%0 Journal Article %A Lei Jin %A Ya-Zhou Shi %A Chen-Jie Feng %A Ya-Lan Tan %A Zhi-Jie Tan %T Coarse-grained modeling for structure, stability and flexibility of double stranded RNAs in salt solutions %D 2018 %R 10.1101/332676 %J bioRxiv %P 332676 %X Double stranded (ds) RNAs play essential roles in many processes of cell metabolism. The knowledge of three-dimensional (3D) structure, stability and flexibility of dsRNAs in salt solutions is important for understanding their biological functions. In this work, we further developed our previously proposed coarse-grained model to predict 3D structure, stability and flexibility for dsRNAs in monovalent and divalent ion solutions through involving an implicit structure-based electrostatic potential. The model made reliable predictions for 3D structures of extensive dsRNAs (≤78 nucleotides) with/without bulge/internal loops from their sequences, and the involvement of the structure-based electrostatic potential and corresponding ion condition can improve the predictions on 3D structures of dsRNAs in ion solutions. Furthermore, the model made good predictions on thermal stability for extensive dsRNAs over the wide range of monovalent/divalent ion concentrations, and our analyses show that thermally unfolding pathway of a dsRNA is dependent on its length as well as its sequence. In addition, the model was employed to examine the salt-dependent flexibility of a dsRNA helix and the calculated salt-dependent persistence lengths are in good accordance with experiments. %U https://www.biorxiv.org/content/biorxiv/early/2018/05/28/332676.full.pdf