biochip
简明释义
n. 生物芯片;生物集成电路片
英英释义
单词用法
DNA生物芯片 | |
蛋白质生物芯片 | |
微阵列生物芯片 | |
生物芯片分析 | |
开发生物芯片 | |
生物芯片技术 | |
生物芯片应用 | |
生物芯片制造 |
同义词
| 微阵列 | Microarrays are commonly used for gene expression profiling. | 微阵列通常用于基因表达谱分析。 | |
| 芯片实验室 | Lab-on-a-chip technology allows for miniaturized biological experiments. | 芯片实验室技术允许进行微型生物实验。 | |
| DNA 芯片 | DNA 芯片促进了对遗传变异的研究。 |
反义词
| 宏芯片 | 宏芯片用于大规模数据处理。 | ||
| 模拟芯片 | 模拟芯片常用于音频设备。 |
例句
1.Objective To evaluate the diagnostic values of multi tumor marker protein biochip detective system for primary hepatic cancer.
目的研究多种肿瘤标记物蛋白芯片检测系统对原发性肝癌的诊断价值。
2.This paper mainly presents the embedded system software design of the BS AS (Biochip Scan and Analysis system).
本文主要讨论生物芯片扫描分析系统的嵌入式系统软件设计。
3.Conclusion: Protein biochip technology has unique advantages in using of testing food pathogenic microbe and it can be widely used in this area.
结论:蛋白质芯片技术应用于食品致病菌检测有独特优势,定会在此领域获得广泛应用。
4.Conclusion the stability and accuracy of the biochip testing can be ensured and provided testing efficiency.
结论:提高了生物芯片的检测效率,确保了生物芯片检测的稳定性和准确性。
5.Based on MEMS technology and electrochemical detecting principle of bio-enzyme catalysis, one biochip has been developed.
基于生物酶催化的电化学电流检测原理对人体血液生化参数进行测试。
6.The usage of integrated PCR biochip makes PCR technology more convenient, high-efficiency, reliable, decreased cost in manufacture.
集成化的PCR生物芯片使得该项技术应用更加方便快捷、高效可靠、降低成本。
7.As a new micro-analysis technology, biochip has become one of research hot spots.
生物芯片技术是一种全新微量分析技术,目前已经成为研究的热点之一。
8.The biochip 生物芯片 can be used for personalized medicine by analyzing individual responses to drugs.
该biochip 生物芯片可以通过分析个体对药物的反应来用于个性化医疗。
9.Using a biochip 生物芯片, scientists can monitor environmental changes in real-time.
科学家们可以使用biochip 生物芯片实时监测环境变化。
10.The new biochip 生物芯片 technology can analyze genetic information quickly.
新的biochip 生物芯片技术可以快速分析遗传信息。
11.Researchers are developing a biochip 生物芯片 to detect diseases at an early stage.
研究人员正在开发一种biochip 生物芯片,以便在早期阶段检测疾病。
12.The healthcare industry is investing in biochip 生物芯片 technology for faster diagnostics.
医疗行业正在投资于biochip 生物芯片技术,以实现更快的诊断。
作文
In recent years, the field of biotechnology has advanced significantly, leading to the development of various innovative tools and technologies. One such technology that has gained considerable attention is the biochip. A biochip (生物芯片) is a miniaturized device that can perform multiple biological reactions simultaneously. It is often used for analyzing genetic material, proteins, or other biomolecules. The potential applications of biochips are vast, ranging from medical diagnostics to environmental monitoring. The primary function of a biochip is to facilitate the rapid analysis of biological samples. For instance, in medical diagnostics, a biochip can be employed to detect specific diseases by analyzing DNA or RNA sequences. This capability allows for early detection of diseases such as cancer, where timely intervention can significantly improve patient outcomes. Moreover, biochips can also be used to monitor genetic predispositions to certain conditions, enabling personalized medicine approaches tailored to individual genetic profiles.Another significant application of biochips is in drug discovery and development. Pharmaceutical companies utilize biochips to screen thousands of compounds quickly, identifying potential candidates for new drugs. By assessing how these compounds interact with biological targets, researchers can streamline the drug development process, making it more efficient and cost-effective. This not only accelerates the time it takes to bring new medications to market but also enhances the likelihood of success by allowing for more targeted therapies.Environmental monitoring is yet another area where biochips play a crucial role. They can be designed to detect pollutants or pathogens in various environments, including water sources and soil. This capability is vital for ensuring public health and safety, as well as for maintaining ecological balance. By providing real-time data on environmental conditions, biochips can help authorities respond quickly to contamination events, thereby minimizing their impact.Despite the numerous advantages that biochips offer, there are also challenges associated with their use. One major concern is the need for standardized protocols to ensure the reliability and reproducibility of results. As biochip technology continues to evolve, it is essential for researchers and practitioners to establish guidelines that will govern their use across different applications. Furthermore, ethical considerations surrounding genetic testing and data privacy must be addressed to protect individuals' rights and maintain public trust in these technologies.In conclusion, the emergence of biochips represents a significant milestone in the realm of biotechnology. Their ability to analyze biological samples rapidly and accurately has far-reaching implications for healthcare, drug development, and environmental monitoring. As research and development in this field continue to advance, it is crucial to navigate the associated challenges carefully. By doing so, we can harness the full potential of biochips to improve human health and safeguard our environment for future generations.
近年来,生物技术领域显著发展,催生了多种创新工具和技术。其中引起广泛关注的技术之一是生物芯片。生物芯片(biochip)是一种微型化设备,可以同时执行多种生物反应。它通常用于分析遗传物质、蛋白质或其他生物分子。生物芯片的潜在应用广泛,从医学诊断到环境监测。生物芯片的主要功能是促进生物样本的快速分析。例如,在医学诊断中,可以使用生物芯片检测特定疾病,通过分析DNA或RNA序列。这一能力使得能够早期发现癌症等疾病,在及时干预的情况下显著改善患者的预后。此外,生物芯片还可以用于监测某些疾病的遗传倾向,支持个性化医疗方法,根据个体的基因特征量身定制治疗方案。生物芯片的另一个重要应用是在药物发现和开发中。制药公司利用生物芯片快速筛选数千种化合物,识别潜在的新药候选者。通过评估这些化合物与生物靶点的相互作用,研究人员可以简化药物开发过程,使其更加高效和经济。这不仅加速了新药上市的时间,而且通过允许更具针对性的疗法,提高了成功的可能性。环境监测是生物芯片发挥重要作用的另一个领域。它们可以被设计用来检测各种环境中的污染物或病原体,包括水源和土壤。这一能力对于确保公共健康和安全,以及维护生态平衡至关重要。通过提供实时的环境条件数据,生物芯片可以帮助当局迅速应对污染事件,从而将其影响降到最低。尽管生物芯片提供了众多优势,但其使用也面临挑战。一项主要问题是需要标准化的协议,以确保结果的可靠性和可重复性。随着生物芯片技术的持续发展,研究人员和从业者必须建立指导方针,规范其在不同应用中的使用。此外,围绕基因检测和数据隐私的伦理考量必须得到解决,以保护个人权利并维护公众对这些技术的信任。总之,生物芯片的出现标志着生物技术领域的重大里程碑。它们快速准确分析生物样本的能力,对医疗保健、药物开发和环境监测具有深远的影响。随着该领域的研究和发展不断推进,谨慎应对相关挑战至关重要。通过这样做,我们可以充分利用生物芯片的潜力,以提高人类健康,并为未来世代保护我们的环境。
