Refolding of lid subdomain of SARS-CoV-2 nsp14 upon nsp10 interaction releases exonuclease activity

Abstract

AbstractDuring the RNA replication, coronaviruses require proofreading to maintain the integrity of their large genomes. Nsp14 associates with viral polymerase complex to excise the mismatched nucleotides. Aside from the exonuclease activity, nsp14 methyltransferase domain mediates cap methylation, facilitating translation initiation and protecting viral RNA from recognition by the innate immune sensors. The nsp14 exonuclease activity is modulated by a protein co-factor nsp10. While the nsp10/nsp14 complex structure is available, the mechanistic basis for nsp10 mediated modulation remains unclear in the absence of nsp14 structure. Here we provide a crystal structure of nsp14 in an apo-form. Comparative analysis of the apo- and nsp10 bound structures explain the modulatory role of the co-factor protein. Further, the structure presented in this study rationalizes the recently proposed idea of nsp14/nsp10/nsp16 ternary complex.