通过宏基因组学方法从活性污泥中分离和表征 4-硝基甲苯氧化酶。

Isolation and characterization of a 4-nitrotoluene-oxidizing enzyme from activated sludge by a metagenomic approach.

机构信息

Bioproduction Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), 1–1–1, Higashi, Tsukuba, Ibaraki 305–8566, Japan.

出版信息

Microbes Environ. 2010;25(2):133-9. doi: 10.1264/jsme2.me10110.

DOI:10.1264/jsme2.me10110

PMID:21576864

Abstract

To isolate a biocatalytic enzyme, metagenomic libraries were constructed in fosmids from samples of activated sludge used to treat coke plant wastewater. Six indigo-producing clones were isolated from approximately 40,000 metagenomic clones in the search for the oxygenase responsible. In vitro mutagenesis and whole-sequencing revealed one open reading frame to be responsible for the production of indigo in the fosmid clones. The deduced sequence of the gene product showed 60% identity with 2-naphthoate monooxygenase from Burkholderia sp. JT1500. Subclones carrying this open reading frame (icpA) retained indigo production, and indigo-producing enzymes expressed from subclones catalyzed the oxidization of 4-nitrotoluene to form 4-nitrobenzyl alcohol. These results suggested that the icp product is an enzyme involved in catalyzing 4-nitrotoluene's oxygenation.

摘要

为了分离生物催化酶，从用于处理焦化废水的活性污泥样品中构建了 fosmid 宏基因组文库。在寻找负责的加氧酶的过程中，从大约 40000 个宏基因组克隆中分离出了 6 个产生靛蓝的克隆。体外诱变和全序列分析表明，一个开放阅读框负责产生 fosmid 克隆中的靛蓝。基因产物的推断序列与 Burkholderia sp. JT1500 的 2-萘酸单加氧酶显示出 60%的同一性。携带该开放阅读框（icpA）的亚克隆保留了靛蓝的产生，并且从亚克隆中表达的产生靛蓝的酶催化了 4-硝基甲苯的氧化，形成 4-硝基苯甲醇。这些结果表明，icp 产物是一种参与催化 4-硝基甲苯氧化的酶。

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通过宏基因组学方法从活性污泥中分离和表征 4-硝基甲苯氧化酶。

Isolation and characterization of a 4-nitrotoluene-oxidizing enzyme from activated sludge by a metagenomic approach.

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