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Exploring the influence of hyperthermophilic protein Ssh10b on the stability and conformation of RNA by molecular dynamics simulation
Authors:Xue Zhang  Qing‐Chuan Zheng
Affiliation:1. Laboratory of Theoretical and Computational Chemistry, Institute of Theoretical Chemistry, International Joint Research Laboratory of Nano‐Micro Architecture Chemistry, Jilin University, Changchun, People's Republic of China;2. Key Laboratory for Molecular Enzymology and Engineering of the Ministry of Education, Jilin University, Changchun, People's Republic of China
Abstract:The hyperthermophilic Ssh10b from Sulfolobus shibatae is a member of the Sac10b family, which binds RNA in vivo as a physiological substrate, and it has been postulated to play a key role in chromosomal organization in Archaea. Even though the crystal structure of Ssh10b‐RNA was resolved successively by X‐ray diffraction (Protein Data Bank [PDB] code: 3WBM), the detailed dynamic characteristics of Ssh10b‐RNA are still unclear. In this study, molecular dynamics (MDs) simulations at 6 temperatures (300, 350, 375, 400, 450, and 500 K) and molecular mechanics Generalized‐Born surface area (MM‐GB/SA) free energy calculations were performed to investigate the mechanism of how Ssh10b protects and stabilizes RNA. The simulation results indicate that RNA is stabilized by Ssh10b when the temperature rises up to 375 K. RNA is found to undergo conformational transition between A‐RNA and A′‐RNA when Ssh10b binds to RNA at 3 different temperatures (300, 350, and 375 K). Salt bridges, hydrogen bonds and hydrophobic interactions are observed, and some residues have significant impact on the structural stability of the complex. This study increases our understanding of the dynamics and interaction mechanism of hyperthermophilic proteins and RNA at the atomic level, and offers a model for studying the structural biology of hyperthermophilic proteins and RNA.
Keywords:hyperthermophilic proteins  molecular dynamics  MM‐GB/SA  RNA  Ssh10b
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