oxyphilic

简明释义

英[ˌɒksɪˈfɪlɪk]美[ɑːksɪˈfɪlɪk]

嗜酸性的

英英释义

单词用法

同义词

反义词

例句

1.Objective to observe the pathologic feature of oxyphilic cell adenoma of the thyroid and combined with reviewing the document to inquiry into its quality, origin and function.

目的观察甲状腺嗜酸细胞腺瘤的病理学特点并结合文献探讨其性质、起源和功能。

2.An increased number of mitochondrion-rich cells in oxyphilic adenoma might be related to the abnormal mitochon drial DNA.

至于嗜酸性细胞腺瘤中的线粒体和细胞的增生，可能与不正常的线粒体DNA有关。

3.The oxyphilic cells in a variety of thyroid diseases are frequently observed.

嗜酸性细胞常见于各种不同的甲状腺疾病。

4.Objective to observe the pathologic feature of oxyphilic cell adenoma of the thyroid and combined with reviewing the document to inquiry into its quality, origin and function.

目的观察甲状腺嗜酸细胞腺瘤的病理学特点并结合文献探讨其性质、起源和功能。

5.The term oxyphilic refers to cells that have an affinity for oxygen and can be found in various tissues.

术语oxyphilic指的是对氧有亲和力的细胞，可以在各种组织中找到。

6.The presence of oxyphilic cells in the thyroid gland is indicative of certain hormonal activities.

甲状腺中存在的oxyphilic细胞表明某些激素活动。

7.Research has shown that oxyphilic cells may play a role in metabolic processes.

研究表明，oxyphilic细胞可能在代谢过程中发挥作用。

8.In histology, oxyphilic cells are often stained to highlight their characteristics under a microscope.

在组织学中，oxyphilic细胞通常被染色以突出其在显微镜下的特征。

9.Some tumors exhibit oxyphilic properties, which can influence their behavior and treatment response.

一些肿瘤表现出oxyphilic特性，这可能影响它们的行为和治疗反应。

作文

In the realm of biology, the term oxyphilic refers to cells or tissues that have an affinity for oxygen or react positively in the presence of oxygen. This characteristic is particularly significant in various physiological contexts, where oxygen plays a crucial role in cellular metabolism and energy production. Understanding the concept of oxyphilic cells can shed light on how certain organisms adapt to their environments and optimize their metabolic processes.For instance, consider the human body, which relies heavily on oxygen for survival. The red blood cells are a classic example of oxyphilic entities, as they are specifically designed to transport oxygen from the lungs to various tissues throughout the body. These cells contain hemoglobin, a protein that binds to oxygen molecules, allowing for efficient delivery of oxygen to cells that require it for aerobic respiration. This process is vital for producing adenosine triphosphate (ATP), the energy currency of the cell, which fuels numerous biological functions.Moreover, in the context of plant biology, oxyphilic traits can be observed in certain species that thrive in oxygen-rich environments. Aquatic plants, for example, often exhibit adaptations that enhance their ability to absorb dissolved oxygen from water. These adaptations can include specialized structures like aerenchyma, which facilitate gas exchange and help maintain buoyancy. Such features enable these plants to flourish in habitats where oxygen levels might fluctuate, demonstrating the importance of being oxyphilic in their ecological niches.The significance of oxyphilic organisms extends beyond individual species; it also has implications for entire ecosystems. In aquatic ecosystems, the presence of oxyphilic organisms contributes to the overall health and stability of the environment. For instance, fish and other aquatic animals rely on oxygen produced by photosynthetic algae and plants. If these oxyphilic producers were to decline due to pollution or habitat destruction, the entire food web could be disrupted, leading to negative consequences for all organisms involved.Furthermore, the study of oxyphilic cells has practical applications in medicine and biotechnology. Researchers are exploring ways to enhance the oxygen-carrying capacity of blood substitutes and develop therapies for conditions related to oxygen deficiency, such as chronic obstructive pulmonary disease (COPD) and ischemic heart disease. By understanding the mechanisms behind oxyphilic responses, scientists hope to create innovative solutions to improve health outcomes for individuals suffering from these ailments.In conclusion, the term oxyphilic encompasses a wide range of biological phenomena related to oxygen affinity and utilization. From red blood cells in humans to aquatic plants in ecosystems, the concept of oxyphilic is integral to understanding how life adapts to its environment. As we continue to explore the intricacies of biology, the importance of oxygen and its relationship with oxyphilic organisms will undoubtedly remain a focal point of research and discovery.

在生物学领域，术语oxyphilic指的是对氧有亲和力或在氧存在下积极反应的细胞或组织。这一特性在各种生理背景中尤为重要，因为氧在细胞代谢和能量生产中发挥着关键作用。理解oxyphilic细胞的概念可以阐明某些生物如何适应其环境并优化其代谢过程。例如，考虑人体，它在生存中严重依赖氧气。红血球是oxyphilic实体的经典例子，因为它们专门设计用于将氧气从肺部运输到身体各个组织。这些细胞含有血红蛋白，这是一种与氧分子结合的蛋白质，从而实现氧气的有效输送，使细胞能够进行有氧呼吸。这个过程对产生三磷酸腺苷（ATP）至关重要，ATP是细胞的能源货币，驱动众多生物功能。此外，在植物生物学的背景下，可以观察到某些物种在富氧环境中繁荣生长的oxyphilic特征。例如，水生植物通常表现出增强其从水中吸收溶解氧能力的适应性。这些适应性可能包括特殊结构，如通气组织，有助于气体交换并维持浮力。这些特征使这些植物能够在氧气水平可能波动的栖息地中繁荣生长，展示了在其生态位中成为oxyphilic的重要性。oxyphilic生物的重要性不仅限于单个物种；它还对整个生态系统具有影响。在水生生态系统中，oxyphilic生物的存在有助于环境的整体健康和稳定。例如，鱼类和其他水生动物依赖于光合藻类和植物产生的氧气。如果这些oxyphilic生产者因污染或栖息地破坏而减少，整个食物网可能会被破坏，导致所有相关生物产生负面后果。此外，研究oxyphilic细胞在医学和生物技术方面具有实际应用。研究人员正在探索增强血液替代品的氧气运输能力的方法，并开发用于治疗与缺氧相关的疾病的疗法，例如慢性阻塞性肺病（COPD）和缺血性心脏病。通过理解oxyphilic反应背后的机制，科学家希望创造创新解决方案，以改善这些疾病患者的健康结果。总之，术语oxyphilic涵盖了与氧亲和力和利用相关的广泛生物现象。从人类的红血球到生态系统中的水生植物，oxyphilic的概念对于理解生命如何适应其环境至关重要。随着我们继续探索生物学的复杂性，氧气及其与oxyphilic生物之间的关系无疑将继续成为研究和发现的重点。