Molecular cloning of a nodulation gene from fast- and slow-growing strains of Lotus rhizobia

Cosmids containing a nodulation gene from Rhizobium loti NZP2037 were isolated using a 12.8 kb nod::Tn5 EeoRI fragment from the Nod-mutant strain PN233, as a hybridisation probe. A physical map of the nod region was established using the enzymes EcoRI and HindIII and the site of insertion of Tn5 in PN233 determined. Site-specific exchange of the cloned nod:: Tn5 fragment demonstrated that Tn5, and not an indigenous insertion sequence, was responsible for the nod mutation in PN233. The nod cosmids isolated complemented the Nod phenotype of strain PN233 but restoration of the Fix phenotype was variable suggesting a need for marker rescue to occur before nitrogen fixation occurred.

Corresponding nod cosmids were isolated from a R. loti strain, NZP2213, that forms ineffective tumour-like structures on Lotus pedunculatus and from the slow-growing strain (Bradyrhizobium sp), CC814s, by in planta complementation of PN233. Hybridisation experiments suggested that the nod gene region of R. loti NZP2037 was more homologous to Bradyrhizobium strain CC814s than with a nod gene region of R. trifolii strain PN100. However, transfer of the R. trifolii nod cosmid into the R. loti Nod mutant PN233, restored the ability of this strain to initiate nodules on Lotus pedunculatus.