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In previous studies, it was reported that DNA fragments with the sequence d(gcGXYAgc) (where X = A or G and Y = A, T or G) form a stable base-intercalated duplex (Bi-duplex) in which the central X and Y residues are not involved in any base-pair interactions but are alternately stacked on each other between the two strands. To investigate the structural stability of the Bi-duplex, the crystal structure of d(gcGAACgc) with a point mutation at the sixth residue of the sequence, d(gcGAAAgc), has been determined. The two strands are associated in an antiparallel fashion to form two types of bulge-containing duplexes (Bc-duplexes), I and II, both of which are quite different from the Bi-duplex of the parent sequence. In both Bc-duplexes, three Watson-Crick G·C base pairs constitute the stem regions at the two ends. The A4 residues are bulged in to form a pair with the corresponding A4 residue of the opposite strand in either duplex. The A4·A4* pair formation is correlated to the orientations of the adjacent A5 residues. A remarkable difference between the two Bc-duplexes is seen at the A5 residue. In Bc-duplex I, it is flipped out and comes back to interact with the G3 residue. In Bc-duplex II, the A5 residue extends outwards to interact with the G7 residue of the neighbouring Bc-duplex I. These results indicate that trans sugar-edge/Hoogsteen (sheared-type) G3·A6* base pairs are essential in the formation of a Bi-duplex of d(gcGXYAgc). On the other hand, the alternative conformations of the internal loops containing two consecutive bulged A residues suggest molecular switching.

Supporting information

PDB reference: d(gcGAACgc), 2got, r2gotsf


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