Hepatitis C virus RNA recombination in cell culture.

Background & Aims: The Hepatitis C virus (HCV) exhibits large genetic diversity, both on a global scale and at the level of the infected individual. A major underlying mechanism of the observed sequence differences is error-prone virus replication by the viral RNA polymerase NS5B. In addition, based on phylogenetic comparisons of patient-derived HCV sequences, there is evidence of HCV recombination.

Translation and replication of hepatitis C virus genomic RNA depends on ancient cellular proteins that control mRNA fates.

Inevitably, viruses depend on host factors for their multiplication. Here, we show that hepatitis C virus (HCV) RNA translation and replication depends on Rck/p54, LSm1, and PatL1, which regulate the fate of cellular mRNAs from translation to degradation in the 5'-3'-deadenylation-dependent mRNA decay pathway. The requirement of these proteins for efficient HCV RNA translation was linked to the 5' and 3' untranslated regions (UTRs) of the viral genome.