Project description:Microarray analysis comparing cells that are resistant to Sindbis virus-induced cell death (clones 9, 43) versus cells that are sensitive to Sindbis virus-induced cell death (WT293) Keywords = Sindbis alphavirus functinal phenotype Keywords: repeat sample
Project description:Microarray analysis comparing cells that are resistant to Sindbis virus-induced cell death (clones 9, 43) versus cells that are sensitive to Sindbis virus-induced cell death (WT293)
Project description:Gene expression analysis of tumors isolated from mice after they received treatments with Sindbis Virus vectors for 1 week. The hypothesis tested changes in the transcriptome profiles of tumors isolated from Sindbis virus vectors treated and untreated mice. Expression profiling by high throughput sequencing of MOSEC.Fluc.p11 tumors
Project description:Purpose: Next-generation sequencing (NGS) on targeted locus in Sindbis genome to determine frequency changes of artificial microRNAs expressed by viruses after passaging in cancer and normal cells Methods: RNA was harvested in Trizol 488 (Thermo Fisher). RNA was extracted using the manufacturer’s protocol and quantified by nanodrop. Sequencing was done by SeqMatic on a MiSeq v3 platform generating 75bp reads. Adapters were trimmed using Trimmomatic and adapter-free reads represent artificial microRNAs encoded by Sindbis virus in a sample. Results: We have identified changes in artificial microRNA frequency after passaging virus pool in cancer and normal cells and have identified microRNAs increasing viral fitness in cancer cells. Conclusions: Our study represents artificial microRNAs which target pathways that can aid oncolytic viral replication in cancer cells.
Project description:The goal of this study is to determine the brain pathology upon infection of mice with neuroinvasine Sindbis virus (SVNI) and the affect of treatmant wuth the glucosylceramide inhibitor GZ-161 . For this purpose, C57BL/6 mice wasinfected with SVNI and treted or not with GZ-161. 5 days post infection, brains were harvested and total RNA was extracted. RNA-seq libraries were constructed and sequencing of 100bp paired-end was performed on the Illumina NovaSeq 6000 system. Sequencing yielded about 30M reads per sample that were mapped to the mouse genome
Project description:The midgut of hematophagous insects is the initial site of infection by arthropod-borne viruses (arboviruses) and plays a crucial role in vector competence. To further understand processes that occur in the midgut in response to infection by an arbovirus, DNA microarrays were used to analyze gene expression changes following infection by the alphavirus, Sindbis (MRE16 Malaysian strain). Midgut transcription profiles from mosquitoes fed blood containing 108 pfu/ml of virus were compared with those from mosquitoes ingesting blood meals having no virus. Transcription profiles from both experimental groups were analyzed at 1, 4, and 8 days post feeding. Among the many transcription changes observed by microarray analysis, the most dramatic involved three genes that had twenty-five to forty-fold increases in transcript levels in virus infected mosquitoes at 4 days post infection . These genes were synaptic vesicle protein-2 (SV2), potassium-dependent sodium/calcium exchanger (NCKX), and a homologue of C. elegans Unc-93, a putative component of a two-pore potassium channel. We speculate that these changes represent changes in vesicle transport processes. In addition to these observations, transcript changes were observed in infected mosquitoes that suggested involvement of Toll and JNK immune cascades as a response to viral infection
