ketoadipic acid

简明释义

酮己二酸

英英释义

例句

1.Researchers are studying the metabolic pathways involving ketoadipic acid (酮戊二酸) to understand its role in human health.

研究人员正在研究涉及酮戊二酸（酮戊二酸）的代谢途径，以了解其在人类健康中的作用。

2.The synthesis of ketoadipic acid (酮戊二酸) is crucial for producing various bioplastics.

合成酮戊二酸（酮戊二酸）对生产各种生物塑料至关重要。

3.The degradation of ketoadipic acid (酮戊二酸) in the environment is an important area of study for ecologists.

环境中酮戊二酸（酮戊二酸）的降解是生态学家研究的重要领域。

4.The presence of ketoadipic acid (酮戊二酸) in certain fungi indicates its potential use in biotechnology.

某些真菌中存在的酮戊二酸（酮戊二酸）表明其在生物技术中的潜在用途。

5.In organic chemistry, ketoadipic acid (酮戊二酸) can be used as a building block for more complex molecules.

在有机化学中，酮戊二酸（酮戊二酸）可以作为更复杂分子的构建块。

作文

Ketoadipic acid is a dicarboxylic acid that plays a significant role in various biochemical processes. It is an important compound in the metabolic pathways of certain amino acids and fatty acids. Understanding the structure and function of ketoadipic acid (酮戊二酸) is essential for biochemists and researchers who are studying metabolic disorders and energy production in cells. The compound is derived from adipic acid, which is a six-carbon dicarboxylic acid. The conversion of adipic acid to ketoadipic acid (酮戊二酸) involves the introduction of a ketone group, leading to its unique properties and functions within biological systems.In human metabolism, ketoadipic acid (酮戊二酸) can be formed during the breakdown of lysine and tryptophan, two essential amino acids. This process highlights the interconnectedness of different metabolic pathways, as the body utilizes various substrates to produce energy and maintain homeostasis. The presence of ketoadipic acid (酮戊二酸) in metabolic pathways also indicates its potential role in energy production, particularly in conditions where carbohydrates are limited, such as during fasting or ketogenic diets.The study of ketoadipic acid (酮戊二酸) has implications beyond basic biochemistry. For instance, in the context of metabolic disorders like diabetes, understanding how the body processes this compound can lead to better management strategies. Research has shown that elevated levels of ketoadipic acid (酮戊二酸) may be associated with certain metabolic dysfunctions, which can help in diagnosing and treating these conditions.Moreover, the significance of ketoadipic acid (酮戊二酸) extends into the field of nutrition. As more individuals adopt low-carbohydrate and high-fat diets, the metabolism of compounds like ketoadipic acid (酮戊二酸) becomes increasingly relevant. Nutritionists and dietitians must understand how the body utilizes these metabolites to provide effective dietary recommendations. The ability to monitor levels of ketoadipic acid (酮戊二酸) in patients could serve as a biomarker for assessing metabolic health and dietary adherence.Furthermore, advancements in analytical techniques have made it easier to study ketoadipic acid (酮戊二酸) in various biological samples. Techniques such as chromatography and mass spectrometry allow researchers to quantify and analyze this compound in blood, urine, and tissue samples. This capability enhances our understanding of its physiological roles and potential therapeutic applications.In conclusion, ketoadipic acid (酮戊二酸) is a vital compound in the realm of biochemistry and metabolism. Its involvement in energy production and metabolic pathways emphasizes the complexity of human physiology. As research continues to unfold, the implications of ketoadipic acid (酮戊二酸) in health and disease will likely provide valuable insights into improving metabolic health and developing targeted therapies for metabolic disorders. By deepening our understanding of this compound, we pave the way for innovative approaches to nutrition and medicine, ultimately enhancing the quality of life for individuals facing metabolic challenges.

酮戊二酸是一种二羧酸，在各种生化过程中发挥着重要作用。它是某些氨基酸和脂肪酸代谢途径中的重要化合物。理解酮戊二酸（ketoadipic acid）的结构和功能对于研究代谢紊乱和细胞能量产生的生物化学家和研究人员至关重要。该化合物源自己烯酸，而己烯酸是一种六碳二羧酸。己烯酸转化为酮戊二酸（ketoadipic acid）涉及酮基的引入，从而导致其在生物系统中的独特性质和功能。在人体代谢中，酮戊二酸（ketoadipic acid）可以在赖氨酸和色氨酸这两种必需氨基酸的分解过程中形成。这一过程突显了不同代谢途径之间的相互联系，因为身体利用各种底物来产生能量并维持体内平衡。酮戊二酸（ketoadipic acid）在代谢途径中的存在也表明其在能量产生中的潜在作用，特别是在碳水化合物有限的情况下，例如禁食或生酮饮食期间。酮戊二酸（ketoadipic acid）的研究超越了基础生物化学。例如，在糖尿病等代谢紊乱的背景下，理解身体如何处理这种化合物可以帮助改善管理策略。研究表明，酮戊二酸（ketoadipic acid）水平升高可能与某些代谢功能障碍相关，这有助于诊断和治疗这些疾病。此外，酮戊二酸（ketoadipic acid）的重要性还扩展到营养学领域。随着越来越多的人采用低碳水化合物和高脂肪饮食，像酮戊二酸（ketoadipic acid）这样的化合物的代谢变得越来越相关。营养师和饮食顾问必须了解身体如何利用这些代谢物，以提供有效的饮食建议。监测患者体内酮戊二酸（ketoadipic acid）水平的能力可以作为评估代谢健康和饮食依从性的生物标志物。此外，分析技术的进步使得在各种生物样本中研究酮戊二酸（ketoadipic acid）变得更加容易。色谱法和质谱法等技术使研究人员能够定量和分析血液、尿液和组织样本中的这种化合物。这种能力增强了我们对其生理作用和潜在治疗应用的理解。总之，酮戊二酸（ketoadipic acid）在生物化学和代谢领域中是一个重要的化合物。它在能量产生和代谢途径中的参与强调了人类生理的复杂性。随着研究的继续展开，酮戊二酸（ketoadipic acid）在健康和疾病中的影响可能会为改善代谢健康和开发针对代谢紊乱的靶向疗法提供宝贵的见解。通过加深对这一化合物的理解，我们为创新的营养和医学方法铺平了道路，最终提高了面临代谢挑战的个体的生活质量。