Nucleic acids are generally considered as efficient cation binders. Therefore, the likelihood that negatively charged ions might intrude their first hydration shell is rarely considered. Here, we show on the basis of (i) a survey of the Nucleic Acid Database, (ii) several structures extracted from the Cambridge Structural Database, and (iii) molecular dynamics simulations, that the nucleotide electropositive edges involving mainly amino, imino, and hydroxyl groups can cast specific anion binding sites. These binding sites constitute also good locations for the binding of the negatively charged groups of the Asp and Glu residues or the nucleic acid phosphate groups. Furthermore, it is observed in several instances that anions, like water molecules and cations, do mediate protein/nucleic acid interactions. Thus, anions as well as negatively charged groups are directly involved in specific recognition and folding phenomena involving polyanionic nucleic acids.
Molecular dynamics simulations have been used to investigate the binding of Mg(2+) ions to the deep groove of the eubacterial 5S rRNA loop E. The simulations suggest that long-lived and specific water-mediated interactions established between the hydrated ions and the RNA atoms lining up the binding sites contribute to the stabilization of this motif. The Mg(2+) binding specificity is modulated by two factors: (i) a required electrostatic complementarity and (ii) a structural correspondence between the hydrated ion and its binding pocket that can be estimated by its degree of dehydration and the resulting number and lifetime of the intervening water-mediated contacts. Two distinct binding modes for pentahydrated Mg(2+) ions that result in a significant freezing of the tumbling motions of the ions are described, and mechanistic details related to the stabilization of nucleic acids by divalent ions are provided.
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