biochemistry

简明释义

英[ˌbaɪəʊˈkemɪstri]美[ˌbaɪoʊˈkemɪstri]

n. 生物化学；生物化学过程；生物的化学结构和特性

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英英释义

单词用法

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例句

1.Originally, we were hypothesizing that humans working together with computers could solve biochemistry problems that neither could alone.

最初，我们假设人机合作可以解决那些从未解决的生物化学问题。

2.These studies cover from large data to biochemistry, new energy to the robot and other high-tech fields.

这些研究涵盖了从大数据到生物化学，从新能源到机器人等高科技领域。

3.Nature published an extract from his biochemistry Ph.D. thesis — on synthetic RNA.

《自然》杂志曾刊登过他那篇关于“人工RNA”的生化博士论文摘要。

4.This would be a feat, mixing design, engineering and biochemistry and microbiology.

这一计划融合了设计、工程学、生物化学与微生物学，会成为一项壮举。

5.'I thought there'd be a plaque or something, ' said Mr. Stringer, a 20-year-old biochemistry student from Seattle.

20岁的斯金格来自西雅图，学习生物化学，他说，我以为会有个铭牌什么的。

6.The study has been published in the most recent issue of the journal Pharmacology Biochemistry and Behavior.

这项研究最近已发表在杂志《药物学，生物化学及行为学》。

7.Courses in biochemistry 生物化学 are crucial for students pursuing a career in health sciences.

对于追求健康科学职业的学生来说，生物化学课程是至关重要的。

8.Understanding biochemistry 生物化学 is essential for developing new drugs.

理解生物化学对开发新药至关重要。

9.The lab focuses on the biochemistry 生物化学 of cancer cells.

该实验室专注于癌细胞的生物化学。

10.She decided to major in biochemistry 生物化学 because of her interest in genetic engineering.

由于对基因工程的兴趣，她决定主修生物化学。

11.The study of biochemistry 生物化学 has led to many advancements in medicine.

对生物化学的研究促进了医学的许多进步。

作文

Biochemistry is a fascinating field that merges biology and chemistry to explore the chemical processes within and related to living organisms. This interdisciplinary science plays a crucial role in understanding how biological molecules give rise to the processes that occur within cells and tissues. The study of biochemistry (生物化学) is essential for many areas of research, including medicine, genetics, and molecular biology.One of the key components of biochemistry (生物化学) is the investigation of proteins, which are vital macromolecules that perform a wide array of functions in living organisms. Proteins are made up of amino acids, and their structure determines their function. By studying the structure and function of proteins, biochemists can gain insights into how diseases develop and how they can be treated. For instance, understanding the biochemical pathways involved in cancer can lead to the development of targeted therapies that specifically attack cancer cells while sparing healthy ones.Another important aspect of biochemistry (生物化学) is the study of nucleic acids, such as DNA and RNA. These molecules are essential for the storage and transmission of genetic information. Advances in biochemistry (生物化学) have led to revolutionary techniques like CRISPR, which allows scientists to edit genes with unprecedented precision. This has opened up new possibilities in fields ranging from agriculture to medicine, where gene therapy could potentially cure genetic disorders.Furthermore, biochemistry (生物化学) also encompasses the study of metabolic pathways, which are the series of chemical reactions that occur within a cell. Understanding metabolism is crucial for comprehending how organisms convert food into energy and how various factors, such as diet and exercise, influence health. For example, the study of metabolic disorders, such as diabetes, has highlighted the importance of regulating blood sugar levels and has led to the development of effective treatments.In addition to its applications in health and medicine, biochemistry (生物化学) has significant implications in environmental science and biotechnology. Biochemists are exploring ways to utilize microorganisms for bioremediation, which involves using living organisms to clean up contaminated environments. This not only helps restore ecosystems but also offers sustainable solutions to pollution problems.The future of biochemistry (生物化学) is incredibly promising, with ongoing research continuously uncovering new knowledge about the molecular mechanisms of life. As technology advances, tools such as mass spectrometry and nuclear magnetic resonance (NMR) spectroscopy are providing deeper insights into the complex interactions that govern biological systems. This will undoubtedly lead to groundbreaking discoveries that could transform our understanding of life itself.In conclusion, biochemistry (生物化学) is a vital field that bridges the gap between biology and chemistry, offering profound insights into the molecular basis of life. Its applications are vast and varied, impacting health, medicine, environmental science, and biotechnology. As we continue to explore the intricate world of biochemistry (生物化学), we open doors to new possibilities that can enhance our quality of life and address some of the most pressing challenges facing humanity today.

生物化学是一个迷人的领域，它将生物学和化学结合在一起，探索生物体内及相关的化学过程。这一跨学科科学在理解生物分子如何导致细胞和组织内发生的过程方面起着至关重要的作用。生物化学（biochemistry）的研究对医学、遗传学和分子生物学等许多研究领域至关重要。生物化学（biochemistry）的一个关键组成部分是对蛋白质的研究，蛋白质是执行各种功能的重要大分子。蛋白质由氨基酸构成，其结构决定了其功能。通过研究蛋白质的结构和功能，生物化学家可以深入了解疾病的发展及其治疗方法。例如，理解癌症相关的生化途径可以促进针对性疗法的发展，这些疗法专门攻击癌细胞，而不损害健康细胞。生物化学（biochemistry）的另一个重要方面是对核酸的研究，如DNA和RNA。这些分子对于遗传信息的存储和传递至关重要。生物化学（biochemistry）的进步催生了革命性的技术，如CRISPR，这使科学家能够以前所未有的精确度编辑基因。这为农业和医学等领域开辟了新的可能性，其中基因治疗可能治愈遗传疾病。此外，生物化学（biochemistry）还包括代谢途径的研究，即细胞内发生的一系列化学反应。理解代谢对理解生物体如何将食物转化为能量，以及饮食和运动等各种因素如何影响健康至关重要。例如，对代谢疾病（如糖尿病）的研究突显了调节血糖水平的重要性，并促成了有效治疗方法的发展。除了在健康和医学方面的应用外，生物化学（biochemistry）在环境科学和生物技术方面也具有重要意义。生物化学家正在探索利用微生物进行生物修复的方法，即使用生物体清理污染环境。这不仅有助于恢复生态系统，还为污染问题提供了可持续解决方案。生物化学（biochemistry）的未来极具前景，持续的研究不断揭示生命分子机制的新知识。随着技术的进步，质谱和核磁共振（NMR）光谱等工具正在深入了解支配生物系统的复杂相互作用。这无疑将导致突破性的发现，可能改变我们对生命本质的理解。总之，生物化学（biochemistry）是一个重要的领域，它弥合了生物学和化学之间的差距，提供了对生命分子基础的深刻见解。它的应用范围广泛，影响着健康、医学、环境科学和生物技术。随着我们继续探索复杂的生物化学（biochemistry）世界，我们为新可能性打开了大门，这些可能性可以提高我们的生活质量，并解决当今人类面临的一些最紧迫的挑战。