Research
Research
In the Godlee group we are studying how bacterial virulence proteins interact with eukaryotic membranes during infection and how this enables disease. In particular, we focus on Salmonella and E. coli, which together cause hundreds of millions of infections annually, with outcomes ranging from gastroenteritis to death.
Through this research we are revealing new understanding into this essential element of host-pathogen interactions, as well as providing fundamental insights into cellular membrane biology.
During infection, bacterial virulence proteins have access to the organised membrane systems of the eukaryotic cell.
The different ways in which virulence proteins interact with eukaryotic membranes are essential for pathogenesis. In the eukaryotic cell, a complex and diverse range of mechanisms are required to sort proteins to the appropriate membrane compartment for their functions.
These include membrane recruitment, integration, and trafficking pathways. Our work explores how bacterial pathogenic proteins overcome the challenges of membrane sorting, either through hijacking eukaryotic pathways or by developing their own distinct mechanisms.
Research Aims
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How are the interactions between bacterial virulence proteins and eukaryotic membranes mediated?
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How do bacterial proteins hijack membrane trafficking pathways to regulate their localisation?
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How do membrane interactions provide bacteria with pathogenic advantages?