Alterations in the regulatory region of the human papillomavirus type 6 genome are generated during propagation in Escherichia coli.

We analyzed the long control regions (LCRs) of seven human papillomavirus type 6b (HPV-6b) clones, which contained prototype HPV-6b sequences recloned into various plasmid vectors and propagated in different strains of Escherichia coli. Southern blot analysis and DNA sequencing demonstrated three different sequences, each distinct from the published prototype HPV-6b sequence. Two of the plasmids contained insertions of 24 and 94 base pairs (bp) and a 1-bp deletion. Four plasmids contained insertions of 24 and 58 bp and a deletion of 49 bp. One plasmid contained a single insertion of 77 bp. The 94-, and 58-bp insertions occurred at the same site and had 100% positional identity across their shared lengths. All changes were located in the purine-thymidine-rich region of the LCR (nucleotides 7292 to 7400). Two additional LCR sequences were detected by restriction analysis of two other HPV-6b clones. We conclude that the purine-thymidine-rich region of the LCR is a hot spot for recombination in E. coli and that the alterations are the result of recA-independent events. These results emphasize the need to rigorously prove that a cloned isolate is an authentic copy of the genomic DNA present in the original lesion. In addition, the data indicate that the HPV-6b LCR sequences employed in different laboratories may be different, even if their parental DNAs were identical. Finally, we discuss the need for caution in assigning biological significance to alterations in this region, in view of the limited data available on the true identity of the HPV-6b LCR.