Litcius/Paper detail

Role of salt-bridging interactions in recognition of viral RNA by arginine-rich peptides

Lev Levintov, Harish Vashisth

2021Biophysical Journal16 citationsDOIOpen Access PDF

Abstract

Interactions between RNA molecules and proteins are critical to many cellular processes and are implicated in various diseases. The RNA-peptide complexes are good model systems to probe the recognition mechanism of RNA by proteins. In this work, we report studies on the binding-unbinding process of a helical peptide from a viral RNA element using nonequilibrium molecular dynamics simulations. We explored the existence of various dissociation pathways with distinct free-energy profiles that reveal metastable states and distinct barriers to peptide dissociation. We also report the free-energy differences for each of the four pathways to be 96.47 ± 12.63, 96.1 ± 10.95, 91.83 ± 9.81, and 92 ± 11.32 kcal/mol. Based on the free-energy analysis, we further propose the preferred pathway and the mechanism of peptide dissociation. The preferred pathway is characterized by the formation of sequential hydrogen-bonding and salt-bridging interactions between several key arginine amino acids and the viral RNA nucleotides. Specifically, we identified one arginine amino acid (R8) of the peptide to play a significant role in the recognition mechanism of the peptide by the viral RNA molecule.

Topics & Concepts

RNAPeptideSalt bridgeArginineBiophysicsAmino acidBiochemistryChemistryNucleotideMolecular dynamicsBiologyCell biologyMutantGeneComputational chemistryRNA and protein synthesis mechanismsBacteriophages and microbial interactionsProtein Structure and Dynamics