Entropic origin of Mg
            <sup>2+</sup>
            -facilitated RNA folding

Fiore, Julie L.; Holmstrom, Erik D.; Nesbitt, David J.

doi:10.1073/pnas.1114859109

Cited by 55 publications

(178 citation statements)

References 56 publications

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“…3 A and B and 5A, the unfolded state is characterized by the largest effective radius [r unfold ∼ 27 (2) Å], which decreases substantially at the transition state [r tst ∼ 16 (1) Å], followed by an additional, but more modest decrease to the final folded state (r fold ∼ 12.5 Å). The kinetic data therefore confirm that the greater decrease in free volume for the tetraloop-receptor occurs between the unfolded and transition states, supporting previous claims that the transition state for RNA folding may be relatively compact for similar constructs (22,23).…”

Section: Molecular Crowding Model Provides a Physical Basis For Stabisupporting

confidence: 74%

“…where ΔG ‡ represents the free-energy barrier and ν is the attempt frequency along the reaction coordinate to surmount this barrier (22,23,28). By scaling the rate constants to the values at zero PEG 8000 concentrations, we can extract Δ[ln(k(T)/ν)] and therefore ΔΔG ‡ /RT for the tetraloop-receptor folding/unfolding directions as a function of excluded volume fraction φ.…”

Section: Discussion Accelerated Folding Leads To Preferential Stabilimentioning

confidence: 99%

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Molecular-crowding effects on single-molecule RNA folding/unfolding thermodynamics and kinetics

Dupuis

Holmstrom

Nesbitt

2014

Proc. Natl. Acad. Sci. U.S.A.

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140

159

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The effects of "molecular crowding" on elementary biochemical processes due to high solute concentrations are poorly understood and yet clearly essential to the folding of nucleic acids and proteins into correct, native structures. The present work presents, to our knowledge, first results on the single-molecule kinetics of solute molecular crowding, specifically focusing on GAAA tetraloop-receptor folding to isolate a single RNA tertiary interaction using timecorrelated single-photon counting and confocal single-molecule FRET microscopy. The impact of crowding by high-molecularweight polyethylene glycol on the RNA folding thermodynamics is dramatic, with up to ΔΔG°∼ −2.5 kcal/mol changes in free energy and thus >60-fold increase in the folding equilibrium constant (K eq ) for excluded volume fractions of 15%. Most importantly, time-correlated single-molecule methods permit crowding effects on the kinetics of RNA folding/unfolding to be explored for the first time (to our knowledge), which reveal that this large jump in K eq is dominated by a 35-fold increase in tetraloop-receptor folding rate, with only a modest decrease in the corresponding unfolding rate. This is further explored with temperature-dependent single-molecule RNA folding measurements, which identify that crowding effects are dominated by entropic rather than enthalpic contributions to the overall free energy change. Finally, a simple "hard-sphere" treatment of the solute excluded volume is invoked to model the observed kinetic trends, and which predict ΔΔG°∼ −5 kcal/mol free-energy stabilization at excluded volume fractions of 30%.scaled particle theory | fluorescence | PEG

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Section: Molecular Crowding Model Provides a Physical Basis For Stabisupporting

confidence: 74%

Section: Discussion Accelerated Folding Leads To Preferential Stabilimentioning

confidence: 99%

Molecular-crowding effects on single-molecule RNA folding/unfolding thermodynamics and kinetics

Dupuis

Holmstrom

Nesbitt

2014

Proc. Natl. Acad. Sci. U.S.A.

Self Cite

140

159

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“…This is consistent with prior expectation that the A 7 linker, which is slightly more rigid than U 7 due to base-stacking interactions, can weakly interfere with achieving the correct transition-state configuration. 65 …”

Section: Cation-facilitated Tetraloop-receptor Docking: a Kinetic Modelmentioning

confidence: 97%

“…1a) with a U 7 alternative has essentially no effect on K M , K′ M , or n (Table 1). 65 This suggests that cation uptake is intrinsic to the tetraloop-receptor docking interaction, rather than the specific linker in the construct design. By way of contrast, however, the docking rate constants (i.e., k 1 and k 2 ) are nearly 2-fold faster for the U 7 linker construct.…”

Section: Cation-facilitated Tetraloop-receptor Docking: a Kinetic Modelmentioning

confidence: 98%

“…In contrast, single-molecule FRET studies of this construct have permitted the underlying kinetics to be studied, which reveal that both undocking and docking rate constants are affected by [Mg 2 + ]. 64 Moreover, recent calorimetric and single-molecule studies have elucidated fundamental differences in the underlying thermodynamics of the tetraloop-receptor interaction in monovalent versus divalent cationic environments, [65][66][67] highlighting the need to further understand the role of cation identity in RNA-ion interactions.…”

Section: Introductionmentioning

confidence: 99%

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The Role of Counterion Valence and Size in GAAA Tetraloop–Receptor Docking/Undocking Kinetics

Fiore

Holmstrom

Fiegland

et al. 2012

Journal of Molecular Biology

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Orchestrating ribosomal RNA folding during ribosome assembly

2022

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Construction of the eukaryotic ribosome is a complex process in which a nascent ribosomal RNA (rRNA) emerging from RNA Polymerase I hierarchically folds into a native three-dimensional structure. Modular assembly of individual RNA domains through interactions with ribosomal proteins and a myriad of assembly factors permit efficient disentanglement of the error-prone RNA folding process. Following these dynamic events, long-range tertiary interactions are orchestrated to compact rRNA. A combination of genetic, biochemical, and structural studies is now providing clues into how a nascent rRNA is transformed into a functional ribosome with high precision. With this essay, we aim to draw attention to the poorly understood process of establishing correct RNA tertiary contacts during ribosome formation. K E Y W O R D Sco-transcriptional ribosome assembly, low temperature, modular rRNA compaction, RNA folding, RNA-binding proteins THE COMPLEX VERSATILE STRUCTURE OF RNALike DNA, the RNA polymer consists of basic units called nucleotides.

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Entropic origin of Mg ²⁺ -facilitated RNA folding

Cited by 55 publications

References 56 publications

Molecular-crowding effects on single-molecule RNA folding/unfolding thermodynamics and kinetics

Molecular-crowding effects on single-molecule RNA folding/unfolding thermodynamics and kinetics

The Role of Counterion Valence and Size in GAAA Tetraloop–Receptor Docking/Undocking Kinetics

Orchestrating ribosomal RNA folding during ribosome assembly

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Entropic origin of Mg 2+ -facilitated RNA folding

Cited by 55 publications

References 56 publications

Molecular-crowding effects on single-molecule RNA folding/unfolding thermodynamics and kinetics

Molecular-crowding effects on single-molecule RNA folding/unfolding thermodynamics and kinetics

The Role of Counterion Valence and Size in GAAA Tetraloop–Receptor Docking/Undocking Kinetics

Orchestrating ribosomal RNA folding during ribosome assembly

Contact Info

Product

Resources

About

Entropic origin of Mg ²⁺ -facilitated RNA folding