Sequence-specific interactions between promoter DNA and the RNA polymerase sigma factor E.

In order to determine which amino acyl residues in a secondary sigma factor govern its specificity of recognition at the -35 region of promoters, we examined the effects of amino acid substitutions in sigma E in Bacillus subtilis that made the sequence of its putative -35 recognition region more similar to another sigma factor in B. subtilis, sigma K. We found that a single amino acid substitution at position 217 of sigma E resulted in a sigma factor that could direct transcription from sigma K-dependent promoters. Furthermore, we tested whether this amino acid substitution in sigma E had changed the specificity of interactions of the sigma with -35 region sequences by examining the activity of the mutant sigma E on derivatives of sigma E-dependent promoters that contained single base-pair substitutions. We found that this substitution in sigma E specifically suppressed the effect of a single base-pair substitution at position -31 in a sigma E-dependent promoter spoIIID. The amino acyl residue at another position (219) on sigma E affected the specificity of interaction with position -33 in spoIIID promoter. The amino acyl residues at the two positions in sigma E, 217 and 219, that determine the specificity of interactions between the sigma and base-pairs in the -35 region of its cognate promoters (positions -33 and -31, respectively, in the spoIIID promoter) probably closely contact these base-pairs.