The genetic basis of plasmid host range has been investigated by Tn 7 insertion mutagenesis of the promiscuous plasmid R18 in Pseudomonas aeruginosa. Six mutants have been isolated on the basis of greatly reduced transferability into Escherichia coli C while retaining normal transferability within P. aeruginosa. Their physical mapping shows that two of them map at coordinate 11.72 ± 0.14 kb, in the region of the origin of plasmid replication ( oriV) and one at 18.0 ± 0.3 kb, in the trans-acting gene essential for initiation of replication at oriV ( trfA). Three map at 48.4 ± 0.5 kb in the region of the origin of plasmid transfer ( oriT) and the site at which a single-strand nick is introduced in the plasmid DNA-protein relaxation complex ( rlx). Consistent with the postulated defective replication of the oriV and trfA mutants was their inability to transform E. coli C or K12 while being able to transform P. aeruginosa. As expected the oriT/ rlx mutants transformed both hosts as effectively as R18. Furthermore the trfA mutant was readily curable by mitomycin C in a DNA polymerase I-proficient P. aeruginosa and spontaneously lost from a polymerase-deficient mutant of P. aeruginosa suggesting a role of this polymerase in the replication of R18. Extensive transfer tests from P. aeruginosa into a range of enteric bacteria, other Pseudomonas species and into other Gram-negative bacteria indicated a complex host range pattern for these mutants. It appears that both plasmid replication and conjugation genes are responsible for host range in addition to the involvement of host gene products.