Sigma38 (rpoS) RNA polymerase promoter engagement via -10 region nucleotides.

Band shift assays using DNA probes that mimic closed and open complexes were used to explore the determinants of promoter recognition by sigma38 (rpoS) RNA polymerase. Duplex recognition was found to be much weaker than that observed in sigma70 promoter usage. However, binding to fork junction probes, which attempt to mimic melted DNA, was very strong. This binding occurs via the non-template strand with the identity of the two conserved junction nucleotides (-12T and -11A) being of paramount importance. A modified promoter consensus sequence identified these two nucleotides as among only four (underlined) that are highly conserved, and all four were in the -10 region (CTAcacT from -13 to -7). The remaining two nucleotides were shown to have different roles, -13C in preventing recognition by the heterologous sigma70 polymerase and -7T in directing enzyme isomerization. These -10 region nucleotides appear to have their primary function prior to full melting because probes that had a melted start site were relatively insensitive to substitution at these positions. These results suggest the sigma38 mechanism differs from the sigma70 mechanism, and this difference likely contributes to selective use of sigma38 under conditions that exist during stationery phase.