Detection of a nitrous oxide reductase structural gene in Rhizobium meliloti strains and its location on the nod megaplasmid of JJ1c10 and SU47.

Abstract

The gene encoding a denitrification enzyme, nitrous oxide reductase (EC 1.7.99.6), in Rhizobium meliloti and other gram-negative bacteria was detected by hybridization to an internal 1.2-kb PstI fragment of the structural gene (nosZ) cloned from Pseudomonas stutzeri Zobell (W.G. Zumft, A. Viebrock-Sambale, and C. Braun, Eur. J. Biochem. 192:591-599, 1990). Homology to the probe was detected in the DNAs of two N2-fixing strains of P. stutzeri, two denitrifying Pseudomonas species, one Alcaligenes eutrophus strain, and 36 of 56 R. meliloti isolates tested. Except for two isolates of R. meliloti, all showed nitrous oxide reduction activity (Nos+). Therefore, at least part of the nosZ sequence appears to be conserved and widely distributed among denitrifiers, which include free-living and symbiotic diazotrophs. By using Agrobacterium tumefaciens transconjugants harboring different megaplasmids of R. meliloti JJ1c10 and SU47, sequence homology with the nosZ probe was unequivocally located on the nod megaplasmid. A cosmid clone of JJ1c10 in which nosZ homology was mapped on a 4.2-kb BamHI fragment was selected. This cosmid, which conferred Nos+ activity to the R. meliloti wild-type strains ATCC 9930 and Balsac (Nos- and nondenitrifying, respectively) also restored Nos+ activity in the mutants of JJ1c10 and SU47 in which the 4.2-kb BamHI segment was deleted. Therefore, this segment contains sequences essential for nos gene expression in JJ1c10 and SU47 and thus confirms that the nod megaplasmid in JJ1c10 and SU47 which carries genes essential for symbiotic dinitrogen fixation also carries genes involved in the antagonistic process of denitrification.