OBJECTIVE: To observe the role of target muscular injection of methyl cobalamin of different dosages in the regeneration of peripheral nerve injury in rats. 目的:通过靶肌肉注射不同剂量的甲钴胺,观察其对大鼠坐骨神经损伤的再生作用。
Vitamin B12 is also called cobalamin because it contains the metal cobalt. 维生素B12也被称为维生素B12,因为它含有的金属钴。
Aloe contains ten vitamins, including an uncommon, plant derived source of B12, also know as cobalamin. 芦荟含有十种维生素,包括一种稀罕的、植物中提炼出来的B12维生素源头,叫做氰钴胺素。
Cobalamin helps maintain healthy nerve cells and red blood cells, and is also needed to produce DNA, the genetic material in all cells. 氰钴胺素能维持神经细胞和红血球细胞的健康,并有助于在所有的细胞中产生出DNA和遗传物质。
Cobalamin is widely used in medicine and food industry, which is produced mainly by fermentation. 钴胺素广泛应用于医药和食品行业,目前主要由微生物发酵生产。
Clinical Observation on the Treatment of 38 Cases of Soft Tissue Pain by Local Methyl Cobalamin Block Therapy 甲钴胺局部封闭治疗软组织疼痛肝癌的局部治疗
The Synthesis and Spectral Study of Organic Cobalamin 有机钴胺素的合成及光谱研究
BACKGROUND: Methyl cobalamin, a derivative of vitamin B12, can promote the metabolism of nucleic acid protein, axoplasmic transport and axonal regeneration. 背景:甲钴胺是维生素B12的一种衍生物,可促进核酸蛋白质代谢、神经轴浆的转运及轴突的再生。
CONCLUSION: Target muscular injection of methyl cobalamin can promote the regeneration of peripheral nerve, and methyl cobalamin of high dosage can better play its role in nourishing injured nerve. 结论:靶肌肉注射甲钴胺可促进周围神经的再生,高剂量的甲钴胺可以更好地发挥其对损伤神经的营养作用。
Preparation of Vitamin E Cobalamin Cream and Its Influencing Factor of Quality 维生素E钴胺素乳膏的制备及其质量影响因素
Objective: To investigate catalytic mechanism of the cobalamin independent methionine synthetase. 目的:探讨钴胺素非依赖蛋氨酸合成酶催化合成蛋氨酸的反应机制。
Model study of the cobalamin independent methionine synthetase reaction 钴胺素非依赖蛋氨酸合成酶催化反应的模型研究
Cobalamin is one of important productions that is fermented in china. It is widely used in medicine and food industry. It is producted mainly by fermentation. 维生素B12是我国重要的微生物发酵产品之一,广泛应用于医药、食品和畜牧业,其生产主要通过微生物发酵得到。
Four proteins of cobalamin biosynthesis protein, N-acetyl-gamma-glutamyl-phosphate reductase, peptidyl prolyl cis-trans isomerase and nucleoside diphosphate kinase were successfully identified. 43个蛋白质中有4个表达量变化显著的被成功鉴定,分别为钴胺素生物合成蛋白、肽基脯氨酰顺反异构酶、核苷二磷酸激酶和N-乙酰-γ-谷氨酰磷酸脱氢酶。