Tn5-induced mutants of Azotobacter vinelandii affected in nitrogen fixation under Mo-deficient and Mo-sufficient conditions

Abstract

Mutants of Azotobacter vinelandii affected in N2 fixation in the presence of 1 microM Na2MoO4 (conventional system), 50 nM V2O5, or under Mo deficiency (alternative system) have been isolated after Tn5 mutagenesis with the suicide plasmid pSUP1011. These mutants can be grouped into at least four broad phenotypic classes. Mutants in the first class are Nif- under Mo sufficiency but Nif+ under Mo deficiency or in the presence of V2O5. A nifk mutant and a mutant apparently affected in regulation of the conventional system belong to this class. Mutants in the second class are Nif- under all conditions. An FeMo-cofactor-negative mutant (NifB-) belongs to this class, implying an involvement of nifB in both the conventional and the alternative N2 fixation systems. The third mutant class consists of mutants incapable of N2-dependent growth under Mo deficiency. Most of the mutants in this class are also affected in N2 fixation in the presence of 1 microM Na2MoO4, with acetylene reduction rates ranging from 28 to 51% of the rates of the wild type. Strains constructed by genetic transfer of the Kanr marker of mutants from this class into nifHDK or nifK deletion mutants showed N2-dependent growth only in the presence of V2O5, suggesting that growth in the presence of V2O5 and growth under Mo deficiency are independent phenomena. The only mutant in the fourth class shows wild-type nitrogenase activity under Mo sufficiency, but only 10% of the acetylene reduction activity of the wild type in the presence of 50 nM V2O5. The acetylene reduction rates of whole cells of this mutant are identical in Mo-deficient medium and in medium containing V2O5. The conventional nitrogenase subunits are expressed in this mutant even under Mo deficiency or in the presence of V2O5; however, the NH4+- and Mo-repressible proteins normally seen under these conditions could not be detected on two-dimensional gels. The Tn5 insertion carried by this mutant makes N2 fixation dependent solely on the conventional system and consequently abolishes the vanadium effect.