biochemical

简明释义

英[ˌbaɪəʊˈkemɪkl]美[ˌbaɪoʊˈkemɪkl]

adj. 生物化学的

n. 生物化学物质

英英释义

单词用法

同义词

反义词

例句

1.For example, breathing through the mouth affects hundreds of biochemical and physiological processes in the human body.

比如，用嘴呼吸影响数百的身体上生理的和生化的过程。

2.Water also plays an important role in biochemical cell reactions and makes them more efficient.

水也发挥了重要作用，在细胞的生化反应，使它们更有效率。

3.Or the laggards may be cooking up some biochemical nest protection.

或是调制用来保护巢穴的生化制品。

4.For example, scientists can search for a biochemical marker that is tied to certain species of algae that live only in ice.

例如，科学家可以借此寻找一个与仅在冰中生存的某些藻类物种相关的生化标记物。

5.Enzymes are highly efficient and specific biochemical catalysts.

酶是高效而专一的生物化学催化剂。

6.Eurosilva should support joint European research on tree diseases and their physiological and biochemical aspects.

Eurosilva应该支持欧洲关于树木疾病及其生理和生化方面的联合研究。

7.Are there different biochemical pathways that could lead to other kinds of life?

有没有其他的生命途径能够产生不同的生命体？

8.Third, it would not dissipate its biochemical effort on non-essential tasks.

第三，它不会在不重要的任务中扩散其生化效应。

9.Rats and humans have similar biochemical pathways.

老鼠和人类有类似的生化途径。

10.The lab focuses on biochemical 生化的 analysis of various compounds.

该实验室专注于对各种化合物的生化的分析。

11.Researchers are investigating the biochemical 生化的 pathways that lead to cancer development.

研究人员正在调查导致癌症发展的生化的途径。

12.The new drug works by targeting specific biochemical 生化的 reactions in the body.

这种新药通过靶向身体中特定的生化的反应来发挥作用。

13.The study of biochemical 生化的 processes is essential for understanding how living organisms function.

研究生化的过程对理解生物体如何运作至关重要。

14.Understanding biochemical 生化的 signals is crucial for developing effective treatments.

理解生化的信号对于开发有效的治疗方法至关重要。

作文

Biochemical processes are fundamental to life, as they encompass the myriad of chemical reactions that occur within living organisms. These processes involve various biomolecules such as proteins, nucleic acids, carbohydrates, and lipids. Understanding these reactions is crucial for fields such as medicine, environmental science, and biotechnology. For instance, the study of enzymes, which are biological catalysts, falls under the realm of biochemical (生化的) research. Enzymes speed up chemical reactions in the body, allowing for vital processes like digestion and metabolism to occur efficiently.In the field of medicine, biochemical (生化的) research has led to significant advancements in understanding diseases. Many illnesses, including cancer and diabetes, can be traced back to disruptions in normal biochemical (生化的) pathways. By studying these pathways, scientists can develop targeted therapies that aim to correct the underlying issues. For example, the development of insulin therapy for diabetes patients is rooted in our understanding of biochemical (生化的) signaling pathways that regulate blood sugar levels.Moreover, environmental science heavily relies on biochemical (生化的) principles to understand ecosystems and the impact of pollutants. Bioremediation, a process that uses microorganisms to degrade environmental contaminants, is an excellent example of applying biochemical (生化的) knowledge to solve real-world problems. By harnessing the natural capabilities of these organisms, we can effectively clean up oil spills or heavy metal contamination in soils.In biotechnology, the manipulation of biochemical (生化的) processes has revolutionized how we produce food, medicines, and other essential products. Genetic engineering techniques, such as CRISPR, allow scientists to edit the genomes of organisms, thereby altering their biochemical (生化的) pathways to enhance desirable traits. This has immense implications for agriculture, where crops can be engineered to resist pests or tolerate harsh environmental conditions, ultimately leading to increased food security.Furthermore, the field of pharmacology is deeply intertwined with biochemical (生化的) studies. The development of new drugs often starts with understanding the biochemical (生化的) interactions between potential medications and their targets in the body. This knowledge is essential for creating effective treatments with minimal side effects. For instance, the design of selective serotonin reuptake inhibitors (SSRIs), commonly used to treat depression, is based on a thorough understanding of the biochemical (生化的) mechanisms of neurotransmitters in the brain.In conclusion, biochemical (生化的) processes are integral to life and play a crucial role in various scientific fields. From medicine to environmental science and biotechnology, the understanding of biochemical (生化的) reactions allows us to address complex challenges and improve the quality of life. As we continue to explore the intricacies of these processes, the potential for innovation and discovery in science remains vast and promising.