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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100070
Funder
Australian Research Council
Funding Amount
$650,000.00
Summary
An advanced in vivo imaging facility. An advanced in vivo imaging facility: This project will establish an advanced In Vivo Imaging Facility (IVIF) for examining host-microbe interactions and associated immunological processes within the context of the numerous infectious disease models within the University of Melbourne and associated collaborators. The Zeiss LSM 7MP 2-photon imaging system will provide enhanced capacity to directly visualise cellular and molecular events in real time, with gre ....An advanced in vivo imaging facility. An advanced in vivo imaging facility: This project will establish an advanced In Vivo Imaging Facility (IVIF) for examining host-microbe interactions and associated immunological processes within the context of the numerous infectious disease models within the University of Melbourne and associated collaborators. The Zeiss LSM 7MP 2-photon imaging system will provide enhanced capacity to directly visualise cellular and molecular events in real time, with greater sensitivity and in a broader range of tissues and organs. This will provide the opportunity for novel insights into numerous immunological and host-microbe interactions.Read moreRead less
Troublesome ticks: a new molecular toolkit to investigate zoonotic tick-borne pathogens in Australia. This project will use the latest molecular diagnostic techniques to address unanswered questions about potential tick-transmitted diseases of humans and companion animals in Australia. The study will identify 'hot-spots' for tick-borne pathogens, identify areas of potential risk for humans, and investigate vector-host-pathogen interactions nationwide.
Ecology and transmission of tick-borne disease in Australia. Ecology and transmission of tick-borne disease in Australia. This project aims to determine the bacterial, protozoal and viral biodiversity in wildlife ticks and their native mammal hosts, and provide new information about the biology and transmission dynamics of these microorganisms and their potential to cause disease in wildlife, domesticated animals and humans. Anticipated outcomes are improved diagnostic tests and management proto ....Ecology and transmission of tick-borne disease in Australia. Ecology and transmission of tick-borne disease in Australia. This project aims to determine the bacterial, protozoal and viral biodiversity in wildlife ticks and their native mammal hosts, and provide new information about the biology and transmission dynamics of these microorganisms and their potential to cause disease in wildlife, domesticated animals and humans. Anticipated outcomes are improved diagnostic tests and management protocols for tick-borne disease in Australia.Read moreRead less
Unravelling cell wall polysaccharide biosynthesis in pathogenic zygomycetes. This project aims to define mechanisms that control cell wall composition and stability in Rhizopus oryzae, a zygomycete fungus responsible for life-threatening human infections. The biochemical properties and function of vital enzymes involved in a newly discovered cell wall polysaccharide biosynthetic pathway will be determined using innovative approaches at the interface of biochemistry, microbiology, cell biology an ....Unravelling cell wall polysaccharide biosynthesis in pathogenic zygomycetes. This project aims to define mechanisms that control cell wall composition and stability in Rhizopus oryzae, a zygomycete fungus responsible for life-threatening human infections. The biochemical properties and function of vital enzymes involved in a newly discovered cell wall polysaccharide biosynthetic pathway will be determined using innovative approaches at the interface of biochemistry, microbiology, cell biology and structural biology. Expected outcomes include new knowledge on the enzymes that synthesise major fucose-based carbohydrates, to guide the future development of novel strategies for antifungal therapies. The data will also be applicable to animal protection from related zygomycete pathogens.
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The effects of damage and repair of fungal DNA on animal and plant diseases. DNA damage and its repair are implicated in enhancing the ability of fungi to cause disease. These processes enable genomic changes that generate fungal strains better adapted to host colonisation. This project will identify factors that influence mutation, virulence and host adaptation in two model fungi that cause devastating diseases - a human pathogen, Cryptococcus neoformans, and a plant pathogen, Leptosphaeria mac ....The effects of damage and repair of fungal DNA on animal and plant diseases. DNA damage and its repair are implicated in enhancing the ability of fungi to cause disease. These processes enable genomic changes that generate fungal strains better adapted to host colonisation. This project will identify factors that influence mutation, virulence and host adaptation in two model fungi that cause devastating diseases - a human pathogen, Cryptococcus neoformans, and a plant pathogen, Leptosphaeria maculans. Since increases in global temperatures are expected to lead to emerging fungal diseases, understanding effects of damage and repair of fungal DNA on animal and plant diseases is key to designing disease control approaches.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100020
Funder
Australian Research Council
Funding Amount
$520,000.00
Summary
Collaborative high bio-containment immunological research facility. Emerging infectious diseases are a serious threat to animals and humans, with most new human infections originating in animals. Our capacity to study these infections and their effects on the immune system is limited. This Facility will provide core equipment for analysis of immune responses to infection at the highest levels of bio-containment.
Evolution of immunoregulatory networks: preventing autoimmunity at the expense of perpetuating chronicity in persistent infections. Chronic pathogens like HIV take advantage of human genes that regulate immune responses, which evolved to prevent autoimmunity, enabling them to evade eradication. This project defines the nature and interplays between these genes and will provide valuable clues as to how immunity can be manipulated to promote clearance of persistent infections.
Investigating the intercellular trafficking of proteins and RNA and its relevance to neurodegenerative diseases. Alzheimer's and prion diseases are neurodegenerative disorders associated with protein misfolding. This project brings together similar features of these diseases using novel cell- and animal-based studies to develop a greater understanding of the molecular basis of these disorders.