Formation of thiosulfate and trithionate during sulfite reduction by washed cells of Desulfovibrio desulfuricans |
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Authors: | Robert M Fitz Heribert Cypionka |
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Institution: | (1) Fakultät für Biologie, Universität Konstanz, D-7750 Konstanz, Federal Republic of Germany |
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Abstract: | Deenergized cells of Desulfovibrio desulfuricans strain Essex 6 formed trithionate and thiosulfate during reduction of sulfite with H2 or formate. The required conditions were pretreatment with the uncoupler carbonylcyanide m-chlorophenylhydrazone (CCCP), low concentration of the electron donor H2 or formate (25–200 M) and the presence of sulfite in excess (>250 M). The cells formed up to 20 M thiosulfate, and variable amounts of trithionate (0–9 M) and sulfide (0–62 M). Tetrathionate was not produced. Sulfate could not replace sulfite in these experiments, as deenergized cells cannot activate sulfate. However, up to 5 M thiosulfate was produced by cells growing with H2 and excess sulfate in a chemostat. Micromolar concentrations of trithionate were incompletely reduced to thiosulfate and sulfide by washed cells in the presence of CCCP. Millimolar trithionate concentrations blocked the formation of sulfide, even in the absence of CCCP, and caused thiosulfate accumulation; sulfide formation from sulfate, sulfite or thiosulfate was stopped, too. Trithionate reduction with H2 in the presence of thiocyanate was coupled to respiration-driven proton translocation (extrapolated H+/H2 ratios of 1.5±0.6). Up to 150 M trithionate was formed by washed cells during oxidation of sulfite plus thiosulfate with ferricyanide as electron acceptor (reversed trithionate reductase activity). Cell breakage resulted in drastic decrease of sulfide formation. Cell-free extract reduced sulfite incompletely to trithionate, thiosulfate, and sulfide. Thiosulfate was reduced stoichiometrically to sulfite and sulfide (thiosulfate reductase activity). The formation of sulfide from sulfite, thiosulfate or trithionate by cell-free extract was blocked by methyl viologen, leading to increased production of thiosulfate plus trithionate from sulfite, or increased thiosulfate formation from trithionate. Our study demonstrates for the first time the formation of intermediates during sulfite reduction with whole cells of a sulfate-reducing bacterium oxidizing physiological electron donors. All results are in accordance with the trithionate pathway of sulfite reduction.With gratitude dedicated to Prof. Dr. Norbert Pfennig on occasion of his 65th birthday |
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Keywords: | Dissimilatory sulfite reduction Desulfovibrio desulfuricans Thiosulfate Trithionate Proton translocation Trithionate reductase |
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