cellular picture

简明释义

1. 格状图像; 2. 格状图象;

英英释义

A cellular picture refers to an image or representation that is composed of cells, often used in the context of biological or microscopic imagery.

细胞图像指由细胞组成的图像或表示,通常用于生物学或显微镜图像的上下文中。

In a broader sense, it can also refer to images displayed on cellular devices, such as smartphones, where the quality and resolution may vary.

在更广泛的意义上,它也可以指在移动设备(如智能手机)上显示的图像,其中质量和分辨率可能有所不同。

例句

1.The scientist presented a detailed cellular picture of the tissue under the microscope.

科学家展示了显微镜下组织的详细细胞图像

2.In biology class, we learned how to analyze a cellular picture from a plant sample.

在生物课上,我们学习了如何分析植物样本的细胞图像

3.The cellular picture revealed abnormalities that could indicate disease.

这幅细胞图像揭示了可能表明疾病的异常情况。

4.The research paper included a cellular picture illustrating the interaction between different cell types.

研究论文中包含了一幅细胞图像,说明不同细胞类型之间的相互作用。

5.Understanding the cellular picture of cancer can help in developing targeted therapies.

理解癌症的细胞图像有助于开发靶向治疗。

作文

In the world of biology, understanding the structure and function of cells is crucial. One of the most fascinating aspects of cellular biology is the concept of a cellular picture, which refers to the detailed representation of a cell's internal components and their interactions. This visual depiction helps scientists and students alike to grasp the complexity of life at the microscopic level. A cellular picture can take many forms, from simple diagrams in textbooks to advanced 3D models created using sophisticated imaging techniques. These images often highlight key organelles such as the nucleus, mitochondria, and endoplasmic reticulum, each playing a vital role in maintaining the cell's health and functionality. For instance, the nucleus houses the cell's genetic material, while mitochondria are known as the powerhouses, generating the energy required for various cellular processes.Understanding the cellular picture is essential for students studying biology, as it lays the foundation for more complex topics such as genetics, biochemistry, and molecular biology. By visualizing the intricate details of a cell, learners can better appreciate how cellular functions contribute to the overall functioning of organisms. Moreover, advancements in technology have significantly enhanced our ability to create accurate cellular pictures. Techniques such as fluorescence microscopy and electron microscopy allow researchers to observe cells in real-time and capture high-resolution images that reveal the dynamic processes occurring within. These technologies not only improve our understanding of basic cellular functions but also aid in medical research, helping scientists develop targeted therapies for diseases.For example, cancer research heavily relies on the analysis of cellular pictures, as scientists examine the differences between healthy and cancerous cells. By studying these images, researchers can identify abnormal growth patterns and mutations that may lead to the development of cancer. This knowledge is crucial in designing effective treatment strategies that target specific cellular pathways involved in tumor growth.In addition to their scientific significance, cellular pictures also have educational value. Teachers use these visuals to engage students and foster a deeper understanding of biological concepts. Interactive tools and software that allow students to manipulate and explore cellular pictures can enhance learning experiences, making complex information more accessible and enjoyable.In conclusion, the concept of a cellular picture is fundamental to the study of biology. It serves as a vital tool for both education and research, providing insights into the intricate world of cells. As we continue to advance our imaging technologies and deepen our understanding of cellular processes, the importance of these visual representations will only grow. Ultimately, a clearer cellular picture leads to a better comprehension of life itself, paving the way for new discoveries and innovations in the field of science.

在生物学的世界中,理解细胞的结构和功能至关重要。细胞生物学最迷人的方面之一是“细胞图像”的概念,它指的是细胞内部组成部分及其相互作用的详细表示。这种视觉表现帮助科学家和学生理解微观层面上生命的复杂性。“细胞图像”可以有多种形式,从教科书中的简单图示到使用先进成像技术创建的三维模型。这些图像通常突出显示关键的细胞器,如细胞核、线粒体和内质网,每个细胞器在维持细胞的健康和功能中发挥着至关重要的作用。例如,细胞核包含细胞的遗传物质,而线粒体被称为能量工厂,生成细胞各种过程所需的能量。理解“细胞图像”对于学习生物学的学生至关重要,因为它为更复杂的主题奠定了基础,如遗传学、生物化学和分子生物学。通过可视化细胞的复杂细节,学习者可以更好地理解细胞功能如何对生物体的整体运作做出贡献。此外,技术的进步显著增强了我们创建准确“细胞图像”的能力。荧光显微镜和电子显微镜等技术使研究人员能够实时观察细胞,并捕捉高分辨率图像,这些图像揭示了细胞内发生的动态过程。这些技术不仅改善了我们对基本细胞功能的理解,还促进了医学研究,帮助科学家开发针对疾病的靶向治疗。例如,癌症研究严重依赖于对“细胞图像”的分析,因为科学家检查健康细胞与癌细胞之间的差异。通过研究这些图像,研究人员可以识别可能导致癌症发展的异常生长模式和突变。这一知识对于设计有效的治疗策略至关重要,这些策略针对肿瘤生长中涉及的特定细胞通路。除了科学意义外,“细胞图像”也具有教育价值。教师利用这些视觉材料来吸引学生并促进对生物学概念的更深入理解。允许学生操控和探索“细胞图像”的互动工具和软件可以增强学习体验,使复杂信息更易于获取和享受。总之,“细胞图像”的概念是生物学研究的基础。它作为教育和研究的重要工具,提供了对细胞复杂世界的深入见解。随着我们不断推进成像技术并加深对细胞过程的理解,这些视觉表现的重要性只会增加。最终,更清晰的“细胞图像”将导致对生命本身的更好理解,为科学领域的新发现和创新铺平道路。