Effect of upstream curvature and transcription factors H-NS and LRP on the efficiency of Escherichia coli rRNA promoters P1 and P2 - a phasing analysis.

To study the influence of DNA curvature and DNA-binding proteins, which interact with curved DNA on bacterial promoters, we constructed two sets of promoter variants in which a synthetic DNA-bending module was fused at defined distances and angular orientations with respect to the transcription start sites. The distance between the synthetic binding site centre and the transcription start site of the different constructs varied by up to 20 bp, corresponding to almost two complete helical B-DNA turns. The rRNA promoters rrnB P1 and rrnB P2 were selected as target promoters.

LRP and H-NS--cooperative partners for transcription regulation at Escherichia coli rRNA promoters.

The synthesis of ribosomal RNAs in bacteria is tightly coupled to changes in the environment. This rapid adaptation is the result of several intertwined regulatory networks. The two proteins FIS and H-NS have previously been described to act as antagonistic transcription factors for rRNA synthesis.