Abstract: | The repressor encoded by bacteriophage 434 binds to its operators by inserting a 'recognition' alpha-helix into the major groove of the DNA. We have identified an amino acid-base pair contact that determines (in part) the DNA-binding specificity of 434 repressor. The identification is based on the properties of a 'new-specificity' mutant, named Repressor [Ala 28], which bears the substitution of Ala for Gln at the first residue of its recognition alpha-helix. Repressor [Ala 28] binds with high affinity to a particular doubly mutant operator bearing the same substitution at position 1 in each half-site, but does not bind to either the wild-type operator or to other mutant operators. We describe molecular models of residue 28-base pair 1 interactions that account for the binding specificities of both the mutant and wild-type proteins. |