sulfated

简明释义

英[sʌlˈfeɪtɪd]美[sʌlˈfeɪtɪd]

硫酸化的

英英释义

单词用法

同义词

反义词

例句

1.Figure 3 shows how the sulfated oil portion of this fatliquor, which was labeled with radioactive sulfur, is distributed through leather.

如图3所示，加酯剂中用放射性同位素硫标记的磺化油部分分散在皮革中。

2.Objective To prepare low molecular weight Eucheuma striatum sulfated polysaccharides.

目的制备相对低分子质量异枝麒麟菜硫酸多糖。

3.In vivo experiments in mice suggested that sulfated glucan could significantly enhance the survival rate of mice with peritonitis induced by E. coli.

小鼠活体实验显示：硫酸化葡聚糖能显著提高大肠杆菌致腹膜炎的小鼠的成活率。

4.Objective To explore the effects of sulfated polysaccharides from brown seaweeds GS201 on the protection and function recovery of neurons after spinal cord injury in rats.

目的：探讨褐藻多糖gs201对大鼠脊髓损伤后神经细胞的保护及功能恢复的作用。

5.OBJECTIVE To investigate the effect of sulfated pachymaran(SP) in rats with chronic renal failure(CRF) induced by ade-nine.

目的观察硫酸化茯苓多糖（SP）对腺嘌呤致大鼠慢性肾功能衰竭（CRF）的影响。

6.The invention discloses sulfated galactan and a preparation method thereof.

本发明公开了一种硫酸化半乳聚糖及其制备方法。

7.The content of sulfated group in polysaccharides functions importantly on their biological activities.

硫酸基含量对多糖的生物活性起着至关重要的作用。

8.The progresses on preparation of sulfated polysaccharides and its bioactivity were reviewed.

综述了近几年硫酸化多糖的制备及其生物活性的研究情况。

9.The environmental impact assessment revealed high levels of sulfated 硫酸盐化的 pollutants in the river.

环境影响评估显示河流中存在高水平的sulfated 硫酸盐化的 污染物。

10.In the production of detergents, sulfated 硫酸盐化的 surfactants are commonly used.

在洗涤剂的生产中，通常使用sulfated 硫酸盐化的 表面活性剂。

11.Research indicates that sulfated 硫酸盐化的 glycosaminoglycans play a crucial role in cell signaling.

研究表明，sulfated 硫酸盐化的 糖胺聚糖在细胞信号传导中发挥着关键作用。

12.The pharmaceutical company developed a new drug that is sulfated 硫酸盐化的 to enhance its efficacy.

制药公司开发了一种新药，该药物经过sulfated 硫酸盐化的 处理以提高其疗效。

13.The laboratory tested the water for contaminants, including sulfated 硫酸盐化的 compounds.

实验室检测了水中的污染物，包括sulfated 硫酸盐化的 化合物。

作文

In recent years, the study of various chemical compounds has gained significant attention in both scientific research and industrial applications. One such compound that has been extensively studied is the sulfated compound, which plays a crucial role in numerous biological and chemical processes. The term sulfated refers to the process in which a sulfate group is added to a molecule. This modification can significantly alter the properties and functions of the original compound, making it an essential topic of research in fields such as biochemistry, pharmacology, and materials science.Sulfation, the process of adding a sulfate group, is vital for the proper functioning of many biological molecules. For instance, glycosaminoglycans, which are important components of connective tissues, are often found in their sulfated forms. These sulfated glycosaminoglycans contribute to the structural integrity of cartilage and play a key role in cell signaling and interaction. The presence of sulfate groups can enhance the negative charge of these molecules, facilitating their interactions with proteins and other biomolecules.In pharmacology, the sulfated derivatives of drugs can exhibit improved efficacy and bioavailability. By modifying a drug's structure through sulfation, researchers can enhance its solubility or stability in the body. For example, certain hormones and neurotransmitters are often found in their sulfated forms, which can affect their activity and duration of action. Understanding how sulfation affects drug metabolism is crucial for developing more effective therapeutic agents.Moreover, in materials science, sulfated compounds have shown promising applications in the development of new materials with unique properties. For instance, sulfated polymers can be used to create hydrogels with enhanced swelling behavior, making them suitable for biomedical applications such as drug delivery systems and tissue engineering scaffolds. The ability to tailor the properties of materials through sulfation opens up new avenues for innovation in various industries.Despite the benefits of sulfated compounds, researchers also need to consider the potential challenges associated with their use. The introduction of sulfate groups can sometimes lead to increased toxicity or reduced biocompatibility, particularly in biomedical applications. Therefore, thorough investigations are necessary to assess the safety and effectiveness of sulfated compounds before they can be widely adopted in clinical settings.In conclusion, the study of sulfated compounds is a dynamic and rapidly evolving field that holds great promise for advancing our understanding of biological processes and developing new technologies. As we continue to explore the implications of sulfation in various domains, it is essential to balance the potential benefits with the associated risks. Future research will undoubtedly uncover new insights into the role of sulfated compounds in health and disease, paving the way for innovative solutions to complex challenges in medicine and industry.

近年来，各种化合物的研究在科学研究和工业应用中引起了显著关注。其中一种被广泛研究的化合物是硫酸盐化合物，它在许多生物和化学过程中发挥着至关重要的作用。术语sulfated指的是将硫酸根添加到分子中的过程。这种修饰可以显著改变原始化合物的性质和功能，使其成为生物化学、药理学和材料科学等领域研究的重要主题。硫酸化，即添加硫酸根的过程，对于许多生物分子的正常功能至关重要。例如，糖胺聚糖是结缔组织的重要组成部分，通常以sulfated形式存在。这些sulfated糖胺聚糖有助于软骨的结构完整性，并在细胞信号传导和相互作用中发挥关键作用。硫酸根的存在可以增强这些分子的负电荷，促进它们与蛋白质和其他生物分子的相互作用。在药理学中，药物的sulfated衍生物可能表现出更好的疗效和生物利用度。通过硫酸化修改药物的结构，研究人员可以增强其在体内的溶解性或稳定性。例如，某些激素和神经递质通常以其sulfated形式存在，这可能影响它们的活性和作用持续时间。了解硫酸化如何影响药物代谢对于开发更有效的治疗剂至关重要。此外，在材料科学中，sulfated化合物在新材料的开发中显示出良好的应用前景。例如，sulfated聚合物可用于创建具有增强膨胀行为的水凝胶，使其适合于生物医学应用，如药物输送系统和组织工程支架。通过硫酸化定制材料的性能为各个行业的创新开辟了新的途径。尽管sulfated化合物具有诸多优点，研究人员也需要考虑其使用可能带来的挑战。硫酸根的引入有时会导致毒性增加或生物相容性降低，特别是在生物医学应用中。因此，在广泛采用sulfated化合物之前，需要进行彻底的研究以评估其安全性和有效性。总之，sulfated化合物的研究是一个动态且快速发展的领域，具有推动我们理解生物过程和开发新技术的巨大潜力。随着我们继续探索硫酸化在各个领域的影响，平衡潜在利益与相关风险至关重要。未来的研究无疑将揭示更多关于sulfated化合物在健康和疾病中作用的新见解，为医学和工业中的复杂挑战提供创新解决方案。