Detection and viability of waterborne pathogens using a gut-on-chip. This project aims to resolve a significant problem for water utilities. Microbial pathogens Cryptosporidium, norovirus and adenovirus are the main public health concern for drinking water in developed nations. Water monitoring is limited by the lack of fast, reliable detection methods and viability assays for these pathogens. This project will use a novel gut-on-a-chip to develop for the first time rapid infectivity assays for ....Detection and viability of waterborne pathogens using a gut-on-chip. This project aims to resolve a significant problem for water utilities. Microbial pathogens Cryptosporidium, norovirus and adenovirus are the main public health concern for drinking water in developed nations. Water monitoring is limited by the lack of fast, reliable detection methods and viability assays for these pathogens. This project will use a novel gut-on-a-chip to develop for the first time rapid infectivity assays for Cryptosporidium, norovirus and adenovirus. Significant benefits include improved diagnostics and water disinfection assays, improved water treatment and reduced costs with global impact.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH190100022
Funder
Australian Research Council
Funding Amount
$4,787,259.00
Summary
ARC Research Hub for Sustainable Crop Protection. The Hub aims to develop and commercialise an innovative biological alternative to chemical fungicides targeting economically significant diseases of broadacre and horticultural crops. It addresses industry challenges of fungicide resistance, chemical residues in food, off-target effects and environmental harm. It builds on ground-breaking ‘BioClay’ platform to deliver pathogen targeting RNA using clay particles as non-genetically modified crop pr ....ARC Research Hub for Sustainable Crop Protection. The Hub aims to develop and commercialise an innovative biological alternative to chemical fungicides targeting economically significant diseases of broadacre and horticultural crops. It addresses industry challenges of fungicide resistance, chemical residues in food, off-target effects and environmental harm. It builds on ground-breaking ‘BioClay’ platform to deliver pathogen targeting RNA using clay particles as non-genetically modified crop protection. An expert multidisciplinary team uniting science, commercial and social licence pathways ensures industry and consumer uptake advancing $60B Australian Agriculture. The Hub translates to increased productivity, market access and enhanced environmental credentials of Australian food.
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Buffering the ecosystem impact of invasive cane toads. This project aims to address the devastating ecological problems caused by invasive species, by developing a novel approach that does not rely upon eradicating the invader through training vulnerable native predators not to eat toxic cane toads. Expected outcomes of this project include building a broad coalition of conservation-focused groups, from private land-owners and local businesses through to Indigenous groups and government and non- ....Buffering the ecosystem impact of invasive cane toads. This project aims to address the devastating ecological problems caused by invasive species, by developing a novel approach that does not rely upon eradicating the invader through training vulnerable native predators not to eat toxic cane toads. Expected outcomes of this project include building a broad coalition of conservation-focused groups, from private land-owners and local businesses through to Indigenous groups and government and non-government agencies across the entire Kimberley region. It will also result in the evaluation of methods for deployment of taste-aversion at a landscape scale. This should provide significant benefits by conserving vulnerable fauna and building a powerful network within a region of high biodiversity in tropical Australia.Read moreRead less
New anti-parasitic drugs for a global veterinary market. This project aims to establish an advanced, industry-linked pipeline for the development of new drugs against resilient infectious agents (parasites) that cause serious diseases in billions of animals worldwide. The research expects to discover new ways of killing parasites that survive in their host animal, despite being under severe attack by the host immune system. The resultant shift in fundamental understanding will lead to innovative ....New anti-parasitic drugs for a global veterinary market. This project aims to establish an advanced, industry-linked pipeline for the development of new drugs against resilient infectious agents (parasites) that cause serious diseases in billions of animals worldwide. The research expects to discover new ways of killing parasites that survive in their host animal, despite being under severe attack by the host immune system. The resultant shift in fundamental understanding will lead to innovative technologies or products to ameliorate the burden of parasites in livestock animals. Expected socioeconomic benefits include commercial products for end-users and lifting Australia’s scientific knowledge base, reputation in biotechnology, livestock production and investment in translational research.Read moreRead less
Wolbachia endosymbionts: novel strain dynamics in Australian Drosophila. This project aims to understand Wolbachia infections across Australian Drosophila flies. Wolbachia bacteria that live inside the cells of insects and other invertebrates are widely seen as a promising tool for pest and disease control. This project will assess the population distribution, host phenotypic effects, population dynamics and evolutionary context of multiple Wolbachia infections across Australian Drosophila flies ....Wolbachia endosymbionts: novel strain dynamics in Australian Drosophila. This project aims to understand Wolbachia infections across Australian Drosophila flies. Wolbachia bacteria that live inside the cells of insects and other invertebrates are widely seen as a promising tool for pest and disease control. This project will assess the population distribution, host phenotypic effects, population dynamics and evolutionary context of multiple Wolbachia infections across Australian Drosophila flies. The outcome will include new and novel strains for applied projects, new information on the fate of Wolbachia infections, and new insights into the factors that dictate the fate of Wolbachia infections across populations.Read moreRead less
Addressing hepatitis C-related discrimination in a post-cure world. This project aims to address the legal and policy dimensions of hepatitis C discrimination. Hepatitis C is a major public health challenge linked to profound discrimination, including in law and policy. Treatments introduced in 2016 improved cure rates; optimism about disease elimination is high, but questions remain about discrimination faced by those who are cured. This interdisciplinary project’s goal is to generate new knowl ....Addressing hepatitis C-related discrimination in a post-cure world. This project aims to address the legal and policy dimensions of hepatitis C discrimination. Hepatitis C is a major public health challenge linked to profound discrimination, including in law and policy. Treatments introduced in 2016 improved cure rates; optimism about disease elimination is high, but questions remain about discrimination faced by those who are cured. This interdisciplinary project’s goal is to generate new knowledge about hepatitis C discrimination in a post-cure context, and identify opportunities for legal and policy reform. Expected outcomes of the project include better legal, social and policy outcomes for Australians cured of hepatitis C, significantly benefiting these individuals directly and society more broadly.Read moreRead less
Extracellular vesicles in the pathogenesis of fungal plant disease. Extracellular vesicles (EVs) are small membrane bound sacs that carry information between cells in essentially all organisms. EVs are also produced by bacterial and fungal pathogens and have a crucial role in infection in mammals . We propose that fungal EVs are key players in the establishment of fungal diseases in plants. We have isolated EVs from the cereal pathogen Fusarium graminearum which decreases yield and quality of gr ....Extracellular vesicles in the pathogenesis of fungal plant disease. Extracellular vesicles (EVs) are small membrane bound sacs that carry information between cells in essentially all organisms. EVs are also produced by bacterial and fungal pathogens and have a crucial role in infection in mammals . We propose that fungal EVs are key players in the establishment of fungal diseases in plants. We have isolated EVs from the cereal pathogen Fusarium graminearum which decreases yield and quality of grain in major food crops such as wheat, barley and corn. This project will focus on the cargo that EVs transport through the fungal cell wall and into the plant host and will establish the role of this cargo in disease progression. Ultimately, this knowledge will be used to design new strategies for disease control.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100885
Funder
Australian Research Council
Funding Amount
$435,000.00
Summary
Molecular characterisation of pore-forming proteins as pest control agents. This project aims to utilise protein engineering, structural biology, and biochemistry to characterise the function of key members of the aerolysin/epsilon toxin/Toxin_10 pore-forming protein superfamily. Pore formation is a ubiquitous mechanism deployed by all kingdoms as defences against invading organisms. The expected outcomes of this project include the development of novel techniques aimed, broadly, at studying por ....Molecular characterisation of pore-forming proteins as pest control agents. This project aims to utilise protein engineering, structural biology, and biochemistry to characterise the function of key members of the aerolysin/epsilon toxin/Toxin_10 pore-forming protein superfamily. Pore formation is a ubiquitous mechanism deployed by all kingdoms as defences against invading organisms. The expected outcomes of this project include the development of novel techniques aimed, broadly, at studying pore-forming proteins during the assembly pathway. This project should be of benefit to the wider research community by improving our understanding of pore-forming proteins as potential pest control agents. Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC150100026
Funder
Australian Research Council
Funding Amount
$3,732,019.00
Summary
ARC Training Centre for Fruit Fly Biosecurity Innovation. ARC Training Centre for Fruit Fly Biosecurity Innovation. This training centre aims to transform the way that horticulture industries combat invasive fruit flies that threaten Australian crops, which are valued at $9 billion per year. For generations, Australia has relied on insecticides to protect crops. Owing to environmental damage and concerns for consumer health, the most effective insecticides have recently been banned for use on ma ....ARC Training Centre for Fruit Fly Biosecurity Innovation. ARC Training Centre for Fruit Fly Biosecurity Innovation. This training centre aims to transform the way that horticulture industries combat invasive fruit flies that threaten Australian crops, which are valued at $9 billion per year. For generations, Australia has relied on insecticides to protect crops. Owing to environmental damage and concerns for consumer health, the most effective insecticides have recently been banned for use on many crops leaving no equivalent replacements. Horticulture industries are unprepared for this change, and are in desperate need of new sustainable practices to combat fruit flies. New researchers who are trained in both scientific approach and practical application will be well placed to deliver these new tools.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100084
Funder
Australian Research Council
Funding Amount
$471,754.00
Summary
Deciphering the rules of T cell residency across intestinal compartments. Tissue-resident memory T cells (TRM) are key for immune protection against infection and cancer at barrier sites including the gut. Whilst much of our understanding of gut TRM comes from studies on the small intestine, how these cells develop and function in the large intestine is unknown. Using state-of-the-art techniques and novel animal models, this project aims to (i) identify molecular pathways by which the local inte ....Deciphering the rules of T cell residency across intestinal compartments. Tissue-resident memory T cells (TRM) are key for immune protection against infection and cancer at barrier sites including the gut. Whilst much of our understanding of gut TRM comes from studies on the small intestine, how these cells develop and function in the large intestine is unknown. Using state-of-the-art techniques and novel animal models, this project aims to (i) identify molecular pathways by which the local intestinal microenvironment influences TRM development and (ii) how these pathways could modulate TRM generation specifically in the small or large intestine. The expected outcomes are to generate fundamental new knowledge that will have significance for regulation of the immune response. Read moreRead less