화학공학소재연구정보센터
Journal of Physical Chemistry B, Vol.121, No.26, 6321-6330, 2017
Impact of Hydrogen Bonding in the Binding Site between Capsid Protein and MS2 Bacteriophage ssRNA
MS2 presents a well-studied example of a single-stranded RNA virus for which the genomic RNA plays a pivotal role in the virus assembly process based on the packaging signal-mediated mechanism. Packaging signals (PSs) are multiple dispersed RNA sequence/structure motifs varying around a central recognition motif that interact in a specific way with the capsid protein in the assembly process. Although the discovery and identification of these PSs was based on bioinformatics and geometric approaches, in tandem with sophisticated experimental protocols, we approach this problem using large-scale ab initio computation centered on critical aspects of the consensus protein RNA interactions recognition motif: DFT calculations are carried out on two nucleoprotein complexes: wild-type and mutated (PDB IDs: IZDH and 5MSF). The calculated partial charge distribution of residues and the strength of hydrogen bonding (HB) between them enabled us to locate the exact binding sites with the strongest HBs, identified to be LYS43-A(-4), ARG49-C-33, TYR85-C-5, and LYS61-C-5, due to the change in the sequence of the mutated RNA.