animal biochemistry

简明释义

动物生化学

英英释义

例句

1.The study of animal biochemistry helps us understand metabolic processes in different species.

研究动物生物化学有助于我们理解不同物种的代谢过程。

2.Courses in animal biochemistry are essential for students pursuing veterinary medicine.

学习动物生物化学的课程对攻读兽医学的学生至关重要。

3.Understanding animal biochemistry can lead to better nutritional strategies for pets.

理解动物生物化学可以为宠物提供更好的营养策略。

4.The advancements in animal biochemistry have led to improved breeding techniques.

在动物生物化学方面的进展导致了改进的繁殖技术。

5.Researchers are exploring the role of animal biochemistry in disease resistance among livestock.

研究人员正在探索动物生物化学在家畜抗病能力中的作用。

作文

Animal biochemistry is a fascinating field that explores the chemical processes and substances that occur within living organisms, specifically animals. This branch of science plays a crucial role in understanding how animals function at a molecular level. By studying animal biochemistry (动物生物化学), researchers can uncover the intricate details of metabolism, enzyme activity, and the synthesis of biomolecules such as proteins, lipids, and nucleic acids.One of the primary areas of focus in animal biochemistry (动物生物化学) is metabolism, which refers to the set of life-sustaining chemical reactions in organisms. These metabolic pathways are essential for converting food into energy, building cellular structures, and maintaining homeostasis. For example, the process of glycolysis, where glucose is broken down to produce energy, is a key metabolic pathway that is studied extensively in animal biochemistry (动物生物化学). Understanding these pathways allows scientists to develop better nutritional strategies for animals and even for humans.Another important aspect of animal biochemistry (动物生物化学) is the study of enzymes. Enzymes are biological catalysts that speed up chemical reactions in the body. They play a vital role in digestion, metabolism, and numerous other physiological processes. By examining the structure and function of enzymes, researchers can determine how they work and how they can be manipulated for therapeutic purposes. For instance, enzyme inhibitors are often used in medicine to treat various diseases, including cancer and bacterial infections.Moreover, animal biochemistry (动物生物化学) also involves the study of hormones, which are signaling molecules that regulate various biological processes. Hormones like insulin, adrenaline, and cortisol influence growth, metabolism, and stress responses in animals. By understanding the biochemical pathways involved in hormone action, scientists can develop treatments for hormonal imbalances and related disorders.The significance of animal biochemistry (动物生物化学) extends beyond basic research; it has practical applications in agriculture, medicine, and environmental science. In agriculture, knowledge of animal biochemistry can lead to improved livestock production and health. For example, understanding the nutritional needs of animals at a biochemical level can help farmers formulate better feeds that enhance growth and productivity.In medicine, the insights gained from animal biochemistry (动物生物化学) research contribute to drug development and disease treatment. Many pharmaceuticals are derived from compounds found in animals or are designed to target specific biochemical pathways in the body. This connection highlights the importance of studying animal biochemistry not only for academic purposes but also for its potential to improve human health.Lastly, animal biochemistry (动物生物化学) has implications for environmental conservation. Understanding the biochemical processes that govern animal behavior and physiology can aid in the conservation of endangered species and the management of ecosystems. For instance, knowledge about how certain pollutants affect animal biochemistry can inform strategies to mitigate their impact on wildlife.In conclusion, animal biochemistry (动物生物化学) is a vital area of study that enhances our understanding of the biological processes that sustain life in animals. From metabolism and enzyme function to hormone regulation and practical applications in agriculture and medicine, the insights gained from this field are invaluable. As we continue to explore the complexities of animal biochemistry (动物生物化学), we unlock new possibilities for improving health, enhancing agricultural practices, and conserving our planet's biodiversity.

动物生物化学是一个迷人的领域，探讨了在生物体内，特别是动物体内发生的化学过程和物质。这个科学分支在理解动物如何在分子水平上运作方面发挥着至关重要的作用。通过研究动物生物化学（animal biochemistry），研究人员可以揭示代谢、酶活性以及蛋白质、脂质和核酸等生物大分子的合成的复杂细节。动物生物化学（animal biochemistry）关注的主要领域之一是代谢，指的是生物体内维持生命的化学反应集合。这些代谢途径对将食物转化为能量、构建细胞结构和维持内稳态至关重要。例如，糖酵解过程，即葡萄糖被分解以产生能量，是在动物生物化学（animal biochemistry）中广泛研究的关键代谢途径。理解这些途径使科学家能够为动物甚至人类制定更好的营养策略。动物生物化学（animal biochemistry）中的另一个重要方面是对酶的研究。酶是生物催化剂，加速体内的化学反应。它们在消化、代谢和众多其他生理过程中发挥着重要作用。通过检查酶的结构和功能，研究人员可以确定它们的工作原理，以及如何为治疗目的进行操纵。例如，酶抑制剂通常用于医学中治疗各种疾病，包括癌症和细菌感染。此外，动物生物化学（animal biochemistry）还涉及激素的研究，激素是调节各种生物过程的信号分子。胰岛素、肾上腺素和皮质醇等激素影响动物的生长、代谢和应激反应。通过理解激素作用中的生化途径，科学家可以开发治疗激素失衡及相关疾病的方法。动物生物化学（animal biochemistry）的重要性超越了基础研究；它在农业、医学和环境科学中具有实际应用。在农业中，动物生物化学的知识可以促进畜牧业的生产和健康。例如，理解动物在生化水平上的营养需求可以帮助农民制定更好的饲料，从而提高生长和生产力。在医学中，从动物生物化学（animal biochemistry）研究中获得的见解有助于药物开发和疾病治疗。许多药物都是从动物中发现的化合物中提取的，或旨在针对体内特定的生化途径。这一联系突显了研究动物生物化学（animal biochemistry）不仅出于学术目的的重要性，还有其改善人类健康的潜力。最后，动物生物化学（animal biochemistry）对环境保护也有影响。了解支配动物行为和生理的生化过程可以帮助保护濒危物种和管理生态系统。例如，了解某些污染物如何影响动物生物化学可以为减轻其对野生动物影响的策略提供信息。总之，动物生物化学（animal biochemistry）是一个重要的研究领域，增强了我们对维持动物生命的生物过程的理解。从代谢和酶功能到激素调节以及在农业和医学中的实际应用，从这个领域获得的见解是无价的。随着我们继续探索动物生物化学（animal biochemistry）的复杂性，我们为改善健康、增强农业实践和保护地球生物多样性打开了新的可能性。