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Mechanism of poliovirus replication

$384,409R01FY2012AINIH

University Of California, San Francisco, San Francisco CA

Investigators

Linked publications & trials

Abstract

Abstract A key survival strategy of RNA viruses is their ability to populate a diverse sequence space that creates a 'cloud' of potentially beneficial mutations at the population level, affording the viral quasispecies a greater probability of evolving and adapting to new environments and challenges during infection. One established mechanism relies on high mutation rates of viral RNA replication. It is becoming increasingly clear that an additional mechanism to expand the evolutionary repertoire relies on the exchange of genetic material between RNA viruses, as well as with genes from their hosts. Furthermore, these recombination mechanisms may provide viruses with two advantages: (i) purge their genomes of accumulated deleterious changes and (ii) create or spread beneficial combinations of mutations in an efficient manner. Despite its importance, the mechanism of viral recombination is not well-understood. Genetic experiments have suggested that homologous RNA recombination occurs by dissociation of the RNA-dependent RNA polymerase and nascent RNA strand before replication completes, and the re-association of that nascent strand-polymerase complex with another template. However, this mechanism remains largely untested. We propose to combine genetics, biochemistry and ultra-deep sequencing approaches with classical virology experiments in cell culture and animal models to define the mechanism of viral recombination and determine its role in virus evolution and pathogenesis. The central hypothesis in this application is that RNA recombination plays a critical role in the generation of virus diversity and evolution and is critical for viral fitness and pathogenesis.

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