Project description:WGS and WGBS data from monocyte-derived macrophages that were infected with Influenza A virus strain PR8WT, or a matching non-infected control.
Project description:RNA-seq, ATAC-seq and ChIPmentation data from monocyte-derived macrophages that were infected with Influenza A virus strain PR8WT, or a matching non-infected control.
Project description:Analysis of gene expression in macrophages infected with influenza A virus or Mock and treated with the VX-787 to investigate the effects VX-787 have on transcriptional response in human macrophages. Human macrophages were infected with influenza A/WSN/1933(H1N1) or A/Udorn/307/72(H3N2) viruses, or non-infected (Mock). 10nM VX-787 was treated to WSN, Udorn or Mock infected cells, repectively.
Project description:Analysis of gene expression in human macrophages infected with influenza A viruses expressing wild type NS1 protein or its mutant R38A, K41A. The hypothesis tested was that R38 and K41 residues within viral NS1 protein are essential fro transctiptional control of cellluar gene expression. Cells were infected with influenza A/WSN/33 viruses expressing wild type NS1 protein (WT), its R38A, K41A mutant (RK/AA) or non-infected (Mock) Total RNA isolated from macrophages after 10 hours of infection with wild type or mutant influenza A virus (multiplicity of infection = 1)
Project description:We used the microarray data to analyse the host cell responses on mouse macrophages infected with the three Influenza A viruses The global expression analysis showed increased expression changes in H5N3 infected mouse macrophages compared to H5N2/F118 and H1N1/WSN
Project description:Macrophages were infected with low (PR8) and high pathogenic influenza viruses (FPV and H5N1). To our surprise a genome-wide comparative systems biology approach revealed that in contrast PR8 infections with HPAIV H5N1 and FPV result in a reduced immune response of human macrophages contradicting a primary role of this cell type for the cytokine storm. Our data point to a viral strategy of HPAIV to bypass a major amplifier of the initial local inflammatory response thereby hampering antiviral effector mechanisms and facilitating virus spreading and systemic disease. Macrophages were infected with low (PR8) and high pathogenic influenza viruses (FPV and H5N1)
Project description:Analysis of gene expression in macrophages infected with influenza A virus or Mock and treated with the VX-787 to investigate the effects VX-787 have on transcriptional response in human macrophages.
Project description:Analysis of gene expression in human macrophages infected with influenza A viruses expressing full length or truncated NS1 protein. The hypothesis tested was that C-terminal truncations of viral NS1 protein attenuate the capability of NS1 to limit activation of host antiviral and immune response genes. Cells were infected with influenza A/WSN/33 viruses expressing wild type NS1 protein (WSN-230), NS1 protein of 220 aa long (WSN-220) and NS1 protein of 202 aa long (WSN-202) on non-infected (Mock) Total RNA isolated from macrophages after 8 hours of infection with wild type or mutant influenza A virus (multiplicity of infection = 2)
Project description:Analysis of gene expression in human macrophages infected with influenza A viruses expressing wild type NS1 protein or its mutant R38A, K41A. The hypothesis tested was that R38 and K41 residues within viral NS1 protein are essential fro transctiptional control of cellluar gene expression. Cells were infected with influenza A/WSN/33 viruses expressing wild type NS1 protein (WT), its R38A, K41A mutant (RK/AA) or non-infected (Mock)