flavine

简明释义

英[ˈfleɪvɪn]美[ˈflævɪn]

n. 黄素；四羟酮醇；核黄素，吖啶黄素

英英释义

单词用法

同义词

反义词

例句

1.The research in recent years of Chinese native medicine Ezhu reveals the main constituents in Ezhu are Ezhu oil, ginger flavine and multi-carbohydrate ingredients.

近年来有关中药莪术的研究得出，莪术中主要含有莪术油、姜黄素及多糖类成分。

2.The research in recent years of Chinese native medicine Ezhu reveals the main constituents in Ezhu are Ezhu oil, ginger flavine and multi-carbohydrate ingredients.

近年来有关中药莪术的研究得出，莪术中主要含有莪术油、姜黄素及多糖类成分。

3.The research team discovered that the presence of flavine (黄素) in the plant extracts enhanced their antioxidant properties.

研究小组发现，植物提取物中存在的flavine（黄素）增强了它们的抗氧化特性。

4.In the laboratory, scientists used flavine (黄素) as a marker to trace metabolic pathways in cells.

在实验室中，科学家使用flavine（黄素）作为标记来追踪细胞中的代谢途径。

5.Certain bacteria can produce flavine (黄素), which plays a crucial role in their energy metabolism.

某些细菌可以产生flavine（黄素），这在它们的能量代谢中起着关键作用。

6.The nutritional supplement contained flavine (黄素) to support skin health and improve complexion.

这种营养补充剂含有flavine（黄素），以支持皮肤健康并改善肤色。

7.Researchers are investigating the effects of flavine (黄素) on reducing inflammation in chronic diseases.

研究人员正在调查flavine（黄素）对减少慢性疾病炎症的影响。

作文

The world of biochemistry is filled with fascinating compounds that play crucial roles in various biological processes. One such compound is flavine, which is often found in nature as a yellow pigment. Flavine is not just a simple colorant; it is a vital component in the metabolic pathways of living organisms. It belongs to a group of compounds known as flavins, which are derived from riboflavin, also known as vitamin B2. This vitamin is essential for human health, as it participates in energy production and the metabolism of fats, drugs, and steroids. In plants, flavine is responsible for the vibrant colors seen in flowers and fruits, attracting pollinators and aiding in reproduction. The presence of flavine in these organisms highlights its importance in ecological interactions. For instance, many animals have evolved to recognize and prefer foods that contain these bright pigments, which often signal the presence of nutrients. Beyond its role in plants, flavine also plays a significant part in the animal kingdom. In humans, riboflavin is converted into flavine derivatives that are essential for the functioning of various enzymes. These enzymes are crucial for processes such as cellular respiration, where energy is produced from glucose. Without adequate levels of flavine, individuals may experience fatigue, weakness, and other health issues related to energy deficiency. Moreover, flavine has been studied for its potential therapeutic properties. Research has shown that it may have antioxidant effects, helping to combat oxidative stress in cells. Oxidative stress is linked to numerous health problems, including chronic diseases and aging. By incorporating foods rich in flavine, such as dairy products, eggs, green leafy vegetables, and nuts, individuals can support their overall health and wellbeing. In summary, flavine is more than just a pigment; it is a vital biochemical compound that influences various aspects of life. From its role in plant coloration and attraction of pollinators to its essential functions in human metabolism, flavine exemplifies the intricate connections within ecosystems and the importance of understanding biochemical processes. As we continue to explore the complexities of biochemistry, the significance of compounds like flavine will undoubtedly become even more apparent, highlighting the delicate balance of life on Earth.

生物化学的世界充满了迷人的化合物，这些化合物在各种生物过程中发挥着重要作用。其中一种化合物是flavine，它通常作为黄色颜料存在于自然界中。Flavine不仅仅是一个简单的色素；它是生物体代谢途径中的重要组成部分。它属于一组称为黄素的化合物，这些化合物源自核黄素，也被称为维生素B2。这种维生素对人类健康至关重要，因为它参与能量生产以及脂肪、药物和类固醇的代谢。 在植物中，flavine负责花朵和水果中看到的鲜艳颜色，吸引授粉者并帮助繁殖。Flavine在这些生物中的存在突显了它在生态相互作用中的重要性。例如，许多动物已经进化出识别和偏好含有这些明亮色素的食物，这些食物通常信号着营养的存在。 除了在植物中的作用，flavine在动物王国中也扮演着重要角色。在人类中，核黄素被转化为flavine衍生物，这些衍生物对各种酶的功能至关重要。这些酶对于细胞呼吸等过程至关重要，在这些过程中，能量是从葡萄糖中产生的。如果没有足够的flavine，个体可能会经历疲劳、虚弱和其他与能量不足相关的健康问题。 此外，flavine因其潜在的治疗特性而受到研究。研究表明，它可能具有抗氧化作用，有助于抵抗细胞中的氧化压力。氧化压力与许多健康问题有关，包括慢性疾病和衰老。通过摄入富含flavine的食物，如乳制品、鸡蛋、绿叶蔬菜和坚果，个体可以支持他们的整体健康和福祉。 总之，flavine不仅仅是一种色素；它是一种重要的生化化合物，影响生活的各个方面。从它在植物着色和吸引授粉者的作用，到它在人类代谢中的基本功能，flavine体现了生态系统内的复杂联系以及理解生化过程的重要性。随着我们继续探索生物化学的复杂性，像flavine这样的化合物的重要性无疑会变得更加明显，突显地球生命的微妙平衡。