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Literature DB >> 15633198

Calculation of the binding free energy for magnesium-RNA interactions.

Anton S Petrov¹, Gene Lamm, George R Pack.

Abstract

The nature of the interaction between nucleic acids and divalent ions in solution is complex. It includes long-range electrostatic and short-range nonelectrostatic forces. Water molecules can be in an inner coordination shell that intervenes between the ion and its binding site. This work describes a method for calculating the binding free energy and applies it to a specific Mg-RNA system in the presence of monovalent salt. The approach combines high-level ab initio theory with Poisson-Boltzmann calculations and provides an accurate description of all terms of the binding free energy for magnesium ions located at the RNA surface (including nonelectrostatic interactions). Some alternative macroscopic approaches are also discussed.

Entities: Chemical

Mesh：

Substances：
RNA
Magnesium

Year: 2005 PMID： 15633198 DOI： 10.1002/bip.20171

Source DB: PubMed Journal: Biopolymers ISSN： 0006-3525 Impact factor: 2.505

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Cited

7 in total

Review 1. RNA folding: thermodynamic and molecular descriptions of the roles of ions.

Authors: David E Draper
Journal: Biophys J Date: 2008-10-03 Impact factor: 4.033

2. Role of large thermal fluctuations and magnesium ions in t-RNA selectivity of the ribosome.

Authors: Zuojun Guo; Meghan Gibson; Sanyasi Sitha; Steven Chu; Udayan Mohanty
Journal: Proc Natl Acad Sci U S A Date: 2011-02-22 Impact factor: 11.205

3. Iron mediates catalysis of nucleic acid processing enzymes: support for Fe(II) as a cofactor before the great oxidation event.

Authors: C Denise Okafor; Kathryn A Lanier; Anton S Petrov; Shreyas S Athavale; Jessica C Bowman; Nicholas V Hud; Loren Dean Williams
Journal: Nucleic Acids Res Date: 2017-04-20 Impact factor: 16.971

Calculation of the binding free energy for magnesium-RNA interactions.

Review 1. RNA folding: thermodynamic and molecular descriptions of the roles of ions.

2. Role of large thermal fluctuations and magnesium ions in t-RNA selectivity of the ribosome.

3. Iron mediates catalysis of nucleic acid processing enzymes: support for Fe(II) as a cofactor before the great oxidation event.

4. Bidentate RNA-magnesium clamps: on the origin of the special role of magnesium in RNA folding.

5. Evidence for a thermodynamically distinct Mg2+ ion associated with formation of an RNA tertiary structure.

6. Measurement of the specific and non-specific binding energies of Mg²⁺ to RNA.

7. The triplex-hairpin transition in cytosine-rich DNA.

Calculation of the binding free energy for magnesium-RNA interactions.

Review 1. RNA folding: thermodynamic and molecular descriptions of the roles of ions.

2. Role of large thermal fluctuations and magnesium ions in t-RNA selectivity of the ribosome.

3. Iron mediates catalysis of nucleic acid processing enzymes: support for Fe(II) as a cofactor before the great oxidation event.

4. Bidentate RNA-magnesium clamps: on the origin of the special role of magnesium in RNA folding.

5. Evidence for a thermodynamically distinct Mg2+ ion associated with formation of an RNA tertiary structure.

6. Measurement of the specific and non-specific binding energies of Mg2+ to RNA.

7. The triplex-hairpin transition in cytosine-rich DNA.

6. Measurement of the specific and non-specific binding energies of Mg²⁺ to RNA.