Isolation and characterization of transposon Tn5 mutants ofRhodobacter sphaeroidesdeficient in both nitrate and chlorate reduction.

Abstract

The wild-type strain Rhodobacter sphaeroides DSM 158 is a nitrate-reducing bacterium with a periplasmic nitrate reductase. Addition of chlorate to the culture medium causes a stimulation of the phototrophic growth, indicating that this strain is able to use chlorate as an ancillary oxidant. Several mutant strains of R. sphaeroides deficient in nitrate reductase activity were obtained by transposon Tn5 mutagenesis. Mutant strain NR45 exhibited high constitutive nitrate and chlorate reductase activities and phototrophic growth was also increased by the presence of chlorate. In contrast, the stimulation of growth by chlorate was not observed in mutant strains NR8 and NR13, in which transposon Tn5 insertion causes the simultaneous loss of both nitrate and chlorate reductase activities. Tn5 insertion probably does not affect molybdenum metabolism since NR8 and NR13 mutants exhibit both xanthine dehydrogenase and nitrogenase activities. These results that a single enzyme could reduce both nitrate and chlorate in R. sphaeroides DSM 158.