dimeric

简明释义

英[daɪˈmerɪk]美[daɪˈmerɪk]

adj. [有化] 二聚的

英英释义

单词用法

同义词

反义词

例句

1.In addition, both monomeric and dimeric CPAP are required for accurate cell division, suggesting that the temporal dynamics of CPAP homodimerization is tightly regulated during the cell cycle.

另外，无论是单体还是二聚体的CPAP对于细胞分裂的精确调控都是必需的，说明CPAP同源二聚的时间动态性在细胞周期中被严格调控。

2.In addition, both monomeric and dimeric CPAP are required for accurate cell division, suggesting that the temporal dynamics of CPAP homodimerization is tightly regulated during the cell cycle.

另外，无论是单体还是二聚体的CPAP对于细胞分裂的精确调控都是必需的，说明CPAP同源二聚的时间动态性在细胞周期中被严格调控。

3.A corrosion inhibitor of alcohol fuel to metal is prepared with benzotriazoles, dimeric linoleic acid anticorrosion agent and hindered phenols antioxidant through dilution and mixing.

一种醇燃料金属腐蚀抑制剂，它是由苯并三氮唑类、二聚亚油酸抗腐蚀剂及受阻酚类抗氧剂经稀释调合而成。

4.The synthesizing of dimeric acid methyl esters was studied using different catalysts and home-made fatty acid methyl esters as material.

研究了以自制的脂肪酸甲酯为原料、几种不同催化剂催化合成二聚酸甲酯的反应。

5.The properties of low molecule dimeric dibasic acid polyamide resin were improved by chemical modified in mass polymerization.

用本体聚合的方法，通过化学改性，使低分子二聚酸聚酰胺树脂的性能得到大幅度提高。

6.In the paper, the present situation and prospects of dimeric dibasic acid in the domestic and foreign markets were discussed.

本文概述了近年来国内外二聚酸的现状与市场前景。

7.Several Suggestions and measures for cleaner production of high purity dimeric acid production are put forward.

对在高纯二聚酸生产中推行清洁生产提出了建议和措施。

8.The research focused on the formation of a dimeric 二聚体的 structure in the protein.

这项研究集中在蛋白质中形成一个dimeric 二聚体的结构。

9.In certain biochemical pathways, dimeric 二聚体的 enzymes play a crucial role.

在某些生化途径中，dimeric 二聚体的酶起着至关重要的作用。

10.The dimeric 二聚体的 form of the drug showed enhanced efficacy compared to its monomer counterpart.

该药物的dimeric 二聚体的形式显示出比其单体对应物更高的疗效。

11.Scientists discovered that the dimeric 二聚体的 complex is more stable than the monomer.

科学家发现，dimeric 二聚体的复合物比单体更稳定。

12.The dimeric 二聚体的 nature of the molecule allows for unique binding properties.

该分子的dimeric 二聚体的特性允许其具有独特的结合性质。

作文

In the realm of biochemistry, the term dimeric refers to a molecular structure that consists of two identical or similar subunits, known as monomers. These subunits can be proteins, nucleic acids, or other types of molecules. Understanding the concept of dimeric structures is crucial for researchers who study the function and interaction of biomolecules in living organisms. For instance, many enzymes are formed as dimeric complexes, which means that their activity is dependent on the correct pairing of two monomer units. This dimerization can affect the stability, activity, and specificity of the enzyme, making it an important aspect of enzymatic function. The formation of dimeric structures can occur through various mechanisms, such as covalent bonding or non-covalent interactions like hydrogen bonds, ionic interactions, and hydrophobic effects. In some cases, the dimeric form may be the active state of a protein, while the monomeric form may be inactive. This phenomenon is commonly observed in receptor proteins, where two monomers come together to form a functional receptor that can bind to ligands and initiate biological responses. Moreover, dimeric structures are not limited to proteins. Nucleic acids can also form dimeric structures, particularly in the context of DNA. For example, two strands of DNA can associate to form a double helix, which can be considered a dimeric structure at the level of individual strands. The stability and functionality of these dimeric forms are vital for processes such as replication and transcription. The study of dimeric molecules has significant implications in drug design and development. Many therapeutic agents aim to disrupt or enhance the formation of dimeric structures to modulate biological pathways. Understanding how dimeric complexes form and function can lead to the discovery of new drugs that target specific biomolecular interactions. For example, if a certain dimeric protein complex is found to be involved in cancer progression, scientists may develop inhibitors that prevent its formation, thereby inhibiting tumor growth. In conclusion, the term dimeric plays a critical role in our understanding of biochemical processes. By recognizing the importance of dimeric structures in proteins and nucleic acids, researchers can gain insights into the mechanisms of action of various biomolecules. This knowledge is essential for advancing fields such as molecular biology, pharmacology, and biotechnology. As we continue to explore the complexities of life at the molecular level, the significance of dimeric interactions will undoubtedly remain a focal point in scientific research.

在生物化学领域，术语dimeric指的是由两个相同或相似的亚单位（称为单体）组成的分子结构。这些亚单位可以是蛋白质、核酸或其他类型的分子。理解dimeric结构的概念对研究生物分子在生物体内的功能和相互作用的研究人员至关重要。例如，许多酶是以dimeric复合物的形式形成的，这意味着它们的活性依赖于两个单体单位的正确配对。这种二聚化可以影响酶的稳定性、活性和特异性，使其成为酶功能的重要方面。 dimeric结构的形成可以通过多种机制发生，例如共价结合或非共价相互作用，如氢键、离子相互作用和疏水效应。在某些情况下，dimeric形式可能是蛋白质的活性状态，而单体形式可能是无活性的。这种现象通常在受体蛋白中观察到，其中两个单体结合在一起形成一个功能性受体，可以与配体结合并启动生物反应。 此外，dimeric结构不仅限于蛋白质。核酸也可以形成dimeric结构，特别是在DNA的背景下。例如，两条DNA链可以结合形成双螺旋，这可以被视为在单链水平上的dimeric结构。这些dimeric形式的稳定性和功能性对于复制和转录等过程至关重要。 对dimeric分子的研究在药物设计和开发中具有重要意义。许多治疗剂旨在破坏或增强dimeric结构的形成，以调节生物通路。理解dimeric复合物的形成和功能可以导致新药的发现，这些药物针对特定的生物分子相互作用。例如，如果发现某个dimeric蛋白复合物与癌症进展有关，科学家可能会开发抑制剂来阻止其形成，从而抑制肿瘤生长。 总之，术语dimeric在我们理解生化过程方面发挥着关键作用。通过认识到dimeric结构在蛋白质和核酸中的重要性，研究人员可以深入了解各种生物分子的作用机制。这一知识对于推进分子生物学、药理学和生物技术等领域至关重要。随着我们继续探索生命在分子层面的复杂性，dimeric相互作用的重要性无疑将继续成为科学研究的焦点。