An IS4 insertion at the glnA control region of Escherichia coli creates a new promoter by providing the -35 region of its 3'-end.

An insertion element (IS)4 insertion selected as suppressor of the rpoN73::Tn5 alelle was located inside the control region of the glnA gene in Escherichia coli. In the rpoN73::Tn5 background the IS4 insertion promotes glnA transcription at a low constitutive level sufficient to sustain glutamine-independent growth. The IS4 insertion mutation in either rpoN73::Tn5 or wild-type backgrounds promotes glnA transcription from a new start site located two bases downstream of the glnAp2 start site. Analysis of sequences flanking the insertion point showed a promoter sequence whose -35 region was located inside the IS4 sequence and the -10 region was inside the glnA control region. Site-directed mutagenesis of relevant nucleotide residues of the newly created promoter impaired transcription of a reporter gene. The results support our contention that IS4 carries a -35 promoter region that is able to create functional hybrid promoters. We propose that this mechanism could be one of the molecular reasons of the suppressor activity previously reported for IS4.