Regulation of nodule formation in soybean-Bradyrhizobium symbiosis is controlled by shoot or/and root signals

Abstract

Two strains of Bradyrhizobium japonicum wereevaluated with five commercial cultivars of soybean(Clark, Crauford, Davis, Centaur, and Nessen) and onehypernodulating mutant NOD1-3. The hypernodulatingNOD1-3 produced 30–50 times more nodules thancommercial cultivars either inoculated with B.japonicum strain USDA 123 or RCR 3409. The currentexperiments were extended to determine if therestricted nodulation of commercial cultivars could be overcome by grafting them to a hypernodulated shoot (NOD1-3). Grafting of NOD1-3 shoots to Clark and Davis roots induced hypernodulation on roots of Clark and Davis but did not enhance nodulation when grafted onto the roots of Crauford, Centaur, and Nessen. The shoots of Clark, Davis, Centaur and Nessen significantlyinhibited nodule formation on the root of NOD1-3,while Crauford shoots did not alter nodule formationon the roots of NOD1-3 as compared with self-grafts ofNOD1-3. It appears that the shoot of NOD1-3 has theability to alter autoregulatory control of nodulationof Clark and Davis cultivars, but did not withCrauford, Centaur and Nessen. The results suggestedthat the regulation of nodulation in soybean cultivarsClark and Davis is controlled by the shoot factors,while the Crauford was root controlled.Reciprocal-grafts between NOD1-3 and Centaur or Nessenindicate that both shoot and root factors involved inregulation of nodulation and the regulation ofnodulation did not depend on bradyrhizobial strains. Isoflavonoid analyses from extracts of grafted plantsshowed that NOD1-3 shoots had markedly higher rootisoflavonoid concentrations in roots of both Clark andNOD1-3. The shoot control of hypernodulation may becausally related to differential root isoflavonoidlevels, which are also controlled by the shoot. Thecurrent work was extended to investigate the effect ofapplication of an isoflavonoid (daidzein) on nodulationand nitrogen fixation of soybean cultivars Clark andCentaur as well as in vitro growth of Bradyrhizobium japonicum. Application of theisoflavonoid (daidzein) significantly enhanced thenodulation and nitrogenase activity of Clark but notof Centaur indicating that this character is notrelated to isoflavonoids. Therefore, autoregulationin Clark and Centaur plants may be separate events inlegume-rhizobia symbiosis and regulated by differentkinds of signals. Addition of daidzein to yeastmannitol broth medium promoted the growth of B.japonicum strain USDA 123 and RCR 3409. It seemsthat this compound is able to help the nodulation ofsoybean cv Clark by a Bradyrhizobium strain. Understanding the signaling pathways between rhizobiaand their host plants may allow modifications of thisinteraction to improve symbiotic performance.