glycyl

简明释义

英[ˈɡlaɪsəl]美[ˈɡlaɪsəl]

n. 甘氨酰基；[有化] 氨基乙酰基

英英释义

单词用法

同义词

反义词

例句

1.A method is reported for the determination of Urokinase potency using the chromogenic substrate L-pyroglutamyl-glycyl-L-arginine-p-nitroaniline hydrochloride.

本文报道了以生色底物l -焦谷氨酰甘氨酰- L -精氨酸-对硝基苯胺盐酸盐为底物测定尿激酶效价的方法。

2.A method is reported for the determination of Urokinase potency using the chromogenic substrate L-pyroglutamyl-glycyl-L-arginine-p-nitroaniline hydrochloride.

本文报道了以生色底物l -焦谷氨酰甘氨酰- L -精氨酸-对硝基苯胺盐酸盐为底物测定尿激酶效价的方法。

3.The peptide sequence includes a glycyl (甘氨酸) residue that is essential for its activity.

该肽序列包含一个glycyl（甘氨酸）残基，这对其活性至关重要。

4.Researchers are studying the effects of glycyl (甘氨酸) peptides on muscle recovery.

研究人员正在研究glycyl（甘氨酸）肽对肌肉恢复的影响。

5.The synthesis of glycyl (甘氨酸) derivatives can enhance drug delivery systems.

合成glycyl（甘氨酸）衍生物可以增强药物递送系统。

6.In this experiment, we will analyze the glycyl (甘氨酸) content in various food samples.

在这个实验中，我们将分析各种食品样本中的glycyl（甘氨酸）含量。

7.The glycyl (甘氨酸) group plays a crucial role in enzyme catalysis.

该glycyl（甘氨酸）基团在酶催化中起着关键作用。

作文

The study of biochemistry often introduces us to a variety of amino acids and their derivatives. One such derivative is glycyl, which refers to the amino acid glycine when it is part of a peptide or protein structure. Glycine, the simplest amino acid, plays a critical role in various biological processes. Understanding the significance of glycyl can deepen our appreciation for the complexity of life at the molecular level. In the world of proteins, amino acids are the building blocks that determine the structure and function of these essential biomolecules. Glycyl is particularly interesting because it contributes to the formation of peptides that have unique properties. For instance, peptides containing glycyl residues can influence the stability and conformation of proteins, affecting their overall functionality. This makes glycyl an important player in the realm of enzymatic reactions and metabolic pathways. Moreover, glycyl is often involved in the synthesis of neurotransmitters and hormones, which are crucial for communication within the body. The presence of glycyl in certain peptides can enhance their activity, making them more effective in transmitting signals between nerve cells or regulating physiological processes. This highlights the importance of understanding not just individual amino acids, but also how they interact within larger molecular frameworks. From a health perspective, the implications of glycyl and its associated peptides extend into the fields of nutrition and medicine. Research has shown that certain glycyl peptides can exhibit bioactive properties, such as antioxidant and anti-inflammatory effects. This has led to increased interest in dietary sources rich in glycine and its derivatives, as they may contribute to better health outcomes. For example, collagen, which is abundant in glycyl residues, is known for its benefits in skin health and joint support. Furthermore, the exploration of glycyl in drug design and development is gaining traction. Scientists are investigating how glycyl peptides can be utilized to create more effective therapeutic agents. By manipulating the structure of these peptides, researchers aim to enhance their efficacy and reduce side effects, ultimately leading to better treatment options for various diseases. In conclusion, the term glycyl represents much more than just a simple amino acid derivative; it embodies a vast field of research that intersects with nutrition, health, and medicine. By delving deeper into the role of glycyl in biological systems, we can unlock new avenues for improving human health and understanding the intricate web of life at the molecular level. As we continue to explore the wonders of biochemistry, the significance of glycyl and its contributions to our understanding of life will undoubtedly become even clearer, paving the way for future innovations in science and medicine.

生物化学的研究常常使我们接触到各种氨基酸及其衍生物。其中一个衍生物是甘氨酰，它指的是当氨基酸甘氨酸作为肽或蛋白质结构的一部分时的状态。甘氨酸是最简单的氨基酸，在多种生物过程中发挥着关键作用。理解甘氨酰的重要性可以加深我们对生命在分子层面复杂性的欣赏。 在蛋白质的世界中，氨基酸是决定这些基本生物分子结构和功能的构建块。甘氨酰特别有趣，因为它有助于形成具有独特性质的肽。例如，含有甘氨酰残基的肽可以影响蛋白质的稳定性和构象，从而影响其整体功能。这使得甘氨酰在酶促反应和代谢途径中成为重要角色。 此外，甘氨酰通常参与神经递质和激素的合成，而这些对于身体内部的交流至关重要。某些肽中甘氨酰的存在可以增强其活性，使其在神经细胞之间传递信号或调节生理过程时更加有效。这突显了理解不仅单一氨基酸，还要理解它们在更大分子框架中的相互作用的重要性。 从健康的角度来看，甘氨酰及其相关肽的影响扩展到营养和医学领域。研究表明，某些甘氨酰肽可以表现出生物活性特性，如抗氧化和抗炎效果。这导致人们对富含甘氨酸及其衍生物的膳食来源产生了越来越大的兴趣，因为它们可能有助于改善健康结果。例如，胶原蛋白中丰富的甘氨酰残基被认为对皮肤健康和关节支持有益。 此外，探索甘氨酰在药物设计和开发中的应用也在逐渐受到关注。科学家们正在研究如何利用甘氨酰肽来创造更有效的治疗剂。通过操控这些肽的结构，研究人员旨在提高它们的疗效并减少副作用，最终为各种疾病提供更好的治疗选择。 总之，术语甘氨酰代表的不仅仅是一个简单的氨基酸衍生物；它体现了一个与营养、健康和医学交叉的广阔研究领域。通过深入探讨甘氨酰在生物系统中的角色，我们可以为改善人类健康和理解生命在分子层面的错综复杂开辟新的途径。随着我们继续探索生物化学的奇迹，甘氨酰的重要性及其对我们理解生命的贡献无疑会变得更加清晰，为未来的科学和医学创新铺平道路。