Characterization of pECL18 and pKPN2: a proposed pathway for the evolution of two plasmids that carry identical genes for a Type II restriction-modification system.

The primary structures of the plasmids pECL18 (5571 bp) and pKPN2 (4196 bp) from Escherichia coli and Klebsiella pneumoniae, respectively, which carry genes for a Type II restriction-modification system (RMS2) with the specificity 5'-CCNGG-3', were determined in order to elucidate the structural relationship between them. The data suggest a possible role for recombination events at bom (basis of mobility) regions and the sites of resolution of multimer plasmid forms (so-called cer sequences) in the structural evolution of multicopy plasmids. Analysis of the sequences of pECL18 and pKPN2 showed that the genes for RM* Ecl18kI and RM* Kpn2kI, and the sequences of the rep (replication) regions in the two plasmids, are almost identical. In both plasmids, these regions are localized between the bom regions and the cer sites. The rest of the pECL18 sequence is almost identical to that of the mob (mobilization) region of ColE1, and the corresponding segment of pKPN2 is almost identical to part of pHS-2 from Shigella flexneri. The difference in primary structures results in different mobilization properties of pECL18 and pKPN2. The complete sequences of pECL18, pKPN2 and the pairwise comparison of the sequences of pECL18, pKPN2, ColE1 and pHS-2 suggest that plasmids may exchange DNA units via site-specific recombination events at bom and cer sites. In the course of BLASTN database searches using the cer sites of pECL18 and pKPN2 as queries, we found twenty cer sites of natural plasmids. Alignment of these sequences reveals that they fall into two classes. The plasmids in each group possess related segments between their cer and bom sites.

The Ecl18kI restriction-modification system: cloning, expression, properties of the purified enzymes.

Ecl18kI is a type II restriction-modification system isolated from Enterobacter cloaceae 18kI strain. Genes encoding Ecl18kI methyltransferase (M.Ecl18kI) and Ecl18kI restriction endonuclease (R.Ecl18kI) have been cloned and expressed in Escherichia coli. These enzymes recognize the 5'.../CCNGG...3' sequence in DNA; M.Ecl18kI methylates the C5 carbon atom of the inner dC residue and R.Ecl18kI cuts DNA as shown by the arrow. The restriction endonuclease and the methyltransferase were purified from E. coli B834 [p18Ap1] cells to near homogeneity. The restriction endonuclease is present in the solution as a tetramer, while the methyltransferase is a monomer. The interactions of M.Ecl18kI and R.Ecl18kI with 1,2-dideoxy-D-ribofuranose containing DNA duplexes were investigated. The target base flipping-out mechanism is applicable in the case of M.Ecl18kI. Correct cleavage of the abasic substrates by R.Ecl18kI is accompanied by non-canonical hydrolysis of the modified strand.