Metal ion induced heterogeneity in RNA folding studied by smFRET

Börner, Richard; Kowerko, Danny; Miserachs, Helena Guiset; Schaffer, Michelle; Sigel, Roland K. O.

doi:10.1016/j.ccr.2016.06.002

Cited by 27 publications

(37 citation statements)

References 244 publications

(337 reference statements)

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“…Our FRET trajectories capture binding and unbinding events across various K + and Mg 2+ concentrations. Consistent with previous experiments, IBS1 (un)docking and Mg 2+ coordination are coupled, resulting in Mg 2+ exchange rates on a timescale of milliseconds to seconds, thus accessible to camera-based detection 15,16 . We find that Mg 2+ association and dissociation from the EBS1*/IBS1* contact are linked to very subtle conformational changes within the duplex, indiscernible by FRET.…”

Section: Discussionsupporting

confidence: 86%

“…Hence, exon unbinding is characterized by multiexponential decays from one degenerate FRET state, conceptually known as kinetic heterogeneity. Heterogeneity is common to many nucleic acid interactions and increases the complexity of the kinetic analysis 16 . Here, we have shown how to dissect such a state degeneracy and elucidate its molecular origin.…”

Section: Discussionmentioning

confidence: 99%

“…As ion coordination is transient though, designated binding pockets are often only partially occupied and exon dissociation is thus kinetically heterogeneous 15 . Particularly, Mg 2+ is known to induce such kinetic partitioning by interacting with RNA directly (inner-sphere coordination) or via a water molecule (outer-sphere coordination) [16][17][18] .…”

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confidence: 99%

“…As metal ions direct folding and catalysis, heterogeneity is inherent to many RNAs 16,22 . RNA folds hierarchically into a set of interconnected topological modules.…”

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confidence: 99%

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Metal ions and sugar puckering balance single-molecule kinetic heterogeneity in RNA and DNA tertiary contacts

et al. 2020

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The fidelity of group II intron self-splicing and retrohoming relies on long-range tertiary interactions between the intron and its flanking exons. By single-molecule FRET, we explore the binding kinetics of the most important, structurally conserved contact, the exon and intron binding site 1 (EBS1/IBS1). A comparison of RNA-RNA and RNA-DNA hybrid contacts identifies transient metal ion binding as a major source of kinetic heterogeneity which typically appears in the form of degenerate FRET states. Molecular dynamics simulations suggest a structural link between heterogeneity and the sugar conformation at the exonintron binding interface. While Mg 2+ ions lock the exon in place and give rise to long dwell times in the exon bound FRET state, sugar puckering alleviates this structural rigidity and likely promotes exon release. The interplay of sugar puckering and metal ion coordination may be an important mechanism to balance binding affinities of RNA and DNA interactions in general.

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Section: Discussionsupporting

confidence: 86%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

“…As metal ions direct folding and catalysis, heterogeneity is inherent to many RNAs 16,22 . RNA folds hierarchically into a set of interconnected topological modules.…”

mentioning

confidence: 99%

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Metal ions and sugar puckering balance single-molecule kinetic heterogeneity in RNA and DNA tertiary contacts

et al. 2020

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“…[1][2][3][4][5][6][7][8][9][10][11] In particular, lithium-based energy-storage systems have recently attracted much attention due to their high energy densities and relatively cheap production costs. A first step towards obtaining such a knowledge is to reveal the local structure in the vicinity of an ion.…”

Section: Introductionmentioning

confidence: 99%

Mechanism of Lithium Cation Hopping between Tetragonal Thiophene Cages

Partovi–Azar

Sebastiani

2019

Batteries & Supercaps

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We report on the atomistic mechanism of elementary hopping processes of Li + ions in liquid thiophene obtained from abinitio molecular dynamics simulations. We observe the formation of cage structures which solvate the cation. Besides the actual molecular solvation structure, we provide an analysis of the pathway and timescale of basic Li + diffusion steps in terms of coordination by sulfur atoms. We compare our results to the situation in a thiophene derivative, namely 3,4-ethylenedioxythiophene (EDOT). The calculations reveal that in both thiophene and EDOT liquids, a tetrahedral structure is formed around the Li + ion. While in the case of the former, the Li cation is coordinated by four sulfur atoms, in the latter case it is surrounded by four oxygens. The tetrahedrons act as cages, which accommodate the cation for a considerable duration (of the order of 100 ps). The elementary diffusion step occurs through a "permeable edge" of the tetrahedron formed by two sulfur (or oxygen) atoms at a characteristic distance. This finding indicates that Li + conduction in thiophene derivatives can be improved by rationally designing the compound in such a way that maximizes the occurrence of sulfur atoms at that particular distance from each other.[a] Dr.

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Metallation‐Induced Heterogeneous Dynamics of DNA Revealed by Single‐Molecule FRET

Berrocal‐Martin

Sanchez‐Cano

Chiu

et al. 2020

Chemistry A European J

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The metallation of nucleic acids is key to wideranginga pplications, from anticancer medicine to nanomaterials, yet there is al ack of understanding of the molecularlevel effects of metallation. Here, we apply single-molecule fluorescence methods to study the reactiono fa no rganoosmiuma nticancer complex and DNA. Individual metallated DNA hairpins are characterisedu sing Fçrster resonance energy transfer( FRET). Althoughe nsemblem easurements suggest as imple two-states ystem, single-molecule experi-mentsr eveal an underlying heterogeneity in the oligonucleotide dynamics, attributable to different degrees of metallation of the GC-rich hairpin stem. Metallated hairpins display fast two-state transitionsw ith at wo-foldi ncrease in the openingr ate to % 2s À1 ,r elative to the unmodified hairpin, and relativelys tatic conformationswith long-lived open (and closed) stateso f5to ! 50 s. These studies show that a single-molecule approach can providen ew insighti nto metallation-induced changes in DNA structure and dynamics.

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Metal ion induced heterogeneity in RNA folding studied by smFRET

Cited by 27 publications

References 244 publications

Metal ions and sugar puckering balance single-molecule kinetic heterogeneity in RNA and DNA tertiary contacts

Metal ions and sugar puckering balance single-molecule kinetic heterogeneity in RNA and DNA tertiary contacts

Mechanism of Lithium Cation Hopping between Tetragonal Thiophene Cages

Metallation‐Induced Heterogeneous Dynamics of DNA Revealed by Single‐Molecule FRET

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