Professor of Mathematical Biology, DAMTP, University of Cambridge
David N. Moore Fellow in Mathematics, Queens' College
Current roles:
- Deputy Head of Department, DAMTP
- Vice President, Queens' College
- Director, Millennium Maths Project
- Co-lead, JUNIPER partnership
Honours and awards:
- 2023 IMA Hedy Lamarr Prize
- 2022 Weldon Memorial Prize (jointly by SPI-M-O)
- 2021 Royal Institution Christmas Co-Lecturer (with Jonathan Van Tam)
- 2020 OBE
- 2020 Honorary Membership of the Mathematical Association
- 2020 Royal Society Rosalind Franklin Award
- 2018 Vice-Chancellor's Impact Award
- 2018 Queens' teaching prize
- 2017 Whitehead Prize
- 2016 Forder Lecturer
- 2015 Pilkington Prize
- 2014 LMS popular lectures
Career:
- 2017-present Professor of Mathematical Biology
- 2013-2017 Reader in Mathematical Biology
- 2010-2012 Visiting Fellow, Ecology and Evolutionary Biology, Princeton University
- 2006-2013 University Lecturer, DAMTP, University of Cambridge
- 2006-2012 Royal Society University Research Fellowship, DAMTP, University of Cambridge
- 2004-present Official Fellow, Queens' College
- 2004-2006 Royal Society University Research Fellowship, Department of Zoology, University of Cambridge
- 2002-2004 Research Fellowship, Queens' College
Research:
Julia Gog's research is in the mathematics of infectious diseases. Recent projects include:
- Models of influenza strain dynamics
- Spatial spread of influenza
- Within-host dynamics of influenza
- In vitro dynamics of Salmonella
- Bioinformatic methods to detect RNA signals in viruses
University news items on our work
For list of publications, please try Julia's profile on Google Scholar.
Publications
Competition between isogenic Campylobacter jejuni strains results in unpredictable population structures
– ZOONOSES PUBLIC HLTH
(2007)
54,
117
Epidemic dynamics and antigenic evolution in a single season of influenza A.
– Proceedings. Biological sciences
(2006)
273,
1307
(doi: 10.1098/rspb.2006.3466)
Modelling dynamics of the type I interferon response to in vitro viral infection
– Journal of the Royal Society, Interface
(2006)
3,
699
(doi: 10.1098/rsif.2006.0136)
Epidemic dynamics and antigenic evolution in a single season of influenza A
– Proc Biol Sci
(2006)
273,
1307
(doi: 10.1098/rspb.2006.3466)
Semiparametric estimation of the duration of immunity from infectious disease time series: influenza as a case-study
– Journal of the Royal Statistical Society Series C Applied Statistics
(2005)
54,
659
Unifying the epidemiological and evolutionary dynamics of pathogens
– Science
(2004)
303,
327
(doi: 10.1126/science.1090727)
Influenza drift and epidemic size: The race between generating and escaping immunity
– Theoretical Population Biology
(2004)
65,
179
(doi: 10.1016/j.tpb.2003.10.002)
Population dynamics of rapid fixation in cytotoxic T lymphocyte escape mutants of influenza A.
– Proc Natl Acad Sci U S A
(2003)
100,
11143
(doi: 10.1073/pnas.1830296100)
Dynamics and selection of many-strain pathogens.
– Proceedings of the National Academy of Sciences of the United States of America
(2002)
99,
17209
(doi: 10.1073/pnas.252512799)
The onset of oscillatory dynamics in models of multiple disease strains
– Journal of Mathematical Biology
(2002)
45,
471
(doi: 10.1007/s00285-002-0163-9)
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