Mark Denison
Last active: 2/22/2016

High fidelity of murine hepatitis virus replication is decreased in nsp14 exoribonuclease mutants.

Eckerle LD, Lu X, Sperry SM, Choi L, Denison MR
J Virol. 2007 81 (22): 12135-44

PMID: 17804504 · PMCID: PMC2169014 · DOI:10.1128/JVI.01296-07

Replication fidelity of RNA virus genomes is constrained by the opposing necessities of generating sufficient diversity for adaptation and maintaining genetic stability, but it is unclear how the largest viral RNA genomes have evolved and are maintained under these constraints. A coronavirus (CoV) nonstructural protein, nsp14, contains conserved active-site motifs of cellular exonucleases, including DNA proofreading enzymes, and the severe acute respiratory syndrome CoV (SARS-CoV) nsp14 has 3'-to-5' exoribonuclease (ExoN) activity in vitro. Here, we show that nsp14 ExoN remarkably increases replication fidelity of the CoV murine hepatitis virus (MHV). Replacement of conserved MHV ExoN active-site residues with alanines resulted in viable mutant viruses with growth and RNA synthesis defects that during passage accumulated 15-fold more mutations than wild-type virus without changes in growth fitness. The estimated mutation rate for ExoN mutants was similar to that reported for other RNA viruses, whereas that of wild-type MHV was less than the established rates for RNA viruses in general, suggesting that CoVs with intact ExoN replicate with unusually high fidelity. Our results indicate that nsp14 ExoN plays a critical role in prevention or repair of nucleotide incorporation errors during genome replication. The established mutants are unique tools to test the hypothesis that high replication fidelity is required for the evolution and stability of large RNA genomes.

MeSH Terms (14)

Amino Acid Sequence Animals Cell Line, Tumor Cricetinae Exoribonucleases Genome, Viral Mice Molecular Sequence Data Murine hepatitis virus Mutagenesis Mutation RNA, Viral Viral Nonstructural Proteins Virus Replication

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