Project description:We infected DF-1 cells with avian reovirus, and then used high-throughput sequencing to detect changes in miRNA expression profiles. This research provides a more comprehensive understanding of the interaction between viruses and host cells

Project description:Transcriptome profile changes during differentiation of avian satellite cells.

Project description:We utilized oligonucleotide microarrays to measure cellular mRNA decay rates in mock- or reovirus-infected murine L929 cells to determine if changes in host mRNA expression are a consequence of reovirus-induced alterations in cellular mRNA stability.

Project description:Using microarray technology, we aim to identify in vitro host gene expression for understanding the crosstalk of signaling pathways that leads to the joint pathogenesis in Avian orthoreovirus infection.

Project description:Packaging of segmented, double-stranded RNA viral genomes requires coordination of multiple viral proteins and RNA segments. For mammalian orthoreovirus (reovirus), evidence suggests either all ten or zero viral RNA segments are simultaneously packaged in a highly coordinated process hypothesized to exclude host RNA. Accordingly, reovirus generates genome-containing virions and “genomeless” top component particles. However, despite ostensibly lacking the genome, top component particles maintain a low level of infectivity. Whether reovirus particles can package host RNA is unknown. To gain insight into reovirus packaging potential and mechanisms, we employed next-generation RNA-sequencing to define the viral and host RNA content of purified reovirus virions and top component particles. Reovirus top component particles contained double-stranded viral RNA segments in similar proportions but at reduced levels compared to virions. Top component particles also were enriched for numerous host RNAs, especially short, non-polyadenylated transcripts, that differed by reovirus strain, independent of the viral polymerase. In contrast, virions were enriched for very few host RNAs. Collectively, these findings indicate that genome packaging into reovirus virions is exquisitely selective, while incorporation of host RNAs into top component particles is more promiscuous or differentially selective and may contribute to or result from inefficient viral RNA packaging.

Project description:Reovirus mediated cell death of breast cancer is orchestrated via apoptotic cell death pathways We used inhouse microarrays to detail the global programme of gene expression following reovirus treatment

Project description:Avian influenza A (H7N9) viruses have emerged in China in 2013 and caused zoonotic disease associated with a case-fatality ratio of over 30%. Transcriptional profile from peripheral blood has been shown to reflect host responses against a specific respiratory pathogen and can be used to understand the disease. Methods: We correlated the clinical data and blood transcriptomic profile of patients with avian influenza A (H7N9) disease and determined the biological significance of the infection from the analysis.

Project description:In this study we used Illumina Microarray to compare the induction of immune related genes following enteric virus infection. Results show that infection of T3D mammalian reovirus from the basolateral side lead to a higher induction of all genes compared to apical infection.

Project description:Callinectes sapidus reovirus 1

Project description:Reovirus propagates with high efficiency in KRAS mutated colorectal cancer (CRC). About 45-50% of CRC patients possess KRAS mutation. Oncolytic reovirus treatment in combination with chemotherapy was tested in patient samples possessing KRAS mutated metastatic CRC. This is the raw data from the peripheral mononuclear cell (PBMC) samples at 4 timepoints (pre treatment, 48 hours, day 8, and day 15).