The DNA-binding domain of the Escherichia coli DnaA protein is represented by the 94 C-terminal amino acids (domain 4, aa 374-467). The isolated DNA-binding domain acts as a functional repressor in vivo, as monitored with a mioC:lacZ translational fusion integrated into the chromosome of the indicator strain. In order to identify residues required for specific DNA binding, site-directed and random PCR mutagenesis were performed, using the mioC:lacZ construct for selection. Mutations defective in DNA binding were found all over the DNA-binding domain with some clustering in the basic loop region, within presumptive helix B and in a highly conserved region at the N-terminus of presumptive helix C. Surface plasmon resonance (SPR) analysis revealed different binding classes of mutant proteins. No or severely reduced binding activity was demonstrated for amino acid substitutions at positions R399, R407, Q408, H434, T435, T436 and A440. Altered binding specificity was found for mutations in a 12 residue region close to the N-terminus of helix C. The defects of the classical temperature sensitive mutants dnaA204, dnaA205 and dnaA211 result from instability of the proteins at higher temperatures. dnaX suppressors dnaA71 and dnaA721 map to the region close to helix C and bind DNA non-specifically.