Cy3 and Cy5 cyanine dyes terminally attached to the 5'C end (C1) of the DNA oligonucleotide were studied by metadynamics (MTD), molecular dynamics (MD), and density-functional methods with dispersion corrections (DFT-D). MTD simulations explored the free energy surface (FES) of the dye-DNA interactions, which included stacking and major groove binding motifs and unstacked structures. Dynamics of the stacked structures was studied by the MD simulations. All possible combinations of stacking interactions between the two indole rings of the dyes and the neighbor guanine and cytosine rings were observed. The most probable interaction included the stacking between the dye's distal indole ring and the guanine base. In ∼10% of the structures the delocalized π-electrons of the dyes' polymethine linkers played a key role in the dye-DNA dispersion interactions. The stacked conformers of the Cy3 dye were confirmed as true minima by DFT-D full optimizations. The stacked dye decreased flexibility up to two neighbor base pairs.
Interactions of uracil with the Mg(2+) ion were studied theoretically in the gas phase and in solution. The bare Mg(2+) prefers bidentate N-C═O binding sites stabilizing rare keto-enol forms of the base. Hydration and/or phosphate binding of the Mg(2+) ion shield its positive charge, which leads to preference of monodentate binding to the oxygen keto atoms, shifting fully the equilibrium between the tautomers back toward the canonical diketo tautomer. In solution, a direct inner-sphere metal binding to uracil is not clearly advantageous compared to the outer-sphere metal binding. Similar trends were also obtained for the Ca(2+) ion. Results are supported by the natural bond orbital (NBO) and atoms in molecule (AIM) analyses and the combined extended transition-state energy decomposition analysis and natural orbitals for chemical valence (ETS-NOCV).
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