鉴定和表征 Rhodococcus sp. strain PN1 中另一个 4-硝基苯酚降解基因簇 nps。

Identification and characterization of another 4-nitrophenol degradation gene cluster, nps, in Rhodococcus sp. strain PN1.

机构信息

Department of Materials Science and Chemistry, Graduate School of Engineering, University of Hyogo, 2167 Shosha, Himeji, Hyogo 671-2280, Japan.

出版信息

J Biosci Bioeng. 2011 Jun;111(6):687-94. doi: 10.1016/j.jbiosc.2011.01.016. Epub 2011 Mar 10.

DOI:10.1016/j.jbiosc.2011.01.016

PMID:21396889

Abstract

4-Nitrophenol (4-NP) is a toxic compound formed in soil by the hydrolysis of organophosphorous pesticides, such as parathion. We previously reported the presence of the 4-NP degradation gene cluster (nphRA1A2) in Rhodococcus sp. strain PN1, which encodes a two-component 4-NP hydroxylase system that oxidizes 4-NP into 4-nitrocatechol. In the current study, another gene cluster (npsC and npsRA2A1B) encoding a similar 4-NP hydroxylase system was cloned from strain PN1. The enzymes from this 4-NP hydroxylase system (NpsA1 and NpsA2) were purified as histidine-tagged (His-) proteins and then characterized. His-NpsA2 showed NADH/FAD oxidoreductase activity, and His-NpsA1 showed 4-NP oxidizing activity in the presence of His-NpsA2. In the 4-NP oxidation using the reconstituted enzyme system (His-NpsA1 and His-NpsA2), hydroquinone (35% of 4-NP disappeared) and hydroxyquinol (59% of 4-NP disappeared) were detected in the presence of ascorbic acid as a reducing reagent, suggesting that, without the reducing reagent, 4-NP was converted into their oxidized forms, 1,4-benzoquinone and 2-hydroxy-1,4-benzoquinone. In addition, in the cell extract of recombinant Escherichia coli expressing npsB, a typical spectral change showing conversion of hydroxyquinol into maleylacetate was observed. These results indicate that this nps gene cluster, in addition to the nph gene cluster, is also involved in 4-NP degradation in strain PN1.

摘要

4-硝基酚（4-NP）是土壤中有机磷农药（如对硫磷）水解形成的有毒化合物。我们之前曾报道过，在 Rhodococcus sp. 菌株 PN1 中存在 4-NP 降解基因簇（nphRA1A2），该基因簇编码一个双组分 4-NP 羟化酶系统，可将 4-NP 氧化为 4-硝基邻苯二酚。在本研究中，我们从菌株 PN1 中克隆了另一个编码类似 4-NP 羟化酶系统的基因簇（npsC 和 npsRA2A1B）。该 4-NP 羟化酶系统的酶（NpsA1 和 NpsA2）被纯化并标记为组氨酸（His-）蛋白，然后对其进行了表征。His-NpsA2 表现出 NADH/FAD 氧化还原酶活性，而在 His-NpsA2 的存在下，His-NpsA1 表现出 4-NP 氧化活性。在使用重组酶系统（His-NpsA1 和 His-NpsA2）进行 4-NP 氧化时，在抗坏血酸作为还原剂的存在下，检测到氢醌（4-NP 的 35%消失）和对苯二酚（4-NP 的 59%消失），这表明，在没有还原剂的情况下，4-NP 转化为它们的氧化形式 1,4-苯醌和 2-羟基-1,4-苯醌。此外，在表达 npsB 的重组大肠杆菌细胞提取物中，观察到典型的光谱变化，表明对苯二酚转化为马来酸乙酰酯。这些结果表明，除了 nph 基因簇外，该 nps 基因簇还参与了菌株 PN1 中的 4-NP 降解。

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鉴定和表征 Rhodococcus sp. strain PN1 中另一个 4-硝基苯酚降解基因簇 nps。

Identification and characterization of another 4-nitrophenol degradation gene cluster, nps, in Rhodococcus sp. strain PN1.

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