Bacterial tetrathionase: adaptation without demonstrable cell growth: A report to the medical research council

Participation of quinone and cytochrome b in tetrathionate reductase respiratory chain of Citrobacter freundii

Formate dehydrogenase, NADH dehydrogenase, a quinone and a b-type cytochrome characterized by maxima at 429 and 560 nm are shown to participate in the tetrathionate redox chain of Citrobacter.

Inhibitory action of tetrathionate enrichment broth

Tetrathionate enrichment broth is a complex mixture of salts including iodides and other polythionates, but only thiosulfate (0.0736 m) and tetrathionate (0.0236 m) in combination were toxic for Escherichia coli. Individually, these two salts were not lethal. The lethal action of this thiosulfate-tetrathionate mixture affected only growing cells. A possible relationship between the lethality of the thiosulfate-tetrathionate mixture for a culture and its ability to reduce tetrathionate is suggested.

Metabolism of thiosulfate and tetrathionate by heterotrophic bacteria from soil

Two heterotrophic bacteria that oxidized thiosulfate to tetrathionate were isolated from soil. The enzyme system in one of the isolates (C-3) was constitutive, but in the other isolate (A-50) it was induced by thiosulfate or tetrathionate. The apparent K(m) for oxygen for thiosulfate oxidation by A-50 was about 223 mum, but, for lactate oxidation by A-50 or thiosulfate oxidation by C-3, the apparent K(m) for oxygen was below 2 mm. The oxidation of thiosulfate by A-50 was first order with respect to oxygen from 230 mum. The rate of oxidation was greatest at pH 6.3 to 6.8 and at about 10 mm thiosulfate, and it was strongly inhibited by several metal-binding reagents. Extracts of induced A-50 reduced ferricyanide, endogenous cytochrome c, and mammalian cytochrome c in the presence of thiosulfate. A-50, once induced to oxidize thiosulfate, also reduced tetrathionate to thiosulfate in the presence of an electron donor such as lactate. The optimal pH for this reaction was at 8.5 to 9.5, and the reaction was first order with respect to tetrathionate. There was no correlation between the formation of the thiosulfate-oxidizing enzyme of A-50 and the incorporation of thiosulfate-sulfur into cell sulfur. Thiosulfate did not affect the growth rate or yield of A-50.