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  • Title: Activation of glnA transcription by nitrogen regulator I (NRI)-phosphate in Escherichia coli: evidence for a long-range physical interaction between NRI-phosphate and RNA polymerase.
    Author: Reitzer LJ, Movsas B, Magasanik B.
    Journal: J Bacteriol; 1989 Oct; 171(10):5512-22. PubMed ID: 2571609.
    Abstract:
    Growth of cells of Escherichia coli in nitrogen-limited medium induces the formation of glutamine synthetase, product of the glnA gene, and of other proteins that facilitate the assimilation of nitrogen-containing compounds. Transcription from the glnAp2 promoter of the glnALG operon requires the phosphorylation of nitrogen regulator I (NRI) and, for optimal transcription, the binding of NRI-phosphate to two sites that can be over 1,000 base pairs from the binding site for RNA polymerase. In other procaryotic genes, placement of an activator-binding site further upstream from the start site of transcription diminishes expression. To determine how NRI-phosphate activates transcription and why NRI-dependent transcription differs from activation in other systems, we constructed recombinant plasmids with small alterations between the binding sites for NRI-phosphate and RNA polymerase and between the two high-affinity NRI-binding sites. We demonstrate that tightly bound NRI-phosphate activated transcription from either side of the DNA helix when at least 30 base pairs separated NRI-phosphate from RNA polymerase. In contrast, activation from a partial NRI-binding site was effective only from one side of the DNA. We also observed that glnA expression was optimal when the two high-affinity NRI-binding sites were on the same side of the DNA helix. We explain these results on the basis of a hypothesis that a contact between RNA polymerase and NRI-phosphate bound to an upstream site determines the rate of glnA transcription.
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