Bacterial degradation of ring-chlorinated acetophenones

Bacterial degradation of ring-chlorinated acetophenones

Two strains, Alcaligenes sp. strain ACA and Pseudomonas fluorescens ACB, isolated from acetophenone and 4'-hydroxyacetophenone enrichments, respectively, cometabolize a range of chlorinated acetophenones (CAs). A biological Baeyer-Villiger reaction converts the CA to chlorophenyl acetate. This...

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Veröffentlicht in:Applied and Environmental Microbiology 1990-12, Vol.56 (12), p.3678-3685
Hauptverfasser: Higson, F.K. (University of California, Riverside, CA), Focht, D.D
Format: Artikel
Sprache:eng
Schlagworte:
4'-hydroxyacetophenone
acetophenone
ALCALIGENES
Applied Environmental and Public Health Microbiology
BIODEGRADACION
BIODEGRADATION
Biodegradation of pollutants
Biological and medical sciences
Biotechnology
CHLORFENVINPHOS
chlorinated acetophenones
CLORFENVINFOS
Environment and pollution
Fundamental and applied biological sciences. Psychology
Industrial applications and implications. Economical aspects
PSEUDOMONAS FLUORESCENS
TETRACHLORVINPHOS
TETRACLORVINFOS
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Zusammenfassung:Two strains, Alcaligenes sp. strain ACA and Pseudomonas fluorescens ACB, isolated from acetophenone and 4'-hydroxyacetophenone enrichments, respectively, cometabolize a range of chlorinated acetophenones (CAs). A biological Baeyer-Villiger reaction converts the CA to chlorophenyl acetate. This is evident only in the presence of an esterase inhibitor, since the CA is normally rapidly hydrolyzed to a chlorophenol which has the same substitution pattern as the original ketone. The oxygenase that attacks the ketone uses NADPH in the incorporation of one atom of 18O2 and is strongly inhibited by phenols that bear an ortho or meta chlorine or bromine, but much less by cresols or phenol itself. A feedback phenomenon may thus account for the inability of strain ACA to grow on CAs, which also fail to induce the cells for their own metabolism
ISSN:0099-2240
1098-5336
DOI:10.1128/aem.56.12.3678-3685.1990