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本文引用的文献

1
A novel type of pyridine nucleotide-disulfide oxidoreductase is essential for NAD+- and NADPH-dependent degradation of epoxyalkanes by Xanthobacter strain Py2.一种新型吡啶核苷酸二硫化物氧化还原酶对于黄杆菌菌株Py2依赖NAD⁺和NADPH的环氧烷烃降解至关重要。
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Purification and characterization of two components of epoxypropane isomerase/carboxylase from Xanthobacter Py2.来自黄杆菌Py2的环氧丙烷异构酶/羧化酶两种组分的纯化与表征
Biochem J. 1996 Oct 15;319 ( Pt 2)(Pt 2):499-506. doi: 10.1042/bj3190499.
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Characterization of an iron-sulfur flavoprotein from Methanosarcina thermophila.嗜热甲烷八叠球菌铁硫黄素蛋白的特性分析
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Involvement of an ATP-dependent carboxylase in a CO2-dependent pathway of acetone metabolism by Xanthobacter strain Py2.一株黄色杆菌Py2中一种依赖ATP的羧化酶参与丙酮代谢的二氧化碳依赖途径。
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Carboxylation of epoxides to beta-keto acids in cell extracts of Xanthobacter strain Py2.在黄色杆菌属Py2菌株的细胞提取物中,环氧化物羧化为β-酮酸。
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Aliphatic and chlorinated alkenes and epoxides as inducers of alkene monooxygenase and epoxidase activities in Xanthobacter strain Py2.脂肪族和氯化烯烃及环氧化物作为黄杆菌属Py2菌株中烯烃单加氧酶和环氧化酶活性的诱导剂。
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Complementation of Xanthobacter Py2 mutants defective in epoxyalkane degradation, and expression and nucleotide sequence of the complementing DNA fragment.环氧烷烃降解缺陷型黄色杆菌Py2突变体的互补作用,以及互补DNA片段的表达和核苷酸序列。
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Carbon dioxide fixation in the metabolism of propylene and propylene oxide by Xanthobacter strain Py2.黄杆菌属菌株Py2对丙烯和环氧丙烷代谢过程中的二氧化碳固定作用
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对来自黄杆菌菌株Py2的环氧化物羧化酶多酶复合体功能重建所需的三种蛋白质成分的表征。

Characterization of three protein components required for functional reconstitution of the epoxide carboxylase multienzyme complex from Xanthobacter strain Py2.

作者信息

Allen J R, Ensign S A

机构信息

Department of Chemistry and Biochemistry, Utah State University, Logan 84322-0300, USA.

出版信息

J Bacteriol. 1997 May;179(10):3110-5. doi: 10.1128/jb.179.10.3110-3115.1997.

DOI:10.1128/jb.179.10.3110-3115.1997
PMID:9150202
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC179085/
Abstract

Epoxide carboxylase from Xanthobacter strain Py2 catalyzes the reductant- and NAD+-dependent carboxylation of aliphatic epoxides to beta-keto acids. Epoxide carboxylase from Xanthobacter strain Py2 has been resolved from cell extracts by anion-exchange chromatography into three protein components, designated I, II, and III, that are obligately required for functional reconstitution of epoxide carboxylase activity. Component II has been purified to homogeneity on the basis of its ability to complement components I and III in restoring epoxide carboxylase activity. Purified component II had a specific activity for epoxide carboxylation of 41.8 mU x min(-1) x mg(-1) when components I and III were present at saturating levels. The biochemical properties of component II reveal that it is the flavin-containing NADPH:disulfide oxidoreductase that was recently shown by other means to be associated with epoxide degradation activity in Xanthobacter strain Py2 (J. Swaving, J. A. M. de Bont, A. Westphal, and A. Dekok, J. Bacteriol. 178:6644-6646, 1996). The rate of epoxide carboxylation was dependent on the relative concentrations of the three carboxylase components. At fixed concentrations of two of the components, epoxide carboxylation rates were saturated in a hyperbolic fashion by increasing the concentration of the third variable component. Methylepoxypropane has been characterized as a time-dependent, irreversible inactivator of epoxide carboxylase activity that is proposed to be a mechanism-based inactivator of the enzyme. The addition of component I, but not that of component II or III, to methylepoxypropane-inactivated cell extracts restored epoxide carboxylase activity, suggesting that component I contains the epoxide binding and activation sites.

摘要

来自黄杆菌属菌株Py2的环氧羧化酶催化脂肪族环氧化物在有还原剂和NAD⁺存在的情况下羧化为β-酮酸。通过阴离子交换色谱法从黄杆菌属菌株Py2的细胞提取物中分离出环氧羧化酶,得到三种蛋白质组分,分别命名为I、II和III,它们是环氧羧化酶活性功能重组所必需的。基于其在恢复环氧羧化酶活性时对组分I和III的互补能力,组分II已被纯化至同质。当组分I和III处于饱和水平时,纯化的组分II对环氧化物羧化的比活性为41.8 mU·min⁻¹·mg⁻¹。组分II的生化特性表明它是含黄素的NADPH:二硫化物氧化还原酶,最近通过其他方法证明它与黄杆菌属菌株Py2中的环氧化物降解活性有关(J. Swaving、J. A. M. de Bont、A. Westphal和A. Dekok,《细菌学杂志》178:6644 - 6646,1996)。环氧化物羧化的速率取决于三种羧化酶组分的相对浓度。在两种组分浓度固定的情况下,通过增加第三种可变组分的浓度,环氧化物羧化速率呈双曲线方式达到饱和。甲基环氧丙烷已被表征为环氧羧化酶活性随时间变化的不可逆失活剂,据推测它是该酶的基于机制的失活剂。向甲基环氧丙烷失活的细胞提取物中添加组分I可恢复环氧羧化酶活性,而添加组分II或III则不能,这表明组分I含有环氧化物结合和活化位点。