Molecular Epidemiology Of Antibiotic Resistant Salmonella Enterica Strains Causing Human Disease
Funder
National Health and Medical Research Council
Funding Amount
$493,767.00
Summary
Salmonella infections are responsible for a substantial proportion of reported food poisoning cases caused by bacteria and many of these infections are due to antibiotic resistant strains. Infections caused by antibiotic resistant organisms are hard to treat and generally more severe, of longer duration, and result in longer hospital stays. These strains are mostly acquired from foods, e.g. meats, dairy products, poultry, eggs, and other contaminated food products but can also be derived from ot ....Salmonella infections are responsible for a substantial proportion of reported food poisoning cases caused by bacteria and many of these infections are due to antibiotic resistant strains. Infections caused by antibiotic resistant organisms are hard to treat and generally more severe, of longer duration, and result in longer hospital stays. These strains are mostly acquired from foods, e.g. meats, dairy products, poultry, eggs, and other contaminated food products but can also be derived from other sources. Salmonella strains harboured by food-producing animals are the source of most of the food contamination.Tracing the source of individual resistant strains is essential for eradication and as there are many Salmonella types, some of which are found associated only with specific animals or birds, accurate identification is needed. The proposed work will make this process more accurate by using molecular techniques to unequivocally establish suspected connections and reveal further ones that are difficult to discern using current data and methods. This should decrease the number of infections due to resistant strains.Read moreRead less
Functional Biology Of Large Serine Recombinases From Mobile Antibiotic Resistance Elements
Funder
National Health and Medical Research Council
Funding Amount
$436,328.00
Summary
In recent years there has been increasing concern about the emergence of multiply antibiotic resistant strains of many common bacterial pathogens. The development of multiple resistance phenotypes has already led to compromises in the ability to successfully treat infected patients and to increased treatment costs. The emergence of these resistant bacteria is the result of excessive or inappropriate use of antibiotics and the ability of antibiotic resistance genes to be transferred from resistan ....In recent years there has been increasing concern about the emergence of multiply antibiotic resistant strains of many common bacterial pathogens. The development of multiple resistance phenotypes has already led to compromises in the ability to successfully treat infected patients and to increased treatment costs. The emergence of these resistant bacteria is the result of excessive or inappropriate use of antibiotics and the ability of antibiotic resistance genes to be transferred from resistant to susceptible bacteria, either within or between bacterial species. The movement of resistance elements that are integrated into the bacterial genome often involves their excision from their existing site and their subsequent integration into another site in the same or a different genome. This project centres on the analysis of this process in resistant bacteria that cause major disease problems in our hospitals. The research project will focus on MRSA (Multiply Resistant Staphylococcus aureus) which has been a serious problem in our hospitals for many years, and Clostridium difficile, an emerging pathogen of increasing importance and which causes a very serious and chronic form of colitis in hospital patients. By studying the biochemical processes by which enzymes called recombinases excise and subsequently integrate antibiotic resistance elements from these bacteria and by determining the three dimensional structure of such enzymes we aim to determine the mechanism of action of members of this important enzyme family. The major outcomes of the project will be an increased understanding of one of the major processes by which antibiotic resistance determinants can spread both within and between bacterial pathogens of importance in the hospital environment. These studies will contribute towards the development of improved methods for controlling the spread of resistant pathogens and resistance genes in the hospital environment, with concomitant benefits to human health.Read moreRead less