Influence of para-substituents on the oxidative metabolism of o-nitrophenols by Pseudomonas putida B2

Author:

Zeyer J,Kocher H P,Timmis K N

Abstract

Pseudomonas putida B2 is able to grow on o-nitrophenol (ONP) as the sole source of carbon and nitrogen. ONP was converted by a nitrophenol oxygenase to nitrite and catechol. Catechol was then attacked by a catechol 1,2-dioxygenase and further degraded through an ortho-cleavage pathway. ONP derivatives which were para-substituted with a methyl-, chloro-, carboxy-, formyl- or nitro-group failed to support growth of strain B2. Relevant catabolic enzymes were characterized to analyze why these derivatives were not mineralized. Nitrophenol oxygenase of strain B2 is a soluble, NADPH-dependent enzyme that is stimulated by magnesium, manganese, and calcium ions. It is active toward ONP, 4-methyl-, 4-chloro-, and to a lesser extent, 4-formyl-ONP but not toward 4-carboxy- or 4-nitro-ONP. In addition, 4-formyl-, 4-carboxy-, and 4-nitro-ONP failed to induce the formation of nitrophenol oxygenase. Catechol 1,2-dioxygenase of strain B2 is active toward catechol and 4-methyl-catechol but only poorly active toward chlorinated catechols. 4-Methyl-catechol is likely to be degraded to methyl-lactones, which are often dead-end metabolites in bacteria. Thus, of the compounds tested, only unsubstituted ONP acts as an inducer and substrate for all of the enzymes of a productive catabolic pathway.

Publisher

American Society for Microbiology

Subject

Ecology,Applied Microbiology and Biotechnology,Food Science,Biotechnology

Reference38 articles.

1. Anaerobic degradation of 2-aminobenzoate (anthranilic acid) by denitrifying bacteria;Braun K.;Appl. Environ. Microbiol.,1984

2. Bacterial degradation of the nitrobenzoic acids;Cartwright N. J.;Biochem. J.,1959

3. Metabolism of 4- chloronitrobenzene by the yeast Rhodosporidium sp;Corbett M. D.;Appl. Environ. Microbiol.,1981

4. Chemical structure and biodegradability of halogenated aromatic compounds;Dorn E.;Biochem. J.,1978

5. Ueber den aeroben mikrobiellen Abbau aromatischer;Germanier R.;Nitroverbindungen. Pathol. Microbiol.,1963

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