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Discovery and characterisation of novel lanthipeptide biopreservatives. The aim of this project is to advance fundamental knowledge of microbial metabolism and provide natural anti-microbial molecules to the Australian food industry. A quarter of the world’s food supply is lost because of microbiological spoilage. Some chemical preservatives have been developed to combat food spoilage organisms, however their chronic impact on human health is the subject of debate. Consumer demand for safe and n ....Discovery and characterisation of novel lanthipeptide biopreservatives. The aim of this project is to advance fundamental knowledge of microbial metabolism and provide natural anti-microbial molecules to the Australian food industry. A quarter of the world’s food supply is lost because of microbiological spoilage. Some chemical preservatives have been developed to combat food spoilage organisms, however their chronic impact on human health is the subject of debate. Consumer demand for safe and natural alternatives is growing. Paradoxically, microbially-produced bioactive peptides may be the key to combating food spoilage organisms and food-borne pathogens. To this end, the project intends to develop an innovative strategy for the discovery, biosynthesis and characterisation of novel anti-microbial lanthipeptides.Read moreRead less
Three-dimensional structures, substrate specificities and catalytic mechanisms of polysaccharide synthases. Plant wall polysaccharides are extensively used for food and fibre, and are important dietary components in human nutrition. A precise knowledge of mechanisms used by plants to synthesize these polysaccharides is unavailable, but would reveal potential routes to manipulate their biosynthesis in important crop species. For example, the levels or structures of polysaccharides might be modif ....Three-dimensional structures, substrate specificities and catalytic mechanisms of polysaccharide synthases. Plant wall polysaccharides are extensively used for food and fibre, and are important dietary components in human nutrition. A precise knowledge of mechanisms used by plants to synthesize these polysaccharides is unavailable, but would reveal potential routes to manipulate their biosynthesis in important crop species. For example, the levels or structures of polysaccharides might be modified to improve their efficacy as anti-cancer agents in human diets, to enhance digestibility of animal stock feeds, or to synthesise pharmologically valuable compounds. Thus, economic, social and environmental benefits will flow to both producers and consumers. Read moreRead less
Protein biosensors for detecting smoke exposure of grapes. Bush fires and controlled burns that take place in the vicinity of vineyards can lead to grape contamination with tasteless phenolic glucosides. Their hydrolysis during wine making leads to “smoke taint” – an unpleasant medicinal taste that can render wine undrinkable. We will apply a combination of organic synthesis, protein engineering and directed evolution to develop protein-based biosensors of phenolic glucosides. These biosensors w ....Protein biosensors for detecting smoke exposure of grapes. Bush fires and controlled burns that take place in the vicinity of vineyards can lead to grape contamination with tasteless phenolic glucosides. Their hydrolysis during wine making leads to “smoke taint” – an unpleasant medicinal taste that can render wine undrinkable. We will apply a combination of organic synthesis, protein engineering and directed evolution to develop protein-based biosensors of phenolic glucosides. These biosensors will be used to devise a simple portable colorimetric test that can be performed in the vineyard or the winery. The ability to rapidly determine the level of grape contamination with phenolic glucosides would give Australian wine growers and wine makers a powerful tool to mitigate the effects of bushfires.Read moreRead less
An investigation into flagellotropic bacteriophage stability and biology. This project aims to understand the capabilities of a type of virus called bacteriophage (phage). Significant economic loss in the food industry has led the USA and Europe to deploy phage to decontaminate food-processing machinery. These phage kill food-spoiling bacteria. This project expects to fill gaps in our knowledge, particularly to assit in choosing phage that are of increased stability and thus more long-lasting fo ....An investigation into flagellotropic bacteriophage stability and biology. This project aims to understand the capabilities of a type of virus called bacteriophage (phage). Significant economic loss in the food industry has led the USA and Europe to deploy phage to decontaminate food-processing machinery. These phage kill food-spoiling bacteria. This project expects to fill gaps in our knowledge, particularly to assit in choosing phage that are of increased stability and thus more long-lasting for deployment in industrial settings, and to inform additives to the phage preparations to increase their potency in killing bacteria. The project should provide significant benefits in training students and staff in methodology for investigating phage for future applications in Australian industry and biotechnology.
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Molecular characterisation of the Prf bacterial recognition complex of tomato. This project will investigate the composition and function of a large protein complex in tomatoes that controls their ability to resist attack by bacteria. The results will provide understanding to how all plants resist all diseases, and may help to improve environmentally-benign disease resistance in crop species.
