Yasuhide Seki

Anaerobic induction of trimethylamine N-oxide reductase and cytochromes by dimethyl sulfoxide inEscherichia coli

Reduction of trimethylamine N-oxide is catalyzed by at least two enzymes inEscherichia coli: trimethylamine N-oxide reductase, which is anaerobically induced by trimethylamine N-oxide, and the constitutive enzyme dimethyl sulfoxide reductase. In this study, an increase in the specific activity of trimethylamine N-oxide reduction was observed in the anaerobic culture with dimethyl sulfoxide, but the specific activity of dimethyl sulfoxide reduction was not changed. The inducible enzyme trimethylamine N-oxide reductase was found in this culture. A marked expression of the structural genetorA for trimethylamine N-oxide reductase was also observed in atorA-lacZ gene fusion strain under anaerobic conditions with either trimethylamine N-oxide or dimethyl sulfoxide.l-Methionine sulfoxide and the N-oxides of adenosine, picolines, and nicotinamide slightly repressed expression of the gene. Membrane-boundb- andc-type cytochromes involved in the trimethylamine N-oxide reduction were also produced in a wild-type strain grown anaerobically with dimethyl sulfoxide. But thec-type cytochrome was not produced in thetorA-lacZ strain grown anaerobically with trimethylamine N-oxide or dimethyl sulfoxide; this suggests that there is a correlation between the expression oftorA and the synthesis of the cytochrome.