关于尿素排泄起源的研究。使墨西哥钝口螈肝脏精氨酸酶能够水解内源性精氨酸的因素。
Studies on the advent of ureotelism. Factors that render the hepatic arginase of the Mexican axolotl able to hydrolyse endogenous arginine.
作者信息
Palacios R, Tarrab R, Soberón G
出版信息
Biochem J. 1968 Dec;110(3):425-33. doi: 10.1042/bj1100425.
Abstract
- A study was undertaken of the conditions that might operate in the synthesis and hydrolysis of arginine by axolotl liver homogenate to test a previous postulate that liver arginase of the non-metamorphosed Mexican axolotl is not able to hydrolyse arginine formed from citrulline and aspartic acid, though it can split exogenous arginine, and also that an enhanced capacity to hydrolyse endogenous arginine plays a major role in the advent of ureotelism observed during the metamorphosis of the axolotl. 2. It was found that the arginase from axolotl liver is very unstable under the conditions followed, contrary to what is observed in rat liver. 3. Axolotl arginase is able to hydrolyse endogenous arginine if preserved. 4. Mn(2+) protects the enzyme and renders it able to split endogenous arginine. 5. It is suggested that the metal ion produces a change of conformation of the enzyme that, being stable, is capable of hydrolysing the amino acid, or that the new conformation is appropriate for interaction with the sites of arginine synthesis.
摘要
- 开展了一项关于蝾螈肝脏匀浆合成和水解精氨酸的条件的研究,以检验之前的一个假设,即未变态的墨西哥蝾螈的肝脏精氨酸酶虽然能够分解外源性精氨酸,但无法水解由瓜氨酸和天冬氨酸形成的精氨酸,并且在蝾螈变态过程中观察到的尿素生成的出现中,增强的水解内源性精氨酸的能力起主要作用。2. 结果发现,与大鼠肝脏中观察到的情况相反,蝾螈肝脏中的精氨酸酶在所采用的条件下非常不稳定。3. 如果保存得当,蝾螈精氨酸酶能够水解内源性精氨酸。4. Mn(2+)可保护该酶并使其能够分解内源性精氨酸。5. 有人提出,金属离子会使酶的构象发生变化,这种变化是稳定的,能够水解氨基酸,或者新构象适合与精氨酸合成位点相互作用。
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