Coproantigen detection tests for diagnosis of intestinal parasitic nematode infection. The aim of this project is to develop new tests for detection of hookworm and Strongyloides, two common intestinal worm infections of humans. These tests offer the potential to replace current tests, namely stool microscopy and serodiagnosis, both of whose performance is unsatisfactory due to deficiencies in sensitivity, specificity and operator convenience. The tests will rely on monoclonal antibodies to dete ....Coproantigen detection tests for diagnosis of intestinal parasitic nematode infection. The aim of this project is to develop new tests for detection of hookworm and Strongyloides, two common intestinal worm infections of humans. These tests offer the potential to replace current tests, namely stool microscopy and serodiagnosis, both of whose performance is unsatisfactory due to deficiencies in sensitivity, specificity and operator convenience. The tests will rely on monoclonal antibodies to detect parasite products in stool. Such testing technology is amenable to configuration in a robust format, suitable for large-scale manufacture. Given the worldwide prevalence of these parasites, the tests will have a market potential of international significance.Read moreRead less
Targeting the undruggable: epitope mapping using Phylomers peptides to modulate activity of Transcription Factors. This project aims at expanding the pool of drug targets, by extending drug screening to protein-protein interaction networks. This project aims to assemble a novel technical platform to detect binding between proteins, using a combination of cell-free protein expression, AlphaScreen and single-molecule fluorescence. This pipeline has great potential to accelerate the exploration of ....Targeting the undruggable: epitope mapping using Phylomers peptides to modulate activity of Transcription Factors. This project aims at expanding the pool of drug targets, by extending drug screening to protein-protein interaction networks. This project aims to assemble a novel technical platform to detect binding between proteins, using a combination of cell-free protein expression, AlphaScreen and single-molecule fluorescence. This pipeline has great potential to accelerate the exploration of protein networks, and provides also a generic platform for drug screening on difficult targets. The project intends to screen Phylogica's libraries of peptides called Phylomers to discover tight binders to a Transcription Factor, Sox18. The objective of this project is to determine which Phylomers can disrupt specific interactions between Sox18 and its binding partners involved in lymphangiogenesis.Read moreRead less
A microfluidic array of phylomers for rapid discovery of peptide probes and biomarkers. This project, through an alliance with Phylogica, aims at exploiting a unique source of structural diversity for drug discovery, harvesting the creativity of nature in its most exotic places. The project will develop a novel approach to validate design and validate drug candidates, by gathering them on a single screening chip for a powerful discovery platform.
Quantitative structural health assessment of large membrane-like structures. This project aims to develop a new approach, based on remote sensing and computational modelling, to assess and manage the structural health of large floating covers used for odour control and biogas harvesting to prevent unexpected failures. The project has potential benefits for high-value-added manufacturing and maintenance of these floating covers by Australian industry.
Integrated on-chip force and displacement sensors for high-speed atomic force microscopy of ultimate sensitivity. This project aims to develop next generation atomic force microscopy systems based on a novel interferometric method for on-chip force and displacement sensing. The proposed sensitivity improvement of two orders of magnitude over the present state-of-the-art will provide a disruptive innovation for various present and future nanotechnologies.
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