Project description:Bovine respiratory epithelial cells have different susceptibility to bovine respiratory syncytial virus infection. The cells derived from the lower respiratory tract were significantly more susceptible to the virus than those derived from the upper respiratory tract. Pre-infection with virus of lower respiratory tract with increased adherence of P. multocida; this was not the case for upper tract. However, the molecular mechanisms of enhanced bacterial adherence are not completely understood. To investigate whether virus infection regulates the cellular adherence receptor on bovine trachea-, bronchus- and lung-epithelial cells, we performed proteomic analyses.

Project description:Respiratory syncytial virus Genome sequencing

Project description:human respiratory syncytial virus Genome sequencing

Project description:Respiratory syncytial virus whole genome sequencing

Project description:human respiratory syncytial virus Genome sequencing

Project description:Human respiratory syncytial virus Genome Sequencing

Project description:human respiratory syncytial virus Genome sequencing

Project description:human respiratory syncytial virus Genome sequencing

Project description:Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) and other respiratory viruses -Coronavirus OC43, Coronavirus 229E, Influenza A/H1N1, Influenza A/H3N2, Influenza B, Respiratory Syncytial Virus RSV A and RSV B - were analysed by bottom-up proteomics of viral cultures. High coverage of viral proteins was acheived after culturing in serum-free conditions when compared to cultures grown using standard conditions including 2% fetal bovine serum.

Project description:Bovine Respiratory Syncytial Virus Genomes from Bovine with clinical respiratory disease in Kansas, 2021