Abstract
A genetic locus in fast-growing Rhizobium japonicum (fredii) USDA 191 (Fix+ on several contemporary soybean cultivars) was identified by random Tn5 mutagenesis as affecting the development and differentiation of root nodules. This mutant (MU042) is prototrophic and shows no apparent alterations in its surface properties. It induces aberrant nodules, arrested at the same early level of differentiation, on all its host plants. An 8.1-kilobase EcoRI fragment containing Tn5 was cloned from MU042. In USDA 191 as well as another fast-growing strain, USDA 201, the affected locus was found to be unlinked to the large symbiotic plasmid and appears to be chromosomal. An analogous sequence has been shown to be present in Bradyrhizobium japonicum (J. Stanley, G.G. Brown, and D.P.S. Verma, J. Bacteriol. 163:148-154, 1985) as well as in R. trifolii and R. meliloti. MU042 was complemented for effective nodulation of soybean by a cosmid clone from USDA 201, and the complementing locus was delimited to a 6-kilobase EcoRI subfragment. An R. trifolii strain (MU225), whose indigenous symbiotic plasmid was replaced by that of strain USDA 191, induced more highly differentiated nodules on soybean than did MU042. This suggests that the mutation in MU042 can be functionally substituted by similar loci of other fast-growing rhizobia. Leghemoglobin and nodulin-35 (uricase II) were present in the differentiated Fix- nodules induced by MU225, whereas both were absent in MU042-induced pseudonodule structures.