Abstract
BackgroundHigh genetic diversity at both inter- and intra-host level are hallmarks of RNA viruses due to the error-prone nature of their genome replication. Several groups have evaluated the extent of viral variability using different RNA virus deep sequencing methods. Although much of this effort has been dedicated to pathogens that cause chronic infections in humans, few studies investigated arthropod-borne, acute viral infections.Methods and Principal FindingsWe deep sequenced the complete genome of ten DENV2 isolates from representative classical and severe cases sampled in a large outbreak in Brazil using two different approaches. Analysis of the consensus genomes confirmed the larger extent of the 2010 epidemic in comparison to a previous epidemic caused by the same viruses in another city two years before (genetic distance = 0.002 and 0.0008 respectively). Analysis of viral populations within the host revealed a high level of conservation. After excluding homopolymer regions of 454/Roche generated sequences, we found 10 to 44 variable sites per genome population at a frequency of >1%, resulting in very low intra-host genetic diversity. While up to 60% of all variable sites at intra-host level were non-synonymous changes, only 10% of inter-host variability resulted from non-synonymous mutations, indicative of purifying selection at the population level.Conclusions and SignificanceDespite the error-prone nature of RNA-dependent RNA-polymerase, dengue viruses maintain low levels of intra-host variability.
Highlights
Dengue is the most frequent arthropod-borne human viral infection in tropical and sub-tropical regions, with one hundred million people at risk annually
Samples were collected during a large outbreak in the State of Sao Paulo coastal region during the first semester of 2010, with more than 108,000 reported cases, including 81 deaths associated with the severe forms of the disease [3]. This epidemic affected a geographic area nearby the city of Santos, with the greatest number of cases reported in five nearby cities (Figure 1)
American/Asian DENV-2 complete genomes consensus were reconstructed from overlapping reverse transcriptase polymerase chain reaction (RT-PCR) amplicons deep sequenced on the Roche/454 GS Junior instrument
Summary
Dengue is the most frequent arthropod-borne human viral infection in tropical and sub-tropical regions, with one hundred million people at risk annually. Samples were collected during a large outbreak in the State of Sao Paulo coastal region during the first semester of 2010, with more than 108,000 reported cases, including 81 deaths associated with the severe forms of the disease [3]. This epidemic affected a geographic area nearby the city of Santos, with the greatest number of cases reported in five nearby cities (Figure 1). Several groups have evaluated the extent of viral variability using different RNA virus deep sequencing methods Much of this effort has been dedicated to pathogens that cause chronic infections in humans, few studies investigated arthropod-borne, acute viral infections
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