Three regulatory nodD alleles of diverged flavonoid-specificity are involved in host-dependent nodulation by Rhizobium meliloti

Summary Rhizobium meliloti infective on Medicago, Melilotus and Trigonella plants has three copies of the nodulation regulatory gene nodD. Strains containing mutations in nodD1 exhibited a delayed and/or decreased nodulation on Melilotus albus (Ma), Medicago sativa (Ms), Medicago quasifalcata (Mqu) and Trigonella coerulea (Tc), while on Medicago truncatula (Mt) they nodulated similarly to the wild-type R. meliloti. Delayed nodulation was observed also when nodD2 mutants were inoculated onto Ms, Mt and Tc, but not on Ma and Mqu. A nodD3 mutant exhibited delayed nodulation on Ms and Ma. Using a nodC-lacZ fusion and cloned nodD genes on plasmids, high induction levels were detected in R. meliloti when nodD1 was present with seed exudates from Ms, Ma and Mqu, nodD2 with those from Ms and Mt, and nodD3 with those from Ms, Ma and Mqu. NOne of the nodD copies exhibited high levels of nodC-lacZ induction when present with seed exudate from Tc. Only nodD1 induced nodC-lacZ expression in conjunction with the flavone, luteolin. The plant hosts used in this study exude different flavonoids and correlation between nodulation and nodC-lacZ induction abilities of the host exudates was observed. We concluded that all the three nodD copies of R. meliloti have common nod-promoter activating but diverged flavonoid-recognizing abilities. Thus, the three nodD alleles contribute to the activation of nodulation genes in a host-dependent manner.