From genotype to phenotype - systems biology bridging the gap. This project is basic research at the forefront of international science and deals with a fundamental question of modern biology: 'How do genes determine the makeup of an organism?' The main outcome will be a deeper understanding of the internal working mechanisms of a higher organism. The project combines some of the most advanced systems technologies - genomics, proteomics, metabonomics, fluxomics and computational biology in a nov ....From genotype to phenotype - systems biology bridging the gap. This project is basic research at the forefront of international science and deals with a fundamental question of modern biology: 'How do genes determine the makeup of an organism?' The main outcome will be a deeper understanding of the internal working mechanisms of a higher organism. The project combines some of the most advanced systems technologies - genomics, proteomics, metabonomics, fluxomics and computational biology in a novel and unique way. This combination is in itself a major advancement of scientific methods that will accelerate discovery in the field of systems biology. In this respect, the project is a premier example of the priority goal Breakthrough Science and of the national research priority Frontier Technologies.Read moreRead less
Structure and function of novel transporters in alphaproteobacteria. First, detailed knowledge of a set of membrane transporters and the way their activity might be inhibited, will have implications for the treatment of human disease. Second, excellent outcomes are provided for the training of postgraduate students and research staff. This project entails cutting edge technology, and the transfer of technical capabilities not currently available in Australia. Third, our studies on non-pathogenic ....Structure and function of novel transporters in alphaproteobacteria. First, detailed knowledge of a set of membrane transporters and the way their activity might be inhibited, will have implications for the treatment of human disease. Second, excellent outcomes are provided for the training of postgraduate students and research staff. This project entails cutting edge technology, and the transfer of technical capabilities not currently available in Australia. Third, our studies on non-pathogenic species of alpha-proteobacteria provides for a timely advance in our knowledge of their biology: other species of alpha-proteobacteria were amongst the first organisms trialled for biological weapons by the USA and the former Soviet Union, and those pathogenic species are rated as Class 3 organisms.Read moreRead less
Molecular machines that drive microbial pathogens. We will provide a comprehensive understanding of molecular machines situated at the surface of bacteria. This ground-breaking research will provide excellent outcomes in the training of research students and staff: this project entails frontier technology, and the transfer of technological capabilities not currently available in Australia. Our study on a non-pathogenic species of bacteria is timely too for National security: related species of b ....Molecular machines that drive microbial pathogens. We will provide a comprehensive understanding of molecular machines situated at the surface of bacteria. This ground-breaking research will provide excellent outcomes in the training of research students and staff: this project entails frontier technology, and the transfer of technological capabilities not currently available in Australia. Our study on a non-pathogenic species of bacteria is timely too for National security: related species of bacteria were amongst the first organisms trialed as biological weapons, and the pathogenic species remain rated as Class 3 organisms by the Centers for Disease Control.Read moreRead less
Mitochondrial biogenesis: the evolution of molecular machines. Benefits from this research program fall into two discrete types. Firstly, excellent outcomes are provided for the training of postgraduate students and research staff. This project entails cutting edge technology, and the development of skills not common in Australia. Secondly, detailed knowledge will be gained of molecular machines and the way in which they may differ in human cells and in the cells of human cell parasites, with im ....Mitochondrial biogenesis: the evolution of molecular machines. Benefits from this research program fall into two discrete types. Firstly, excellent outcomes are provided for the training of postgraduate students and research staff. This project entails cutting edge technology, and the development of skills not common in Australia. Secondly, detailed knowledge will be gained of molecular machines and the way in which they may differ in human cells and in the cells of human cell parasites, with implications for the treatment of human disease.Read moreRead less
Reducible complexity in the molecular machines of humans and bacteria. Firstly, we will provide detailed knowledge of the surface membrane proteins of an important class of bacteria, the alpha-proteobacteria. Secondly, excellent outcomes are provided for the training of postgraduate students and research staff: this project entails frontier technology, and the transfer of technological capabilities not currently available in Australia. Thirdly, our studies on non-pathogenic species of alpha-prot ....Reducible complexity in the molecular machines of humans and bacteria. Firstly, we will provide detailed knowledge of the surface membrane proteins of an important class of bacteria, the alpha-proteobacteria. Secondly, excellent outcomes are provided for the training of postgraduate students and research staff: this project entails frontier technology, and the transfer of technological capabilities not currently available in Australia. Thirdly, our studies on non-pathogenic species of alpha-proteobacteria is timely for National security: species of alpha-proteobacteria were amongst the first organisms trialled as biological weapons by the USA and the former Soviet Union, and these pathogenic species remain rated as Class 3 organisms by the Centers for Disease Control. Read moreRead less