In Escherichia coli K-12, the repression of tyrP requires the binding of the TyrR protein to the operator in the presence of coeffectors, tyrosine and ATP. This operator contains two 22-bp palindromic sequences which are termed TyrR boxes. Methylation, uracil, and ethylation interference experiments were used to identify the important sites in the TyrR boxes that make contacts with the TyrR protein. Methylation interference studies demonstrated that guanines at positions +8, -5, and -8 of the strong TyrR box and positions +8, -4, and -8 of the weak box are close to the TyrR protein. Uracil interference revealed that strong van der Waals contacts are made by the thymines at position -7 and +5 of the top strands of both strong and weak boxes and that weaker contacts are made by the thymines at positions +7 (strong box) and -5 and +7 (weak box) of the bottom strand. In addition, ethylation interference suggested that the phosphate backbone contacts are located at the end and central regions of the palindrome. These findings are supported by our results derived from studies of symmetrical mutations of the tyrP strong box. Overall, the results confirm the critical importance of the invariant (G x C)(C x G)8 base pairs for TyrR recognition and also indicate that interactions with (T x A)(A x T)7 are of major importance. In contrast, mutations in other positions result in weaker effects on the binding affinity of TyrR protein, indicating that these positions play a lesser role in TyrR protein recognition. Alanine scanning of both helices of the putative helix-turn-helix DNA-binding motif of TyrR protein has identified those amino acids whose side chains play an essential role in protein structure and DNA binding.