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极地单胞菌属菌株JS666的基因组:对一种烃类和外源生物降解细菌进化的见解以及与生物技术相关的特征

The genome of Polaromonas sp. strain JS666: insights into the evolution of a hydrocarbon- and xenobiotic-degrading bacterium, and features of relevance to biotechnology.

作者信息

Mattes Timothy E, Alexander Anne K, Richardson Paul M, Munk A Christine, Han Cliff S, Stothard Paul, Coleman Nicholas V

机构信息

Department of Civil and Environmental Engineering, 4105 Seamans Center, The University of Iowa, Iowa City, Iowa 52242, USA.

出版信息

Appl Environ Microbiol. 2008 Oct;74(20):6405-16. doi: 10.1128/AEM.00197-08. Epub 2008 Aug 22.

DOI:10.1128/AEM.00197-08
PMID:18723656
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2570305/
Abstract

Polaromonas sp. strain JS666 can grow on cis-1,2-dichloroethene (cDCE) as a sole carbon and energy source and may be useful for bioremediation of chlorinated solvent-contaminated sites. Analysis of the genome sequence of JS666 (5.9 Mb) shows a bacterium well adapted to pollution that carries many genes likely to be involved in hydrocarbon and xenobiotic catabolism and metal resistance. Clusters of genes coding for haloalkane, haloalkanoate, n-alkane, alicyclic acid, cyclic alcohol, and aromatic catabolism were analyzed in detail, and growth on acetate, catechol, chloroacetate, cyclohexane carboxylate, cyclohexanol, ferulate, heptane, 3-hydroxybenzoate, hydroxyquinol, gentisate, octane, protocatechuate, and salicylate was confirmed experimentally. Strain JS666 also harbors diverse putative mobile genetic elements, including retrons, inteins, a miniature inverted-repeat transposable element, insertion sequence transposases from 14 families, eight genomic islands, a Mu family bacteriophage, and two large (338- and 360-kb) plasmids. Both plasmids are likely to be self-transferable and carry genes for alkane, alcohol, aromatic, and haloacid metabolism. Overall, the JS666 genome sequence provides insights into the evolution of pollutant-degrading bacteria and provides a toolbox of catabolic genes with utility for biotechnology.

摘要

极地单胞菌属菌株JS666能够以顺式-1,2-二氯乙烯(cDCE)作为唯一碳源和能源生长,可能有助于对受氯代溶剂污染场地进行生物修复。对JS666基因组序列(5.9 Mb)的分析表明,该细菌对污染具有良好的适应性,携带许多可能参与碳氢化合物和外源物分解代谢以及金属抗性的基因。详细分析了编码卤代烷、卤代烷酸、正构烷烃、脂环酸、环醇和芳香族分解代谢的基因簇,并通过实验证实了其在乙酸盐、儿茶酚、氯乙酸盐、环己烷羧酸盐、环己醇、阿魏酸、庚烷、3-羟基苯甲酸盐、羟基喹啉、龙胆酸盐、辛烷、原儿茶酸和水杨酸盐上的生长情况。菌株JS666还含有多种假定的可移动遗传元件,包括反转录子、内含肽、一个微型反向重复转座元件、来自14个家族的插入序列转座酶、8个基因组岛、一个Mu家族噬菌体以及两个大质粒(338 kb和360 kb)。这两个质粒可能都是可自我转移的,并携带烷烃、醇类、芳香族和卤代酸代谢相关基因。总体而言,JS666基因组序列为污染物降解细菌的进化提供了见解,并提供了一个具有生物技术应用价值的分解代谢基因工具箱。

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