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1. MA'AT Analysis of Aldofuranosyl Rings: Unbiased Modeling of Conformational Equilibria and Dynamics in Solution.

Author

Meredith RJ, McGurn M, Euell C, Rutkowski P, Cook E, Carmichael I, and Serianni AS

Subjects

Carbohydrate Conformation, Density Functional Theory, Hydrogen Bonding, Magnetic Resonance Spectroscopy methods, Molecular Conformation, Molecular Dynamics Simulation, Oligonucleotides chemistry, Sugars chemistry, Water chemistry, Glycosides chemistry, Ribonucleosides chemistry

Abstract

MA'AT analysis has been applied to methyl β-d-ribofuranoside ( 3 ) and methyl 2-deoxy-β-d- erythro -pentofuranoside ( 4 ) to demonstrate the ability of this new experimental method to determine multi-state conformational equilibria in solution. Density functional theory (DFT) was used to obtain parameterized equations for >20 NMR spin-coupling constants sensitive to furanose ring conformation in 3 and 4 , and these equations were used in conjunction with experimental spin-couplings to produce unbiased MA'AT models of ring pseudorotation. These models describe two-state north-south conformational exchange consistent with results obtained from traditional treatments of more limited sets of NMR spin-couplings (e.g., PSEUROT ). While PSEUROT , MA'AT , and aqueous molecular dynamics models yielded similar two-state models, MA'AT analysis gives more reliable results since significantly more experimental observables are employed compared to PSEUROT , and no assumptions are needed to render the fitting tractable. MA'AT models indicate a roughly equal distribution of north and south ring conformers of 4 in aqueous ( 2 H 2 O) solution compared to ∼80% north forms for 3 . Librational motion about the mean pseudorotation phase angles P of the preferred north and south conformers of 3 in solution is more constrained than that for 4 . The greater rigidity of the β- ribo ring may be caused by synergistic stereoelectronic effects and/or noncovalent (e.g., hydrogen-bonding) interactions in solution that preferentially stabilize north forms of 3 . MA'AT analysis of oligonucleotides and other furanose ring-containing biomolecules promises to improve current experimental models of sugar ring behavior in solution and help reveal context effects on ring conformation in more complex biologically important systems.

Published

2022