Denise Kotlarz

A series of gal promoter mutants has been used to compare the in vitro selectivities of the two forms of Escherichia coli RNA polymerase, E sigma 38 and E sigma 70. In the absence of the CRP-cAMP complex, E sigma 38 shows a strong preference for the ga/P1 promoter, whereas E sigma 70 preferentially initiates transcription from the ga/P2 promoter. E sigma 38 selectivity is not affected by the nature and position of the upstream sequences or by the phasing between synthetic upstream curved sequences and the -10 regions. In fact, all effects of mutations in the extended -10 region can be accounted for without evoking strong new sequence preferences for E sigma 38. Finally, both E sigma 38 and E sigma 70 initiate transcription from the ga/P1 promoter in the presence of CRP-cAMP complex and support direct cAMP-CRP activation at several CRP-dependent promoters.

Replacement of the CRP-binding site of the gal control region by curved sequences can lead to the restoration of promoter strength in vivo. One curved sequence called 5A6A, however, failed to do so. The gene hns exerts a strong negative control on the resulting 5A6A gal promoter as well as on the distant bla promoter, specifically in a 5A6A gal context. The product of this gene, H-NS, displays a better affinity for this particular insert compared to other curved sequences. Mechanisms by which H-NS may repress promoters both at short and long distances from a favoured binding site are discussed.