Interaction Energy Contributions of H-Bonded and Stacked Structures of the AT and GC DNA Base Pairs from the Combined Density Functional Theory and Intermolecular Perturbation Theory Approach - Concepedia

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Interaction Energy Contributions of H-Bonded and Stacked Structures of the AT and GC DNA Base Pairs from the Combined Density Functional Theory and Intermolecular Perturbation Theory Approach

183

Citations

28

References

2006

Year

Andreas Heßelmann, Georg Jansen, Martin Schütz

Journal of the American Chemical Society

Dna NanotechnologyInteraction Energy ContributionsDna Base PairsNatural SciencesStacked StructuresDna ReplicationMolecular BiologyHydrogen BondComputational ChemistryQuantum ChemistryDna ComputingDft-sapt VariantWatson-crick StructuresBiophysics

Abstract

Stacked and Watson-Crick structures of DNA base pairs are investigated with the DFT-SAPT variant of intermolecular perturbation theory, yielding a rigorous decomposition of the interaction energy into electrostatic, induction, dispersion, and exchange contributions. Their interplay in the various structures is analyzed. Total interaction energies extrapolated to the complete basis set limit are compared with corresponding second-order Møller-Plesset and estimated coupled-cluster theory results.

References

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