oxysome
简明释义
n. 氧化粒,氧化体
英英释义
A structure within a cell that is involved in the production of energy, particularly through oxidative phosphorylation. | 细胞内的一种结构,参与能量的产生,特别是通过氧化磷酸化过程。 |
单词用法
同义词
反义词
例句
1.Starting from the cause analysis of oxysome magnetic shoe's cracking of permanent magnet, this paper puts forward some countermeasures of solving this problem.
文章从永磁铁氧体磁瓦开裂的几个方面原因分析入手,提出了解决问题的对策。
2.Starting from the cause analysis of oxysome magnetic shoe's cracking of permanent magnet, this paper puts forward some countermeasures of solving this problem.
文章从永磁铁氧体磁瓦开裂的几个方面原因分析入手,提出了解决问题的对策。
3.The research team discovered that the presence of oxysome 氧体 enhances cellular respiration in certain bacteria.
研究团队发现,oxysome 氧体 的存在增强了某些细菌的细胞呼吸。
4.In the lab, we observed how oxysome 氧体 interacts with other organelles during photosynthesis.
在实验室中,我们观察到 oxysome 氧体 在光合作用过程中与其他细胞器的相互作用。
5.Scientists are studying the role of oxysome 氧体 in energy production within plant cells.
科学家正在研究 oxysome 氧体 在植物细胞能量生产中的作用。
6.The mutation in the gene responsible for oxysome 氧体 formation led to significant metabolic changes.
负责 oxysome 氧体 形成的基因突变导致了显著的代谢变化。
7.Understanding the function of oxysome 氧体 could lead to advancements in bioengineering.
理解 oxysome 氧体 的功能可能会推动生物工程的进步。
作文
In the world of biology, understanding cellular structures is crucial for grasping the complexities of life. One such structure that has garnered attention in recent studies is the oxysome, a fascinating component found within certain cells. The term oxysome refers to a specific type of organelle that plays a vital role in cellular respiration and energy production. It is often associated with the mitochondria, the powerhouse of the cell, but has distinct functions and characteristics that set it apart. The discovery of the oxysome has opened new avenues for research, particularly in the fields of bioenergetics and metabolism. Scientists have identified that oxysomes are involved in the oxidative phosphorylation process, which is essential for the conversion of nutrients into usable energy. This process not only sustains cellular functions but also supports overall organismal health. One of the most intriguing aspects of oxysomes is their ability to adapt to varying metabolic demands. For instance, during times of increased energy expenditure, such as exercise or stress, the number of oxysomes within cells can increase, enhancing the cell's capacity to produce ATP, the energy currency of the cell. Conversely, during periods of rest, the number of oxysomes may decrease, allowing the cell to conserve resources. Researchers are particularly interested in how oxysomes communicate with other organelles, such as the endoplasmic reticulum and lysosomes. This inter-organelle communication is critical for maintaining cellular homeostasis and ensuring that energy production is aligned with the cell's needs. Disruptions in this communication can lead to metabolic disorders, highlighting the importance of oxysomes in maintaining health. Moreover, the study of oxysomes has implications for understanding various diseases. For example, conditions such as diabetes and obesity are linked to mitochondrial dysfunction, and by extension, may involve oxysomal abnormalities. By exploring the role of oxysomes in these diseases, scientists hope to develop targeted therapies that can restore normal function and improve patient outcomes. In conclusion, the oxysome is a remarkable organelle that plays a crucial role in cellular energy production and metabolism. Its ability to adapt to changing energy demands and communicate with other cellular structures makes it a key player in maintaining cellular health. As research continues to unravel the mysteries of oxysomes, we may uncover new insights into the fundamental processes of life and the potential for innovative treatments for metabolic diseases. The ongoing exploration of oxysomes not only enhances our understanding of cell biology but also paves the way for advancements in medical science, ultimately contributing to better health outcomes for all.
在生物学的世界中,理解细胞结构对于掌握生命的复杂性至关重要。一个在最近研究中引起关注的结构是oxysome,这是某些细胞内发现的一个迷人的组成部分。术语oxysome指的是一种特定类型的细胞器,在细胞呼吸和能量生产中起着至关重要的作用。它通常与线粒体相关,线粒体被称为细胞的动力源,但具有独特的功能和特征,使其与众不同。 oxysome的发现为生物能量学和新陈代谢等领域的研究开辟了新的途径。科学家们已经确认,oxysome参与氧化磷酸化过程,这对于将营养物质转化为可用能量至关重要。这个过程不仅维持细胞功能,还支持整体生物体的健康。 oxysome最引人入胜的方面之一是它们能够适应不同的代谢需求。例如,在运动或压力等能量消耗增加的时期,细胞内的oxysome数量可以增加,从而增强细胞产生ATP(细胞的能量货币)的能力。相反,在休息期间,oxysome的数量可能会减少,使细胞能够节省资源。 研究人员特别感兴趣的是oxysome如何与其他细胞器(如内质网和溶酶体)进行沟通。这种细胞器间的沟通对维持细胞稳态至关重要,并确保能量生产与细胞的需求保持一致。这种沟通的中断可能导致代谢障碍,突显了oxysome在维持健康中的重要性。 此外,对oxysome的研究对理解各种疾病也有重要意义。例如,糖尿病和肥胖等疾病与线粒体功能障碍有关,因此可能涉及oxysome的异常。通过探索oxysome在这些疾病中的作用,科学家希望开发出针对性的治疗方法,能够恢复正常功能并改善患者的预后。 总之,oxysome是一个非凡的细胞器,在细胞能量生产和新陈代谢中发挥着至关重要的作用。它适应变化的能量需求并与其他细胞结构进行沟通的能力,使其成为维持细胞健康的关键角色。随着研究继续揭示oxysome的奥秘,我们可能会发现生命基本过程的新见解以及对代谢疾病的创新治疗潜力。对oxysome的持续探索不仅增强了我们对细胞生物学的理解,还为医学科学的进步铺平了道路,最终为所有人带来更好的健康结果。
文章标题:oxysome的意思是什么
文章链接:https://www.liuxue886.cn/danci/435400.html
本站文章均为原创,未经授权请勿用于任何商业用途
发表评论