bioscience

简明释义

[ˈbaɪəʊsaɪəns][ˈbaɪoʊsaɪəns]

n. 生物科学

英英释义

Bioscience refers to the study of living organisms and their vital processes, encompassing fields such as biology, biochemistry, and biotechnology.

生物科学是指对生物体及其生命过程的研究,包括生物学、生物化学和生物技术等领域。

单词用法

bioscience research

生物科学研究

applied bioscience

应用生物科学

bioscience industry

生物科学产业

advancements in bioscience

生物科学的进展

bioscience and biotechnology

生物科学与生物技术

bioscience education

生物科学教育

同义词

biotechnology

生物技术

Biotechnology is often used in agriculture and medicine to improve crops and develop new drugs.

生物技术通常用于农业和医学,以改善作物和开发新药物。

life sciences

生命科学

Life sciences encompass a wide range of disciplines, including ecology, genetics, and microbiology.

生命科学包括生态学、遗传学和微生物学等多个学科。

biomedicine

生物医学

Biomedicine focuses on the application of biological and physiological principles to clinical practice.

生物医学专注于将生物和生理原则应用于临床实践。

molecular biology

分子生物学

Molecular biology studies the molecular mechanisms that underlie biological processes.

分子生物学研究支配生物过程的分子机制。

反义词

abiology

非生物学

Abiological processes do not involve any living organisms.

非生物过程不涉及任何活生物体。

inorganic science

无机科学

Inorganic science focuses on the study of inorganic compounds.

无机科学专注于无机化合物的研究。

例句

1.The bioreactor that would hold the trachea and incubate it with Beyene's stem cells was created by Harvard Bioscience, near Boston.

位于波士顿附近的哈佛大学生物科学院则负责制造生物反应堆,这台仪器被用于固定这具人造气管并在其上培育贝伊恩的干细胞。

2.Finally i hope to see bioscience education become a priority in American schools.

最后,我希望看到在美国学校生物科学教育成为最优先的教育。

3.Despite some problems, the available software repositories provide needed public access to many tools that are a foundation for analyses in bioscience research efforts.

尽管存在一些问题,可用的软件仓库提供了对很多工具所需的公开访问,这些工具是在生物科学研究工作中分析的一个基础。

4.Millipore (NYSE: MIL) is a Life science leader providing cutting-edge technologies, tools, and services for bioscience research and biopharmaceutical manufacturing.

密理博(纽约证券交易所有:MIL)是生命科学的领导者,提供最尖端的技术,工具和生物科学研究和生物医药制造服务。

5.A bioscience picture is a production blended as well as art and science, It is an important tool in biological research and education.

生物科学画是艺术与科学有机交融的产物,是生物科学研究和教学工作的重要工具。

6.The purpose of the research is to explore the feasibility of applying Learning Cycle Mode in biology experimental teaching to develop bioscience quality.

本研究旨在探究生物实验教学中应用学习环模式提高学生生物科学素养的可行性。

7.The price point is wrong, observes Douglas Fambrough of Oxford Bioscience Partners, a venture-capital firm based in Boston.

牛津大学生物科学研究所合作伙伴,位于波斯顿的一家风险投资公司的道格拉斯•法姆布鲁福评论说,基因测试项目的定价不合理。

8.The number of bioscience jobs, still small, grew 17.2% from 2001 to 2008.

生物科学工作者就业数量从2001年到2008年间增长了17.2%,尽管总量仍旧很小。

9.thus the interface between bioscience and chemistry and its relationship to biotechnology must be broadly interpreted.

这将被广泛滴认为S生物科学和化学滴结合及它与生物技术之间滴关系这个意思。

10.Innovations in bioscience are helping to create new therapies for diseases.

生物科学的创新正在帮助创造新的疾病治疗方法。

11.The field of bioscience is rapidly evolving, leading to new medical breakthroughs.

生物科学领域正在迅速发展,带来了新的医疗突破。

12.Many universities now offer degrees in bioscience to prepare students for careers in healthcare.

许多大学现在提供生物科学学位,以准备学生进入医疗行业。

13.Research in bioscience has contributed significantly to our understanding of genetics.

生物科学的研究对我们理解遗传学做出了重要贡献。

14.The application of bioscience in agriculture can lead to more sustainable farming practices.

