PhD / MPhil / MD Virology
The University of Liverpool’s Institute of Infection and Global Health was established to bring together leading medical, veterinary and basic science researchers from across the Faculty of Health and Life Sciences. We also enjoy close and active collaboration with NHS colleagues through the Liverpool Health Partners Academic Health Science System.
Research in Virology is based in new laboratories in the Ronald Ross Building and ic2 Building on the main University city centre campus. Our research encompasses studies of the pathogenicity, diagnostics, identification, epidemiology and immune responses to a range of viral pathogens including: flaviviruses such as Japanese encephalitis virus and Zika virus; Ebola virus; Chikungunya virus; HIV; respiratory syncytial virus; cytomegalovirus and other herpesviruses. Techniques used include: diagnostic identification methods, flow cytometry, ELISA, epidemiology, transcriptomic and genomic technologies, proteomics and infection models.
The aims of the research are to investigate the transmission routes and behaviour of pathogens during infections and use this knowledge to design better therapeutic strategies or vaccines in order to improve the health of humans.
We particularly welcome research proposals that match those of our researchers, including:
The University of Liverpool’s Institute of Infection and Global Health was established to bring together leading medical, veterinary and basic science researchers from across the Faculty of Health and Life Sciences. We also enjoy close and active collaboration with NHS colleagues through the Liverpool Health Partners Academic Health Science System.
Research in Virology is based in new laboratories in the Ronald Ross Building and ic2 Building on the main University city centre campus. Our research encompasses studies of the pathogenicity, diagnostics, identification, epidemiology and immune responses to a range of viral pathogens including: flaviviruses such as Japanese encephalitis virus and Zika virus; Ebola virus; Chikungunya virus; HIV; respiratory syncytial virus; cytomegalovirus and other herpesviruses. Techniques used include: diagnostic identification methods, flow cytometry, ELISA, epidemiology, transcriptomic and genomic technologies, proteomics and infection models.
The aims of the research are to investigate the transmission routes and behaviour of pathogens during infections and use this knowledge to design better therapeutic strategies or vaccines in order to improve the health of humans.
We particularly welcome research proposals that match those of our researchers, including:
