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
Industrial Transformation Training Centres - Grant ID: IC160100025
Funder
Australian Research Council
Funding Amount
$2,259,000.00
Summary
ARC Training Centre in Food Safety in the Fresh Produce Industry. ARC Training Centre in Food Safety in the Fresh Produce Industry. This centre aims to create an innovation platform of food safety researchers and industry personnel who can significantly advance the safety of fruit and vegetables in Australia. The intended outcomes are safer food, leading to enhanced health and wellbeing; industry growth in the food/agribusiness sector; enhanced trust and international reputation; and increased a ....ARC Training Centre in Food Safety in the Fresh Produce Industry. ARC Training Centre in Food Safety in the Fresh Produce Industry. This centre aims to create an innovation platform of food safety researchers and industry personnel who can significantly advance the safety of fruit and vegetables in Australia. The intended outcomes are safer food, leading to enhanced health and wellbeing; industry growth in the food/agribusiness sector; enhanced trust and international reputation; and increased access to growing export markets. Intended benefits to industry are ready-to-use technologies for strengthened food safety, and a new generation of highly-skilled food safety scientists with experience in conducting industry-focused research.Read moreRead less
Improved biosecurity through the engineering of microbial ecosystems. This project aims to provide data and understanding that will help develop predictive models for changes in the distribution of drug-resistant bacteria, and surveillance and response programs for key biosecurity threats. Microorganisms, including commensals and pathogens, can live in complex communities in a range of environments including animal hosts. It is now known that these communities (known as microbiomes) can exert a ....Improved biosecurity through the engineering of microbial ecosystems. This project aims to provide data and understanding that will help develop predictive models for changes in the distribution of drug-resistant bacteria, and surveillance and response programs for key biosecurity threats. Microorganisms, including commensals and pathogens, can live in complex communities in a range of environments including animal hosts. It is now known that these communities (known as microbiomes) can exert a profound effect on animal health. This project seeks to understand where antimicrobial resistance genes reside in pig gut microbiotia and how they move between members of this complex microbial community, and to provide information on how probiotics may be used to reduce dependence on antibiotics.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170100068
Funder
Australian Research Council
Funding Amount
$390,000.00
Summary
Bioinspired liposome-based smart sensors. This project aims to develop a liposome-based biosensor technology that mimics cell sensory systems. Selective detection of compounds is increasingly important for food, health and environmental monitoring. Biosensor development faces long-standing challenges such as response time, sensitivity, specificity, and multiplexing. On the other hand, cells can sense and discriminate multiple biomolecules in seconds with high sensitivity and specificity. This pr ....Bioinspired liposome-based smart sensors. This project aims to develop a liposome-based biosensor technology that mimics cell sensory systems. Selective detection of compounds is increasingly important for food, health and environmental monitoring. Biosensor development faces long-standing challenges such as response time, sensitivity, specificity, and multiplexing. On the other hand, cells can sense and discriminate multiple biomolecules in seconds with high sensitivity and specificity. This project aims to harness cells’ exquisite biological properties to improve current detection techniques. It will integrate liposome-based sensors with microfluidics to perform analytical tasks ranging from food safety to diagnostics.Read moreRead less
Molecular and immunological approaches to managing Australia's seafood allergy epidemic. Seafood is an increasingly important cause of food allergy. Novel insight into the functions of why and how proteins from seafood develop to potent allergens will lead to the development of better diagnostics and therapeutics. This will assist patients to better manage their serious food allergy.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100093
Funder
Australian Research Council
Funding Amount
$510,000.00
Summary
High-throughput technology targeting antimicrobial resistance in animals. This project aims to establish reference laboratories as biobanks for resistant isolate collections from veterinary diagnostic laboratories / surveillance programmes and a national research network to mitigate antimicrobial resistance in animals. Antimicrobial resistance in zoonotic/foodborne pathogens and livestock commensals is a global issue. This project will use mass-spectroscopy biotypers, information management soft ....High-throughput technology targeting antimicrobial resistance in animals. This project aims to establish reference laboratories as biobanks for resistant isolate collections from veterinary diagnostic laboratories / surveillance programmes and a national research network to mitigate antimicrobial resistance in animals. Antimicrobial resistance in zoonotic/foodborne pathogens and livestock commensals is a global issue. This project will use mass-spectroscopy biotypers, information management software, robotic liquid handling and a research dairy to develop high-throughput screening technologies to rapidly determine major animal species’ resistance status, and research anti-infectives and vaccines for livestock diseases. This will improve the health and production of Australian livestock, leading to greater market access for high quality products.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100191
Funder
Australian Research Council
Funding Amount
$175,000.00
Summary
PRAXIS: beating the infrared night sky with multicore fibre Bragg gratings. PRAXIS: beating the infrared night sky with multicore fibre Bragg gratings:
The PRAXIS project aims to deliver a new era in ground-based infrared observations. The infrared night sky is a hundred times brighter than the optical night sky, which has severely limited the sensitivity at these wavelengths. But 99 per cent of the infrared sky arises from hundreds of extremely bright, narrow emission lines due to hydroxyl in ....PRAXIS: beating the infrared night sky with multicore fibre Bragg gratings. PRAXIS: beating the infrared night sky with multicore fibre Bragg gratings:
The PRAXIS project aims to deliver a new era in ground-based infrared observations. The infrared night sky is a hundred times brighter than the optical night sky, which has severely limited the sensitivity at these wavelengths. But 99 per cent of the infrared sky arises from hundreds of extremely bright, narrow emission lines due to hydroxyl in the Earth's atmosphere. PRAXIS, at the Anglo-Australian Telescope, is designed to cancel these lines using new multicore fibre Bragg gratings developed in Australia. The new fibres would render the night sky very dark and allow Australian astronomers to obtain unique observations. The sky-suppressing fibres would also allow us to develop new instrument concepts for Australia's extremely large telescope.Read moreRead less
Identifying and controlling the source of Campylobacter and Salmonella in Australia. This project will identify the source of foodborne illnesses due to Salmonella and Campylobacter in order to inform food regulatory policy. The ultimate aim is to reduce the amount of foodborne disease in Australia.