Isolation, characterization, and distribution of denitrifying toluene degraders from a variety of habitats.

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Appl Environ Microbiol. 1994 August; 60(8): 2802-2810

Isolation, characterization, and distribution of denitrifying toluene degraders from a variety of habitats.

M R Fries, J Zhou, J Chee-Sanford and J M Tiedje

Department of Crop and Soil Sciences, Michigan State University, East Lansing 48824.

ABSTRACT

Enrichments capable of toluene degradation under O2-free denitrifyingconditions were established with diverse inocula including agriculturalsoils, compost, aquifer material, and contaminated soil samplesfrom different geographic regions of the world. Successful enrichmentwas strongly dependent on the initial use of relatively lowtoluene concentrations, typically 5 ppm. From the enrichmentsshowing positive activity for toluene degradation, 10 bacterialisolates were obtained. Fingerprints generated by PCR-amplifiedDNA, with repetitive extragenic palindromic sequence primers,showed that eight of these isolates were different. Under aerobicconditions, all eight isolates degraded toluene, five degradedethylbenzene, three consumed benzene, and one degraded chlorobenzene,meta-Xylene was the only other substrate used anaerobicallyand was used by only one isolate. All isolates were motile gram-negativerods, produced N2 from denitrification, and did not hydrolyzestarch. All strains but one fixed nitrogen as judged by ethyleneproduction from acetylene, but only four strains hybridizedto the nifHDK genes. All strains appeared to have heme nitritereductase since their DNA hybridized to the heme (nirS) butnot to the Cu (nirU) genes. Five strains hybridized to a tolueneortho-hydroxylase catabolic probe, and two of those also hybridizedto a toluene meta-hydroxylase probe. Partial sequences of the16S rRNA genes of all isolates showed substantial similarityto 16S rRNA sequences of Azoarcus sp. Physiological, morphological,fatty acid, and 16S rRNA analyses indicated that these strainswere closely related to each other and that they belong to thegenus Azoarcus.(ABSTRACT TRUNCATED AT 250 WORDS)

Appl Environ Microbiol. 1994 August; 60(8): 2802-2810

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