This program directly addresses the major threat of antimicrobial resistance , bringing together the power of modern genomics and the promise of novel positive therapies to eradicate AMR organisms and AMR genes from individuals at risk from severe infection.
Curing Antibiotic Resistance: Probiotic Plasmids And Microbial Husbandry In The Enterobacteriaceae
Funder
National Health and Medical Research Council
Funding Amount
$560,832.00
Summary
The most troublesome emerging antibiotic resistance is coming in the form of addictive and promiscuous 'pest' plasmids, carrying dangerous genes that defeat antibiotics used for the most severe infections. We currently manage this problem by isolating infected patients and trying to design new antibiotics. Our approach eradicates these plasmids and renders the host bacterium antibiotic susceptible again, thereby restoring the natural ecology in animals and potentially in humans.
Multiple Antibiotic Resistance In An Acinetobacter Baumannii Global Clone
Funder
National Health and Medical Research Council
Funding Amount
$606,580.00
Summary
Antibiotic resistant bacteria that cause infections in hospitals can originate anywhere, then spread world wide. They start off resistant to a few antibiotics, then become resistant to new antibiotics that are introduced to treat them. This project will investigate how resistance to antibiotics was acquired by Acinetobacter baumannii which is now resistant to most antibiotics, and why the old resistance genes are not being lost. This will help track these bacteria moving into and around Australi ....Antibiotic resistant bacteria that cause infections in hospitals can originate anywhere, then spread world wide. They start off resistant to a few antibiotics, then become resistant to new antibiotics that are introduced to treat them. This project will investigate how resistance to antibiotics was acquired by Acinetobacter baumannii which is now resistant to most antibiotics, and why the old resistance genes are not being lost. This will help track these bacteria moving into and around Australia.Read moreRead less
Interactions Between Integrative Genomic Islands And Plasmids; Role In The Spread And Loss Of Antibiotic Resistance And Pathogenicity Determinants
Funder
National Health and Medical Research Council
Funding Amount
$776,465.00
Summary
Mobile elements that integrate into bacterial chromosomes at a specific site contribute pathogenicity and antibiotic resistance determinants to their bacterial host but only a few are able to move themselves into new hosts. Some plasmids and some elements can help certain others. In this project, genetic approaches will be used to investigate how plasmids and integrative elements help one another move into a new bacterium or compete with one another to stay in the same cell.
Molecular Basis For Conjugative Transfer Of Antibiotic Resistance Genes In Gram Positive Pathogens
Funder
National Health and Medical Research Council
Funding Amount
$872,660.00
Summary
There has been growing concern about the increasing level of antibiotic resistance in bacterial pathogens. We will use a model genetic element to determine the mechanism by which an important class of pathogenic bacteria can acquire new resistance genes by a process known as horizontal gene transfer. The project will significantly enhance our understanding of how major hospital and community acquired pathogenic bacteria can rapidly evolve to become resistant to different antimicrobial agents.