The nucleotide sequence recognized by the Escherichia coli K12 restriction and modification enzymes.

The sites recognized by the Escherichia coli K12 restriction endonuclease were localized to defined regions on the genomes of phage φXsK1, φXsK2, and G4 by the marker rescue technique. Methyl groups placed on the genome of plasmid pBR322 by the E. coli K12 modification methylase were mapped in HinfI fragments 1 and 3, and HaeIII fragments 1 and 3. A homology of seven nucleotides in the configuration: 5′-A-A-C .. 6N .. G-T-G-C-3′, where 6N represents six unspecified nucleotides, was found among the DNA sequences containing the five EcoK sites of φXsK1, φXsK2, G4, and pBR322. Three lines of evidence indicate that this sequence constitutes the recognition site of the E. coli K12 restriction enzyme. The C in 5′-A-A-C and the T in 5′-G-T-G-C are locations of mutations leading to loss or gain of the site and thus are positions recognized by the enzyme. This sequence does not occur on φXam3cs70, simian virus 40 (SV40), and fd DNAs which do not possess EcoK sites, and occurs only once on φXsK1, φXsK2, and G4 DNAs, and twice on pBR322 DNA. In order to prove that all seven conserved nucleotides are essential for the recognition by the E. coli K12 restriction enzyme, the nucleotide sequences of φX174, G4, SV40, fd, and pBR322 were searched for sequences differing from the sequence 5′-A-A-C .. 6N .. G-TG-C-3′ at only one of the specified positions. It was found that sequences differing at each of the specified positions occur on DNA sequences that do not contain the EcoK sites. Thus, the recognition site of the E. coli K12 restriction enzyme has the same basic structure as that of the EcoB site (Lautenberger et al., 1978). In each case there are two domains, one containing three and the other four specific nucleotides, separated by a sequence of unspecified bases. However, the unspecified sequence in the EcoK site must be precisely six bases instead of the eight found in the EcoB site. Alignment of the EcoK and EcoB sites suggests that four of the seven specified nucleotides are conserved between the sequences recognized by these two allelic restriction and modification systems.