transduction
简明释义
n. [遗] 转导;转换;换能;变频
英英释义
单词用法
信号转导 | |
转导通路 | |
转导机制 | |
转导过程 | |
转导效率 | |
基因转导 |
同义词
反义词
| 传输 | 数据的传输通过不同的通道进行。 | ||
| 接收 | Reception of signals can vary based on environmental factors. | 信号的接收可能会受到环境因素的影响。 |
例句
1.In hyperosmotic stress, the HOG-MAPK pathway regulates the signal transduction and expression of numerous genes for cell survival.
该途径在高渗应激环境下控制信号转导和基因表达,是细胞生存所必需的。
2.These genes were related to cell cycle, immune modulation, lipid metabolism, foam cell formation, and signal transduction.
这些基因涉及细胞周期、免疫调控、脂肪代谢、泡沫细胞形成、信号转导等过程。
3.OBJECTIVE:To explore the role of interleukin-receptor structure, signal transduction and clinical significance.
目的:探讨白细胞介素受体的结构、信号转导及临床意义。
4.Protein tyrosine kinases play an important role in signal transduction pathways in regulating a number of cellular functions.
蛋白质酪氨酸在一系列细胞活动的信号转导途径中起着重要的作用。
5.Signalling cascades consisting of protein kinases play important roles in hormone signal transduction pathways of plants.
蛋白质激酶的磷酸化级联放大系统在激素的信号转导中起重要作用。
6.MAPK cascade pathway can converge extracellular signals and play an important role in signal transduction.
MAPK级联途径,具有信号汇总功能,在信号转导过程中起着重要作用。
7.A fundamental goal in signal transduction study is to understand allosteric communication.
对变构通讯的理解是研究细胞信号转导的一个基本目标。
8.Photoreceptors in the retina are responsible for the transduction of light into electrical signals.
视网膜中的光感受器负责将光转化为电信号的transduction。
9.In the field of neuroscience, transduction refers to the conversion of sensory stimuli into neural signals.
在神经科学领域,transduction指的是将感官刺激转化为神经信号。
10.Biochemical transduction pathways are essential for cellular communication.
生化transduction通路对于细胞间的沟通至关重要。
11.The transduction of mechanical energy into electrical energy is a principle used in microphones.
将机械能转化为电能的transduction原理被用于麦克风中。
12.The process of transduction is critical in the way our bodies perceive sound.
在我们身体感知声音的过程中,transduction是至关重要的。
作文
Transduction is a fascinating concept that can be found in various fields such as biology, physics, and engineering. At its core, transduction (转导) refers to the process of converting one form of energy or signal into another. This process is essential for understanding how organisms interact with their environment, how information is transmitted in technological systems, and how various forms of energy can be harnessed for practical use.In biology, transduction (转导) plays a critical role in cellular communication. For instance, when a hormone binds to a receptor on a cell's surface, it triggers a series of biochemical reactions within the cell. This process allows the cell to respond to external signals, ultimately leading to changes in gene expression or cellular activity. The ability of cells to undergo transduction (转导) is vital for maintaining homeostasis and responding to environmental changes.In the field of physics, transduction (转导) can refer to the conversion of physical energy from one form to another. For example, in a microphone, sound waves are converted into electrical signals through the process of transduction (转导). This electrical signal can then be amplified and transmitted, allowing us to hear sounds from a distance. Similarly, in solar panels, light energy from the sun is converted into electrical energy through photovoltaic transduction (转导), providing a clean and renewable source of power.Engineering also relies heavily on transduction (转导) principles. In control systems, sensors convert physical parameters such as temperature, pressure, or motion into signals that can be processed by computers. This transduction (转导) is crucial for automation and robotics, where accurate measurements are needed to make informed decisions. For example, a thermostat uses transduction (转导) to monitor room temperature and adjust heating or cooling systems accordingly, ensuring a comfortable environment.Furthermore, the concept of transduction (转导) extends beyond scientific disciplines. In communication theory, transduction (转导) can describe the transformation of messages from one medium to another. When we send an email, our thoughts are encoded into digital signals that are transmitted over the internet and decoded by the recipient’s device. This form of transduction (转导) is essential for effective communication in our increasingly digital world.In conclusion, transduction (转导) is a multifaceted concept that underpins many processes in nature and technology. From cellular signaling in biology to energy conversion in engineering, understanding transduction (转导) allows us to appreciate the interconnectedness of various systems. As we continue to explore and innovate, the principles of transduction (转导) will undoubtedly play a pivotal role in shaping our future, whether in healthcare, renewable energy, or communication technologies. By grasping the significance of transduction (转导), we can better understand the mechanisms that drive progress in our world.
转导是一个迷人的概念,可以在生物学、物理学和工程等多个领域中找到。其核心是,transduction (转导) 指的是将一种形式的能量或信号转换为另一种形式的过程。这一过程对于理解生物体如何与环境互动、信息如何在技术系统中传递以及各种形式的能量如何被有效利用至关重要。在生物学中,transduction (转导) 在细胞通信中发挥着关键作用。例如,当一种激素与细胞表面的受体结合时,它会触发细胞内一系列生化反应。这个过程使得细胞能够对外部信号做出反应,最终导致基因表达或细胞活动的变化。细胞能够经历 transduction (转导) 的能力对于维持体内平衡和应对环境变化至关重要。在物理学领域,transduction (转导) 可以指将物理能量从一种形式转换为另一种形式。例如,在麦克风中,声波通过 transduction (转导) 转换为电信号。这个电信号可以被放大并传输,使我们能够在远处听到声音。类似地,在太阳能电池板中,来自太阳的光能通过光伏 transduction (转导) 转换为电能,提供了一种清洁和可再生的能源。工程学也在很大程度上依赖于 transduction (转导) 原理。在控制系统中,传感器将温度、压力或运动等物理参数转换为计算机可以处理的信号。这种 transduction (转导) 对于自动化和机器人技术至关重要,在这些领域中,需要准确的测量来做出明智的决策。例如,恒温器使用 transduction (转导) 来监测房间温度,并相应地调整供暖或制冷系统,以确保舒适的环境。此外,transduction (转导) 的概念超越了科学学科。在通信理论中,transduction (转导) 可以描述信息从一种媒介转变为另一种媒介的过程。当我们发送电子邮件时,我们的思想被编码成数字信号,这些信号通过互联网传输,并被接收者的设备解码。这种形式的 transduction (转导) 对于我们日益数字化的世界中的有效沟通至关重要。总之,transduction (转导) 是一个多面向的概念,支撑着自然和技术中的许多过程。从生物学中的细胞信号传递到工程中的能量转换,理解 transduction (转导) 使我们能够欣赏各种系统之间的相互联系。随着我们不断探索和创新,transduction (转导) 的原理无疑将在塑造我们的未来中发挥关键作用,无论是在医疗、可再生能源还是通信技术方面。通过掌握 transduction (转导) 的重要性,我们可以更好地理解推动我们世界进步的机制。
