Project description:Small RNAs were profiled during Sendai virus infection of human A549 cells to identify changes in microRNA abundance during the cellular antiviral response. Examination of microRNA abundance during Sendai virus infection.
Project description:We used phosphoproteomics combined with bioinformatics to characterize the global cellular protein phosphorylation events during Sendai virus infection in human lung epithelial cells.
Project description:The goal of this experiment was to determine gene expression changes during Sendai virus infection as the result of expression or inhibition of miR-203 in A549 cells. The gene expression profiling experiment was performed with 4 groups (mock infected, Sendai virus infected, Sendai virus infeceted in the presence of exogenous miR-203, and Sendai virus infected in the presence of miR-203 inhibitor) with 3 biological replicates for each group. Total RNA was purified from A549 cells that were mock infected or infected with Sendai virus (Cantell strain, 5pfu/cell) alone or in the presence of miR-203 mimic or inhibitor for 10 hours.
Project description:Small RNAs were profiled during Sendai virus infection of human A549 cells to identify changes in microRNA abundance during the cellular antiviral response.
Project description:We report the genetic plasticity of Sendai virus and mumps virus. We introduced insertional mutation in the virus genome and checked fitness by comparing distribution of mutans in passage 1 and passage 2.
Project description:We evaluate the individual growth of 8 mutants of Sendai virus in the competitive condition under the cultured cells. We also evalate the growth of 6 mutants of mumps virus in the similar competitive condition.
Project description:Study was performed in order to determine the scope of antiviral response of Rousettus aegyptiacus-derived fibroblasts to Sendai and Marburg virus infection. This study aids in understanding the function of the expanded immune repertoire of Rosettus aegyptiacus.
Project description:Innate immunity is the first line of defense against viral and microbial pathogens. BMDC is critical for innate immunity. To investigate the complicated net signaling after virus invasion, we did a cDNA microarray analysis of BMDC with or without Sendai Virus infection. We used microarrays to find proteins that upregulated by Sendai Virus infection and investigated if these proteins had functions in regulating Sendai Virus induced signaling pathway.
Project description:Innate immunity is the first line of defense against viral and microbial pathogens. BMDC is critical for innate immunity. To investigate the complicated net signaling after virus invasion, we did a cDNA microarray analysis of BMDC with or without Sendai Virus infection. We used microarrays to find proteins that upregulated by Sendai Virus infection and investigated if these proteins had functions in regulating Sendai Virus induced signaling pathway. BMDC cells are seperated from C57BL6 mice, infected with Sendai Virus or not,cultured and harveseted for RNA extraction and hybridization on Affymetrix microarrays