The transcriptional activator XylS induces transcription from the promoter in the presence of several benzoic acid effectors, with -toluic acid being the most effective and -toluic acid being much less effective. To alter the effector specificity of XylS, we developed a dual selection system in , which consists of (i) an artificial operon of an ampicillin resistance gene and under promoter control and (ii) a chloramphenicol resistance gene under promoter control. This system enabled both positive selection to concentrate XylS mutants recognizing a desired ligand and negative selection to exclude undesired XylS mutants such as those recognizing undesired ligands and those that are active without effectors. Application of a random mutagenesis library of to directed evolution that exploited this selection system yielded two XylS mutants that recognize -toluic acid more effectively. Analysis of each missense mutation indicated three amino acid residues (N7, T74, and I205) important for -toluic acid recognition. Then, a codon-randomized library at these three residues was similarly screened, resulting in three XylS mutants with increased -toluic acid-recognition specificity. Analysis of each amino acid substitution revealed that T74P attributes to both -toluic acid sensitivity loss and subtle -toluic acid sensitivity acquisition, and that N7R increases the overall ligand-sensitivity. Finally, the combination of these two mutations generated a desirable XylS mutant, which has a high -toluic acid sensitivity and scarcely responds to -toluic acid. These results demonstrate the effectiveness of the dual selection system in the directed evolution of biosensors.
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