Engineering of variants of the restriction endonuclease EcoRV that depend in their cleavage activity on the flexibility of sequences flanking the recognition site.

The present work describes mutants of the restriction enzyme EcoRV that discriminate very efficiently between oligodeoxynucleotide substrates with an EcoRV recognition sequence in different sequence context. All of these EcoRV variants harbor substitutions at position 226, where in the cocrystal structure of the specific EcoRV/DNA complex an arginine contacts the backbone of the DNA substrate upstream of the recognition sequence, and cleave an oligodeoxynucleotide with an EcoRV site in a nonflexible sequence context (the recognition site being flanked by runs of A and T) with much higher catalytic efficiency (kcat/Km) than an oligodeoxynucleotide with an EcoRV site in a flexible sequence context (the recognition site being flanked by runs of AT), in contrast to the wild-type enzyme, that cleaves both substrates with the same catalytic efficiency. Steady-state and single-turnover kinetics indicate that the enhanced selectivity of the mutants is due to the catalytic step of the reaction. It is possible to enhance the discriminatory power of these EcoRV variants through the choice of appropriate reaction conditions, in particular low salt concentration and low reaction temperatures. It must be emphasized that the enhanced selectivity of these EcoRV variants toward EcoRV sites in a flexible and nonflexible sequence context, respectively, is not only seen with oligodeoxynucleotides, but also with plasmid substrates.