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  • Title: Curvature of dinucleotide poised for formation of trinucleotide in transcription with Escherichia coli RNA polymerase.
    Author: Garland CS, Tarien E, Nirmala R, Clark P, Rifkind J, Eichhorn GL.
    Journal: Biochemistry; 1999 Mar 16; 38(11):3421-5. PubMed ID: 10079088.
    Abstract:
    A frequently used schematic model of transcriptional elongation shows an RNA polymerase molecule moving along a linear DNA. This model is of course highly idealized and not compatible with promoter sequences [Gralla, J. D. (1991) Cell 66, 415-418; Schleif, R. (1992) Annu. Rev. Biochem. 61, 199-223] and regulatory proteins [Koleske, A. J., and Young, R. A. (1995) Trends Biochem. Sci. 20, 113-116; Dunaway, M., and Dröge, P. (1989) Nature 341, 657-659; Müller, H. P., Sogo, J. M., and Schaffner, W. (1989) Cell 58, 767-777] located some distance away from the point of transcription initiation [Karsten, R., von Hippel, P. H., and Langowski, J. (1995) Trends Biochem. Sci. 20, 500-506]. These circumstances lead to the expectation of curvature along the DNA strand and require looping between sometimes distant points. We have now shown curvature in a dinucleotide formed at the very onset of transcription when it is poised for reaction with a mononucleotide to form a trinucleotide. The curvature became evident from the demonstration that a metal ion bound with a mononucleotide in the i+1 (elongation) site is approximately equidistant from bases at the 5' end (i-1 site) and 3' end (i site) of the dinucleotide. Similar results were obtained with three different dinucleotides and four mononucleotides. Curvature of the RNA initiate may reflect curvature of the DNA to which it is bound. These studies show curvature to be a significant feature in the interaction between DNA template and RNA elongate even at the very beginning of transcription.
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