Protein engineering of the restriction endonuclease EcoRV--structure-guided design of enzyme variants that recognize the base pairs flanking the recognition site.

We generated variants of the restriction endonuclease EcoRV that discriminate between recognition sites with different flanking sequences. This was achieved by designing new contacts to the bases in the major groove of the DNA preceding and following the EcoRV recognition site. We selected Ala181 as the starting point for the extension of the site specificity of EcoRV because, according to the structure of the specific EcoRV x DNA complex, this residue is involved in a water mediated contact with the bases flanking the recognition sequence on the 5' side. A substitution of this alanine residue by other amino acid residues changes the protein-DNA interface in this region and potentially creates new contacts, such that EcoRV variants could have an extended specificity, i.e. a greater selectivity for EcoRV sites within a particular sequence context. EcoRV variants with naturally occurring amino acid residues at position 181 were produced and their selectivity analyzed with oligodeoxynucleotide and plasmid substrates that differ only in the base pairs immediately flanking the EcoRV site. Some variants, having amino acid residues with long or bulky side chains at position 181 showed altered preferences for the base pairs flanking the recognition sequence with oligodeoxynucleotide substrates without loosing their catalytic efficiency. One variant, A181K, is able to discriminate between purine and pyrimidine bases on the 5' side of the recognition sequence, probably by means of a new hydrogen bond to the N7 of the purine base. Another variant, A181E, strongly prefers a thymine base on the 5' side of the recognition sequence, presumably due to a hydrogen bond formed between the protonated glutamic acid residue and the O4 of thymine.