Organization of chimeras between filamentous bacteriophage f1 and plasmid pSC101

Two recombinants formed in vivo between the filamentous phage f1 and the tetracycline-resistance-conferring plasmid pSC101 are capable of transducing sensitive cells to Tet^r. These chimeric filamentous phage, VO-1 and VO-2, were previously shown to contain the entire f1 and pSC101 genomes (Vovis et al., 1977; Ohsumi et al., 1978). The genomes of VO-1 and VO-2 are unstable in vivo; VO-1 breaks down to yield a molecule similar to pSC101 and an f1-like species, f1′. f1′ was previously shown to differ from f1 by the presence of 209 additional nucleotides inserted in the carboxy-terminal portion of gene IV (Ravetch et al., 1979). We have found by hybridization analysis and direct DNA sequencing that this 209-nucleotide segment is present in one copy in pSC101, and that it has properties similar to known transposable elements. Therefore, we have called this sequence IS101. We have characterized the structures of both VO-1 and VO-2 in greater detail by restriction mapping and DNA sequence analysis. Both chimeras contain two copies of IS101, which are present as direct repeats and form the junctions between the f1 and pSC101 genomes. The IS101 elements in VO-1 and VO-2 are flanked by a five-base direct repeat of f1 sequence that is not repeated in wild-type f1. The junction between f1 and pSC101 in VO-1 is located at the same point as the IS101 element in f1′, while in VO-2 the junction between the two genomes is at a point in f1 located between the promoter and ribosome binding site for gene VIII. The pSC101-like molecules derived from the breakdown of VO-1 in vivo are identical to the original pSC101 in the region of IS101. The IS101 elements in the original and derived pSC101 plasmids are not flanked by any repeated sequence. Attempts to regenerate VO-1 from f1′ and pSC101, both of which contain one IS101 element, indicate that the breakdown of VO-1 is irreversible. These results are discussed in terms of current models for transposition, which postulate structures similar to VO-1 and VO-2 as intermediates in transposition.