coniferyl alcohol

简明释义

松柏醇

英英释义

例句

1.The presence of coniferyl alcohol is crucial for the development of certain plant species.

存在香豆醇对某些植物物种的发展至关重要。

2.The biochemist studied the role of coniferyl alcohol in lignin biosynthesis.

生物化学家研究了香豆醇在木质素生物合成中的作用。

3.During the experiment, the team measured the concentration of coniferyl alcohol in various samples.

在实验过程中，团队测量了不同样本中香豆醇的浓度。

4.In the lab, we synthesized coniferyl alcohol from ferulic acid.

在实验室中，我们从阿魏酸合成了香豆醇。

5.Researchers found that coniferyl alcohol contributes to the structural integrity of plant cell walls.

研究人员发现香豆醇有助于植物细胞壁的结构完整性。

作文

In the realm of organic chemistry, the study of various compounds is essential for understanding the intricate processes of life. One such compound that has garnered attention is coniferyl alcohol. This phenolic compound plays a significant role in the biosynthesis of lignin, which is a crucial component of plant cell walls. Lignin provides structural support and protection to plants, allowing them to grow tall and withstand various environmental stresses. The importance of coniferyl alcohol extends beyond its structural function; it also has implications in the fields of biochemistry and material science.The structure of coniferyl alcohol consists of a phenolic ring with an alcohol group, making it a type of secondary alcohol. Its molecular formula is C10H12O3, indicating that it contains ten carbon atoms, twelve hydrogen atoms, and three oxygen atoms. This unique structure allows coniferyl alcohol to participate in various chemical reactions, including polymerization. When coniferyl alcohol undergoes polymerization, it can form lignin through a complex series of reactions involving other phenolic compounds. This process is vital for the formation of wood in trees and contributes to the rigidity and resilience of plant tissues.Moreover, coniferyl alcohol is not only important for plants but also has potential applications in industrial processes. For instance, researchers are exploring its use in the production of biofuels and biodegradable materials. As the world grapples with the challenges of climate change and environmental degradation, the utilization of renewable resources like coniferyl alcohol becomes increasingly relevant. By converting this compound into sustainable products, we can reduce our reliance on fossil fuels and minimize our ecological footprint.In addition to its industrial applications, coniferyl alcohol has been studied for its potential health benefits. Some studies suggest that phenolic compounds, including coniferyl alcohol, exhibit antioxidant properties. Antioxidants are substances that help protect cells from damage caused by free radicals, which are unstable molecules that can lead to chronic diseases such as cancer and heart disease. Therefore, incorporating sources of coniferyl alcohol into our diets, such as certain fruits and vegetables, may contribute to overall health and well-being.Furthermore, understanding the role of coniferyl alcohol in plant biology can also have agricultural implications. By manipulating the pathways that produce coniferyl alcohol and other related compounds, scientists may be able to enhance the growth and resilience of crops. This could lead to improved yields and reduced vulnerability to pests and diseases, ultimately supporting global food security.In conclusion, coniferyl alcohol is a compound of considerable significance in both nature and industry. Its role in lignin biosynthesis highlights its importance in plant structure and function, while its potential applications in sustainable practices and health underscore its versatility. As research continues to uncover the many facets of coniferyl alcohol, it is clear that this seemingly simple compound holds great promise for the future of science and technology.

在有机化学领域，各种化合物的研究对于理解生命的复杂过程至关重要。一个引起关注的化合物是愈创木醇。这种酚类化合物在木质素的生物合成中发挥着重要作用，木质素是植物细胞壁的关键成分。木质素为植物提供结构支持和保护，使其能够长得高大并抵御各种环境压力。愈创木醇的重要性不仅在于其结构功能；它在生物化学和材料科学领域也具有重要意义。愈创木醇的结构由一个酚环和一个醇基组成，使其成为一种二级醇。其分子式为C10H12O3，表明它包含十个碳原子、十二个氢原子和三个氧原子。这种独特的结构使得愈创木醇能够参与各种化学反应，包括聚合。当愈创木醇发生聚合反应时，可以通过涉及其他酚类化合物的复杂反应形成木质素。这个过程对于树木木材的形成至关重要，并且有助于植物组织的刚性和韧性。此外，愈创木醇不仅对植物重要，还有潜在的工业应用。例如，研究人员正在探索其在生物燃料和可生物降解材料生产中的应用。随着世界面临气候变化和环境退化的挑战，利用如愈创木醇这样的可再生资源变得越来越相关。通过将这种化合物转化为可持续产品，我们可以减少对化石燃料的依赖，最小化我们的生态足迹。除了工业应用外，愈创木醇还因其潜在的健康益处而受到研究。一些研究表明，酚类化合物，包括愈创木醇，表现出抗氧化特性。抗氧化剂是帮助保护细胞免受自由基损伤的物质，自由基是可能导致癌症和心脏病等慢性疾病的不稳定分子。因此，将含有愈创木醇的食物，如某些水果和蔬菜，纳入我们的饮食中，可能有助于整体健康和福祉。此外，了解愈创木醇在植物生物学中的作用也可能对农业产生影响。通过操控产生愈创木醇和其他相关化合物的途径，科学家们可能能够增强作物的生长和韧性。这可能导致提高产量，减少作物对害虫和疾病的脆弱性，最终支持全球粮食安全。总之，愈创木醇是自然和工业中具有相当重要性的化合物。它在木质素生物合成中的作用突显了其在植物结构和功能中的重要性，而其在可持续实践和健康方面的潜在应用则强调了其多样性。随着研究不断揭示愈创木醇的诸多方面，显然这个看似简单的化合物在科学和技术的未来中蕴藏着巨大的潜力。