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A conserved oligomerization domain in the disordered linker of coronavirus nucleocapsid proteins

Huaying Zhao, Di Wu, Sergio A. Hassan, Ai Nguyen, Jiji Chen, Grzegorz Piszczek, Peter Schuck

2023Science Advances60 citationsDOIOpen Access PDF

Abstract

The nucleocapsid (N-)protein of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has a key role in viral assembly and scaffolding of the viral RNA. It promotes liquid-liquid phase separation (LLPS), forming dense droplets that support the assembly of ribonucleoprotein particles with as-of-yet unknown macromolecular architecture. Combining biophysical experiments, molecular dynamics simulations, and analysis of the mutational landscape, we describe a heretofore unknown oligomerization site that contributes to LLPS, is required for the assembly of higher-order protein-nucleic acid complexes, and is coupled to large-scale conformational changes of N-protein upon nucleic acid binding. The self-association interface is located in a leucine-rich sequence of the intrinsically disordered linker between N-protein folded domains and formed by transient helices assembling into trimeric coiled-coils. Critical residues stabilizing hydrophobic and electrostatic interactions between adjacent helices are highly protected against mutations in viable SARS-CoV-2 genomes, and the oligomerization motif is conserved across related coronaviruses, thus presenting a target for antiviral therapeutics.

Topics & Concepts

LinkerRibonucleoproteinBiophysicsNucleic acidRNACoronavirusIntrinsically disordered proteinsChemistryProtein structureScaffold proteinViral proteinBiologyBiochemistryCoronavirus disease 2019 (COVID-19)VirusVirologyGeneDiseaseSignal transductionComputer scienceInfectious disease (medical specialty)Operating systemMedicinePathologyBacteriophages and microbial interactionsRNA Research and SplicingEvolution and Genetic Dynamics
A conserved oligomerization domain in the disordered linker of coronavirus nucleocapsid proteins | Litcius