endosarc

简明释义

英[ˈendəʊsɑːk]美[ˈendoˌsɑrk]

n. [无脊椎] 内质

英英释义

单词用法

同义词

反义词

例句

1.Manifests the deep level behind the picture the spiritual endosarc, a lonely soul searches as if in the realistic linguistic environment is belonging to own position.

在画面背后体现深层次的精神内质， 仿佛一个孤独灵魂在现实语境中寻觅着属于自己的位置。

2.Manifests the deep level behind the picture the spiritual endosarc, a lonely soul searches as if in the realistic linguistic environment is belonging to own position.

在画面背后体现深层次的精神内质， 仿佛一个孤独灵魂在现实语境中寻觅着属于自己的位置。

3.Its energetic endosarc, the content theme and even each performance technology progress all is trying the beautiful charm to unfold incisively.

它的精神内质、内容题材乃至表现技术的每一点进步都在力图把美的魅力展现得淋漓尽致。

4.The study of the cell structure revealed that the endosarc 内囊 plays a crucial role in nutrient storage.

细胞结构的研究表明，endosarc 内囊 在营养储存中起着至关重要的作用。

5.In certain algae, the endosarc 内囊 contains pigments that are essential for photosynthesis.

在某些藻类中，endosarc 内囊 含有对光合作用至关重要的色素。

6.Researchers are examining how the composition of the endosarc 内囊 affects cellular metabolism.

研究人员正在检查 endosarc 内囊 的成分如何影响细胞代谢。

7.The endosarc 内囊 is surrounded by a protective layer that helps maintain its integrity.

该 endosarc 内囊 被一层保护膜包围，有助于保持其完整性。

8.During the examination of the organism, the biologist noted the distinct features of the endosarc 内囊.

在对该生物的检查中，生物学家注意到了 endosarc 内囊 的独特特征。

作文

The world of biology is filled with fascinating terms that describe the intricate structures and processes of living organisms. One such term is endosarc, which refers to the inner part of a cell, especially in certain types of algae and other protists. Understanding this term can provide insight into the complexity of cellular structures and their functions. In particular, the endosarc plays a crucial role in the life of these organisms, serving as a site for various metabolic processes. To appreciate the significance of endosarc, one must first grasp the basic structure of a typical eukaryotic cell. Eukaryotic cells are characterized by their membrane-bound organelles, including the nucleus, mitochondria, and chloroplasts. The endosarc is often found within the cytoplasm of these cells, acting as a matrix that supports and houses various organelles. It is essential for maintaining the cell's internal environment and facilitating communication between different cellular components. In algae, for instance, the endosarc is particularly important because it contains chloroplasts, the organelles responsible for photosynthesis. During this process, chloroplasts convert sunlight into chemical energy, which is vital for the survival of the organism. Thus, the health and functionality of the endosarc directly impact the overall efficiency of photosynthesis in algae, highlighting its importance in the ecosystem. Moreover, the endosarc can also be involved in nutrient storage and waste management within the cell. It helps to regulate the concentration of various ions and molecules, ensuring that the cell maintains homeostasis. For example, if an algal cell accumulates excess nutrients, the endosarc can store these until they are needed for growth or reproduction. Conversely, it can also assist in expelling waste products, thereby keeping the cell environment clean and functional. The study of the endosarc is not only limited to algae; it extends to various other microorganisms as well. By examining the differences and similarities in the endosarc across different species, scientists can gain valuable insights into evolutionary adaptations and the diversity of life forms on our planet. For example, some protists have developed unique adaptations in their endosarc that allow them to thrive in extreme environments, such as high salinity or temperature. Understanding these adaptations can inform research in fields such as ecology, evolution, and even biotechnology. In conclusion, the term endosarc encapsulates a fundamental aspect of cellular biology that is crucial for understanding how cells function and interact with their environment. By studying the endosarc, researchers can uncover the complexities of life at the microscopic level, shedding light on the processes that sustain life on Earth. As we continue to explore the wonders of biology, terms like endosarc remind us of the intricate beauty and functionality of living organisms, encouraging further inquiry and discovery in the field of science.

生物学的世界充满了迷人的术语，这些术语描述了生物体复杂的结构和过程。其中一个这样的术语是endosarc，它指的是细胞的内部部分，特别是在某些类型的藻类和其他原生生物中。理解这个术语可以提供对细胞结构及其功能复杂性的洞察。特别是，endosarc在这些生物的生命中发挥着至关重要的作用，作为各种代谢过程的场所。 要欣赏endosarc的重要性，首先必须掌握典型真核细胞的基本结构。真核细胞的特点是具有膜结合的细胞器，包括细胞核、线粒体和叶绿体。endosarc通常位于这些细胞的细胞质中，充当支持和容纳各种细胞器的基质。它对于维持细胞的内部环境和促进不同细胞组分之间的交流至关重要。 例如，在藻类中，endosarc尤其重要，因为它包含叶绿体，这些细胞器负责光合作用。在这个过程中，叶绿体将阳光转化为化学能，这对生物体的生存至关重要。因此，endosarc的健康和功能直接影响到藻类光合作用的整体效率，突显了它在生态系统中的重要性。 此外，endosarc还可以参与细胞内的营养储存和废物管理。它有助于调节各种离子和分子的浓度，确保细胞维持稳态。例如，如果藻类细胞积累了过多的营养物质，endosarc可以在需要生长或繁殖时储存这些物质。相反，它也可以帮助排出废物，从而保持细胞环境的清洁和功能。 endosarc的研究不仅限于藻类；它还扩展到其他各种微生物。通过检查不同物种之间endosarc的差异和相似之处，科学家可以获得有关进化适应和我们星球上生命形式多样性的宝贵见解。例如，一些原生生物在其endosarc中发展出了独特的适应性，使它们能够在极端环境中生存，如高盐度或温度。理解这些适应性可以为生态学、进化甚至生物技术等领域的研究提供信息。 总之，endosarc这一术语概括了细胞生物学的一个基本方面，对于理解细胞如何功能和与环境互动至关重要。通过研究endosarc，研究人员可以揭示微观层面上生命的复杂性，阐明维持地球生命的过程。当我们继续探索生物学的奇迹时，像endosarc这样的术语提醒我们生物体的复杂美和功能性，鼓励我们在科学领域进一步探究和发现。