galactosamine
简明释义
英[ɡəlækˈtəʊsəˌmiːn]美[ɡəlækˈtoʊsəmin]
n. [有化] 半乳糖胺
英英释义
Galactosamine is an amino sugar derived from galactose, which is a component of various glycoproteins and glycolipids in the body. | 半乳糖胺是一种源自半乳糖的氨基糖,是体内各种糖蛋白和糖脂的组成部分。 |
单词用法
N-乙酰半乳糖胺 | |
半乳糖胺硫酸盐 | |
半乳糖胺衍生物 | |
半乳糖胺代谢 | |
含半乳糖胺的糖蛋白 | |
半乳糖胺在细胞信号传导中的作用 |
同义词
| N-乙酰半乳糖胺 | N-acetylgalactosamine is a common component of glycoproteins. | N-乙酰半乳糖胺是糖蛋白的常见成分。 | |
| 半乳糖胺 | GalNAc plays a crucial role in the synthesis of certain polysaccharides. | 半乳糖胺在某些多糖的合成中起着关键作用。 |
反义词
例句
1.To establish the standard model of endotoxins shock of mice sensitized with D-galactosamine.
建立D -氨基半乳糖敏化小鼠内毒素休克的规范化模型。
2.Objective to observe the effect of Jiangzhi Ninggan capsule on acute hepatic injury induced by D-galactosamine (D-Gal) in mice.
目的:观察降脂宁肝胶囊对大鼠脂肪肝的治疗作用并初步探讨其作用机制。
3.Objective to observe the effect of Jiangzhi Ninggan capsule on acute hepatic injury induced by D-galactosamine (D-Gal) in mice.
目的:观察降脂宁肝胶囊对大鼠脂肪肝的治疗作用并初步探讨其作用机制。
4.Scientists have discovered that galactosamine plays a significant role in cartilage formation.
科学家发现半乳糖胺在软骨形成中发挥着重要作用。
5.In our study, we measured the concentration of galactosamine in patients' blood samples.
在我们的研究中,我们测量了患者血样中半乳糖胺的浓度。
6.Elevated levels of galactosamine can indicate liver dysfunction.
升高的半乳糖胺水平可能表明肝功能障碍。
7.The research focused on the role of galactosamine in cell signaling pathways.
这项研究专注于半乳糖胺在细胞信号通路中的作用。
8.The enzyme responsible for breaking down galactosamine is crucial for maintaining metabolic health.
负责分解半乳糖胺的酶对维持代谢健康至关重要。
作文
Galactosamine is a fascinating compound that plays an essential role in various biological processes. It is an amino sugar derived from galactose, and its structure consists of a galactose molecule combined with an amine group. This unique combination allows galactosamine (半乳糖胺) to participate in numerous biochemical pathways, making it a critical component in the field of biochemistry and molecular biology.One of the primary functions of galactosamine (半乳糖胺) is its involvement in the formation of glycosaminoglycans, which are vital for maintaining the structural integrity of tissues. Glycosaminoglycans, such as hyaluronic acid and chondroitin sulfate, are found in connective tissues, cartilage, and skin. These molecules contribute to the elasticity and resilience of tissues, highlighting the importance of galactosamine (半乳糖胺) in preserving overall tissue health.Moreover, galactosamine (半乳糖胺) is crucial in cell signaling and communication. It is a component of various glycoproteins and glycolipids, which are essential for cellular recognition and interaction. The presence of galactosamine (半乳糖胺) in these molecules can influence how cells respond to external stimuli, affecting processes such as immune response and cell adhesion. This demonstrates the compound's significance not only in structural roles but also in functional cellular activities.In addition to its biological functions, research has shown that galactosamine (半乳糖胺) may have therapeutic potential. Studies indicate that it could play a role in treating certain diseases, particularly those related to cartilage degeneration and joint disorders. By understanding how galactosamine (半乳糖胺) interacts within the body, scientists hope to develop new treatments that leverage its properties to promote healing and regeneration.Furthermore, the study of galactosamine (半乳糖胺) extends beyond human health. In veterinary medicine, it is being explored for its effects on animal health, particularly in horses and dogs suffering from joint issues. This cross-species research emphasizes the universal importance of galactosamine (半乳糖胺) in maintaining healthy joints and connective tissues across various organisms.The synthesis and metabolism of galactosamine (半乳糖胺) are also areas of interest for researchers. Understanding how this compound is produced and utilized within living organisms can provide insights into metabolic disorders and pave the way for innovative therapies. For instance, abnormalities in galactosamine (半乳糖胺) metabolism may lead to conditions such as lysosomal storage diseases, which can severely impact health.In conclusion, galactosamine (半乳糖胺) is a multifaceted compound with critical roles in biological systems. Its involvement in tissue structure, cell signaling, and potential therapeutic applications underscores its significance in both health and disease. As research continues to unfold, the understanding of galactosamine (半乳糖胺) will likely expand, revealing even more about its contributions to life processes and potential uses in medicine. This highlights the importance of studying such compounds to unlock new avenues for health improvement and disease management.
半乳糖胺是一个迷人的化合物,在各种生物过程中发挥着重要作用。它是一种氨基糖,来源于半乳糖,其结构由一个半乳糖分子与一个氨基团结合而成。这种独特的组合使得galactosamine(半乳糖胺)能够参与许多生化途径,使其成为生物化学和分子生物学领域的重要组成部分。galactosamine(半乳糖胺)的主要功能之一是参与糖胺聚糖的形成,而糖胺聚糖对维持组织的结构完整性至关重要。糖胺聚糖,如透明质酸和软骨素硫酸盐,存在于结缔组织、软骨和皮肤中。这些分子有助于组织的弹性和韧性,突显了galactosamine(半乳糖胺)在保持整体组织健康方面的重要性。此外,galactosamine(半乳糖胺)在细胞信号传导和通信中也至关重要。它是各种糖蛋白和糖脂的组成部分,这些成分对于细胞识别和相互作用至关重要。galactosamine(半乳糖胺)在这些分子中的存在可以影响细胞对外部刺激的反应,影响免疫反应和细胞粘附等过程。这表明该化合物不仅在结构角色中重要,也在功能性细胞活动中发挥着重要作用。除了生物功能,研究表明galactosamine(半乳糖胺)可能具有治疗潜力。研究表明,它可能在治疗某些疾病方面发挥作用,特别是与软骨退化和关节障碍相关的疾病。通过了解galactosamine(半乳糖胺)在体内的相互作用,科学家希望开发出新的治疗方法,利用其特性促进愈合和再生。此外,galactosamine(半乳糖胺)的研究不仅限于人类健康。在兽医学中,它正被探索对动物健康的影响,特别是在遭受关节问题的马和狗中。这种跨物种的研究强调了galactosamine(半乳糖胺)在维持各种生物体健康关节和结缔组织中的普遍重要性。galactosamine(半乳糖胺)的合成和代谢也是研究者感兴趣的领域。了解这种化合物在生物体内是如何产生和利用的,可以提供对代谢紊乱的见解,并为创新疗法铺平道路。例如,galactosamine(半乳糖胺)代谢的异常可能导致如溶酶体贮积病等疾病,这些疾病可能严重影响健康。总之,galactosamine(半乳糖胺)是一个多面化合物,在生物系统中具有关键作用。它在组织结构、细胞信号传导和潜在治疗应用中的参与,强调了它在健康和疾病中的重要性。随着研究的不断展开,对galactosamine(半乳糖胺)的理解可能会扩展,揭示出更多关于它对生命过程贡献和在医学中潜在用途的信息。这突显了研究此类化合物以开启健康改善和疾病管理新途径的重要性。
