The atrazine catabolism genes atzABC are widespread and highly conserved

M. L. De Souza; J. Seffernick; B. Martinez; M. J. Sadowsky; L. P. Wackett

doi:10.1128/jb.180.7.1951-1954.1998

The atrazine catabolism genes atzABC are widespread and highly conserved

M. L. De Souza, J. Seffernick, B. Martinez, M. J. Sadowsky, L. P. Wackett

Research output: Contribution to journal › Article › peer-review

187 Scopus citations

Abstract

Pseudomonas strain ADP metabolizes the herbicide atrazine via three enzymatic steps, encoded by the genes atzABC, to yield cyanuric acid, a nitrogen source for many bacteria. Here, we show that five geographically distinct atrazine-degrading bacteria contain genes homologous to atzA, -B, and -C. The sequence identities of the atz genes from different atrazine- degrading bacteria were greater than 99% in all pairwise comparisons. This differs from bacterial genes involved in the catabolism of other chlorinated compounds, for which the average sequence identity in pairwise comparisons of the known members of a class ranged from 25 to 56%. Our results indicate that globally distributed atrazine-catabolic genes are highly conserved in diverse genera of bacteria.

Original language	English (US)
Pages (from-to)	1951-1954
Number of pages	4
Journal	Journal of bacteriology
Volume	180
Issue number	7
DOIs	https://doi.org/10.1128/jb.180.7.1951-1954.1998
State	Published - 1998

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title = "The atrazine catabolism genes atzABC are widespread and highly conserved",

abstract = "Pseudomonas strain ADP metabolizes the herbicide atrazine via three enzymatic steps, encoded by the genes atzABC, to yield cyanuric acid, a nitrogen source for many bacteria. Here, we show that five geographically distinct atrazine-degrading bacteria contain genes homologous to atzA, -B, and -C. The sequence identities of the atz genes from different atrazine- degrading bacteria were greater than 99% in all pairwise comparisons. This differs from bacterial genes involved in the catabolism of other chlorinated compounds, for which the average sequence identity in pairwise comparisons of the known members of a class ranged from 25 to 56%. Our results indicate that globally distributed atrazine-catabolic genes are highly conserved in diverse genera of bacteria.",

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year = "1998",

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T1 - The atrazine catabolism genes atzABC are widespread and highly conserved

AU - De Souza, M. L.

AU - Seffernick, J.

AU - Martinez, B.

AU - Sadowsky, M. J.

AU - Wackett, L. P.

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AB - Pseudomonas strain ADP metabolizes the herbicide atrazine via three enzymatic steps, encoded by the genes atzABC, to yield cyanuric acid, a nitrogen source for many bacteria. Here, we show that five geographically distinct atrazine-degrading bacteria contain genes homologous to atzA, -B, and -C. The sequence identities of the atz genes from different atrazine- degrading bacteria were greater than 99% in all pairwise comparisons. This differs from bacterial genes involved in the catabolism of other chlorinated compounds, for which the average sequence identity in pairwise comparisons of the known members of a class ranged from 25 to 56%. Our results indicate that globally distributed atrazine-catabolic genes are highly conserved in diverse genera of bacteria.

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