Anaerobic degradation of toluene by pure cultures of denitrifying bacteria.
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TLDR
Several denitrifying Pseudomonas spp.Abstract:
Several denitrifying Pseudomonas spp., isolated with various aromatic compounds, were tested for the ability to degrade toluene in the absence of molecular oxygen. Four out of seven strains were able to degrade toluene in the presence of N2O. More than 50% of the 14C from ring-labelled toluene was released as CO2, and up to 37% was assimilated into cell material. Furthermore it was demonstrated for two strains that they were able to grow on toluene as the sole carbon and energy source in the presence of N2O. Suspensions of cells pregrown on toluene degraded toluene, benzaldehyde or benzoate without a lag phase and without accumulation of intermediates. p-Cresol, p-hydroxybenzylalcohol, p-hydroxybenzaldehyde or p-hydroxybenzoate was degraded much slower or only after distinct lag times. In the presence of fluoroacetate [14C]toluene was transformed to [14C]benzoate, which suggests that anaerobic toluene degradation proceeds through oxidation of the methyl side chain to benzoate.read more
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Anaerobic bacterial metabolism of hydrocarbons
TL;DR: This review summarises the current knowledge of the bacterial isolates capable of anaerobic mineralization of hydrocarbons, and of the biochemistry and molecular biology of enzymes involved in the catabolic pathways of some of these substrates.
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Anaerobic degradation of ethylbenzene and other aromatic hydrocarbons by new denitrifying bacteria
Ralf Rabus,Friedrich Widdel +1 more
TL;DR: Anaerobic degradation of alkylbenzenes with side chains longer than that of toluene was studied in freshwater mud samples in the presence of nitrate to identify two new denitrifying strains and reveal a close relationship of the new isolates to Thauera selenatis.
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Anaerobic Metabolism of Aromatic Compounds
Johann Heider,Georg Fuchs +1 more
TL;DR: The anaerobic pathways which allow bacteria to utilize aromatics even in the absence of oxygen are outlined and previously unknown reactions and on the enzymes characteristic for such novel metabolism are focused on.
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Bioremediation of petroleum hydrocarbon-contaminated soil by composting in biopiles.
TL;DR: The mineral oil degradation rate was most rapid during the first months, and it followed a typical first order degradation curve, and the mineral oil content in the pile with diesel oil-contaminated soil decreased.
References
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The biodegradation of aromatic hydrocarbons by bacteria
TL;DR: The biodegradation of benzene, certain arenes, biphenyl and selected fused aromatic hydrocarbons, by single bacterial isolates, are dealt with in detail.
Journal ArticleDOI
Transformation of toluene and benzene by mixed methanogenic cultures
D Grbić-Galić,Timothy M. Vogel +1 more
TL;DR: The intermediates detected are consistent with both toluene and benzene degradation via initial oxidation by ring hydroxylation or methyl oxidation (toluene), which would result in the production of phenol, cresols, or aromatic alcohol.
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Anaerobic Oxidation of Toluene, Phenol, and p-Cresol by the Dissimilatory Iron-Reducing Organism, GS-15
TL;DR: The metabolism of toluene, phenol, and p-cresol by GS-15 provides a model for how aromatic hydrocarbons and phenols may be oxidized with the reduction of Fe(III) in contaminated aquifers and petroleum-containing sediments.
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Anaerobic degradation of phenol by pure cultures of newly isolated denitrifying pseudomonads.
Andreas Tschech,Georg Fuchs +1 more
TL;DR: Preliminary evidence is presented that the first reaction in anaerobic phenol oxidation is phenol carboxylation to 4-hydroxybenzoate.
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Biotransformations of selected alkylbenzenes and halogenated aliphatic hydrocarbons in methanogenic aquifer material: a microcosm study.
TL;DR: The behavior of benzene, toluene, ethylbenzene, o-xylene, 1,1-dichloroethylene, trans-1,2-dicloro methylene, cis-1-2- dichloriene, trich chloroethylenes, and 1, 2-dibromoethane was studied in authentic aquifer material known to support methanogenesis.