• Title of article

    Allosteric Modulation of the RNA Polymerase Catalytic Reaction Is an Essential Component of Transcription Control by Rifamycins

  • Author/Authors

    Artsimovitch، Irina نويسنده , , Vassylyeva، Marina N. نويسنده , , Svetlov، Dmitri نويسنده , , Svetlov، Vladimir نويسنده , , Perederina، Anna نويسنده , , Igarashi، Noriyuki نويسنده , , Matsugaki، Naohiro نويسنده , , Wakatsuki، Soichi نويسنده , , Tahirov، Tahir H. نويسنده , , Vassylyev، Dmitry G. نويسنده ,

  • Issue Information
    هفته نامه با شماره پیاپی سال 2005
  • Pages
    -350
  • From page
    351
  • To page
    0
  • Abstract
    Rifamycins, the clinically important antibiotics, target bacterial RNA polymerase (RNAP). A proposed mechanism in which rifamycins sterically block the extension of nascent RNA beyond three nucleotides does not alone explain why certain RNAP mutations confer resistance to some but not other rifamycins. Here we show that unlike rifampicin and rifapentin, and contradictory to the steric model, rifabutin inhibits formation of the first and second phosphodiester bonds. We report 2.5 (angstrom) resolution structures of rifabutin and rifapentin complexed with the Thermus thermophilus RNAP holoenzyme. The structures reveal functionally important distinct interactions of antibiotics with the initiation (sigma) factor. Strikingly, both complexes lack the catalytic Mg2+ ion observed in the apoholoenzyme, whereas an increase in Mg2+ concentration confers resistance to rifamycins. We propose that a rifamycin-induced signal is transmitted over ~19 (angstrom) to the RNAP active site to slow down catalysis. Based on structural predictions, we designed enzyme substitutions that apparently interrupt this allosteric signal.
  • Keywords
    IPM , Greenhouse , DIGLYPHUS ISAEA , Liriomyza trifolii , Biological control , Abamectin compatibility
  • Journal title
    CELL
  • Serial Year
    2005
  • Journal title
    CELL
  • Record number

    102235