plasmatic
简明释义
血浆的;原生质的
英英释义
Relating to or resembling plasma, especially in a biological context. | 与血浆相关或类似,特别是在生物学上下文中。 |
Characterized by a fluid or semi-fluid state; capable of flowing or being shaped. | 具有流体或半流体状态的特征;能够流动或被塑形。 |
单词用法
等离子态 | |
等离子液 | |
细胞膜 | |
等离子转化 |
同义词
反义词
| 固体的 | The solid structure of the building can withstand strong winds. | 建筑物的固体结构能够承受强风。 | |
| 坚硬的 | The rigid rules of the organization leave little room for flexibility. | 该组织的严格规则几乎没有灵活性。 |
例句
1.But of the different strength, of different strength and density of the strength of the plasmatic gravitational field.
不同的只是磁引力场的场体强度、密度的不同。
2.Because now his wish as a plasma as a factor on the environment of the representation too. Wish, desire is plasmatic gravitational and magnetical. this is the difference.
因为现在他的意愿就像等离子体,就像展现出来的环境其中的一个因素。想法和愿望就是等离子性的斥引力场。这就是不同的地方。
3.I will show you how to satisfy the hunger through plasmatic fields; this is important for us because now we can extend the knowledge to the point that there is no need for food as such.
我将给你们展示如何利用等离子场来充饥,这多我们来说是很重要的,因为现在我们能够扩展这个知识到这一点,那就是其实本来不需要食物。
4.This cosmic event will send a wave of positive energy towards the plasmatic Tunnels of Set around the surface of this planet and will be a trigger for their transformation.
这场天文盛事将会传送一道正面能量波到地表周围的赛特隧道,促使这些量子奇点虫洞开始转化。 总而言之,我们可以预料在接下来的一周,光明势力将会非常地活跃。
5.Now our biggest job is trying to teach you that now you have come to the plasmatic condition of the fields and how easy it will be to go from bottom to top and now you are on the top.
凯史:现在我们最大的工作是尝试去教会你们,现在你来到场体的等离子态条件,它如何容易地从下至上,现在你在顶部。
6.In Space, there is one environment only, and that is only magnetic plasmatic gravitational magnetic field.
在太空中,只有一种环境,那就是磁引力场场体环境。
7.I will show you how to satisfy the hunger through plasmatic fields; this is important for us because now we can extend the knowledge to the point that there is no need for food as such.
我将给你们展示如何利用等离子场来充饥,这多我们来说是很重要的,因为现在我们能够扩展这个知识到这一点,那就是其实本来不需要食物。
8.Now in the plasmatic condition, we create a plasmatic barrier, gravitational magnetic field barrier against another.
现在在等离子体条件下,我们创造了一个等离子壁垒,一个磁引力场的壁垒。
9.CONCLUSION: Bullet's pressure wave may activate phosphatidylinositol metabolism, which may trigger the injury to the endothelial cells and lead to leakage of plasmatic LDH.
结论:枪弹压力波可激活血管内皮细胞磷酸肌醇代谢,进而导致细胞损伤、LDH泄漏。
10.Many areas are now getting a minor preview of these events now because of the plasmatic electromagnetic connection between the planets.
许多地区现在接到了现在因为血浆行星之间的电磁连接这些事件轻微预览。
11.She explained how plasmatic 浆液的 interactions can affect cellular communication.
她解释了plasmatic 浆液的相互作用如何影响细胞间的通信。
12.The plasmatic 浆液的 nature of the solution allows for better nutrient absorption in plants.
该溶液的plasmatic 浆液的特性使植物更好地吸收养分。
13.In the laboratory, they observed the plasmatic 浆液的 behavior of proteins under various conditions.
在实验室中,他们观察了蛋白质在不同条件下的plasmatic 浆液的行为。
14.The researcher studied the plasmatic 浆液的 properties of the cell membrane.
研究人员研究了细胞膜的plasmatic 浆液的特性。
15.The artist used plasmatic 浆液的 effects in her painting to create a sense of movement.
