Has epizootic become enzootic? Evidence for a fundamental change in the infection dynamics of highly pathogenic avian influenza in Europe, 2021 A Pohlmann, J King, A Fusaro, B Zecchin, AC Banyard, IH Brown, ... MBio 13 (4), e00609-22, 2022 | 90* | 2022 |
Encephalitis and death in wild mammals at a rehabilitation center after infection with highly pathogenic avian influenza A (H5N8) virus, United Kingdom T Floyd, AC Banyard, FZX Lean, AMP Byrne, E Fullick, E Whittard, ... Emerging infectious diseases 27 (11), 2856, 2021 | 69 | 2021 |
A case of avian influenza A (H5N1) in England, January 2022 I Oliver, J Roberts, CS Brown, AMP Byrne, D Mellon, RDE Hansen, ... Eurosurveillance 27 (5), 2200061, 2022 | 68 | 2022 |
Intranasal infection of ferrets with SARS-CoV-2 as a model for asymptomatic human infection HE Everett, FZX Lean, AMP Byrne, PM van Diemen, S Rhodes, J James, ... Viruses 13 (1), 113, 2021 | 59 | 2021 |
Comparison of Salmonella enterica serovars Typhi and Typhimurium reveals typhoidal serovar-specific responses to bile R Johnson, M Ravenhall, D Pickard, G Dougan, A Byrne, G Frankel Infection and immunity 86 (3), 10.1128/iai. 00490-17, 2018 | 57 | 2018 |
Detection of highly pathogenic avian influenza virus H5N1 clade 2.3. 4.4 b in great skuas: a species of conservation concern in Great Britain AC Banyard, FZX Lean, C Robinson, F Howie, G Tyler, C Nisbet, ... Viruses 14 (2), 212, 2022 | 54 | 2022 |
The type III secretion system effector SptP of Salmonella enterica serovar Typhi R Johnson, A Byrne, CN Berger, E Klemm, VF Crepin, G Dougan, ... Journal of bacteriology 199 (4), 10.1128/jb. 00647-16, 2017 | 53 | 2017 |
Differential susceptibility of SARS‐CoV‐2 in animals: Evidence of ACE2 host receptor distribution in companion animals, livestock and wildlife by immunohistochemical … FZX Lean, A Núñez, S Spiro, SL Priestnall, S Vreman, D Bailey, J James, ... Transboundary and Emerging Diseases 69 (4), 2275-2286, 2022 | 47 | 2022 |
Transmission dynamics between infected waterfowl and terrestrial poultry: Differences between the transmission and tropism of H5N8 highly pathogenic avian influenza virus … A Puranik, MJ Slomka, CJ Warren, SS Thomas, S Mahmood, AMP Byrne, ... Virology 541, 113-123, 2020 | 32 | 2020 |
Coinfection of chickens with H9N2 and H7N9 avian influenza viruses leads to emergence of reassortant H9N9 virus with increased fitness for poultry and a zoonotic potential S Bhat, J James, JR Sadeyen, S Mahmood, HJ Everest, P Chang, ... Journal of virology 96 (5), e01856-21, 2022 | 31 | 2022 |
Shift in HPAI infection dynamics causes significant losses in seabird populations across Great Britain M Falchieri, SM Reid, CS Ross, J James, AMP Byrne, M Zamfir, IH Brown, ... Veterinary Record 191 (7), 294-296, 2022 | 30 | 2022 |
Unexpected infection outcomes of China-origin H7N9 low pathogenicity avian influenza virus in turkeys MJ Slomka, AH Seekings, S Mahmood, S Thomas, A Puranik, S Watson, ... Scientific Reports 8 (1), 7322, 2018 | 27 | 2018 |
Highly pathogenic avian influenza virus H5N6 (clade 2.3. 4.4 b) has a preferable host tropism for waterfowl reflected in its inefficient transmission to terrestrial poultry AH Seekings, CJ Warren, SS Thomas, S Mahmood, J James, AMP Byrne, ... Virology 559, 74-85, 2021 | 26 | 2021 |
Ducks are susceptible to infection with a range of doses of H5N8 highly pathogenic avian influenza virus (2016, clade 2.3. 4.4 b) and are largely resistant to virus-specific … MJ Slomka, A Puranik, S Mahmood, SS Thomas, AH Seekings, ... Avian diseases 63 (1s), 172-180, 2019 | 26 | 2019 |
Development and application of real-time PCR assays for specific detection of contemporary avian influenza virus subtypes N5, N6, N7, N8, and N9 J James, MJ Slomka, SM Reid, SS Thomas, S Mahmood, AMP Byrne, ... Avian Diseases 63 (1s), 209-218, 2019 | 19 | 2019 |
Investigating the genetic diversity of H5 avian influenza viruses in the United Kingdom from 2020–2022 AMP Byrne, J James, BC Mollett, SM Meyer, T Lewis, M Czepiel, ... Microbiology spectrum 11 (4), e04776-22, 2023 | 18 | 2023 |
Detection and spread of high pathogenicity avian influenza virus H5N1 in the Antarctic Region A Bennison, AMP Byrne, SM Reid, JG Lynton-Jenkins, B Mollett, DD Silva, ... bioRxiv, 2023.11. 23.568045, 2023 | 17 | 2023 |
Systemic infection with highly pathogenic H5N8 of avian origin produces encephalitis and mortality in wild mammals at a UK rehabilitation centre T Floyd, AC Banyard, FZX Lean, AMP Byrne, E Fullick, E Whittard, ... BioRxiv, 2021.05. 26.445666, 2021 | 17 | 2021 |
Emergence of high pathogenicity avian influenza virus H5N1 clade 2.3. 4.4 b in wild birds and poultry in Botswana SL Letsholo, J James, SM Meyer, AMP Byrne, SM Reid, TBK Settypalli, ... Viruses 14 (12), 2601, 2022 | 16 | 2022 |
H7N7 avian influenza virus mutation from low to high pathogenicity on a layer chicken farm in the UK AMP Byrne, SM Reid, AH Seekings, A Núñez, AB Obeso Prieto, S Ridout, ... Viruses 13 (2), 259, 2021 | 13 | 2021 |