A guide to ions and RNA structure
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TLDR
The energetic factors that must be considered when ions interact with two different RNA environments are summarized and an important conclusion is that diffuse ions are a major factor in the stabilization of RNA tertiary structures.Abstract:
RNA folding into stable tertiary structures is remarkably sensitive to the concentrations and types of cations present; an understanding of the physical basis of ion-RNA interactions is therefore a prerequisite for a quantitative accounting of RNA stability. This article summarizes the energetic factors that must be considered when ions interact with two different RNA environments. “Diffuse ions” accumulate near the RNA because of the RNA electrostatic field and remain largely hydrated. A “chelated” ion directly contacts a specific location on the RNA surface and is held in place by electrostatic forces. Energetic costs of ion chelation include displacement of some of the waters of hydration by the RNA surface and repulsion of diffuse ions. Methods are discussed for computing both the free energy of the set of diffuse ions associated with an RNA and the binding free energies of individual chelated ions. Such calculations quantitatively account for the effects of Mg 2+ on RNA stability whereread more
Citations
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Determination of Alkali and Halide Monovalent Ion Parameters for Use in Explicitly Solvated Biomolecular Simulations
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TL;DR: These efforts to build better models of the monovalent ions within the pairwise Coulombic and 6-12 Lennard-Jones framework are described, where the models are tuned to balance crystal and solution properties in Ewald simulations with specific choices of well-known water models.
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Structures of the bacterial ribosome at 3.5 Å resolution
Barbara S Schuwirth,Maria A. Borovinskaya,Cathy W Hau,Wen Zhang,Antón Vila-Sanjurjo,James M. Holton,Jamie H. D. Cate,Jamie H. D. Cate +7 more
TL;DR: Swiveling of the head of the small subunit observed in the present structures, coupled to the ratchet-like motion of the two subunits observed previously, suggests a mechanism for the final movements of messenger RNA and transfer RNAs during translocation.
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Complexity of the Alternative Splicing Landscape in Plants
TL;DR: Widespread changes in AS in response to developmental cues and stresses suggest a role for regulated splicing in plant development and stress responses, and new tools based on recent technological advances are allowing genome-wide analysis of RNA elements in transcripts and of chromatin modifications that regulate AS.
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Functional diversity of the hnRNPs: past, present and perspectives.
TL;DR: The current literature is reviewed to examine hnRNP diversity, and how this impacts upon approaches to the classification of RNA-binding proteins in general is discussed.
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Ions and RNA Folding
TL;DR: This review distinguishes three different kinds of ion environments that differ in the extent of direct ion-RNA contacts and the degree to which the ion hydration is perturbed, and summarizes the current understanding of the way each environment relates to the overall energetics of RNA folding.
References
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Book
Principles of Nucleic Acid Structure
TL;DR: The goal of this series is to pinpoint areas of chemistry where recent progress has outpaced what is covered in any available textbooks, and then seek out and persuade experts in these fields to produce relatively concise but instructive introductions to their fields.
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The molecular theory of polyelectrolyte solutions with applications to the electrostatic properties of polynucleotides.
TL;DR: An analogous situation existed in the field of protein chemistry during the period after the formulation and confirmation of the Debye—Huckel theory of ionic solutions but before Scatchard's incorporation of the theory into his analysis of the binding properties of proteins.
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Extending the Applicability of the Nonlinear Poisson−Boltzmann Equation: Multiple Dielectric Constants and Multivalent Ions†
TL;DR: A new version of the DelPhi program, which provides numerical solutions to the nonlinear Poisson−Boltzmann (PB) equation, is reported in this paper, which can divide space into multiple regions containing...
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Biological catalysis by RNA.
Thomas R. Cech,Brenda L. Bass +1 more
TL;DR: Comparing RNA and PROTEINS AS BIOLOGICAL CATALYSTS, RNA SPLICING, and REPLICATION of Plant INFECTIOUS AGENTS are recommended.