Abstract
An oligonucleotide modeled on a proposed base-triple domain of the Tetrahymena group I intron has been characterized by NMR. The oligonucleotide contains two double-helix regions with adjacent single-stranded nucleotides. The NMR data show that the two helices stack coaxially, although the rotation between the two helices is approximately twice as large as the rotation between normal base pairs. The rotation between the two helices allows the single-stranded nucleotides to form U.U.G and A.G.C base triples in the minor groove. The A.G.C base triple contains a hydrogen bond between the adenine N1 and a 2'-hydroxyl in the minor groove of the G.C pair. A similar hydrogen bond between an adenine and a 2'-hydroxyl in transfer RNA suggests that this could be a recurring tertiary interaction in RNA.
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