RNA and RNA-protein complexes Principles of ion binding to RNA inferred from the analysis of a 1.55 Å resolution bacterial ribosome structure - Part I: Mg2+
Résumé
The importance of Mg2+ ions for RNA structure and function cannot be overstated. Several attempts were made to establish a comprehensive Mg2+ binding motif classification. However, such descriptions were hampered by poorly modelled ion binding sites as observed in a recent cryo-EM 1.55 Å Escherichia coli ribosome structure where incomplete ion assignments blurred our understanding of their binding patterns. We revisited this model to establish general binding principles applicable to any RNA of sufficient resolution. These principles rely on the 2.9 Å distance separating two water molecules bound in cis to Mg2+. By applying these rules, we could assign all Mg2+ ions bound with 2-4 non water oxygens. We also uncovered unanticipated motifs where up to five adjacent nucleotides wrap around a single ion. The formation of such motifs involves a hierarchical Mg2+ ion dehydration process that plays a significant role in ribosome biogenesis and in the folding of large RNAs. Besides, we established a classification of the Mg2+…Mg2+ and Mg2+…K+ ion pairs detected in this ribosome. Overall, the uncovered binding principles enhance our understanding of the roles of ions in RNA structure and will help refining the solvation shell of other RNA systems.
Origine | Fichiers éditeurs autorisés sur une archive ouverte |
---|