这位艺术家在她的画作中使用了plasmatic 浆液的效果,以创造一种运动感。
作文
In the realm of biology, the term plasmatic refers to anything related to the cytoplasm of a cell, which is the gel-like substance that fills the interior of a cell and surrounds the organelles. Understanding the concept of plasmatic materials is crucial for students and professionals in the life sciences because it plays a vital role in cellular function and health. The cytoplasm is not merely a passive filler; it is a dynamic environment where numerous biochemical processes occur, and it provides structural support to the cell. The plasmatic nature of the cytoplasm allows it to facilitate the movement of nutrients, waste products, and other molecules necessary for cellular operations. For instance, enzymes and substrates can diffuse through the plasmatic medium to reach their targets, enabling metabolic reactions to take place efficiently. This fluidity is essential for cellular respiration, protein synthesis, and various signaling pathways that govern cell behavior. Moreover, the plasmatic environment is influenced by several factors, including temperature, pH levels, and the concentration of ions. These factors can affect the viscosity and overall properties of the cytoplasm, which in turn can impact how well cells function. For example, if the cytoplasm becomes too viscous due to high temperatures or other stressors, it can hinder the mobility of organelles and disrupt normal cellular activities. Therefore, maintaining an optimal plasmatic condition is critical for cell survival and function. In addition to its biological significance, the concept of plasmatic also has implications in various fields of research and technology. For instance, in the field of biochemistry, understanding the plasmatic properties of cellular components can lead to advancements in drug delivery systems. By designing nanoparticles that can navigate through the plasmatic environment of cells, scientists can improve the efficacy of therapeutic agents and minimize side effects. Furthermore, the study of plasmatic phenomena extends beyond the microscopic world. In materials science, researchers are exploring the properties of plasmatic materials to develop new technologies, such as bio-compatible materials for implants or regenerative medicine applications. The ability to manipulate the plasmatic characteristics of these materials could revolutionize how we approach tissue engineering and repair. In conclusion, the term plasmatic encompasses a wide range of concepts that are fundamental to our understanding of biology and its applications. From the intricate workings of cellular processes to innovative advancements in technology, the plasmatic nature of substances plays a pivotal role. As we continue to explore the depths of cellular biology and its implications, the importance of grasping the meaning and significance of plasmatic cannot be overstated. It is a reminder of the complexity and interconnectedness of life at the cellular level, and how this knowledge can lead to meaningful advancements in science and medicine.
在生物学领域,术语plasmatic指的是与细胞的细胞质相关的任何事物,细胞质是填充细胞内部并包围细胞器的凝胶状物质。理解plasmatic材料的概念对生命科学的学生和专业人士至关重要,因为它在细胞功能和健康中发挥着重要作用。细胞质不仅仅是一个被动的填充物;它是一个动态环境,许多生化过程在此进行,并为细胞提供结构支持。plasmatic细胞质的特性使其能够促进营养物质、废物和其他分子的移动,这些都是细胞操作所必需的。例如,酶和底物可以通过plasmatic介质扩散到达其目标,从而使代谢反应得以高效进行。这种流动性对于细胞呼吸、蛋白质合成以及调控细胞行为的各种信号通路至关重要。此外,plasmatic环境受到多个因素的影响,包括温度、pH值和离子的浓度。这些因素会影响细胞质的粘度和整体特性,进而影响细胞的正常功能。例如,如果细胞质由于高温或其他压力变得过于粘稠,它可能会阻碍细胞器的运动并破坏正常的细胞活动。因此,维持最佳的plasmatic条件对于细胞的生存和功能至关重要。除了生物学意义外,plasmatic的概念在各种研究和技术领域也具有重要意义。例如,在生物化学领域,理解细胞成分的plasmatic特性可以推动药物递送系统的进步。通过设计能够在细胞的plasmatic环境中导航的纳米颗粒,科学家可以提高治疗剂的疗效并最小化副作用。此外,plasmatic现象的研究超越了微观世界。在材料科学中,研究人员正在探索plasmatic材料的特性,以开发新技术,例如用于植入物或再生医学应用的生物相容材料。操纵这些材料的plasmatic特性将可能彻底改变我们对组织工程和修复的处理方式。总之,术语plasmatic涵盖了一系列对我们理解生物学及其应用至关重要的概念。从细胞过程复杂的运作到技术创新的进步,物质的plasmatic特性发挥着关键作用。随着我们继续探索细胞生物学的深度及其影响,掌握plasmatic的含义和重要性不可低估。它提醒我们细胞层面生命的复杂性和相互联系,以及这一知识如何导致科学和医学的重大进展。
