Project description:The Genome sequencing and assembly of Viruses

Project description:Viruses overview

Project description:Viruses Random survey

Project description:Viruses Metagenomic assembly

Project description:Banana plant infected with viruses Genome sequencing and assembly

Project description:viruses Raw sequence reads

Project description:unclassified viruses

Project description:Whole genome sequences of Mpox viruses

Project description:Dengue and Zika are closely related members of the Flaviviridae family of positive, single-stranded RNA viruses and are of global clinical importance. These viruses utilize an 11kb RNA genome for translation and replication, and much remains to be learnt about how the entire genome folds to enable virus function. Here, we performed high throughput RNA secondary structure and pair-wise interaction mapping on four dengue serotypes and four Zika strains within their virus particles. We identified structures that are associated with translation pausing, and are evolutionary conserved by integrating synonymous mutation rates into our analysis. Genome-wide interaction mapping revealed alternative structures, as well as extensive long-range RNA interactions – including the known circularization signals– within the virus particles. Many of these long-range interactions are conserved across the viruses and/or clustered into “hubs” that are shown to be functionally important. This comprehensive structural resource of dengue and Zika viruses reveals that viral genome organization is much more complex than previously appreciated and deepens our understanding of the molecular basis for viral pathogenesis.

Project description:Identification of novel sugarcane viruses through high-throughput sequencing