脂肪酸氧化的中间产物。
Intermediates in fatty acid oxidation.
作者信息
Stewart H B, Tubbs P K, Stanley K K
出版信息
Biochem J. 1973 Jan;132(1):61-76. doi: 10.1042/bj1320061.
Abstract
- Aqueous extracts of acetone-dried liver and kidney mitochondria, supplemented with NAD(+), CoA and phenazine methosulphate, efficiently convert fatty-acyl-CoA compounds into acetyl-CoA; the process was followed with an O(2) electrode. 2. Label from [1-(14)C]octanoyl-CoA appears in acetyl-CoA more rapidly than that from [8-(14)C]octanoyl-CoA. 3. Oxidation of [8-(14)C]octanoyl-CoA was terminated by addition of neutral ethanolic hydroxylamine and the resulting hydroxamates were separated chromatographically. Hydroxamate derivatives of 3-hydroxyoctanoyl-, hexanoyl-, butyryl- and acetyl-CoA were obtained. 4. These and other observations suggest that oxidation of octanoyl-CoA by extracts involves participation of free intermediates rather than uninterrupted complete degradation of individual molecules to acetyl-CoA by a multienzyme complex. 5. Intact liver mitochondria studied by the hydroxamate technique were also shown to form intermediates during oxidation of labelled octanoates. In addition to octanoylhydroxamate, [8-(14)C]octanoate gave rise to small amounts of hexanoyl-, butyryl- and 3-hydroxyoctanoyl-hydroxamate. In contrast with extracts, however, where the quantity of intermediates found was a significant fraction of the precursors, mitochondria oxidizing octanoate contained much larger quantities of octanoyl-CoA than of any other intermediate.
摘要
- 丙酮干燥的肝和肾线粒体的水提取物,添加烟酰胺腺嘌呤二核苷酸(NAD⁺)、辅酶A和硫酸吩嗪甲酯后,能有效地将脂肪酰辅酶A化合物转化为乙酰辅酶A;该过程用氧电极进行监测。2. [1-(¹⁴)C]辛酰辅酶A的标记出现在乙酰辅酶A中的速度比[8-(¹⁴)C]辛酰辅酶A的快。3. 通过添加中性乙醇羟胺终止[8-(¹⁴)C]辛酰辅酶A的氧化反应,所得异羟肟酸通过色谱法分离。得到了3-羟基辛酰、己酰、丁酰和乙酰辅酶A的异羟肟酸衍生物。4. 这些以及其他观察结果表明,提取物对辛酰辅酶A的氧化涉及游离中间体的参与,而不是单个分子由多酶复合物不间断地完全降解为乙酰辅酶A。5. 通过异羟肟酸技术研究的完整肝线粒体在标记辛酸氧化过程中也显示会形成中间体。除了辛酰异羟肟酸外,[8-(¹⁴)C]辛酸还产生少量己酰、丁酰和3-羟基辛酰异羟肟酸。然而,与提取物不同,提取物中发现的中间体数量是前体的显著部分,而氧化辛酸的线粒体中辛酰辅酶A的含量比任何其他中间体的含量都要多得多。
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