-
-class research programme at the interface of human genomics, computational biology and evolutionary population genetics to understand the molecular and evolutionary processes that generate diversity
-
We address a broad range of fundamental and applied evolutionary problems via the identification and analysis of genetic and phenotypic variability underlying biodiversity at all taxonomic levels
-
We take a highly interdisciplinary approach to the study of infectious disease that combines mathematical and statistical modelling with ecology, evolutionary biology, parasitology, immunology and
-
and Engineering A variety of approaches are used, including collection of experimental and observational data, epidemiological, mathematical, computational and statistical modelling, bioinformatics
-
conditions, epidemiology, mathematical, computational and statistical modelling, bioinformatics, physiology, molecular biology, parasitology, immunology and polyomics (genomics, transcriptomics, proteomics
-
terrestrial and aquatic ecology, veterinary epidemiology and evolutionary biology. PhD: 3-4 years full-time; 5 years part-time; MSc (Research): 1 year full-time; 2 years part-time; Thesis of 18,000-30,000 words
-
to spillover into humans using a mixture of virological and evolutionary approaches. Understanding what makes emerging viruses succeed or fail to spillover, and possibly thrive, in human populations are crucial