The EcoVIII restriction-modification (R-M) system is carried by the Escherichia coli E1585-68 natural plasmid pEC156 (4,312 bp). The two genes were cloned and characterized. The G+C content of the EcoVIII R-M system is 36.1%, which is significantly lower than the average G+C content of either plasmid pEC156 (43.6%) or E. coli genomic DNA (50.8%). The difference suggests that there is a possibility that the EcoVIII R-M system was recently acquired by the genome. The 921-bp EcoVIII endonuclease (R. EcoVIII) gene (ecoVIIIR) encodes a 307-amino-acid protein with an M(r) of 35,554. The convergently oriented EcoVIII methyltransferase (M. EcoVIII) gene (ecoVIIIM) consists of 912 bp that code for a 304-amino-acid protein with an M(r) of 33,930. The exact positions of the start codon AUG were determined by protein microsequencing. Both enzymes recognize the specific palindromic sequence 5'-AAGCTT-3'. Preparations of EcoVIII R-M enzymes purified to homogeneity were characterized. R. EcoVIII acts as a dimer and cleaves a specific sequence between two adenine residues, leaving 4-nucleotide 5' protruding ends. M. EcoVIII functions as a monomer and modifies the first adenine residue at the 5' end of the specific sequence to N(6)-methyladenine. These enzymes are thus functionally identical to the corresponding enzymes of the HindIII (Haemophilus influenzae Rd) and LlaCI (Lactococcus lactis subsp. cremoris W15) R-M systems. This finding is reflected by the levels of homology of M. EcoVIII with M. HindIII and M. LlaCI at the amino acid sequence level (50 and 62%, respectively) and by the presence of nine sequence motifs conserved among m(6) N-adenine beta-class methyltransferases. The deduced amino acid sequence of R. EcoVIII shows weak homology with its two isoschizomers, R. HindIII (26%) and R. LlaCI (17%). A catalytic sequence motif characteristic of restriction endonucleases was found in the primary structure of R. EcoVIII (D(108)X(12)DXK(123)), as well as in the primary structures of R. LlaCI and R. HindIII. Polyclonal antibodies raised against R. EcoVIII did not react with R. HindIII, while anti-M. EcoVIII antibodies cross-reacted with M. LlaCI but not with M. HindIII. R. EcoVIII requires Mg(II) ions for phosphodiester bond cleavage. We found that the same ions are strong inhibitors of the M. EcoVIII enzyme. The biological implications of this finding are discussed.