首页> 美国卫生研究院文献>Biochemical Journal >The mechanism of haem catabolism. A study of haem breakdown in spleen microsomal fraction and in a model system by 18O labelling and metal substitution.

【2h】

The mechanism of haem catabolism. A study of haem breakdown in spleen microsomal fraction and in a model system by 18O labelling and metal substitution.

机译：血红素分解代谢的机制。通过18O标记和金属置换研究脾微粒体部分和模型系统中的血红素分解。

代理获取

本网站仅为用户提供外文OA文献查询和代理获取服务，本网站没有原文。下单后我们将采用程序或人工为您竭诚获取高质量的原文，但由于OA文献来源多样且变更频繁，仍可能出现获取不到、文献不完整或与标题不符等情况，如果获取不到我们将提供退款服务。请知悉。

页面导航

摘要
著录项
引文网络
相似文献
相关主题

摘要

The mechanism of bile-pigment formation from haem breakdown was studied by using 18O labelling of the molecular oxygen required for macrocyclic ring cleavage. For haem degradation by the spleen microsomal haem oxygenase system, mass spectrometry of the product bilirubin revealed that cleavage occurred by the Two-Molecule Mechanism, i.e. the terminal lactam oxygen atoms in bilirubin were derived from two different oxygen molecules. Similarly, degradation of myoglobin by coupled oxidation with ascorbate and oxygen proceeded via the Two-Molecule Mechanism. Cobalt and manganese complexes of protoporphyrin IX were not degraded by either the haem oxygenase system or the coupled oxidation system. This result suggests that the iron atom possesses unique properties in facilitating porphyrin breakdown.

机译：通过使用18O标记大环断裂所需的分子氧，研究了血红素分解引起的胆汁色素形成的机理。对于通过脾微粒体血红素氧化酶系统进行的血红素降解，产物胆红素的质谱显示通过双分子机理发生裂解，即胆红素中的末端内酰胺氧原子衍生自两个不同的氧分子。同样，肌红蛋白通过与抗坏血酸和氧气偶联氧化而降解的过程，是通过双分子机理进行的。血红素加氧酶系统或耦合氧化系统均未降解原卟啉IX的钴和锰配合物。该结果表明，铁原子在促进卟啉分解方面具有独特的性质。

著录项

期刊名称 Biochemical Journal
作者
R F King; S B Brown;
展开▼
作者单位

展开▼
年(卷),期 1978(174),1
年度 1978
页码 103–109
总页数 7
原文格式 PDF
正文语种
中图分类分子生物学;
关键词

相似文献

外文文献
中文文献
专利

1. The mechanism of haem catabolism. A study of haem breakdown in spleen microsomal fraction and in a model system by 18O labelling and metal substitution [J] . R F G J King, S B Brown The biochemical journal . 1978,第1期

机译：血红素分解代谢的机制。通过18O标记和金属取代研究脾微粒体部分和模型系统中的血红素分解
2. The mechanism of haem catabolism. Bilirubin formation in living rats by [18O]oxygen labelling [J] . R F G J King, S B Brown The biochemical journal . 1978,第2期

机译：血红素分解代谢的机制。 [18O]氧标记在活大鼠胆红素的形成
3. A study of the mechanism of quercetin oxygenation by 18O labelling. A comparison of the mechanism with that of haem degradation [J] . E G Evans, J A Holroyd, S B Brown, The biochemical journal . 1982,第1期

机译：用18O标记研究槲皮素氧化的机理。血红素降解机理的比较
4. Mechanisms of Photodecomposition of Metal-Containing EUV Photoresists: Isotopic Labelling Studies [C] . Michael Murphy, Jacob Sitterly, Steven Grzeskowiak, SPIE Advanced Lithography Conference . 2018

机译：含金属的EUV光刻胶的光分解机理：同位素标记研究
5. TRITIUM-LABELED RAFFINOSE: MODEL STUDIES AND APPLICATION AS A LABEL FOR INVESTIGATION OF SERUM PROTEIN CATABOLISM. [D] . HENDERSON, LEE ALAN. 1981

机译：RIT标记的raffinose：模型研究和作为血清蛋白代谢研究的标签。
6. A study of the mechanism of quercetin oxygenation by 18O labelling. A comparison of the mechanism with that of haem degradation. [O] . S B Brown, V Rajananda, J A Holroyd, 1982

机译：用18O标记研究槲皮素氧化的机理。血红素降解机理的比较。
7. The mechanism of haem catabolism. A study of haem breakdown in spleen microsomal fraction and in a model system by 18O labelling and metal substitution. [O] . King, R F, Brown, S B 1978

机译：血红素分解代谢的机制。通过18O标记和金属置换研究脾微粒体部分和模型系统中的血红素分解。
8. Steel Corrosion Mechanisms; the Growth and Breakdown of Protective Films in Hightemperature Aqueous Systems, Studies with 15% Naoh at 316c [R] . Bloom, M. C., Newport, G. N., Fraser, W. A. 1964

机译：钢腐蚀机理;高温水溶液体系中保护膜的生长和分解，在316c下用15％Naoh进行研究

The mechanism of haem catabolism. A study of haem breakdown in spleen microsomal fraction and in a model system by 18O labelling and metal substitution.

摘要

著录项

引文网络

相似文献

相关主题

期刊订阅