granulose

简明释义

英[ˈɡrænjʊˌləʊs]美[ˈɡrænjəˌloʊs]

adj. 由颗粒构成的；含颗粒的；颗粒状的；（表面）粗糙的；高粒度的

英英释义

单词用法

同义词

反义词

例句

1.During logarithmic phase of cultivated ovary granulose cell, experiments were carried out to investigate the genetically procreation toxicity of F-2 toxin and the detoxification of V-E.

采用细胞体外培养的方法，在卵巢颗粒细胞对数生长期，对f - 2毒素的繁殖遗传毒性和V - E对其的解毒作用进行了研究。

2.During logarithmic phase of cultivated ovary granulose cell, experiments were carried out to investigate the genetically procreation toxicity of F-2 toxin and the detoxification of V-E.

采用细胞体外培养的方法，在卵巢颗粒细胞对数生长期，对f - 2毒素的繁殖遗传毒性和V - E对其的解毒作用进行了研究。

3.The Large expanse of granulose grows, does not have the inflammation, but very difficult to retreat.

成片小粒生长，无炎症，但很难退去。

4.Granulose luteal cells were linked hy gap-junction and tight junction.

黄体细胞间以缝隙连接和紧密连接相联系。

5.The scientist observed that the cells had a granulose structure, indicating a high level of protein synthesis.

科学家观察到这些细胞具有颗粒状结构，表明蛋白质合成水平很高。

6.Under the microscope, the granulose appearance of the fungus was strikingly evident.

在显微镜下，这种真菌的颗粒状外观显而易见。

7.The granulose texture of the soil suggested it was rich in organic matter.

土壤的颗粒状质地表明它富含有机物。

8.In histology, a granulose pattern can be indicative of certain pathological conditions.

在组织学中，颗粒状模式可能表明某些病理状态。

9.The granulose layer of the epidermis plays a crucial role in skin hydration.

表皮的颗粒状层在皮肤水分保持中起着关键作用。

作文

In the world of biology, the term granulose refers to a texture or structure that is characterized by the presence of granules. Granules are small particles or grains that can be found in various biological materials, including cells and tissues. Understanding the concept of granulose is essential for students and professionals in fields such as microbiology, histology, and botany. For instance, when examining the cellular composition of certain organisms under a microscope, scientists may encounter cells that exhibit a granulose appearance. This can indicate the presence of specific organelles or inclusions within the cells. For example, some types of bacteria have a granulose structure due to the accumulation of polyphosphate granules, which serve as energy reserves. Similarly, in plant cells, starch granules can create a granulose texture that is crucial for energy storage and metabolism. Moreover, the granulose nature of certain tissues can also provide insights into their function. In the human body, some blood cells, like eosinophils, exhibit a granulose cytoplasm filled with granules that contain enzymes and proteins. These granules play a vital role in the immune response, helping to combat parasitic infections and modulate allergic reactions. The presence of these granulose structures is not just a mere characteristic; it is indicative of the cell's specialized functions and its role in maintaining homeostasis. In addition to cellular biology, the concept of granulose can also extend to the field of geology. Certain rocks and minerals may exhibit a granulose texture, which can provide valuable information about their formation and history. For instance, igneous rocks that have a granulose texture may have formed from the slow cooling of magma, allowing large crystals to develop. This textural feature can help geologists understand the conditions under which the rock was formed and its subsequent geological processes. Furthermore, the study of granulose materials can have practical applications in various industries. In pharmaceuticals, for example, the granulation process is essential for producing medications in a form that is easy to handle and administer. Understanding the properties of granulose substances can aid in the formulation of effective drug delivery systems. Similarly, in the food industry, the texture of granulated ingredients can influence the quality and stability of products, making the study of granulose characteristics important for food scientists. In conclusion, the term granulose encompasses a wide range of meanings across different scientific disciplines. Whether it refers to the granules found within cells, the texture of rocks, or the properties of materials used in various industries, understanding granulose is crucial for advancing knowledge in biology, geology, and beyond. As we continue to explore the complexities of life and the natural world, the significance of granulose structures will undoubtedly remain a focal point of research and discovery. Through this exploration, we can gain a deeper appreciation for the intricate details that define our environment and the organisms that inhabit it.

在生物学的世界中，术语granulose指的是一种特征，由颗粒的存在所表征。颗粒是可以在各种生物材料中找到的小颗粒或颗粒，包括细胞和组织。理解granulose的概念对于微生物学、组织学和植物学等领域的学生和专业人士至关重要。 例如，当科学家在显微镜下检查某些生物体的细胞组成时，可能会遇到表现出granulose外观的细胞。这可能表明细胞内存在特定的细胞器或内含物。例如，某些类型的细菌由于聚集了聚磷酸盐颗粒而具有granulose结构，这些颗粒作为能量储备。类似地，在植物细胞中，淀粉颗粒可以形成一种granulose质地，对于能量储存和代谢至关重要。 此外，某些组织的granulose特性也可以提供有关其功能的见解。在人体中，某些血细胞，如嗜酸性粒细胞，表现出充满颗粒的granulose细胞质，这些颗粒含有酶和蛋白质。这些颗粒在免疫反应中发挥着重要作用，帮助抵御寄生虫感染并调节过敏反应。这些granulose结构的存在不仅仅是一个特征；它指示了细胞的特化功能及其在维持内稳态中的作用。 除了细胞生物学，granulose的概念还可以扩展到地质学领域。某些岩石和矿物可能表现出granulose纹理，这可以提供有关其形成和历史的宝贵信息。例如，具有granulose纹理的火成岩可能是由于岩浆的缓慢冷却而形成，使得大晶体得以发展。这种纹理特征可以帮助地质学家理解岩石形成时的条件及其后续的地质过程。 此外，研究granulose材料在各个行业中也有实际应用。例如，在制药行业，颗粒化过程对以易于处理和施用的形式生产药物至关重要。理解granulose物质的特性可以帮助制定有效的药物递送系统。类似地，在食品行业，颗粒成分的质地可以影响产品的质量和稳定性，因此研究granulose特性对于食品科学家至关重要。 总之，术语granulose在不同科学学科中涵盖了广泛的含义。无论是指细胞内的颗粒、岩石的纹理，还是用于各种行业的材料的特性，理解granulose对于推动生物学、地质学等领域的知识进步至关重要。随着我们继续探索生命和自然世界的复杂性，granulose结构的重要性无疑将继续成为研究和发现的焦点。通过这种探索，我们可以更深刻地欣赏定义我们环境和栖息其中的生物的微妙细节。