Unravelling small RNA regulatory networks to target and control bacteria. Small RNA (sRNA) molecules are critical regulators of bacterial gene expression. These molecules control important phenotypes in the Gram-negative veterinary pathogen Pasteurella multocida. This project aims to identify the range of P. multocida sRNAs and to show how expression of these molecules changes under various growth conditions. Specifically, this project endeavours: to identify the mRNA targets of the sRNAs; to id ....Unravelling small RNA regulatory networks to target and control bacteria. Small RNA (sRNA) molecules are critical regulators of bacterial gene expression. These molecules control important phenotypes in the Gram-negative veterinary pathogen Pasteurella multocida. This project aims to identify the range of P. multocida sRNAs and to show how expression of these molecules changes under various growth conditions. Specifically, this project endeavours: to identify the mRNA targets of the sRNAs; to identify the mechanisms of sRNA-mRNA interaction; to build systems-biology models that describe the sRNA regulatory circuits; to design inhibitors capable of disrupting critical sRNA-mRNA interactions; and to use the new inhibitors to modulate specific phenotypes. The ability to precisely manipulate sRNA regulatory circuits could allow fine control of bacterial phenotypes and could be widely applicable.Read moreRead less
Vaccine against leptospirosis. This project will utilise the information from the determination of the complete genome sequence of Leptospira borgpetersenii serovar Hardjobovis at Monash University. Bioinformatics analysis will be used to allow a global approach to identify all putative vaccine antigens which will be cloned, expressed and purified and their protective capacity investigated.
A link between antibiotic resistance and bacterial sporulation. This project aims to define the sporulation process in the bacterium Clostridium difficile, and advance our understanding of a link between antibiotic use and sporulation. To survive in hostile environments, some bacteria produce a dormant and resilient cell form called a spore which can survive for many years in unfavourable environments, but our understanding of how this process occurs is limited. This project will provide a deepe ....A link between antibiotic resistance and bacterial sporulation. This project aims to define the sporulation process in the bacterium Clostridium difficile, and advance our understanding of a link between antibiotic use and sporulation. To survive in hostile environments, some bacteria produce a dormant and resilient cell form called a spore which can survive for many years in unfavourable environments, but our understanding of how this process occurs is limited. This project will provide a deeper understanding of the sporulation process and the long-lasting detrimental impact of antibiotic use. The project expects to provide economic benefits, reduce environmental microbial contamination and contribute to better health of animals and humans.Read moreRead less
Mitochondria: a target for intracellular bacterial pathogens. This project aims to understand how intracellular bacterial pathogens target mitochondria. Coxiella burnetii is a unique and significant pathogen of humans and commercially important animals that uses effector proteins to control host cell functions. A cohort of these effectors target mitochondria. Since mitochondria are key players in cell health, the intended outcome of this research is to understand the role of the mitochondrially- ....Mitochondria: a target for intracellular bacterial pathogens. This project aims to understand how intracellular bacterial pathogens target mitochondria. Coxiella burnetii is a unique and significant pathogen of humans and commercially important animals that uses effector proteins to control host cell functions. A cohort of these effectors target mitochondria. Since mitochondria are key players in cell health, the intended outcome of this research is to understand the role of the mitochondrially-targeted effector proteins. The project will determine the importance of mitochondrial protein trafficking for Coxiella pathogenesis and how mitochondrial function is altered during infection. This will provide understanding of how bacterial pathogens manipulate organelles like mitochondria for their survival.Read moreRead less