Linkage of formate hydrogenlyase with anaerobic respiration in Proteus mirabilis |
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Authors: | K. Krab L.F. Oltmann A.H. Stouthamer |
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Affiliation: | Department of Microbiology, Biological Laboratory, Vrije Universiteit, De Boelelaan 1087, 1007 MC Amsterdam The Netherlands |
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Abstract: | The linkage between the enzyme system catalysing formate hydrogenlyase and reductases involved in anaerobic respiration in intact cells of anaerobically grown Proteus mirabilis was studied. Reduction of nitrate and fumarate by molecular hydrogen or formate was possible under all growth conditions; reduction of tetrathionate and thiosulphate occurred only in cells harvested at late growth phase from a pH-regulated batch culture and not in cells harvested at early growth phase or in cells grown in pH-auxostat culture. Under all conditions, cells possessed the enzyme tetrathionate reductase. We conclude that linkage between tetrathionate reductase (catalysing also reduction of thiosulphate) and the formate hydrogenlyase chain is dependent on growth conditions. During reduction of high-potential oxidants such as fumarate, tetrathionate (when possible) or the artificial electron acceptor methylene blue by formate, there was no simultaneous H2 evolution due to the formate hydrogenlyase reaction. H2 production started only after complete reduction of methylene blue or fumarate, in the case of methylene blue after a lag phase without gas production. In preparations with a low fumarate reduction activity this was accompanied by an acceleration in CO2 production. During reduction of thiosulphate (a low-potential oxidant) or of tetrathionate in the presence of benzyl viologen (a low-potential mediator) by formate, H2 was evolved simultaneously. From this we conclude that formate hydrogenlyase is regulated by a factor that responds to the redox state of any electron acceptor couple present such that lyase activity is blocked when the acceptor couple is oxidised to too great an extent. |
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Keywords: | Electron transport Formate hydrogenlyase Hydrogenase Anaerobic respiration (Proteus mirabilis) |
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