Department of Materials Science and Chemistry, Graduate School of Engineering, University of Hyogo, 2167 Shosha, Himeji, Hyogo 671-2280, Japan.
Microbiology (Reading). 2012 Jul;158(Pt 7):1796-1807. doi: 10.1099/mic.0.055335-0. Epub 2012 Apr 13.
Sphingomonas sp. NP5 can degrade a wide range of nonylphenol (NP) isomers that have widely contaminated aquatic environments as major endocrine-disrupting chemicals. To understand the biochemical and genetic backgrounds of NP degradation, a gene library of strain NP5 was constructed using a broad-host-range vector pBBR1MCS-2 and introduced into Sphingobium japonicum UT26. Several transformants accumulated reddish brown metabolites on agar plates dispersed with a mixture of NP isomers. Two different DNA fragments (7.6 and 9.3 kb) involved in the phenotype were isolated from the transformants. Sequence analysis revealed that both fragments contained an identical 1593 bp monooxygenase gene (nmoA), the predicted protein sequence of which showed 83 % identity to the octylphenol-4-monooxygenase of Sphingomonas sp. PWE1. The nmoA gene in the 7.6 kb fragment was surrounded by an IS21-type insertion sequence (IS) and IS6100, while another in the 9.3 kb fragment was adjacent to an IS66-type IS, suggesting that they have been acquired through multiple transposition events. A fast-growing recombinant Pseudomonas putida strain harbouring nmoA was constructed and used for degradation of a chemically synthesized NP isomer, 4-(1-ethyl-1-methylhexyl)phenol. This strain converted the isomer into hydroquinone stoichiometrically. 3-Methyl-3-octanol, probably originating from the alkyl side chain, was also detected as the metabolite. These results indicate that these two nmoA genes are involved in the NP degradation ability of strain NP5.
NP5 能够降解多种壬基酚(NP)异构体,这些异构体广泛污染了水生环境,是主要的内分泌干扰化学物质。为了了解 NP 降解的生化和遗传背景,我们使用广谱宿主载体 pBBR1MCS-2 构建了 NP5 菌株的基因文库,并将其引入到食烃菌属(Sphingobium)的 UT26 中。一些转化体在含有 NP 异构体混合物的琼脂平板上积累了红棕色代谢物。从转化体中分离出两个参与表型的不同 DNA 片段(7.6 和 9.3 kb)。序列分析表明,这两个片段都包含一个相同的 1593 bp 单加氧酶基因(nmoA),其预测的蛋白质序列与 Sphingomonas sp. PWE1 的辛基酚-4-单加氧酶具有 83%的同一性。7.6 kb 片段中的 nmoA 基因被 IS21 型插入序列(IS)和 IS6100 包围,而 9.3 kb 片段中的另一个基因则与 IS66 型 IS 相邻,这表明它们是通过多次转位事件获得的。构建了一个携带 nmoA 的快速生长的重组假单胞菌(Pseudomonas putida)菌株,并用于降解一种化学合成的 NP 异构体,4-(1-乙基-1-甲基己基)苯酚。该菌株将该异构体转化为对苯二酚,为化学计量关系。还检测到 3-甲基-3-辛醇,可能来源于烷基侧链,作为代谢产物。这些结果表明,这两个 nmoA 基因参与了 NP5 菌株的 NP 降解能力。
