NMR studies of the interaction of chromomycin A3 with small DNA duplexes I.

1H and 31P NMR spectral analysis of a chromomycin/d(ATGCAT)2 complex provides strong evidence for a nonintercalative mode of drug binding. Investigation of the imino proton region of the duplex suggests a protection of one of the two guanine imino protons from fast exchange with the bulk water up to at least 45 degrees C by the drug. Subsequent one-dimensional nuclear Overhauser enhancement experiments place the exchangeable chromomycin chromophoric hydroxyl proton less than 0.45 nm from this guanine imino proton and the chromophore 7-methyl less than 0.45 from the internal thymine 6-proton and/or the guanine 8-proton. 1H two-dimensional NMR reveals that the duplex retains a right-handed B conformation but there are distortions at the TGC region of one chain and large deviations in the chemical shift of protons relative to the uncomplexed duplex in the other chain in the same TGC region. The data suggest that the chromomycin chromophore is oriented such that the hydrophilic side of the ring system is proximal to the helix center in the major groove near the TG region while the aromatic side of the ring is oriented away from the helix but is partially protected from the solvent by the aliphatic chain, which bends back over the two aromatic protons. Changes in the 31P spectrum of the duplex on binding of the drug are different from the effect of either actinomycin or netropsin on nucleic acid fragments.