Recombination between directly repeated origins of conjugative transfer cloned in M13 bacteriophage DNA models ligation of the transferred plasmid strand

Abstract

When two, directly-repeated copies of the origin of transfer (oriT) of the conjugatively mobilizable, broad host-range plasmid R1162 are cloned into bacteriophage M13mp9 DNA, they undergo recombination in the presence of one of the R1162-encoded proteins required for mobilization [Meyer, R. (1989) J. Bacteriol., 171, 799–806]. Mutations in the outer arm of the inverted repeat within oriT inhibit this recombination. These mutations also affect a late step in transfer. We propose that recombination on the phage DNA models the processing of single-stranded DNA after entry into a recipient cell. The two, directly-repeated oriTs are not equivalent during the recombination reaction, because they are differently affected by the outer-arm mutations. A mutation was also isolated that reduces the specificity of the cleavage site in one of the two oriTs. Together, the results with the mutations suggest that phage recombinants can form only when the first cleavage occurs at one of the two oriTs. This is followed by the resulting free 3' end joining to the 5' end at the cleavage site of the other oriT.