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Phototrophic utilization of toluene under anoxic conditions by a new strain of Blastochloris sulfoviridis (1999)

Zengler, K. ; Heider, Johann ; Rosselló-Mora, Ramon ; [et al.]

Springer

Archives of microbiology 172 (1999), S. 204-212

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ISSN: 1432-072X

Keywords: Key words Phototrophic bacteria ; Photoheterotrophic growth ; Aromatic hydrocarbons ; Toluene ; Benzylsuccinate ; 16S rRNA sequence analysis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The capacity of anoxygenic phototrophic bacteria to utilize aromatic hydrocarbons was investigated in enrichment cultures with toluene. When mineral medium with toluene (provided in an inert carrier phase) was inoculated with activated sludge and incubated under infrared illumination (〉 750 nm), a red-to-brownish culture developed. Agar dilution series indicated the dominance of two types of phototrophic bacteria. One type formed red colonies, had rod-shaped cells with budding division, and grew on benzoate but not on toluene. The other type formed yellow-to-brown colonies, had oval cells, and utilized toluene and benzoate. One strain of the latter type, ToP1, was studied in detail. Sequence analysis of the 16S rRNA gene and DNA-DNA hybridization indicated an affiliation of strain ToP1 with the species Blastochloris sulfoviridis, a member of the α-subclass of Proteobacteria. However, the type strain (DSM 729) of Blc. sulfoviridis grew neither on toluene nor on benzoate. Light-dependent consumption of toluene in the presence of carbon dioxide and formation of cell mass by strain ToP1 were demonstrated in quantitative growth experiments. Strain ToP1 is the first phototrophic bacterium shown to utilize an aromatic hydrocarbon. In the supernatant of toluene-grown cultures and in cell-free extracts incubated with toluene and fumarate, the formation of benzylsuccinate was detected. These findings indicate that the phototrophic bacterium activates toluene anaerobically by the same mechanism that has been reported for denitrifying and sulfate-reducing bacteria. The natural abundance of phototrophic bacteria with the capacity for toluene utilization was examined in freshwater habitats. Counting series revealed that up to around 1% (1.8 × 105 cells per gram dry mass of sample) of the photoheterotrophic population cultivable with acetate grew on toluene.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002030050761

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Oxidation of ethanol by methanogenic bacteria (1989)

Frimmer, Ursula ; Widdel, Friedrich

Springer

Archives of microbiology 152 (1989), S. 479-483

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ISSN: 1432-072X

Keywords: Methanogenic bacteria ; Alcohols ; Alcohol dehydrogenase ; Ethanol ; Acetaldehyde ; Acetate ; NADP ; Factor F420 ; Methanogenium organophilum

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Methanogenium organophilum, a non-autotrophic methanogen able to use primary and secondary alcohols as hydrogen donors, was grown on ethanol. Per mol of methane formed, 2 mol of ethanol were oxidized to acetate. In crude extract, an NADP+-dependent alcohol dehydrogenase (ADH) with a pH optimum of about 10.0 catalyzed a rapid (5 μmol/min·mg protein; 22°C) oxidation of ethanol to acetaldehyde; after prolonged incubation also acetate was detectable. With NAD+ only 2% of the activity was observed. F420 was not reduced. The crude extract also contained F420: NADP+ oxidoreductase (0.45 μmol/min·mg protein) that was not active at the pH optimum of ADH. With added acetaldehyde no net reduction of various electron acceptors was measured. However, the acetaldehyde was dismutated to ethanol and acetate by the crude extract. The dismutation was stimulated by NADP+. These findings suggested that not only the dehydrogenation of alcohol but also of aldehyde to acid was coupled to NADP+ reduction. If the reaction was started with acetaldehyde, formed NADPH probably reduced excess aldehyde immediately to ethanol and in this way gave rise to the observed dismutation. Acetate thiokinase activity (0.11 μmol/min·mg) but no acetate kinase or phosphotransacetylase activity was observed. It is concluded that during growth on ethanol further oxidation of acetaldehyde does not occur via acetylCoA and acetyl phosphate and hence is not associated with substrate level phosphorylation. The possibility exists that oxidation of both ethanol and acetaldehyde is catalyzed by ADH. Isolation of a Methanobacterium-like strain with ethanol showed that the ability to use primary alcohols also occurs in genera other than Methanogenium.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00446933

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