Functional characterisation of poly-histidine triad proteins. This project aims to understand the role and function of a novel family of surface proteins produced by Streptococci. These so-called polyhistidine triad proteins are known to contribute to capacity to cause disease in animals and humans, but we need to know how they work, as they may be excellent targets for novel drugs or vaccines.
Novel perspectives on the function of AB5 toxin B subunits in pathogenic bacterial. AB5 toxins are produced by bacteria that cause important diseases in humans and livestock. This project tests the hypothesis that the components of the toxins responsible for binding to host cells and tissues also directly contribute to cellular damage, thereby providing a better understanding of how AB5 toxin-producing bacteria cause disease.
Bacterial glycan biosynthesis. This project aims to understand bacterial glycan biosynthesis. Bacteria produce complex polysaccharides, such as O antigens, critical to their interactions with their environment. Bacterial polysaccharides are used as vaccines, lubricants in oil drilling and food gelling agents. This project aims to find out how membrane proteins work together by using molecular genetic and biochemical approaches to identify amino acids in proteins that affect their interaction and ....Bacterial glycan biosynthesis. This project aims to understand bacterial glycan biosynthesis. Bacteria produce complex polysaccharides, such as O antigens, critical to their interactions with their environment. Bacterial polysaccharides are used as vaccines, lubricants in oil drilling and food gelling agents. This project aims to find out how membrane proteins work together by using molecular genetic and biochemical approaches to identify amino acids in proteins that affect their interaction and O antigen polymerisation. This project will create fundamental knowledge on mechanisms in polysaccharide biosynthesis and improve processes that produce and use bacterial polysaccharides, building intellectual property that can be commercialised for the benefit of society.Read moreRead less
Novel link between bacterial sugar metabolism and cell-to-cell signalling. This project aims to understand the role and function of the bacterial communication system that enables bacteria to form complex communities and alter phenotypic traits, essential for survival in their environment. Bacteria survive in their environmental niches by developing complex multicellular communities. Cell to cell communication, termed quorum sensing (QS), is critical for this process and is linked to their capac ....Novel link between bacterial sugar metabolism and cell-to-cell signalling. This project aims to understand the role and function of the bacterial communication system that enables bacteria to form complex communities and alter phenotypic traits, essential for survival in their environment. Bacteria survive in their environmental niches by developing complex multicellular communities. Cell to cell communication, termed quorum sensing (QS), is critical for this process and is linked to their capacity to detect and secrete small signalling molecules, autoinducers. This project will provide a new paradigm in bacterial adaptation through comprehensive characterisation of the Autoinducer-2 QS system. This knowledge will provide future opportunities for intervention in microbial infestation with broad potential benefits.Read moreRead less
The molecular basis of zinc toxicity to Gram-positive bacteria. Gram-positive bacteria are a major cause of infectious diseases in both developed and developing countries. This project will contribute to our understanding of how zinc causes toxicity to these bacteria and facilitate our exploitation of this Achilles heel, by providing new insights into fundamental aspects of microbial physiology.
