Identification and characterization of a Pseudomonas strain capable of metabolizing phenoxybenzoates

3-Phenoxybenzoate is a transient metabolite from the breakdown of a number of pyrethroid insecticides in soil. In this study, we identified and characterized a bacterium which could grow on 3-phenoxybenzoate, converting it to phenol. On the basis of morphological and biochemical features, the 3-phen...

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Published inApplied and Environmental Microbiology Vol. 57; no. 5; pp. 1294 - 1300
Main Authors Topp, E. (Agriculture Canada, Ottawa, Ontario, Canada), Akhtar, M.H
Format Journal Article
LanguageEnglish
Published United States American Society for Microbiology 01.05.1991
Subjects
ACIDE BENZOIQUE
ACIDO BENZOICO
benzoates
INSECTICIDAS
INSECTICIDE
metabolism
METABOLISME
METABOLISMO
METABOLITE
metabolites
METABOLITOS
Physiology and Biotechnology
PIRETRINAS SINTETICAS
PSEUDOMONAS
PYRETHRINE DE SYNTHESE
pyrethroid insecticides
strains
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ISSN0099-2240
1098-5336
DOI10.1128/AEM.57.5.1294-1300.1991

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Summary:3-Phenoxybenzoate is a transient metabolite from the breakdown of a number of pyrethroid insecticides in soil. In this study, we identified and characterized a bacterium which could grow on 3-phenoxybenzoate, converting it to phenol. On the basis of morphological and biochemical features, the 3-phenoxybenzoate-degrading isolate was determined to be a Pseudomonas species, probably a strain of Pseudomonas delafieldii, now designated Pseudomonas strain ET1. Pseudomonas strain ET1 grew on 3-phenoxybenzoate with a generation time of 3 h and a specific rate of metabolism of (2.6 +/- 0.9) X 10-13 g of 3-phenoxybenzoate consumed cell-1 h-1. The Km for 3-phenoxybenzoate metabolism was 1.4 +/- 0.8 micromole. The metabolism of 3-phenoxybenzoate was constitutive and not subject to catabolite repression. The metabolism of a variety of substituted diaryl ether compounds was examined. 3- and 4-Phenoxybenzoates were metabolized, but 2-phenoxybenzoate was not. Phenoxy-substituted benzyl aldehyde was metabolized, but phenoxy-substituted benzyl alcohol, benzene, phenol, and aniline were not. Derivatives of 3-phenoxybenzoate substituted in the 4' position with hydroxyl, methyl, or chlorine were metabolized, yielding the corresponding 4-substituted phenol. 3-(2-Hydroxyphenoxy)benzoate was not metabolized, but 3-phenoxy-4-fluorobenzoate was. These results indicate that the metabolism of the tested diaryl ether compounds was restricted to 4-phenoxybenzoate, 3-phenoxybenzyl aldehyde, and 3-phenoxybenzoate derivatives without a substitution in the 2' position
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Land Resource Research Centre contribution number 90-81; Animal Research Centre contribution number 1707.
Corresponding author.
ISSN:0099-2240
1098-5336
DOI:10.1128/AEM.57.5.1294-1300.1991