FACILITATED DISTORTION OF THE DNA SITE ENHANCES ECORI ENDONUCLEASE DNA RECOGNITION

We have measured the binding of EcoRI endonuclease to a complete set of purine-base analogue sites, each of which deletes one functional group that forms a hydrogen bond with the endonuclease in the canonical GAATTC complex. For five of six functional group deletions, the observed penalty in binding free energy is +1.3 to +1.7 kcal/mol. For two of these cases (replacement of adenine N7 with carbon) a single protein-base hydrogen bond is removed without deleting an interstrand Watson-Crick hydrogen bond or causing structural ''adaptation'' in the complex. This observation establishes that the incremental energetic contribution of one protein-base hydrogen bond is about -1.5 kcal/mol. By contrast, deletion of the N6-amino group of the inner adenine in the site improves binding by -1.0 kcal/mol because the penalty for deleting a protein-base hydrogen bond is outweighed by facilitation of the required DNA distortion (''kinking'') in the complex. This result provides direct evidence that the energetic cost of distorting a DNA site can make an unfavorable contribution to protein-DNA binding.