Hoffmann_2003_Microbiology_149_2545

Reference

Title : A transposon encoding the complete 2,4-dichlorophenoxyacetic acid degradation pathway in the alkalitolerant strain Delftia acidovorans P4a - Hoffmann_2003_Microbiology_149_2545
Author(s) : Hoffmann D , Kleinsteuber S , Muller RH , Babel W
Ref : Microbiology , 149 :2545 , 2003
Abstract :

The bacterial strain Delftia acidovorans P4a, isolated from an extreme environment (heavily contaminated with organochlorines, highly alkaline conditions in an aqueous environment), was found to mineralize 2,4-dichlorophenoxyacetic acid (2,4-D) and 2-methyl-4-chlorophenoxyacetic acid under alkaline conditions. Screening a genomic DNA library of the alkalitolerant strain for 2,4-D genes revealed the presence of the two 2,4-D gene clusters tfdCDEF and tfdC(II)E(II)BKA, tfdR genes being located in the vicinity of each tfd gene cluster. The results showed that the putative genes of the complete 2,4-D degradation pathway are organized in a single genomic unit. Sequence similarities to homologous gene clusters indicate that the individual tfd elements of strain P4a do not share a common origin, but were brought together by recombination events. The entire region is flanked by insertion elements of the IS1071 and IS1380 families, forming a transposon-like structure of about 30 kb, of which 28.4 kb were analysed. This element was shown to be located on the bacterial chromosome. The present study provides the first reported case of a chromosomally located catabolic transposon which carries the genes for the complete 2,4-D degradation pathway.

PubMedSearch : Hoffmann_2003_Microbiology_149_2545
PubMedID: 12949179
Gene_locus related to this paper: alceu-CBNC

Related information

Gene_locus alceu-CBNC

Citations formats

Hoffmann D, Kleinsteuber S, Muller RH, Babel W (2003)
A transposon encoding the complete 2,4-dichlorophenoxyacetic acid degradation pathway in the alkalitolerant strain Delftia acidovorans P4a
Microbiology 149 :2545

Hoffmann D, Kleinsteuber S, Muller RH, Babel W (2003)
Microbiology 149 :2545