对属于不同分类群的17株细菌分离物的阿特拉津降解遗传潜力的检测和组织表明，它们的分解代谢功能有最近的共同起源。

Detection and organization of atrazine-degrading genetic potential of seventeen bacterial isolates belonging to divergent taxa indicate a recent common origin of their catabolic functions.

作者信息

Devers Marion, El Azhari Najoi, Kolic Nikolina-Udikovic, Martin-Laurent Fabrice

机构信息

UMR1229 Microbiologie du Sol et de l'Environnement, INRA-Université de Bourgogne, CMSE, Dijon, France.

出版信息

FEMS Microbiol Lett. 2007 Aug;273(1):78-86. doi: 10.1111/j.1574-6968.2007.00792.x. Epub 2007 Jun 11.

DOI:10.1111/j.1574-6968.2007.00792.x

PMID:17561946

Abstract

A collection of 17 atrazine-degrading bacteria isolated from soils was studied to determine the composition of the atrazine-degrading genetic potential (i.e. trzN, trzD and atz) and the presence of IS1071. The characterization of seven new atrazine-degrading bacteria revealed for the first time the trzN-atzBC gene composition in Gram-negative bacteria such as Sinorhizobium sp. or Polaromonas sp. Three main atrazine-degrading gene combinations (i) trzN-atzBC, (ii) atzABC-trzD and (iii) atzABCDEF were observed. The atz and trz genes were often located on plasmids, suggesting that plasmid conjugation could play an important role in their dispersion. In addition, the observation of these genes (i) on the chromosome, (ii) on the same DNA fragment but on different plasmids and (iii) on DNA fragments also hybridizing with IS1071 suggests that transposition may also contribute to disperse the atrazine-degrading genes.

摘要

对从土壤中分离出的17株阿特拉津降解菌进行了研究，以确定阿特拉津降解遗传潜力（即trzN、trzD和atz）的组成以及IS1071的存在情况。对7株新的阿特拉津降解菌的表征首次揭示了革兰氏阴性菌如中华根瘤菌属或极地omonas属中的trzN-atzBC基因组成。观察到三种主要的阿特拉津降解基因组合：（i）trzN-atzBC，（ii）atzABC-trzD和（iii）atzABCDEF。atz和trz基因通常位于质粒上，这表明质粒接合可能在它们的传播中起重要作用。此外，这些基因（i）在染色体上、（ii）在同一DNA片段但不同质粒上以及（iii）在也与IS1071杂交的DNA片段上的观察结果表明，转座也可能有助于阿特拉津降解基因的传播。

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对属于不同分类群的17株细菌分离物的阿特拉津降解遗传潜力的检测和组织表明，它们的分解代谢功能有最近的共同起源。

Detection and organization of atrazine-degrading genetic potential of seventeen bacterial isolates belonging to divergent taxa indicate a recent common origin of their catabolic functions.

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