Abstract
AbstractThe results of the Monte Carlo Metropolis simulation of water structure and of the hydration of nucleic acid fragments, complementary base pairs and mispairs, base pair stacks, and duplex fragments have been summarized. Systematic investigations suggest some general conclusions: (1) the hydration shell structure of the major and minor grooves of the duplex depends significantly on DNA conformation (or stack configuration) and nucleotide sequence, while global hydration characteristics (average energy, the number of water–water and water–base H‐bonds) are only slightly dependent on these factors, (2) hydration economy takes place in the B–A transition due to an increase of the number of water molecules forming hydrogen bonds with two or more atoms of bases (water bridging), and (3) the hydration of the duplex could contribute to nucleic acid functioning via water‐bridged mispair formation and stabilization of specific conformations.
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