glycine

简明释义

英[ˈɡlaɪsiːn;ɡlaɪˈsiːn]美[ˈɡlaɪsin]

n. 甘氨酸；[有化] 氨基乙酸

英英释义

单词用法

同义词

反义词

例句

1.Copper in the root, stem and leaf of cotton which was infected by Verticillium wilt was sprayed with cupric complexes of glycine and water.

用原子吸收分光光度法分别测定了喷施氨基酸铜和喷施清水后，接种棉花黄萎病菌的感病棉株的根、茎、叶中铜元素的含量。

2.Study on the different types of inclusion in vessel elements of glycine l.

大豆属植物导管分子中不同类型内含物的研究。

3.The enhanced effect of PCP was attenuated by atypical antipsychotics and glycine agonist, but not by the typical antipsychotics.

应用非典型性抗精神病药物和甘氨酸位点激动剂可以改善PCP诱导的不动增加，但典型性抗精神病药物无效。

4.The thermodynamic functions of the reaction of glycine with pyridoxal were measured and discussed.

测算和讨论了甘氨酸和吡哆醛结合反应的热力学函数。

5.Main raw materials: amino acid chelate trace elements, glycine zinc, ferrous iron, manganese, vitamin C carrier: lactose, starch, beef powder.

主要原料：氨基酸螯合微量元素，甘氨酸锌，甘氨酸亚铁，蛋氨酸锰，维生素C载体：乳糖，淀粉，牛肉粉。

6.Two lines of BS-resistant plants carrying a novel mutation, the 95th Glycine to Alanine (G95A), in ALS were obtained.

获得了抗双草醚钠的两个株系，其中乙酰乳酸合酶发生了一个新的突变，第95位的甘氨酸突变成了丙氨酸（G95A）。

7.Glycine betaine is a very effective osmotic regulator.

甘氨酸甜菜碱是一种非常有效的渗透调节剂。

8.In the human body, glycine is a crucial amino acid that plays a role in protein synthesis.

在人体内，甘氨酸是一种重要的氨基酸，在蛋白质合成中发挥着作用。

9.Athletes often supplement their diets with glycine to enhance recovery after intense workouts.

运动员通常通过补充甘氨酸来增强剧烈锻炼后的恢复。

10.Research shows that glycine can help improve sleep quality and reduce insomnia.

研究表明，甘氨酸可以帮助改善睡眠质量并减少失眠。

11.Some skincare products contain glycine for its moisturizing properties.

一些护肤产品含有甘氨酸，因其具有保湿特性。

12.The presence of glycine in collagen makes it vital for skin health.

在胶原蛋白中存在的甘氨酸使其对皮肤健康至关重要。

作文

Glycine is the simplest amino acid, and it plays a crucial role in various biological processes. As an essential building block of proteins, glycine (甘氨酸) contributes to the synthesis of many important biomolecules. It is unique among amino acids because it does not have a chiral center, which means it is not optically active. This property allows glycine (甘氨酸) to fit into protein structures in a way that larger amino acids cannot, making it particularly versatile in protein folding and function. In addition to its structural roles, glycine (甘氨酸) is also involved in the synthesis of neurotransmitters. It acts as an inhibitory neurotransmitter in the central nervous system, where it helps regulate neuronal excitability. This function is vital for maintaining balance within the brain's signaling pathways, and disturbances in glycine (甘氨酸) levels can lead to neurological disorders. Moreover, glycine (甘氨酸) serves as a precursor for the synthesis of other important compounds, such as creatine and heme. Creatine is essential for energy metabolism in muscle cells, while heme is a critical component of hemoglobin, which carries oxygen in the blood. The versatility of glycine (甘氨酸) in these metabolic pathways highlights its importance in overall health and well-being. Interestingly, glycine (甘氨酸) is also known for its potential therapeutic benefits. Research has shown that it may improve sleep quality, enhance cognitive function, and support muscle growth. These properties make glycine (甘氨酸) a popular supplement among athletes and individuals seeking to optimize their health. In the context of nutrition, glycine (甘氨酸) can be found in various protein-rich foods, including meat, fish, dairy products, and legumes. Consuming a balanced diet that includes these sources of glycine (甘氨酸) is essential for maintaining adequate levels of this amino acid in the body. For those who follow vegetarian or vegan diets, it is important to ensure that they obtain enough glycine (甘氨酸) through plant-based sources or supplements. In conclusion, glycine (甘氨酸) is a fundamental amino acid that plays multiple roles in the body, from protein synthesis to neurotransmission. Its unique properties and functions make it an essential component of our biological systems. Understanding the importance of glycine (甘氨酸) can help individuals make informed dietary choices and appreciate the complexity of human biochemistry. Whether through dietary intake or supplementation, ensuring adequate levels of glycine (甘氨酸) can contribute to better health outcomes and enhanced quality of life.

甘氨酸是最简单的氨基酸，在各种生物过程中发挥着至关重要的作用。作为蛋白质的基本构建块，甘氨酸（glycine）有助于合成许多重要的生物分子。它在氨基酸中独特之处在于没有手性中心，这意味着它不是光学活性的。这一特性使得甘氨酸（glycine）能够以较大氨基酸无法做到的方式融入蛋白质结构中，使其在蛋白质折叠和功能中尤其具有多样性。 除了结构作用外，甘氨酸（glycine）还参与神经递质的合成。它作为中枢神经系统中的抑制性神经递质，有助于调节神经元的兴奋性。这一功能对维持大脑信号通路的平衡至关重要，甘氨酸（glycine）水平的干扰可能导致神经系统疾病。 此外，甘氨酸（glycine）还作为其他重要化合物合成的前体，例如肌酸和血红素。肌酸对肌肉细胞的能量代谢至关重要，而血红素是血红蛋白的重要组成部分，负责携带血液中的氧气。甘氨酸（glycine）在这些代谢途径中的多样性突显了它在整体健康和福祉中的重要性。 有趣的是，甘氨酸（glycine）还因其潜在的治疗益处而受到关注。研究表明，它可能改善睡眠质量、增强认知功能并支持肌肉生长。这些特性使得甘氨酸（glycine）在运动员和寻求优化健康的个人中成为一种受欢迎的补充剂。 在营养方面，甘氨酸（glycine）可以在多种富含蛋白质的食物中找到，包括肉类、鱼类、乳制品和豆类。摄入均衡的饮食，包括这些甘氨酸（glycine）来源，对于维持体内足够的这种氨基酸水平至关重要。对于遵循素食或严格素食饮食的人来说，确保通过植物来源或补充剂获得足够的甘氨酸（glycine）也很重要。 总之，甘氨酸（glycine）是一种基本的氨基酸，在身体中发挥着多重角色，从蛋白质合成到神经传递。它的独特属性和功能使其成为我们生物系统的必要组成部分。理解甘氨酸（glycine）的重要性可以帮助个人做出明智的饮食选择，并欣赏人类生物化学的复杂性。无论是通过饮食摄入还是补充，确保足够的甘氨酸（glycine）水平都可以促进更好的健康结果和提高生活质量。