Publications for all Oxford Principal Investigators within the CAMS Oxford Institute are included here, please use the search functions for publications related to specific Principal Investigators.
Use of polyethylene glycol precipitation and ultracentrifugation to enhance the sensitivity of hepatitis B virus DNA detection.
Fu MX. et al, (2025), J Clin Virol, 178
A Novel Toolkit of SARS-CoV-2 Sub-Genomic Replicons for Efficient Antiviral Screening.
Erdmann M. et al, (2025), Viruses, 17
Absolute quantitative and base-resolution sequencing reveals comprehensive landscape of pseudouridine across the human transcriptome
Xu H. et al, (2024), Nature Methods
Characterisation of HBV and co-infection with HDV and HIV through spatial transcriptomics
Cross A. et al, (2024), eGastroenterology, 2, e100067 - e100067
An atlas of the human liver diurnal transcriptome and its perturbation by hepatitis C virus infection
Mukherji A. et al, (2024), Nature Communications, 15
Oxygen-dependent histone lysine demethylase 4 restricts hepatitis B virus replication
Harris JM. et al, (2024), Journal of Biological Chemistry, 300, 105724 - 105724
CTCF regulates hepatitis B virus cccDNA chromatin topology.
Dobrica MO. et al, (2024), The Journal of general virology, 105
Hypoxia inducible factors inhibit respiratory syncytial virus infection by modulation of nucleolin expression.
Zhuang X. et al, (2024), iScience, 27
The N6-methyladenosine demethylase ALKBH5 regulates the hypoxic HBV transcriptome.
Tsukuda S. et al, (2024), PLoS pathogens, 20
The N6-methyladenosine demethylase ALKBH5 regulates the hypoxic HBV transcriptome.
Tsukuda S. et al, (2023), bioRxiv
ASPP2 binds to hepatitis C virus NS5A protein via an SH3 domain/PxxP motif-mediated interaction and potentiates infection
Smirnov A. et al, (2023), Journal of General Virology, 104
Hypoxia dampens innate immune signalling at early time points and increases Zika virus RNA levels in iPSC-derived macrophages.
Schilling M. et al, (2023), The Journal of general virology, 104
Inhibition of salt inducible kinases reduces rhythmic HIV-1 replication and reactivation from latency.
Borrmann H. et al, (2023), The Journal of general virology, 104
Molecular components of the circadian clock regulate HIV-1 replication
Borrmann H. et al, (2023), iScience, 26
HLA-E–restricted SARS-CoV-2–specific T cells from convalescent COVID-19 patients suppress virus replication despite HLA class Ia down-regulation
Yang H. et al, (2023), Science Immunology, 8
An ACAT inhibitor suppresses SARS-CoV-2 replication and boosts antiviral T cell activity.
Wing PAC. et al, (2023), PLoS pathogens, 19
Sleep and circadian rhythm disruption alters the lung transcriptome to predispose to viral infection.
Taylor L. et al, (2023), iScience, 26