Circular dichroism studies of a family of poly(dA-y5dU) polynucleotides (y = H, methyl, ethyl, propyl, butyl or pentyl) were conducted in water-alcohol solutions containing sodium or cesium counterions. The polynucleotides denatured or adopted A- or X-DNA double helices depending on the concentration and type of alcohol, type of counterions and the length of the aliphatic substituent in place of the thymine methyl group. Short aliphatic substituents and sodium cations favored A-DNA while long aliphatic substituents and cesium cations promoted X-DNA. This study demonstrates delicacy of the conformational equilibrium of poly(dA-dT) between the A- and X-DNA double helices which depends on both intramolecular and intermolecular factors.
DNA molecules containing AT pairs exhibit cesium cation specific conformational behavior. This specificity is shown to be cancelled with the title DNA, which not only concerns its conformational alterations in high-salt aqueous solutions but also the B-to-A transition induced by ethanol. S-2L DNA easily adopts the A-conformation in the presence of millimolar concentrations of CsCl which completely destabilize the A-conformation in calf thymus DNA. The present results demonstrate that the specific effects of cesium cations on DNA are connected with their binding to the AT pairs in the DNA minor groove.
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