动物组织中由脯氨酸形成鸟氨酸的过程。
The formation of ornithine from proline in animal tissues.
作者信息
Smith A D, Benziman M, Strecker H J
出版信息
Biochem J. 1967 Aug;104(2):557-63. doi: 10.1042/bj1040557.
Abstract
- Homogenates of liver or kidney from rat, mouse, dog and guinea pig formed ornithine from proline but not from glutamate. Rat kidney was most active in this reaction and was used for further studies. 2. The overall reaction was found to be catalysed by proline oxidase to yield glutamic gamma-semialdehyde, followed by transamination of this product with glutamate as catalysed by ornithine-keto acid aminotransferase. 3. The unfavourable equilibrium of the ornithine-keto acid aminotransferase reaction was overcome chiefly by glutamate dehydrogenase in the tissue, which removed the alpha-oxoglutarate produced, by reduction with endogenous ammonia and NADH. 4. Aspartate aminotransferase in these preparations also aided in the removal of alpha-oxoglutarate. In this case the overall reaction was driven also by the rapid decarboxylation of oxaloacetate. 5. No evidence could be found for a pathway of ornithine synthesis involving acylated intermediates as has been observed in some micro-organisms. 6. The rate of ornithine synthesis in homogenates of several rat tissues paralleled the activity of ornithine-keto acid aminotransferase in these tissues, indicating that this enzyme was rate-determining for the synthesis. 7. The possible influence of these reactions on urea synthesis is discussed.
摘要
- 大鼠、小鼠、狗和豚鼠的肝脏或肾脏匀浆可由脯氨酸生成鸟氨酸,但不能由谷氨酸生成鸟氨酸。大鼠肾脏在该反应中活性最高,因此用于进一步研究。2. 发现整个反应由脯氨酸氧化酶催化生成谷氨酸γ-半醛,随后该产物由鸟氨酸-酮酸氨基转移酶催化与谷氨酸进行转氨基作用。3. 鸟氨酸-酮酸氨基转移酶反应的不利平衡主要由组织中的谷氨酸脱氢酶克服,该酶通过利用内源性氨和NADH进行还原反应,去除生成的α-酮戊二酸。4. 这些制剂中的天冬氨酸氨基转移酶也有助于去除α-酮戊二酸。在这种情况下,整个反应还由草酰乙酸的快速脱羧驱动。5. 未发现存在如在某些微生物中观察到的涉及酰化中间体的鸟氨酸合成途径的证据。6. 几种大鼠组织匀浆中鸟氨酸的合成速率与这些组织中鸟氨酸-酮酸氨基转移酶的活性平行,表明该酶是合成的限速酶。7. 讨论了这些反应对尿素合成可能产生的影响。
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