Role of the spacer between the -35 and -10 regions in sigmas promoter selectivity in Escherichia coli

In vitro, the sigma(s) subunit of RNA polymerase (RNAP), RpoS, recognizes nearly identical -35 and -10 promoter consensus sequences as the vegetative sigma70. In vivo, promoter selectivity of RNAP holoenzyme containing either sigma(s) (Esigma(s)) or sigma70 (Esigma70) seems to be achieved by the differential ability of the two holoenzymes to tolerate deviations from the promoter consensus sequence. In this study, we suggest that many natural sigma(s)-dependent promoters possess a -35 element, a feature that has been considered as not conserved among sigma(s)-dependent promoters. These -35 hexamers are mostly non-optimally spaced from the -10 region, but nevertheless functional. A +/- 2 bp deviation from the optimal spacer length of 17 bp or the complete absence of a -35 consensus sequence decreases overall promoter activity, but at the same time favours Esigma(s) in its competition with Esigma70 for promoter recognition. On the other hand, the reduction of promoter activity due to shifting of the -35 element can be counterbalanced by an activity-stimulating feature such as A/T-richness of the spacer region without compromising Esigma(s) selectivity. Based on mutational analysis of sigma(s), we suggest a role of regions 2.5 and 4 of sigma(s) in sensing sub-optimally located -35 elements.     

Relevance of UP elements for three strong Bacillus subtilis phage phi29 promoters

Various Escherichia coli promoters contain, in addition to the classical -35 and -10 hexamers, a third recognition element, named the UP element. Located upstream of the -35 box, UP elements stimulate promoter activity by forming a docking site for the C-terminal domain of the RNA polymerase alpha subunit (alphaCTD). Accumulating genetic, biochemical and structural information has provided a detailed picture on the molecular mechanism underlying UP element-dependent promoter stimulation in E.coli. However, far less is known about functional UP elements of Bacillus subtilis promoters. Here we analyse the strong early sigma(A)-RNA polymerase-dependent promoters C2, A2c and A2b of the lytic B.subtilis phage phi29. We demonstrate that the phage promoters contain functional UP elements although their contribution to promoter strength is very different. Moreover, we show that the UP element of the A2b promoter, being critical for its activity, is located further upstream of the -35 box than most E.coli UP elements. The importance of the UP elements for the phage promoters and how they relate to other UP elements are discussed.