A study of nucleic acid base-stacking by the Monte Carlo method: Extended cluster approach

The adenine-thymine (AT), adenine-uracil (AU) and guanine-cytosine (GC) base associates in clusters containing 400 water molecules were studied using a newly implemented Metropolis Monte Carlo algorithm based on the extended cluster approach. Starting from the hydrogen-bonded Watson-Crick geometries, all three base pairs are transformed into more favorable stacked configurations during the simulation. The obtained results show, for the first time, the transition from planar base pairs to stacked base associates in the Monte Carlo framework. Analysis of the interaction energies shows that, in the water cluster, the stacked dimers are energetically preferable compared to the corresponding Watson-Crick base pairs. This is due to the larger base-water interaction in the stacked structures. The water-water interaction is one of the main factors promoting the formation of stacked dimers, and the obtained data confirm the crucial role of the water-water interactions in base stacking.</p

A study of nucleic acid base-stacking by the Monte Carlo method: Extended cluster approach

The adenine-thymine (AT), adenine-uracil (AU) and guanine-cytosine (GC) base associates in clusters containing 400 water molecules were studied using a newly implemented Metropolis Monte Carlo algorithm based on the extended cluster approach. Starting from the hydrogen-bonded Watson-Crick geometries, all three base pairs are transformed into more favorable stacked configurations during the simulation. The obtained results show, for the first time, the transition from planar base pairs to stacked base associates in the Monte Carlo framework. Analysis of the interaction energies shows that, in the water cluster, the stacked dimers are energetically preferable compared to the corresponding Watson-Crick base pairs. This is due to the larger base-water interaction in the stacked structures. The water-water interaction is one of the main factors promoting the formation of stacked dimers, and the obtained data confirm the crucial role of the water-water interactions in base stacking.</p

A DFT study of uracil and 5-bromouracil in nanodroplets

The canonical (keto) and rare (enol) tautomers of uracil and 5-bromouracil in clusters comprising 50 and 100 water molecules (nanodroplets) were studied using density functional theory. The geometries of the various complexes were optimized at two different levels of theory, BLYP/6-31G(d,p) and B3LYP/6-31G(d,p). Tautomerization energies were computed using the BLYP, B3LYP and M05-2X density functionals. The gas-phase tautomerization energies of uracil and 5-bromouracil are very similar, favoring the keto tautomer. However, in the hydrated phase, the tautomeric preference of 5-bromouracil is reversed. This result is obtained for all four sets of clusters (BLYP or B3LYP optimized, containing 50 or 100 water clusters) and at all levels of theory employed, and indicates that a bromine atom in the 5-position considerably increases the proportion of the hydroxyl group present in uracil.</p