛋白质的折叠。这些过程对于维持细胞健康和确保细胞能够响应环境变化是基础。在多细胞生物中，somatoplasm的角色超越了单个细胞。它在组织形成和功能中扮演着重要角色。不同类型的细胞具有特化的somatoplasm，使它们能够执行独特的功能。例如，肌肉细胞在其somatoplasm中具有高浓度的线粒体，以支持其能量密集型活动。同样，神经元在其somatoplasm中具有专门结构，促进细胞之间的通信。理解somatoplasm的性质和功能在医学科学中也至关重要。somatoplasm中的异常可能导致各种疾病，包括癌症。研究表明，somatoplasm的组成和功能的变化可能导致细胞生长失控。因此，科学家们专注于理解这些变化，以开发可以恢复正常细胞功能的靶向治疗。此外，生物技术的进步使研究人员能够操纵somatoplasm以用于各种应用。例如，使用含有未分化somatoplasm的干细胞，为再生医学提供了有希望的途径。通过了解如何控制干细胞的分化，科学家希望开发出治疗退行性疾病和损伤的疗法。总之，somatoplasm是生物学中的一个基本概念，涵盖了细胞的活性成分。它的重要性从基本的细胞功能延伸到组织和器官内部的复杂相互作用。随着我们继续探索somatoplasm的复杂性，我们揭示了医疗进步的新可能性以及对生命本身更深刻的理解。对somatoplasm的研究不仅丰富了我们对生物学的知识，而且为可能改变医疗保健和改善人类生活的创新铺平了道路。总之，somatoplasm（细胞质）是细胞生物学的一个不可或缺的部分，代表着细胞内的活性物质，对其功能和健康至关重要。