cellulated

简明释义

英[ˈseljʊleɪtɪd]美[ˈseljəˌletɪd]

adj. 细胞状的；由细胞组织成的

vi. 使形成细胞（cellulate 的过去式和过去分词）

英英释义

单词用法

同义词

反义词

例句

1.The composition and syntheses of a newly developed specific binding agent for cellulated paperboard and the influence of components of binding agent on adhesive power and drying speed are presented.

对蜂窝纸板专用粘合剂在合成路线，工艺配方等方面进行了讨论，并对该种粘合剂的组分对其在粘度和干燥速度等方面的影响进行了分析。

2.The composition and syntheses of a newly developed specific binding agent for cellulated paperboard and the influence of components of binding agent on adhesive power and drying speed are presented.

对蜂窝纸板专用粘合剂在合成路线，工艺配方等方面进行了讨论，并对该种粘合剂的组分对其在粘度和干燥速度等方面的影响进行了分析。

3.The cellulated nature of this gel allows for better absorption of nutrients.

这种凝胶的细胞化特性允许更好的营养吸收。

4.In the laboratory, we are studying the properties of cellulated foam for its potential in insulation materials.

在实验室里，我们正在研究细胞化泡沫的特性，以其在绝缘材料中的潜力。

5.During the examination, the doctor found that the tumor had a cellulated appearance, indicating a specific type of growth.

在检查过程中，医生发现肿瘤呈现出细胞化的外观，表明一种特定类型的生长。

6.The scientist observed the structure of the tissue under a microscope and noted that it was highly cellulated.

科学家在显微镜下观察组织的结构，注意到它是高度细胞化的。

7.The biologist explained that the cellulated structure of sponges contributes to their ability to filter water.

生物学家解释说，海绵的细胞化结构有助于它们过滤水的能力。

作文

In the study of biology, one often encounters various terms that describe the intricate structures and functions of living organisms. One such term is cellulated, which refers to a structure that is composed of or contains small compartments or cells. Understanding this concept is crucial for students who wish to delve deeper into cellular biology and the organization of life forms. The significance of cellulated structures can be observed in many biological contexts, from the microscopic level of cells to the macroscopic level of tissues and organs.For instance, consider the human body, which is a complex organism made up of trillions of cells. These cells are not just randomly distributed; they are organized into cellulated structures that perform specific functions. Tissues such as muscle, nerve, and connective tissues exhibit distinct cellulated arrangements that allow them to perform their respective roles efficiently. The organization of these cells into cellulated patterns ensures that they work together harmoniously to maintain the overall health and functionality of the body.Moreover, the concept of cellulated structures extends beyond human anatomy. In plants, for example, the arrangement of cells within leaves, stems, and roots is also cellulated. This organization allows plants to maximize their ability to capture sunlight, absorb water, and transport nutrients. The cellulated nature of plant tissues, such as xylem and phloem, is essential for their growth and survival, illustrating how this term is pivotal in understanding plant biology as well.In addition to multicellular organisms, cellulated structures can also be found in unicellular organisms, such as bacteria and protozoa. These organisms may have internal compartments that serve different functions, akin to the cells in more complex life forms. The cellulated nature of these organisms allows them to carry out various metabolic processes efficiently, demonstrating the versatility and adaptability of life at all levels.Furthermore, the study of cellulated structures has implications in various fields, including medicine and biotechnology. For example, understanding how cancer cells deviate from normal cellulated patterns can lead to better treatment strategies. Researchers are exploring ways to target these abnormal cellulated formations to halt the progression of cancer and improve patient outcomes. Similarly, advancements in tissue engineering rely on creating artificial cellulated structures that can mimic natural tissues for transplantation and regenerative medicine.In conclusion, the term cellulated encompasses a fundamental aspect of biology that is vital for understanding the organization and function of life. Whether in the context of human anatomy, plant biology, or microbial life, cellulated structures play a crucial role in ensuring the efficiency and effectiveness of biological processes. As we continue to explore the depths of cellular biology, the importance of cellulated structures will remain a key focus, paving the way for innovations in science and medicine. By grasping the concept of cellulated structures, students and researchers alike can appreciate the complexity and beauty of life at both the microscopic and macroscopic levels.

在生物学研究中，人们常常会遇到各种术语，这些术语描述了生物体复杂的结构和功能。其中一个术语是cellulated，它指的是由小的隔间或细胞组成或包含的结构。理解这个概念对于希望深入了解细胞生物学及生命形式组织的学生至关重要。cellulated结构的重要性可以在许多生物学背景中观察到，从细胞的微观层面到组织和器官的宏观层面。例如，考虑人类身体，这是一个复杂的生物体，由数万亿个细胞组成。这些细胞并不是随机分布的；它们被组织成cellulated结构，以执行特定的功能。肌肉、神经和结缔组织等组织展示出独特的cellulated排列，使它们能够高效地执行各自的角色。这些细胞的cellulated模式的组织确保它们和谐地协同工作，以维持身体的整体健康和功能。此外，cellulated结构的概念不仅限于人类解剖学。在植物中，例如，叶子、茎和根内细胞的排列也呈现出cellulated的特征。这种组织允许植物最大限度地捕获阳光、吸收水分和运输养分。植物组织（如木质部和韧皮部）的cellulated特性对其生长和生存至关重要，说明了这个术语在理解植物生物学中的重要性。除了多细胞生物，单细胞生物（如细菌和原生生物）中也可以找到cellulated结构。这些生物可能具有内部隔间，执行不同的功能，类似于更复杂生命形式中的细胞。这些生物的cellulated特性使它们能够高效地进行各种代谢过程，展示了生命在各个层面的多样性和适应性。此外，研究cellulated结构在医学和生物技术等多个领域具有重要意义。例如，了解癌细胞如何偏离正常的cellulated模式，可以导致更好的治疗策略。研究人员正在探索针对这些异常cellulated形成的方法，以阻止癌症的进展并改善患者的预后。类似地，组织工程的进展依赖于创建能够模拟自然组织的人工cellulated结构，用于移植和再生医学。总之，cellulated这一术语涵盖了生物学的一个基本方面，对于理解生命的组织和功能至关重要。无论是在人体解剖学、植物生物学还是微生物生命的背景下，cellulated结构在确保生物过程的效率和有效性方面都发挥着关键作用。随着我们继续探索细胞生物学的深度，cellulated结构的重要性将仍然是一个关键焦点，为科学和医学的创新铺平道路。通过掌握cellulated结构的概念，学生和研究人员可以欣赏生命在微观和宏观层面的复杂性和美丽。