Dozens of researchers across Imperial are answering fundamental questions about the biology of infection and resistance.
Many of these researchers are housed within the Centre for Bacteriology Resistance Biology, which uses multidisciplinary approaches and cutting-edge techniques to study bacterial infections at atomic, cellular and organism levels with the aim of finding ways of developing new antibiotics, combating antibiotic resistance and developing effective vaccines.
Researchers in this field include:
- Dr Luke Allsopp: Pseudomonas aeruginosa, bacterial secretion systems, antimicrobial resistance mechanisms and regulatory pathways
- Professor Darius Armstrong-James: Fungal population diversity and biology, phenotypic multiarray facility
- Dr Morgan Beeby: Bacterial motility
- Dr Matthew Child: Biology of eukaryotic pathogens such as Toxoplasma, Plasmodium, and Trypanosoma
- Dr Abigail Clements: Shigella and Klebsiella host-pathogen interactions
- Dr Tiago Costa: Molecular machines governing bacterial virulence
- Professor Marc Dionne: How do host and pathogen effector mechanisms interact?
- Professor Francis Drobniewski: Tuberculosis and AMR
- Dr Andy Edwards: Impact of the host on bacterial susceptibility to antibiotics
- Dr Ana Eulalio: Salmonella and staphylococcal host-pathogen interactions
- Professor Gad Frankel: Genomic analyses to understand healthcare-associated infections
- Dr Angelika Grundling: Bacterial signalling and cell wall biology
- Dr Alex McCarthy: Streptococcal host-pathogen interactions
- Professor Mariagrazia Pizza: New antigens and virulence factors
- Dr Avinash Shenoy: Virulence mechanisms of enteric bacterial pathogens
- Dr Matthew Siggins: Extracellular bacterial host-pathogen interactions with a focus on the lymphatic system
- Dr Valerie Soo: Bacterial penicillin-binding proteins
- Professor Shiranee Sriskandan: Resistance of pathogenic streptococci
- Dr Teresa Thurston: Host-pathogen interactions
- Professor Ramesh Wigneshweraraj: Bacterial RNA biology
- Professor Robert Wilkinson: Pathogenesis of tuberculous