nitrogenous compound

简明释义

氮化合物

英英释义

例句

1.Certain fertilizers contain nitrogenous compound 含氮化合物 that enhance plant growth.

某些肥料含有含氮化合物，可以促进植物生长。

2.The soil in this region is rich in nitrogenous compound 含氮化合物, which helps in growing healthy crops.

这个地区的土壤富含含氮化合物，这有助于种植健康的作物。

3.In biochemistry, amino acids are a type of nitrogenous compound 含氮化合物 essential for protein synthesis.

在生物化学中，氨基酸是一种对蛋白质合成至关重要的含氮化合物。

4.The breakdown of proteins in the body releases nitrogenous compound 含氮化合物 as a byproduct.

体内蛋白质的分解会释放出作为副产品的含氮化合物。

5.Some nitrogenous compound 含氮化合物 can be harmful to aquatic life when they enter water bodies.

一些含氮化合物在进入水体时可能对水生生物造成危害。

作文

Nitrogen is one of the most abundant elements in the universe, and it plays a crucial role in the chemistry of life. Among its various forms, nitrogenous compounds (含氮化合物) are particularly significant due to their involvement in biological processes. These compounds contain nitrogen atoms and are essential for the formation of amino acids, nucleic acids, and other vital biomolecules. Understanding nitrogenous compounds (含氮化合物) is fundamental for students of biology, chemistry, and environmental science.Amino acids, which are the building blocks of proteins, contain nitrogenous compounds (含氮化合物) in their structure. The presence of nitrogen allows amino acids to link together, forming long chains that fold into complex structures necessary for various functions in living organisms. Without nitrogenous compounds (含氮化合物), life as we know it would not be possible, as proteins play critical roles in catalyzing biochemical reactions, providing structural support, and facilitating communication within and between cells.In addition to amino acids, nitrogenous compounds (含氮化合物) are also key components of nucleic acids, such as DNA and RNA. These molecules carry the genetic information necessary for the growth, development, and reproduction of all living organisms. The nitrogenous bases in DNA—adenine, thymine, cytosine, and guanine—are vital for the encoding of genetic instructions. Similarly, RNA contains nitrogenous bases like adenine, uracil, cytosine, and guanine, which are crucial for protein synthesis. Therefore, a thorough understanding of nitrogenous compounds (含氮化合物) is essential for comprehending how genetic information is stored and expressed.Moreover, nitrogenous compounds (含氮化合物) have significant implications in agriculture and environmental science. Nitrogen is a critical nutrient for plants, and many fertilizers are rich in nitrogenous compounds (含氮化合物). These fertilizers help enhance plant growth and crop yields. However, the excessive use of nitrogen fertilizers can lead to environmental issues, such as water pollution and the formation of dead zones in aquatic ecosystems. This highlights the importance of managing nitrogenous compounds (含氮化合物) responsibly to ensure sustainable agricultural practices and protect the environment.In conclusion, nitrogenous compounds (含氮化合物) are indispensable to life and play a multifaceted role in biology, chemistry, and environmental science. From their essential functions in amino acids and nucleic acids to their impact on agriculture, these compounds are central to many processes that sustain life on Earth. As we continue to explore the complexities of nitrogenous compounds (含氮化合物), it becomes increasingly clear that a deeper understanding of their properties and behaviors is crucial for addressing both scientific and environmental challenges.

氮是宇宙中最丰富的元素之一，它在生命化学中发挥着至关重要的作用。在它的各种形式中，含氮化合物 (nitrogenous compounds) 尤其重要，因为它们与生物过程密切相关。这些化合物含有氮原子，是氨基酸、核酸和其他重要生物分子的形成所必需的。理解 含氮化合物 (nitrogenous compounds) 对于生物学、化学和环境科学的学生来说是基础。氨基酸是蛋白质的基本组成部分，其结构中含有 含氮化合物 (nitrogenous compounds)。氮的存在使得氨基酸能够连接在一起，形成长链，这些长链折叠成复杂的结构，满足生物体内各种功能的需要。如果没有 含氮化合物 (nitrogenous compounds)，我们所知的生命将无法存在，因为蛋白质在催化生化反应、提供结构支持以及促进细胞内外的交流中发挥着关键作用。除了氨基酸，含氮化合物 (nitrogenous compounds) 还是核酸（如 DNA 和 RNA）的关键组成部分。这些分子携带着生物体生长、发育和繁殖所需的遗传信息。DNA 中的氮碱基——腺嘌呤、胸腺嘧啶、胞嘧啶和鸟嘌呤——对遗传指令的编码至关重要。同样，RNA 包含的氮碱基如腺嘌呤、尿嘧啶、胞嘧啶和鸟嘌呤，对于蛋白质合成也是不可或缺的。因此，深入理解 含氮化合物 (nitrogenous compounds) 对于理解遗传信息的存储和表达至关重要。此外，含氮化合物 (nitrogenous compounds) 在农业和环境科学中也具有重要意义。氮是植物的重要营养素，许多肥料富含 含氮化合物 (nitrogenous compounds)。这些肥料有助于提高植物的生长和作物的产量。然而，过量使用氮肥可能导致环境问题，例如水污染和水域生态系统中的死区形成。这突显了负责任地管理 含氮化合物 (nitrogenous compounds) 的重要性，以确保可持续的农业实践并保护环境。总之，含氮化合物 (nitrogenous compounds) 对生命至关重要，并在生物学、化学和环境科学中发挥着多方面的作用。从它们在氨基酸和核酸中的重要功能到对农业的影响，这些化合物是维持地球上许多生命过程的核心。随着我们继续探索 含氮化合物 (nitrogenous compounds) 的复杂性，越来越清楚的是，深入理解它们的特性和行为对于应对科学和环境挑战至关重要。