Single base bulges in small RNA hairpins enhance ethidium binding and promote an allosteric transition

doi:10.1093/nar/15.10.4049

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Nucleic Acids Research, 1987, Vol. 15, No. 10 4049-4064
© 1987

Articles

Single base bulges in small RNA hairpins enhance ethidium binding and promote an allosteric transition

Susan A. White and David E. Draper

Department of Chemistry, Johns Hopkins University Baltimore, MD 21218, USA

Received January 30, 1987. Revised April 14, 1987. Accepted April 27, 1987.

A set of four RNA hairpin helices has been prepared by in vitrotranscription with T7 RNA polymcrase. The hairpins all containthe same nine base pair helix, but with an extra A, C, or Uresidue forming a bulge at one position; the fourth hairpinis a perfect helix with no bulge. The helix with a bulged Aduplicates six base pairs of a helix in the 16S rRNA known tohave an unusually high affinity for ethidium bromide [J. M.Kean, S. A. White, and D. E. Draper, Biochemistry 24, 5062 (1985)].Binding and chemical cleavage studies with ethidium or the reagentmethidiumpropylEDTA-Fe(II) [MPE-Fe(II)] showed that i) the sequenceCpG is a preferred intercalation site whether or not a bulgeis present; ii) all three bulged bases enhance intercalationat the CpG sequence by an order of magnitude; and iii) intercalationin a bulged helix results in a concerted conformational changeinvolving the entire helix backbone, again dependent on thepresence of a bulge but independent of the particular base.These results suggest that an extra sugar - phosphate residuein an RNA helix backbone has a dramatic effect on the abilityof the RNA to adopt new conformations. This effect could bean important reason for the conservation of bulges at certainpositions in ribosomal and other RNAs.

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