Project description:Single Molecule Real-Time sequencing

Project description:RNA viruses are among the most prevalent pathogens and represent a major burden on society. While RNA viruses have been studied extensively, little is known about the processes that occur during the first several hours of infection due to a lack of sensitive assays. Here, we develop a single-molecule imaging assay, virus infection real-time imaging (VIRIM), to study translation and replication of individual RNA viruses in live cells. VIRIM uncovered a striking heterogeneity in replication dynamics between cells and revealed extensive coordination between translation and replication of single viral RNAs. Furthermore, using VIRIM we identify the replication step of the incoming viral RNA as a major bottleneck of successful infection, and identify host genes that are responsible for inhibition of early virus replication. Single-molecule imaging of virus infection represents a powerful tool to study virus replication and virus-host interactions that may be broadly applicable to RNA viruses.

Project description:Single-molecule real-time sequencing of Juniperus squamata

Project description:Single Molecule Real-Time DNA sequencing of HLA genes

Project description:Single Molecule Real-Time DNA sequencing of HLA genes

Project description:Single molecule real-time (SMRT) sequencing of the Plassmodiophora genome.

Project description:Single molecule real-time (SMRT) DNA sequencing of HLA genes

Project description:Single-molecule real-time sequencing of Hepatitis B virus genome, analyses for genomic structural variations

Project description:Single-molecule real-time isoform sequencing of 'Dangshansu' pear flower bud

Project description:Single-molecule real-time (SMRT) sequencing analysis of Trifolium repens L.