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The development of a transductional method for complementation tests between transfer-deficient mutants of the narrow-host-range R plasmic R91-5 of Pseudomonas aeruginosa has allowed the indentification of cistrons involved in the conjugal transfer of this plasmid. Complementation tests performed between transfer-deficient mutants characterized phenotypically with respect to sensitivity to donor-specific phage, ability to inhibit the replication of phage G101, and expression of entry-exclusion has identified a minimum of 10 transfer cistrons. Although most mutagen-induced mutants were relatively heterogeneous and appeared to be affected in a single cistron only, a high proportion of mutants isolated after selection for donor-specific phage resistance had deletions but always included tra Y. Mutants selected directly on the basis of transfer deficiency which also became donor-specific phage resistant fell into all 10 cistrons, suggesting that many R91-5 transfer cistrons are concerned with the synthesis of sex pili and other surface structures necessary for conjugal transfer. Conversely, most retaining donor-specific phage sensitivity belonged to one cistron, whereas transfer-deficient mutants which had also lost the ability to inhibit the replication of phage G101 comprised four cistrons.

Identification of cistrons involved in conjugal transfer of narrow-host-range R plasmid R91-5 of Pseudomonas aeruginosa