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Studies on the mechanism of hepatic microsomal N-oxide formation. The role of cytochrome P-450 and mixed-function amine oxidase in the N-oxidation of NN-dimethylaniline.

机译：肝微粒体氮氧化物形成机理的研究。细胞色素P-450和混合功能胺氧化酶在NN-二甲基苯胺N氧化中的作用。

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Evidence is established for the existence of alternative metabolic routes of N-oxidation of NN-dimethylaniline in rabbit liver microsomal fraction. One pathway involves the participation of two types of cytochrome P-450 with different sensitivities towards heat. Both types may represent distinct haemoprotein species or two physical forms of a single pigment. The other pathway is represented by the mixed-function amine oxidase. The enzyme lacks NADPH dehydrogenase activity and is insensitive to treatment with 2-bromo-4'-nitroacetophenone and steapsin: it catalyses N-oxidation of imipramine, trimethylamine and NN-dimethylaniline in molar proportions considerably different from those of the cytochrome P-450-supported reactions. Cytochrome P-450 is estimated to account for the formation of at least 50-60% of the total NN-dimethylaniline N-oxide formed in the intact rabbit liver microsomal fraction, the remainder arising from the action of the mixed-function amine oxidase.

机译：已经建立了在兔肝微粒体部分中存在N-二甲基苯胺N-氧化N-氧化的替代代谢途径的证据。一种途径涉及对热敏感度不同的两种类型的细胞色素P-450的参与。两种类型都可以代表不同的血红素种类或单一色素的两种物理形式。另一途径由混合功能胺氧化酶代表。该酶缺乏NADPH脱氢酶活性，并且对2-溴-4'-硝基苯乙酮和Steapsin的处理不敏感：它以与细胞色素P-450-支持的反应。据估计，细胞色素P-450占完整兔肝微粒体级分中形成的总NN-二甲基苯胺N-氧化物的至少50-60％，其余来自混合功能胺氧化酶的作用。

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Hlavica, P; Kehl, M;
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年度 1977
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1. Studies on the mechanism of hepatic microsomal N-oxide formation. The role of cytochrome P-450 and mixed-function amine oxidase in the N-oxidation of NN-dimethylaniline [J] . M Kehl, P Hlavica The biochemical journal . 1977,第3期

机译：肝微粒体氮氧化物形成机理的研究。细胞色素P-450和混合功能胺氧化酶在NN-二甲基苯胺N氧化中的作用
2. Studies on the mechanism of hepatic microsomal N-oxide formation. N-oxidation of NN-dimethylaniline by a reconstituted rabbit liver microsomal cytochrome P-448 enzyme system [J] . P Hlavica, S Hülsmann The biochemical journal . 1979,第1期

机译：肝微粒体氮氧化物形成机理的研究。重组兔肝微粒体细胞色素P-448酶系统对NN-二甲基苯胺进行N-氧化
3. The binding of metyrapone to cytochrome P-450 and its inhibitory action on liver microsomal mixed-function oxidase reactions [J] . A G Hildebrandt The biochemical journal . 1971,第2期

机译：甲吡酮与细胞色素P-450的结合及其对肝微粒体混合功能氧化酶反应的抑制作用
4. MODIFICATION OF MEMBRANE LIPID COMPOSITION AND MIXED-FUNCTION OXIDASES IN MOUSE LIVER MICROSOMES BY DIETARY TRANS FATTY ACIDS (CYTOCHROME P-450, P-448). [D] . ENIG, MARY GERTRUDE. 1984

机译：饮食跨脂肪酸对小鼠肝微粒体中膜脂成分和混合功能氧化酶的修饰（细胞色素P-450，P-448）。
5. Studies on the mechanism of hepatic microsomal N-oxide formation. The role of cytochrome P-450 and mixed-function amine oxidase in the N-oxidation of NN-dimethylaniline. [O] . P Hlavica, M Kehl 1977

机译：肝微粒体氮氧化物形成机理的研究。细胞色素P-450和混合功能胺氧化酶在NN-二甲基苯胺N氧化中的作用。
6. Studies on the mechanism of hepatic microsomal N-oxide formation. N-oxidation of NN-dimethylaniline by a reconstituted rabbit liver microsomal cytochrome P-448 enzyme system. [O] . Hlavica, P, Hülsmann, S 1979

机译：肝微粒体氮氧化物形成机理的研究。重构的兔肝微粒体细胞色素P-448酶系统对NN-二甲基苯胺进行N-氧化。
7. Influence of Cytochrome P450 Mixed-Function Oxidase Induction on the Acute Toxicity to Rainbow Trout 'Salmo gairdner' of Primary Aromatic Amines [R] . Hermens, J. L. M., Bradbury, S. P., Broderius, S. J. 1990

机译：细胞色素p450混合功能氧化酶诱导对初级芳香胺对虹鳟'salmo gairdner'急性毒性的影响

Studies on the mechanism of hepatic microsomal N-oxide formation. The role of cytochrome P-450 and mixed-function amine oxidase in the N-oxidation of NN-dimethylaniline.

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