2001
DOI: 10.1016/s0006-3495(01)76001-8
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The Physical Basis of Nucleic Acid Base Stacking in Water

Abstract: It has been argued that the stacking of adenyl groups in water must be driven primarily by electrostatic interactions, based upon NMR data showing stacking for two adenyl groups joined by a 3-atom linker but not for two naphthyl groups joined by the same linker. In contrast, theoretical work has suggested that adenine stacking is driven primarily by nonelectrostatic forces, and that electrostatic interactions actually produce a net repulsion between adenines stacking in water. The present study provides eviden… Show more

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Cited by 94 publications
(77 citation statements)
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“…Energetically favorable stacking interactions between bases play an important role in determining and stabilizing nucleic acid structures [117,118]. The physical fundamentals of nucleic acid bases stacking in water have been accurately defined and reviewed [119][120][121], the thermodynamic parameters for stacking have been determined [122,123].…”
Section: The 3 5 Cgmp Polymerization Reactionmentioning
confidence: 99%
“…Energetically favorable stacking interactions between bases play an important role in determining and stabilizing nucleic acid structures [117,118]. The physical fundamentals of nucleic acid bases stacking in water have been accurately defined and reviewed [119][120][121], the thermodynamic parameters for stacking have been determined [122,123].…”
Section: The 3 5 Cgmp Polymerization Reactionmentioning
confidence: 99%
“…The stability of RNA phosphodiester bonds has repeatedly been associated with the stacking interactions between adjacent bases [21][22][23]. Nucleic acid base-stacking is at present an understood phenomenon [24][25][26][27][28]. The possibility that the initial stability of the PolyA oligonucleotide towards hydrolysis is a base stacking-related effect was discussed in [15].…”
Section: Rna Stability In Boron Mineralsmentioning
confidence: 99%
“…Sterically, bases of DNA more accurately resemble a flat plate than a spherical object. Energetically, base stacking interactions, predominantly governed by electron correlation (van der Waals) interactions 24 , play a significant if not dominant role in the stability of the double helix 25 . We adopt a systematic coarse-graining approach, where we parameterize the effective interactions through all-atom simulations wherever possible.…”
Section: Introductionmentioning
confidence: 99%