Abstract
Molecular dynamics simulations have been carried out to study the molecular behaviours of single-strand DNA molecules in aqueous solution in a cylindrical pore of 2–3 nm diameter. We examined the solvent and the ion distribution in the nanopore. We studied the conformational properties of the single-strand DNA and the dependence of the conformation on the diameter of the nanopore and on the length of the single-stranded DNA, and the interaction between the single-stranded DNA and the ions. We found that the ions in the nanopore show a preference to the centre of the pore. In addition, the sodium ions exhibit an oscillatory density distribution in the radial direction correlated with the density distribution of the water molecules. The end-to-end distance, and the orientation of the end-to-end vector of the single-stranded DNA are strongly affected by the confinement. The counter-ions adsorb strongly to the charged sites on the single-stranded DNA, most dominantly the backbone phosphate groups. There exists, however, substantial freedom for the counter-ion to desorb from the DNA.
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