Towards the design of rare cutting restriction endonucleases: using directed evolution to generate variants of EcoRV differing in their substrate specificity by two orders of magnitude.

The restriction endonuclease EcoRV cleaves DNA highly specifically within GATATC sequences. In order to create EcoRV variants that have an extended recognition site we have employed a semi-rational random mutagenesis/selection procedure. Twenty-two amino acid residues were subjected to random mutagenesis and about 500 EcoRV variants representing three generations of mutants were screened. Among these some highly active variants that strongly prefer AT-flanked cleavage sites (e.g. S183A/Q224R, T93S/I103F/S183A/T222S or N97T/S183A/T222S) and others that prefer GC flanks (e.g. K104N/A181T) were identified. As wild-type EcoRV does not discriminate between these cleavage sites, the generation of these variants represents a significant first step towards redesigning EcoRV to become an 8 or 10 bp cutter. Such enzymes, only very rarely found in nature, could be extremely helpful for the manipulation of large DNA fragments. Copyright 1998 Academic Press.