Role of the sigma 70 subunit of Escherichia coli RNA polymerase in transcription activation.

The role of the sigma 70 subunit of Escherichia coli RNA polymerase in transcription activation by positive transcription factors was investigated. For this purpose, we constructed a nested set of E. coli rpoD deletion mutants generating carboxy-terminally truncated sigma 70 subunits of RNA polymerase in a high-expression plasmid. The purified mutant sigma 70 subunits were reconstituted into holoenzymes and examined in vitro for their promoter selectivity. As expected, since the -35 recognition helix of sigma 70 was deleted in all cases, the mutant enzymes were unable to initiate at factor-independent promoters, except for the special case of perfect "extended minus 10" promoters, at which the need for -35 sequence recognition by RNA polymerase is replaced by recognition of additional base-pairs in the -10 region. However, two factor-dependent promoters, PhoB-dependent PpstS and cAMP receptor protein (CRP)-dependent P1gal, could be activated for transcription by different subsets of the mutant holoenzymes, although these promoters do not contain the perfect extended -10 sequences. These results establish that -35 DNA recognition by sigma 70 is not essential for these cases. Presumably it is replaced by protein-protein contacts between RNA polymerase and the activator, which in both cases is bound to the DNA in a position overlapping the -35 region. Further, the detailed results support the view that the contact and/or activation sites for these two factors may lie on the sigma 70 subunit, within a "contact site II", which extends at least from conserved region 3.2 to the upstream end of region 4.2. Moreover, as in the case of contact site I on the alpha subunit, it appears that contact site II contains various different subsites for interaction with specific class II activators, and that PhoB and CRP require distinct subsites.