Recombinant probiotics for prevention of enteric infections in piglets. Shigatoxigenic and enterotoxigenic strains of Escherichia coli cause severe diarrhoeal disease and oedema disease in piglets. The resultant morbidity and mortality is a major cause of financial loss to the pig industry both in Australia and overseas. We have conceived a highly novel approach to prevention of these diseases involving molecular mimicry of host receptors for the E. coli toxins and adhesins on the surface of a ....Recombinant probiotics for prevention of enteric infections in piglets. Shigatoxigenic and enterotoxigenic strains of Escherichia coli cause severe diarrhoeal disease and oedema disease in piglets. The resultant morbidity and mortality is a major cause of financial loss to the pig industry both in Australia and overseas. We have conceived a highly novel approach to prevention of these diseases involving molecular mimicry of host receptors for the E. coli toxins and adhesins on the surface of a harmless bacterium. Oral administration of this agent to piglets has the potential to bind free toxins in the gut and prevent colonization of the intestines by the pathogens, thereby preventing disease.Read moreRead less
Role of rhizosphere microorganisms in growth of plants in soils with low P availability. The concentration of available phosphorus in many Australian soils is low compared to the requirement of plants and soil organisms. Plant genotypes differ in their capacity to grow at low P availability but the role of rhizosphere microorganisms in plant P uptake from such soils is largely unknown. We will determine the role of rhizosphere microorganisms in P solubilisation and mobilisation in different crop ....Role of rhizosphere microorganisms in growth of plants in soils with low P availability. The concentration of available phosphorus in many Australian soils is low compared to the requirement of plants and soil organisms. Plant genotypes differ in their capacity to grow at low P availability but the role of rhizosphere microorganisms in plant P uptake from such soils is largely unknown. We will determine the role of rhizosphere microorganisms in P solubilisation and mobilisation in different crop genotypes and native plant species in different Australian soils with low P availability. The results will give a comprehensive picture of the role of rhizosphere microbial ecology in phosphorus acquisition by crop and native plants.Read moreRead less
Quantitative Metagenomics. This project aims to revolutionize our view of the microbial world once more by transforming microbiome studies from relative counts of organisms to actual numbers of microbes. This project expects to impact all the microbiome studies that are being performed worldwide by unveiling the actual numbers of microbes. Expected outcomes of this project include new techniques to enumerate the number of bacteria in different environments and new approaches to measure gene expr ....Quantitative Metagenomics. This project aims to revolutionize our view of the microbial world once more by transforming microbiome studies from relative counts of organisms to actual numbers of microbes. This project expects to impact all the microbiome studies that are being performed worldwide by unveiling the actual numbers of microbes. Expected outcomes of this project include new techniques to enumerate the number of bacteria in different environments and new approaches to measure gene expression within individual bacteria in any environment that will be demonstrated with complex microbial communities. This should provide significant benefits because microbes affect every aspect of our lives and those effects are driven by how many microbes are present.Read moreRead less
Targeted analysis of the arbuscular mycorrhizal symbiosis phenome in a model host, tomato. We will capitalise on our previous discovery of novel phenotypic variation in arbuscular mycorrhizas in mutant and wild-type tomato, to explore development and function of the symbiosis at the molecular-genetic level. We will clone and sequence the gene responsible for mycorrhiza-defective phenotypes to provide inferences on function and relations with other genes. We will determine if plant defence blocks ....Targeted analysis of the arbuscular mycorrhizal symbiosis phenome in a model host, tomato. We will capitalise on our previous discovery of novel phenotypic variation in arbuscular mycorrhizas in mutant and wild-type tomato, to explore development and function of the symbiosis at the molecular-genetic level. We will clone and sequence the gene responsible for mycorrhiza-defective phenotypes to provide inferences on function and relations with other genes. We will determine if plant defence blocks fungal colonisation in the mutant and/or varies with different wild-type phenotypes and explore molecular mechanisms of nutrient transfer from fungus to plant in relation to phenotypic diversity. The project will provide new insights into genome/phenome interactions controlling this widespread beneficial symbiosis.Read moreRead less
Bacterial polycyclic aromatic hydrocarbon transport and degradation. This project aims to investigate the molecular processes underpinning the degradation of polycyclic aromatic hydrocarbons (PAHs) by bacteria. PAHs are persistent environmental contaminants linked to several human diseases, including cancer. Bacteria capable of degrading PAHs could be used to naturally and effectively reduce environmental PAH loads to below safe levels. The project will apply techniques in functional genomics an ....Bacterial polycyclic aromatic hydrocarbon transport and degradation. This project aims to investigate the molecular processes underpinning the degradation of polycyclic aromatic hydrocarbons (PAHs) by bacteria. PAHs are persistent environmental contaminants linked to several human diseases, including cancer. Bacteria capable of degrading PAHs could be used to naturally and effectively reduce environmental PAH loads to below safe levels. The project will apply techniques in functional genomics and biochemistry to help define the ways that PAHs are taken up from the environment by bacteria, their fate within bacterial cells, and the ways that bacteria overcome the inherent toxicity of PAHs. The knowledge generated is expected to enhance our capacity to rationally deploy bacteria for PAH degradation.Read moreRead less