Characterization of the cryptic lambdoid prophage DLP12 of Escherichia coli and overlap of the DLP12 integrase gene with the tRNA gene argU

Abstract

The argU (dnaY) gene of Escherichia coli is located, in clockwise orientation, at 577.5 kilobases (kb) on the chromosome physical map. There was a cryptic prophage spanning the 2 kb immediately downstream of argU that consisted of sequences similar to the phage P22 int gene, a portion of the P22 xis gene, and portions of the exo, P, and ren genes of bacteriophage lambda. This cryptic prophage was designated DLP12, for defective lambdoid prophage at 12 min. Immediately clockwise of DLP12 was the IS3 alpha 4 beta 4 insertion element. The argU and DLP12 int genes overlapped at their 3' ends, and argU contained sequence homologous to a portion of the phage P22 attP site. Additional homologies to lambdoid phages were found in the 25 kb clockwise of argU. These included the cryptic prophage qsr' (P. J. Highton, Y. Chang, W. R. Marcotte, Jr., and C. A. Schnaitman, J. Bacteriol. 162:256-262, 1985), a sequence homologous to a portion of lambda orf-194, and an attR homolog. Inasmuch as the DLP12 att int xis exo P/ren region, the qsr' region, and homologs of orf-194 and attR were arranged in the same order and orientation as the lambdoid prophage counterparts, we propose that the designation DLP12 be applied to all these sequences. This organization of the DLP12 sequences and the presence of the argU/DLP12 int pair in several E. coli strains and closely related species suggest that DLP12 might be an ancestral lambdoid prophage. Moreover, the presence of similar sequences at the junctions of DLP12 segments and their phage counterparts suggests that a common mechanism could have transferred these DLP12 segments to more recent phages.