Promoter and regulon analysis of nitrogen assimilation factor, Σ54, reveal alternative strategy for E-coli MG1655 flagellar biosynthesis

Bacteria core RNA polymerase (RNAP) must associate with a Sigma factor to recognize promoter sequences. Promoters recognized by the Sigma(54) (or Sigma(N)) associated RNA polymerase are unique in having conserved positions around -24 and -12 nucleotides upstream from the transcriptional start site. Using DNA microarrays representing the entire Escherichia coli genome and promoter validation approaches, we identify 40 in vivo targets of Sigma(54), the nitrogen assimilation Sigma factor, and estimate that there are 70 Sigma(54) promoters in total. Immunoprecipitation assays have been performed to further evaluate the efficiency of our approaches. In addition, promoter consensus binding search and primer extension assay helped us to identify a new Sigma(54) promoter carried by insB-5 in the upstream of flhDC operon. The involvement of Sigma(54) in flagellar biosynthesis in sequenced E. coli strain MG1655 indicates a fluid gene regulation phenomenon carried by some mobile elements in bacteria genome.