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  • 1
    Electronic Resource
    Electronic Resource
    LRP and H-NS – cooperative partners for transcription regulation at Escherichia coli rRNA promoters (2005)
    Oxford, UK : Blackwell Science Ltd
    Molecular microbiology 58 (2005), S. 0 
    Details
    ISSN: 1365-2958
    Source: Blackwell Publishing Journal Backfiles 1879-2005
    Topics: Biology , Medicine
    Notes: 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. Here we provide evidence for another player, the regulatory protein LRP, which binds with high specificity to all seven Escherichia coli rRNA P1 promoter upstream regions (UAS). Comparison of the binding properties of LRP and H-NS, and characterization of the stabilities of the various complexes formed with the rRNA UAS regions revealed different binding modes. Binding studies with LRP and H-NS in combination demonstrated that the two proteins interacted with obvious synergism. The efficiency of LRP binding to the rRNA regulatory region is modified by the presence of the effector amino acid leucine, as has been shown for several other operons regulated by this transcription factor. The effect of LRP on the binding of RNA polymerase to the rrnB P1 promoter and in vitro transcription experiments indicated that LRP acts as a transcriptional repressor, thus resembling the activity of H-NS described previously. The results show for the first time that LRP binds to the regulatory region of bacterial rRNA promoters, and very likely contributes in combination with H-NS to the control of rRNA synthesis. From the known properties of LRP a mechanism can be inferred that couples rRNA synthesis to changes in nutritional quality.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1111/j.1365-2958.2005.04873.x
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  • 2
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    The seven E. coli ribosomal RNA operon upstream regulatory regions differ in structure and transcription factor binding efficiencies (2005)
    De Gruyter
    Details
    Publication Date: 2005-06-01
    Description: Ribosomal RNAs inE. coliare transcribed from seven operons, which are highly conserved in their organization and sequence. However, the upstream regulatory DNA regions differ considerably, suggesting differences in regulation. We have therefore analyzed the conformation of all seven DNA elements located upstream of the majorE. colirRNA P1 promoters. As judged by temperature-dependent gel electrophoresis with isolated DNA fragments comprising the individual P1 promoters and the complete upstream regulatory regions, all seven rRNA upstream sequences are intrinsically curved. The degree of intrinsic curvature was highest for therrnBandrrnDfragments and less pronounced for therrnAandrrnEoperons. Comparison of the experimentally determined differences in curvature with programs for the prediction of DNA conformation revealed a generally high degree of conformity. Moreover, the analysis showed that the center of curvature is located at about the same position in all fragments. The different upstream regions were analyzed for their capacity to bind the transcription factors FIS and H-NS, which are known as antagonists in the regulation of rRNA synthesis. Gel retardation experiments revealed that both proteins interact with the upstream promoter regions of all seven rDNA fragments, with the affinities of the different DNA fragments for FIS and H-NS and the structure of the resulting complexes deviating considerably. FIS binding was non-cooperative, and at comparable protein concentrations the occupancy of the different DNA fragments varied between two and four binding sites. In contrast, H-NS was shown to bind cooperatively and intermediate states of occupancy could not be resolved for each fragment. The different gel electrophoretic mobilities of the individual DNA/protein complexes indicate variable structures and topologies of the upstream activating sequence regulatory complexes. Our results are highly suggestive of differential regulation of the individual rRNA operons.
    Print ISSN: 1431-6730
    Electronic ISSN: 1437-4315
    Topics: Biology , Chemistry and Pharmacology
    Published by De Gruyter
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