NMR Solution Structure of a DNA−Actinomycin D Complex Containing a Non-Hydrogen-Bonding Pair in the Binding Site

The solution structures of two different DNA duplexes (one containing a G-T mismatched base pair and the other a non-hydrogen-bonding G-F pair, where F is difluorotoluene) in complex with the peptide antibiotic actinomycin D (ActD) are presented. Using 1H, 19F NMR, and molecular dynamics simulations, we show that there are three major differences between the complexes: (1) ActD binds to the GF duplex in an orientation that is flipped 180° relative to its position in the GT duplex; (2) whereas the difluorotoluene moiety takes the typical anti glycosidic conformation in the “free” (uncomplexed) GF duplex, it takes the syn conformation in the GF:ActD complex; and (3) in GF:ActD, the difluorotoluene moiety is completely unstacked in the helix; however, the guanine of the G-F pair is stacked quite well with the ActD intercalator and the flanking base on the 5′ side. In GT:ActD, the G-T base pair (although pushed into the major groove from the non-Watson−Crick hydrogen-bonding pattern) stacks favorably with the...