somata

简明释义

[ˈsəʊmətə][səˈmətə]

体细胞(soma 的复数)

英英释义

The plural form of 'soma', referring to the body of an organism, especially in the context of biology and anatomy.

‘soma’的复数形式,指生物体的身体,尤其是在生物学和解剖学的背景下。

单词用法

cell somata

细胞体

neuronal somata

神经元细胞体

soma and somata

soma和somata

somatic cells

体细胞

同义词

bodies

身体

The study of somata is essential in understanding cellular biology.

研究身体在理解细胞生物学中至关重要。

organisms

有机体

Different organisms have unique somatic structures.

不同的有机体具有独特的体结构。

forms

形态

In biology, the term 'forms' often refers to various somatic configurations.

在生物学中,术语'形态'通常指各种体型配置。

反义词

mind

心智

The mind is a powerful tool for creativity.

心智是创造力的强大工具。

spirit

精神

She felt her spirit lift after the good news.

她在听到好消息后感到精神振奋。

例句

1.Behind the colorful somata in the foreground, a pattern of light and dark in the background suggests anatomical distinctions.

多彩的神经元密质部分位于前景,背景上的明暗模式表明了结构上的差别。

2.Behind the colorful somata in the foreground, a pattern of light and dark in the background suggests anatomical distinctions.

多彩的神经元密质部分位于前景,背景上的明暗模式表明了结构上的差别。

3.In cellular biology, the somata of neurons play a crucial role in processing information.

在细胞生物学中,神经元的细胞体在信息处理上起着至关重要的作用。

4.The size of the somata can vary significantly among different types of neurons.

不同类型神经元的细胞体大小可能会有显著差异。

5.Each neuron has a cell body or somata that contains the nucleus.

每个神经元都有一个细胞体或细胞体,其中包含细胞核。

6.Researchers are examining the somata of various species to understand evolutionary differences.

研究人员正在检查各种物种的细胞体以理解进化差异。

7.The study of human somata reveals much about our biological functions.

对人类体细胞的研究揭示了我们生物功能的许多方面。

作文

In the realm of biology, the term somata refers to the plural form of somatium, which is derived from the Greek word for body. The study of somata is crucial in understanding the structure and function of living organisms. Each somata serves as a fundamental unit of life, encapsulating various cellular processes that contribute to the organism's overall health and functionality.When we examine the somata of different species, we can uncover the fascinating diversity of life forms on our planet. For example, the somata of a single-celled organism is vastly different from that of a multicellular organism like humans. In unicellular organisms, the somata must perform all necessary functions for survival within one cell, including metabolism, reproduction, and response to environmental stimuli. This complexity highlights the incredible adaptability of life at the microscopic level.In contrast, the somata of multicellular organisms are specialized into various types of cells, each with distinct roles. In humans, for instance, we have muscle somata that facilitate movement, nerve somata that transmit signals throughout the body, and epithelial somata that protect internal organs. This specialization allows for greater efficiency and functionality, enabling complex organisms to thrive in diverse environments.Moreover, the study of somata extends beyond mere anatomy; it also encompasses the physiological processes that occur within these structures. For example, understanding how neuronal somata communicate through synapses is vital for unraveling the mysteries of the nervous system. This knowledge has profound implications for medical science, particularly in treating neurological disorders that affect communication between somata.Additionally, advancements in technology have allowed scientists to explore somata at unprecedented levels. Techniques such as microscopy and genetic sequencing have revealed intricate details about the composition and function of somata. These tools have not only enhanced our understanding of basic biological principles but have also paved the way for innovative medical therapies and treatments.In conclusion, the concept of somata plays a pivotal role in the biological sciences. By studying somata, we gain insights into the very essence of life itself, from the simplest single-celled organisms to the most complex multicellular beings. The exploration of somata not only enriches our knowledge of biology but also has practical applications in medicine and biotechnology. As we continue to delve into the mysteries of somata, we uncover the intricacies of life that bind all living organisms together, showcasing the beauty and complexity of the natural world.

在生物学领域,术语somata指的是somatium的复数形式,该词源于希腊语,意为身体。研究somata对于理解生物体的结构和功能至关重要。每个somata作为生命的基本单位,封装了各种细胞过程,这些过程有助于生物体的整体健康和功能。当我们检查不同物种的somata时,我们可以发现地球上生命形式的迷人多样性。例如,单细胞生物的somata与多细胞生物如人类的somata截然不同。在单细胞生物中,somata必须在一个细胞内执行所有必要的生存功能,包括代谢、繁殖和对环境刺激的反应。这种复杂性突显了微观层面生命的惊人适应性。相比之下,多细胞生物的somata被专门化为各种类型的细胞,每种细胞都有独特的角色。例如,在人类中,我们有肌肉somata来促进运动,有神经somata来传递信号,还有上皮somata来保护内部器官。这种专业化使得更高效和功能性成为可能,使复杂的生物体能够在多样的环境中繁荣。此外,somata的研究不仅限于解剖学;它还包括这些结构内发生的生理过程。例如,了解神经somata如何通过突触进行交流,对于揭开神经系统的奥秘至关重要。这一知识对医学科学具有深远的影响,尤其是在治疗影响somata之间沟通的神经系统疾病方面。此外,技术的进步使科学家能够以前所未有的水平探索somata。显微镜和基因测序等技术揭示了关于somata组成和功能的复杂细节。这些工具不仅增强了我们对基本生物学原理的理解,而且为创新医疗疗法和治疗方法铺平了道路。总之,somata的概念在生物科学中发挥着关键作用。通过研究somata,我们获得了对生命本质的洞察,从最简单的单细胞生物到最复杂的多细胞生物。对somata的探索不仅丰富了我们对生物学的知识,而且在医学和生物技术中具有实际应用。随着我们继续深入探讨somata的奥秘,我们揭示了将所有生物体联系在一起的生命复杂性,展示了自然界的美丽和复杂性。