We describe a compilation of 79 known genes of Bradyrhizobium japonicum 110, 63 of which were placed on a correlated physical and genetic map of the chromosome. Genomic DNA was restricted with enzymes PacI, PmeI, and SwaI, which yielded two, five, and nine fragments, respectively. Linkage of some of the fragments was established by performing Southern blot hybridization experiments. For probes we used isolated, labelled fragments that were produced either by PmeI or by SwaI. Genes were mapped on individual restriction fragments by performing gene-directed mutagenesis. The principle of this method was to introduce recognition sites for all three restriction enzymes mentioned above into or very near the desired gene loci. Pulsed-field gel electrophoresis of restricted mutant DNA then resulted in an altered fragment pattern compared with wild-type DNA. This allowed us to identify overlapping fragments and to determine the exact position of any selected gene locus. The technique was limited only by the accuracy of the fragment size estimates. After linkage of all of the restriction fragments we concluded that the B. japonicum genome consists of a single, circular chromosome that is approximately 8,700 kb long. Genes directly concerned with nodulation and symbiotic nitrogen fixation are clustered in a chromosomal section that is about 380 kb long.