Denitrification by Cytophaga johnsonae strains and by a gliding bacterium able to reduce nitrous oxide in the presence of acetylene and sulfide

Abstract

A gliding bacterium (Is-11), isolated for its ability to reduce nitrous oxide (N₂O) in the presence of acetylene (C₂H₂) and sulfide, was able to use nitrate (NO₃⁻), nitrite (NO₂⁻), and N₂O as terminal electron acceptors for growth. Similarly, of five strains of Cytophaga johnsonae examined, two were capable of complete denitrification. Two strains were unable to reduce nitrate and N₂O, respectively, and the remaining strain lacked both nitrate and N₂O reductases. However, in this strain the N₂O reductase was induced by the presence of nitrite, but not nitrate. Acetylene inhibited N₂O reduction but did not affect the reduction of nitrite or nitrate in all of the gliding bacteria tested. Sulfide temporarily inhibited all of the nitrogen oxide reductases. It did not relieve the C₂H₂ inhibition of N₂O reduction in the C. johnsonae strains when tested under the same conditions under which C₂H₂ inhibition is relieved in Is-11.