Litcius/Paper detail

Refinement of the Sugar Puckering Torsion Potential in the AMBER DNA Force Field

Marie Zgarbová, Jiřı́ Šponer, Petr Jurečka

2025Journal of Chemical Theory and Computation21 citationsDOIOpen Access PDF

Abstract

The transition from B-DNA to A-DNA occurs in many protein-DNA interactions or in DNA/RNA hybrid duplexes, and thus plays a role in many important biomolecular processes that convey the biological function of DNA. However, the stability of A-DNA is severely underestimated in current AMBER force fields such as OL15, OL21 or bsc1, potentially leading to unstable or deformed protein-DNA complexes. In this study, we refine the deoxyribose dihedral potential to increase the stability of the north (N) puckering present in A-DNA. The new parameters, termed OL24, model A/B equilibrium in B-DNA duplexes in water in good agreement with nuclear magnetic resonance (NMR) experiment. They also improve the description of DNA/RNA hybrids and the transition of the DNA duplex to the A-form in concentrated ethanol solutions. These refinements significantly improve the modeling of protein-DNA complexes, increasing their structural stability and A-form population, while maintaining accurate representation of canonical B-DNA duplexes. Overall, the new parameters should allow more reliable modeling of the thermodynamic equilibrium between A- and B-DNA forms and the interactions of DNA with proteins.

Topics & Concepts

Force field (fiction)Torsion (gastropod)Potential fieldSugarDNAComputer scienceChemical physicsData scienceChemistryNanotechnologyBiologyMaterials scienceArtificial intelligencePhysicsAnatomyBiochemistryGeophysicsRNA and protein synthesis mechanismsBacteriophages and microbial interactionsDNA and Nucleic Acid Chemistry