生物科学在农业中的应用可以导致更可持续的耕作方式。

作文

In recent years, the field of bioscience has gained immense popularity and significance in various sectors, including healthcare, agriculture, and environmental conservation. Bio科学 is an interdisciplinary branch that combines biology with technology, aiming to understand living organisms and their interactions with the environment. This essay explores the importance of bioscience in today's world, its applications, and the potential it holds for the future.Firstly, bioscience plays a crucial role in advancing medical research and healthcare solutions. With the rapid development of biotechnology, scientists are now able to manipulate genetic materials, leading to breakthroughs in treatments for diseases such as cancer, diabetes, and genetic disorders. For instance, gene therapy, a product of bioscience, allows for the correction of defective genes responsible for disease development. This innovative approach not only improves patient outcomes but also paves the way for personalized medicine, where treatments can be tailored to individual genetic profiles.Moreover, bioscience significantly contributes to agricultural advancements. As the global population continues to rise, there is an increasing demand for food production. Researchers in bioscience are developing genetically modified organisms (GMOs) that are more resistant to pests, diseases, and environmental stresses. These innovations help farmers increase crop yields while minimizing the use of chemical pesticides and fertilizers, promoting sustainable farming practices. Additionally, bioscience aids in the development of biofuels, which provide renewable energy sources and reduce our dependence on fossil fuels.Environmental conservation is another area where bioscience proves invaluable. Scientists utilize bioscience techniques to study ecosystems and biodiversity, helping to address issues such as climate change, habitat destruction, and species extinction. Through the understanding of ecological relationships and the impact of human activities, bioscience informs conservation strategies that aim to protect endangered species and restore damaged habitats. For example, bioremediation, a process that uses microorganisms to clean up contaminated environments, exemplifies how bioscience can contribute to a healthier planet.Furthermore, the ethical implications of bioscience cannot be overlooked. As the field continues to evolve, it raises questions about the manipulation of life forms, the consequences of genetic engineering, and the accessibility of biotechnological advancements. It is essential for scientists, policymakers, and society to engage in discussions surrounding these ethical concerns to ensure that bioscience is applied responsibly and equitably.In conclusion, bioscience is a dynamic and vital field that intersects with various aspects of our lives. Its contributions to healthcare, agriculture, and environmental conservation highlight its significance in addressing some of the most pressing challenges we face today. As we continue to explore the depths of bioscience, it is imperative to balance innovation with ethical considerations, ensuring that the benefits of this scientific discipline are shared by all. The future of bioscience holds great promise, and with continued research and collaboration, we can unlock new possibilities for a healthier and more sustainable world.

近年来,生物科学在医疗保健、农业和环境保护等各个领域获得了极大的关注和重要性。生物科学是一个跨学科的领域,结合了生物学与技术,旨在理解生物体及其与环境的相互作用。本文探讨了生物科学在当今世界的重要性、应用及其未来潜力。首先,生物科学在推动医学研究和医疗解决方案方面发挥着至关重要的作用。随着生物技术的快速发展,科学家们现在能够操控遗传物质,导致了癌症、糖尿病和遗传疾病等疾病治疗的突破。例如,基因疗法是生物科学的产物,允许修正导致疾病发展的缺陷基因。这种创新方法不仅改善了患者的结果,还为个性化医疗铺平了道路,在这种医疗中,治疗可以根据个人的遗传特征量身定制。此外,生物科学对农业进步有着重要贡献。随着全球人口的不断增长,对食品生产的需求也在增加。生物科学的研究人员正在开发对害虫、疾病和环境压力更具抵抗力的转基因生物(GMO)。这些创新帮助农民提高作物产量,同时最小化化学杀虫剂和肥料的使用,促进可持续农业实践。此外,生物科学还帮助开发生物燃料,这提供了可再生能源来源,减少我们对化石燃料的依赖。环境保护是生物科学证明其价值的另一个领域。科学家利用生物科学技术研究生态系统和生物多样性,帮助应对气候变化、栖息地破坏和物种灭绝等问题。通过理解生态关系和人类活动的影响,生物科学为保护濒危物种和恢复受损栖息地提供了信息。例如,生物修复是一种利用微生物清理污染环境的过程,体现了生物科学如何为更健康的地球做出贡献。此外,生物科学的伦理影响不容忽视。随着这一领域的不断发展,它引发了关于生命形式操控、基因工程后果和生物技术进步可获取性的讨论。科学家、政策制定者和社会必须参与围绕这些伦理问题的讨论,以确保生物科学的应用是负责任和公平的。总之,生物科学是一个动态且重要的领域,与我们生活的各个方面相交织。它对医疗保健、农业和环境保护的贡献突显了其在解决我们今天面临的一些最紧迫挑战中的重要性。随着我们继续探索生物科学的深度,平衡创新与伦理考量至关重要,确保这一科学学科的益处惠及所有人。生物科学的未来充满希望,随着持续的研究与合作,我们可以为一个更健康、更可持续的世界解锁新的可能性。