ameboid
简明释义
adj. [生物] 变形虫样的;[生物] 阿米巴样的;[生物] 似变形虫的
英英释义
Resembling or characteristic of an amoeba, especially in shape or movement. | 类似于变形虫的,特别是在形状或运动方面。 |
单词用法
变形虫行为 | |
变形虫生物 | |
变形虫形状 | |
变形虫运动方式 |
同义词
| 变形虫的 | The amoebic lifestyle of certain organisms allows them to adapt quickly to their environment. | 某些生物的变形虫生活方式使它们能够快速适应环境。 |
反义词
| 固定的 | 这座建筑的结构是固定的,不会改变。 | ||
| 稳定的 | 稳定的环境使植物得以茁壮成长。 |
例句
1.Ameboid Describing an organism that resemble an ameba in shape and movement.
似变形虫的(阿米巴样的):在外形和运动方面类似变形虫的生物体。
2.Ameboid Describing an organism that resemble an ameba in shape and movement.
似变形虫的(阿米巴样的):在外形和运动方面类似变形虫的生物体。
3.The scientist observed the ameboid 变形虫 moving through the water under the microscope.
科学家在显微镜下观察到水中移动的变形虫。
4.The ameboid 生物 exhibited unique behaviors when it encountered obstacles.
这种生物在遇到障碍时表现出独特的行为。
5.Her movements were so fluid and ameboid 像变形虫一样, it was mesmerizing to watch.
她的动作如此流畅和像变形虫一样,看起来令人着迷。
6.The ameboid 细胞 can change shape to engulf bacteria.
这种细胞可以改变形状以吞噬细菌。
7.In his research, he studied the ameboid 变形运动 of certain cells during inflammation.
在他的研究中,他研究了某些细胞在炎症期间的变形运动。
作文
In the realm of biology, the term ameboid (变形虫的) refers to a particular type of movement and shape exhibited by certain cells, particularly amoebas. These single-celled organisms are fascinating due to their ability to change form and move in a fluid manner. The study of ameboid movement is crucial for understanding various biological processes, including immune responses and cellular development. Amoebas, which belong to the group of protists, are characterized by their flexible cell membranes and the presence of pseudopodia, or 'false feet'. These extensions allow them to extend their cell body and engulf food particles or other cells. The ameboid behavior is not limited to just amoebas; many other cell types exhibit similar movements. For instance, white blood cells utilize ameboid motion to migrate toward sites of infection, where they can engulf pathogens and help defend the body against disease.The mechanics of ameboid movement involve a complex interplay of cytoskeletal elements, such as actin filaments and myosin motors. When an amoeba wants to move, it reorganizes its internal structure, pushing the cytoplasm toward one side to form a pseudopod. This process is not only a marvel of cellular engineering but also serves as a model for understanding how cells communicate and respond to their environment. Researchers have studied ameboid movement extensively to gain insights into fundamental cellular processes, with implications for cancer research, wound healing, and developmental biology.In addition to its biological significance, the concept of ameboid movement can be applied metaphorically in various fields. For example, in sociology, one might describe a group of people moving through a crowded space as exhibiting ameboid behavior when they adapt their paths and shapes to navigate obstacles. This analogy highlights the importance of flexibility and adaptability in both biological systems and human interactions.Moreover, in the field of robotics, engineers are inspired by the ameboid movement to design soft robots that can navigate complex environments. These robots mimic the fluidity and adaptability of biological organisms, allowing them to squeeze through tight spaces and interact with their surroundings in innovative ways. The study of ameboid mechanisms in nature continues to inspire advancements in technology and engineering.In conclusion, the term ameboid encompasses a fascinating aspect of biology that extends beyond simple definitions. It represents a dynamic way of movement that is essential for survival in many organisms. Understanding ameboid behavior provides valuable insights into cellular functions and inspires technological innovations. As we continue to explore the complexities of life at the cellular level, the lessons learned from ameboid motion will undoubtedly contribute to our understanding of both biology and technology. Whether in the context of health, social dynamics, or robotics, the principles underlying ameboid movement remind us of the importance of adaptability and resilience in an ever-changing world.
在生物学领域,术语ameboid(变形虫的)指的是某些细胞,尤其是变形虫所表现出的一种特定运动和形状。这些单细胞生物因其能够改变形状和以流动的方式移动而引人入胜。研究ameboid运动对于理解各种生物过程至关重要,包括免疫反应和细胞发育。变形虫属于原生生物群,其特点是细胞膜灵活以及存在伪足或“假脚”。这些延伸部分使它们能够扩展细胞体并吞噬食物颗粒或其他细胞。ameboid行为不仅限于变形虫;许多其他类型的细胞也表现出类似的运动。例如,白血球利用ameboid运动向感染部位迁移,在那里它们可以吞噬病原体并帮助抵御疾病。ameboid运动的机制涉及细胞骨架元素之间复杂的相互作用,例如肌动蛋白丝和肌球蛋白马达。当变形虫想要移动时,它会重新组织其内部结构,将细胞质推向一侧形成伪足。这个过程不仅是细胞工程的奇迹,而且还作为理解细胞如何与环境沟通和响应的模型。研究人员对ameboid运动进行了广泛研究,以深入了解基本的细胞过程,这对癌症研究、创伤愈合和发育生物学具有重要意义。除了生物学的重要性之外,ameboid运动的概念还可以在各个领域进行比喻性的应用。例如,在社会学中,人们可能会描述一群人在拥挤空间中移动的方式为展现ameboid行为,当他们适应路径和形状以绕过障碍时。这个类比突显了灵活性和适应性在生物系统和人际互动中的重要性。此外,在机器人技术领域,工程师受到ameboid运动的启发,设计出能够在复杂环境中导航的软体机器人。这些机器人模仿生物有机体的流动性和适应性,使其能够挤过狭小空间,并以创新的方式与周围环境互动。对自然界中ameboid机制的研究继续激励着技术和工程的进步。总之,术语ameboid涵盖了一个迷人的生物学方面,超越了简单的定义。它代表了一种对许多生物生存至关重要的动态运动方式。理解ameboid行为为细胞功能提供了宝贵的见解,并激励着技术创新。当我们继续探索细胞层面的生命复杂性时,从ameboid运动中获得的教训无疑将有助于我们对生物学和技术的理解。无论是在健康、社会动态还是机器人技术的背景下,支撑ameboid运动的原则都提醒我们在不断变化的世界中适应性和韧性的重要性。
