双组分黄素酶苯乙烯单加氧酶的黄素转移及氧激活机制

Mechanism of flavin transfer and oxygen activation by the two-component flavoenzyme styrene monooxygenase.

作者信息

Kantz Auric, Chin Franklin, Nallamothu Nagamani, Nguyen Tim, Gassner George T

机构信息

Department of Chemistry and Biochemistry, San Francisco State University, San Francisco, CA 94132-4163, USA.

出版信息

Arch Biochem Biophys. 2005 Oct 1;442(1):102-16. doi: 10.1016/j.abb.2005.07.020.

DOI:10.1016/j.abb.2005.07.020

PMID:16140257

Abstract

Styrene monooxygenase (SMO) from Pseudomonas putida S12 is a two-component flavoenzyme composed of the NADH-specific flavin reductase, SMOB, and FAD-specific styrene epoxidase, SMOA. Here, we report the cloning, and expression of native and histidine-tagged versions of SMOA and SMOB and studies of the flavin transfer and styrene oxygenation reactions. In the reductive half-reaction, SMOB catalyzes the two-electron reduction of FAD with a turnover number of 3200 s(-1). Single turnover studies of the reaction of reduced SMOA with substrates indicate the formation of a stable oxygen intermediate with the absorbance characteristics of a flavin hydroperoxide. Based on the results of numerical simulations of the steady-state mechanism of SMO, we find that the observed coupling of NADH and styrene oxidation can be best explained by a model, which includes both the direct transfer and passive diffusion of reduced FAD from SMOB to SMOA.

摘要

恶臭假单胞菌S12的苯乙烯单加氧酶（SMO）是一种双组分黄素酶，由NADH特异性黄素还原酶SMOB和FAD特异性苯乙烯环氧化酶SMOA组成。在此，我们报道了SMOA和SMOB天然及组氨酸标签版本的克隆、表达，以及黄素转移和苯乙烯氧化反应的研究。在还原半反应中，SMOB催化FAD的双电子还原，周转数为3200 s(-1)。还原型SMOA与底物反应的单周转研究表明，形成了具有黄素氢过氧化物吸收特性的稳定氧中间体。基于SMO稳态机制的数值模拟结果，我们发现，观察到的NADH和苯乙烯氧化的偶联可以用一个模型来最好地解释，该模型包括还原型FAD从SMOB到SMOA的直接转移和被动扩散。

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双组分黄素酶苯乙烯单加氧酶的黄素转移及氧激活机制

Mechanism of flavin transfer and oxygen activation by the two-component flavoenzyme styrene monooxygenase.

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