Activity and toxicity of AI-Driven Antimicrobial Peptides Against WHO Priority Pathogens
Activity and toxicity of AI-Driven Antimicrobial Peptides Against WHO Priority Pathogens
Activity and toxicity of AI-Driven Antimicrobial Peptides Against WHO Priority Pathogens SUPERVISORY TEAM Supervisor Dr Kai Hilpert at City St George’s Email: [email protected] Co-Supervisor Dr Daniel Osborn at City St … Read More Read More
Category:
Antimicrobial Resistance (AMR) gene transfer in Methicillin Resistant Staphylococcus aureus (MRSA): mechanisms and dynamics using clinical isolates
Antimicrobial Resistance (AMR) gene transfer in Methicillin Resistant Staphylococcus aureus (MRSA): mechanisms and dynamics using clinical isolates
Antimicrobial Resistance (AMR) gene transfer in Methicillin Resistant Staphylococcus aureus (MRSA): mechanisms and dynamics using clinical isolates SUPERVISORY TEAM Supervisor Professor Jodi Lindsay at City St George’s Email: [email protected] Co-Supervisor … Read More Read More
Categories:
Antimicrobial resistance: what happens with age and by sex?
Antimicrobial resistance: what happens with age and by sex?
Antimicrobial resistance: what happens with age and by sex? SUPERVISORY TEAM Supervisor Dr Gwen Knight at LSHTM Email: [email protected] Co-Supervisor Dr Catrin Moore at City St George’s Email: [email protected] PROJECT … Read More Read More
Category:
Synthesis of novel antimicrobials to kill multidrug-resistant bacteria
Synthesis of novel antimicrobials to kill multidrug-resistant bacteria
The continued emergence of antimicrobial resistance is a major global concern. The rapid development of resistance mechanisms by bacteria, as well as the lack of new structurally and mechanistically distinct … Read More Read More
Category:
Exploiting the protein O-glycosylation pathway in opportunistic bacteria as a novel antimicrobial target
Exploiting the protein O-glycosylation pathway in opportunistic bacteria as a novel antimicrobial target
The problem. Antibiotic resistance has become a global health problem of epidemic proportions, especially for infections caused by Gram-negative bacteria. One critical need is to identify novel microbial targets that … Read More Read More
Category:
Disarming antimicrobial responses: how Klebsiella pneumoniae controls inflammasome activation
Disarming antimicrobial responses: how Klebsiella pneumoniae controls inflammasome activation
Microbial infection triggers assembly of inflammasome complexes that promote caspase-1–dependent antimicrobial responses. This project will dissect how the antibiotic resistant pathogen Klebsiella pneumoniae evades inflammasome activation to overcome host restriction … Read More Read More
Category: