interdigitating

简明释义

英[ˌɪntəˈdɪdʒɪteɪtɪŋ]美[ˌɪntərˈdɪdʒɪteɪtɪŋ]

指状突

趾状突

英英释义

单词用法

同义词

反义词

例句

1.Objective To investigate the clinical pathological features and differential diagnosis of interdigitating dentrtic cell sarcoma(IDCS) to improve diagnostic level of it.

目的探讨淋巴结原发性指突状树突细胞肉瘤的临床病理特点及鉴别诊断，提高对该肿瘤的诊断水平。

2.Objective To investigate the clinical pathological features and differential diagnosis of interdigitating dentrtic cell sarcoma(IDCS) to improve diagnostic level of it.

目的探讨淋巴结原发性指突状树突细胞肉瘤的临床病理特点及鉴别诊断，提高对该肿瘤的诊断水平。

3.During development period, there were cystoid thymic corpuscles and interdigitating cells in thymic medulla and cortico-medullary border.

在各发育期中华鳖胸腺皮质、髓质交界处和髓质区有明显的囊状胸腺小体和交错突细胞。

4.There are interdigitating areas of pale pink and red that form the "lines of Zahn" characteristic for a thrombus.

淡红色及红色的指状突区域形成血栓的特征Zahn线。

5.Spindle Cell Melanoma and Interdigitating Dendritic Cell Sarcoma: Do They Represent the Same Process?

梭形细胞黑色素瘤和指状突树突细胞肉瘤：它们代表相同的过程吗？

6.The artist created a beautiful pattern of colors by interdigitating different shades, resulting in a vibrant mural.

艺术家通过交错不同的色调创造了一个美丽的色彩图案，形成了一个生动的壁画。

7.In the new design, the components are interdigitating to maximize space efficiency in the small apartment.

在新设计中，组件被交错以最大限度地提高小公寓的空间效率。

8.The two fingers were interdigitating as they intertwined during the dance.

在舞蹈中，两根手指交错在一起。

9.The DNA strands are interdigitating to form the double helix structure that is essential for genetic coding.

DNA链交错形成双螺旋结构，这是遗传编码所必需的。

10.The children enjoyed interdigitating their hands while playing a game of tag.

孩子们在玩捉迷藏时喜欢交错他们的手。

作文

In the world of biology, the concept of cells and their interactions is crucial for understanding life itself. One fascinating aspect of cellular interaction is the way in which cells can be described as interdigitating (交错的) with one another, forming intricate networks that allow for communication and cooperation. This phenomenon is particularly evident in tissues where different types of cells must work together harmoniously to maintain function and health. For instance, in the human body, neurons and glial cells are known to interdigitate (交错) within the nervous system. Neurons are responsible for transmitting signals, while glial cells provide support and protection. The interdigitating (交错的) arrangement of these cells ensures that signals are transmitted efficiently and that the surrounding environment is conducive to optimal functioning. Without this close interaction, the nervous system would not be able to perform its essential roles effectively. Furthermore, the interdigitating (交错的) nature of these cellular relationships is not limited to just nerve cells. In the skin, for example, keratinocytes and melanocytes also display a interdigitating (交错的) pattern. Keratinocytes form the majority of the outer layer of skin, providing a protective barrier, while melanocytes produce pigment that gives skin its color. The interdigitating (交错的) arrangement allows for effective communication between these cells, which is vital for processes such as wound healing and UV protection. The concept of interdigitating (交错的) can also extend beyond biology into other fields such as engineering and architecture. In these disciplines, interdigitating (交错的) designs can lead to innovative solutions that enhance functionality and aesthetics. For example, in modern architecture, buildings often feature interdigitating (交错的) elements that create dynamic spaces and improve airflow. These designs not only serve practical purposes but also contribute to the overall beauty of the structure. Moreover, the idea of interdigitating (交错的) can be applied to social interactions as well. In a thriving community, individuals from various backgrounds and professions come together, creating a tapestry of relationships that mirror the interdigitating (交错的) patterns seen in biological systems. This diversity fosters creativity and innovation, leading to a more vibrant and resilient society. In conclusion, the term interdigitating (交错的) encapsulates a fundamental principle observed across various domains, from biology to architecture and social structures. Understanding how entities interdigitate (交错) with one another enhances our appreciation of the complexity and interconnectedness of life. As we continue to explore these relationships, we gain valuable insights that can inform our approaches to health, design, and community building. Ultimately, the concept of interdigitating (交错的) serves as a reminder of the importance of collaboration and synergy in all aspects of existence.

在生物学的世界中，细胞及其相互作用的概念对于理解生命本身至关重要。细胞相互作用的一个迷人方面是细胞如何被描述为相互交错的，形成复杂的网络，使得它们能够进行沟通与协作。这种现象在不同类型的细胞必须和谐地合作以维持功能和健康的组织中特别明显。 例如，在人体中，神经元和胶质细胞在神经系统中被称为交错的。神经元负责传递信号，而胶质细胞提供支持和保护。这些细胞的交错的排列确保了信号的有效传递，并且周围环境有利于最佳功能的发挥。如果没有这种紧密的相互作用，神经系统将无法有效地执行其基本角色。 此外，这种交错的细胞关系的特性不仅限于神经细胞。在皮肤中，例如，角质形成细胞和黑色素细胞也显示出一种交错的模式。角质形成细胞构成皮肤的外层，提供保护屏障，而黑色素细胞则产生给皮肤着色的色素。这种交错的排列使得这些细胞之间的有效沟通成为可能，这对伤口愈合和紫外线保护等过程至关重要。 交错的概念也可以扩展到其他领域，如工程和建筑。在这些学科中，交错的设计可以带来增强功能性和美学的创新解决方案。例如，在现代建筑中，建筑物通常具有交错的元素，创造出动态空间并改善空气流通。这些设计不仅服务于实际目的，还为结构的整体美感做出了贡献。 此外，交错的想法也可以应用于社会互动。在一个繁荣的社区中，来自不同背景和职业的个体汇聚在一起，形成一种关系的挂毯，反映出生物系统中观察到的交错的模式。这种多样性促进了创造力和创新，导致一个更加生动和有韧性的社会。 总之，术语交错的概括了在生物学、建筑和社会结构等各个领域观察到的基本原则。理解实体如何相互交错增强了我们对生命复杂性和相互联系的欣赏。随着我们继续探索这些关系，我们获得了宝贵的见解，这些见解可以指导我们在健康、设计和社区建设方面的方法。最终，交错的概念提醒我们，在存在的各个方面，合作与协同的重要性。