Isolation and physiological characterization of Syntrophus buswellii strain GA from a syntrophic benzoate-degrading, strictly anaerobic coculture

Abstract

A stable, syntrophic benzoate-degrading bacterial consortium was enriched from sewage sludge. It oxidized benzoate or 3-phenylpropionate to acetate, H2 and CO2. As hydrogen scavengers Methanospirillum hungatei and Desulfovibrio sp. were present. The benzoate-degrading bacteria of this syntrophic culture and of Syntrophus buswelli were able to grow with benzoate/crotonate or crotonate alone in the absence of a hydrogen-utilizing partner organism. If crotonate was the only substrate, acetate and butyrate were produced, while during growth on benzoate or 3-phenylpropionate crotonate served as a reducible co-substrate and was exclusively converted to butyrate. In the presence of crotonate interspecies hydrogen transfer was not necessary as a hydrogen sink. The benzoate degrader was isolated as a pure culture with crotonate as the only carbon source. The pure culture could also grow with benzoate/crotonate or 3-phenylpropionate/crotonate. The effect of high concentrations of crotonate and of acetate or butyrate on growth of the benzoate degrader was investigated. The benzoate degrader was compared with S. buswellii for its morphology, physiology and DNA base composition. Except for the fact that S. buswellii was also able to grow on cinnamate, no differences between the two organisms were detected. The isolate is named S. buswelli, strain GA.