Interactions of wild‐type and mutant AmpR of Citrobacter freundii with target DNA

Abstract

The AmpR transcriptional activator for the chromosomal ampCβ-lactamase gene of Citrobacter freundii was found to interact with an operator sequence located in the 5′ half of the 38 bp region protected by AmpR in DNase I footprinting experiments. AmpR binding was associated with significant DNA bending of target DNA. A glycine to glutamic acid alteration at position 102 in AmpR converts AmpR into a transcriptional activator even in the absence of β-lactam inducer. AmpR^G102E interacted with the operator binding sequence and induced DNA bending. A glycine to lysine alteration at residue 102 completely abolished the ability of AmpR to transcriptionally affect the ampC promoter, i.e. to repress in the absence of β-lactam inducer and induce in the presence of β-lactam. Nevertheless, AmpR^G102K could repress the oppositely orientated ampR promoter. AmpR^G102K could also specifically interact with the operator but the resulting complex migrated faster in gel retardation experiments and no significant DNA bending was observed.