Isolation and symbiotic characteristics of two Tn5-derived phage-resistant Bradyrhizobium japonicum strains that nodulate soybean.

Using transponson Tn5 mutagenesis, two transconjugants of Bradyrhizobium japonicum with the properties of both phage resistance and ability to induce nodulation were isolated at the frequency of 0.02%. These transconjugants were tested for their symbiotic performance on soybean cv. JS335 under greenhouse and field conditions. Both phage-resistant mutants induced nodules (nod (+)), but the transconjugant B. japonicum E13 was ineffective in nitrogen fixation (fix (-)). Rhizobiophage presence in the inoculum of phage-resistant mutants did not influence the symbiotic effectiveness. The mixture of wild strain and phage in the inoculum caused reduced symbiotic performance under controlled conditions, while under a field environment phage (100 and 500 mul of approximately 10(8) particles ml(-1)) presence did not have any recognizable effect on increased nodule dry weight, nitrogenase activity, or foliar N(2) content. On the basis of restriction fragment length polymorphism analysis, phage-sensitive, less effective, homologous bradyrhizobia belonging to B. japonicum were detected in root nodules of both inoculated and uninoculated plants. Inoculation of a higher concentration of phage in the inoculum significantly reduced the symbiotic performance, while the lower concentration of phage did not show any effect on phage-susceptible, less effective, homologous bradyrhizobia or, thus, symbiotic efficiency under field conditions. The phage-resistant mutant B. japonicum A49 showed effective symbiosis as efficient as that of the wild strain. Inoculation of phage-resistant mutants with lytic phage may reduce the occupancy of phage-susceptible, ineffective/less effective/mediocre homologous bradyrhizobia strains under natural complex soil conditions.