Abstract

Lambda attB-attP is a derivative of bacteriophage lambda that contains both attB and attP, two sites required for integrative recombination. Lambda attB-attP can undergo int-mediated recombination to yield progeny phages whose DNA is 15% shorter than that of the parental phage. We have studied intracellular phage DNA from an infection of lysogenic bacteria with λ attB-attP in the presence of int gene product, rifampicin and chloramphenicol. The majority of the intracellular phage DNA consisted of circles with lengths of 17.51, 15.09 and 2.38 μm. Partial denaturation mapping confirmed that the 15.09 and the 2.38-μm molecules arose by an int-mediated intramolecular recombination reaction of the type predicted by the Campbell (1962) model. A minor proportion of the circles (3%) were much larger (33.9, 30.2 and 4.7 μm); in these cases denaturation mapping indicated that both intra- and intermoleeular recombination could take place.

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