Genistein preincubation of Bradyrhizobium japonicum cells improves strain competitiveness under greenhouse, but not field conditions

In the soybean-B. japonicum symbiosis, genistein has been identified as one of the major compounds in soybean seed and root exudates responsible for inducing expression of the B. japonicum nodYABC operon. In this study, we have tested the possibility that genistein treatment prior to inoculation can increase the competitiveness of the treated B. japonicum strain under both greenhouse and field conditions. Two mutants of the two B. japonicum strains each with a different antibiotic resistant marker were selected. They were tested with one or the other treated with genistein. The results showed genistein treated mutants had higher levels of nodule occupancy than the untreated mutant or parent strain under greenhouse conditions. Mutants from 532C had higher nodule occupancies than mutants from USDA110, especially at 15 °C. In the more complex field environment, genistein treated mutants formed fewer nodules than the untreated mutants. The contradictory results of strain competitiveness for greenhouse and field experiments are discussed.