Abstract

The adaptive capacity of CoVs, as well as all other RNA viruses, is partially attributed to the presence of extensive population genetic diversity. However, decreased fidelity is detrimental to CoV replication and virulence; mutant CoVs with decreased replication fidelity are attenuated and more sensitive to inhibition by RNA mutagens. Thus, identifying the viral protein determinants of CoV fidelity is important for understanding CoV replication, pathogenesis, and virulence. In this report, we show that nsp10, a small, nonenzymatic viral protein, contributes to CoV replication fidelity. Our data support the hypothesis that CoVs have evolved multiple proteins, in addition to nsp14-ExoN, that are responsible for maintaining the integrity of the largest known RNA genomes.