Discovery Early Career Researcher Award - Grant ID: DE120102857
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Innovative chemical tools for the isolation, biochemical and structural analysis of biological macromolecular assemblies. This project will develop a new approach for determining the three dimensional structures of protein complexes. This project will demonstrate this approach by determining the structure of a protein complex involved in gene regulation and disease.
High-throughput microfluidic approach to mapping hierarchies of interactions in the gene regulation machinery. The exploration of protein-protein interactions networks is becoming an extremely active area of research in life sciences. The current project will develop new approaches to accelerate the discovery of novel interacting proteins participating in gene regulation, in order to understand how cells differentiate into different tissues and organs.
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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100163
Funder
Australian Research Council
Funding Amount
$560,000.00
Summary
Single molecule imaging laboratory. Single molecule imaging laboratory: The goal of the project is to establish a single molecule imaging laboratory to close the gap between structural imaging and cellular imaging. Utilising the expertise of the ARC Centre of Excellence in Advanced Molecular Imaging, the aim of the project is to design, build and apply three microscopes that go beyond the current commercial solutions for single molecule localisation microscopy such as Photo-Activation Localisati ....Single molecule imaging laboratory. Single molecule imaging laboratory: The goal of the project is to establish a single molecule imaging laboratory to close the gap between structural imaging and cellular imaging. Utilising the expertise of the ARC Centre of Excellence in Advanced Molecular Imaging, the aim of the project is to design, build and apply three microscopes that go beyond the current commercial solutions for single molecule localisation microscopy such as Photo-Activation Localisation Microscopy (PALM) and Stochastic Optical Reconstruction Microscopy (STORM) and perform single molecule imaging: deep inside cells and tissue.The facility will have a fast acquisition rate to monitor highly dynamic molecular events, and improved precision to image molecules and complexes in intact cells with less than or equal to one nanometre resolution. There is currently no comparable imaging facility in the world.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.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100043
Funder
Australian Research Council
Funding Amount
$435,279.00
Summary
High-throughput portable and wearable device fabrication facility. This project aims to establish a fabrication and characterisation facility for high-throughput production of portable, wearable and stretchable biomedical devices to accelerate the design–fabrication–evaluation process and save ‘trial-and-error’ costs during optimisation turnaround. It will apply computer-aided design for the programmable synthesis of hybrid materials for high-throughput screening of disease biomarkers, and super ....High-throughput portable and wearable device fabrication facility. This project aims to establish a fabrication and characterisation facility for high-throughput production of portable, wearable and stretchable biomedical devices to accelerate the design–fabrication–evaluation process and save ‘trial-and-error’ costs during optimisation turnaround. It will apply computer-aided design for the programmable synthesis of hybrid materials for high-throughput screening of disease biomarkers, and super-solution imaging of single molecules in live cells. This facility will provide capability for researchers pursuing industry transformation and other initiatives in the development of advanced materials, biomolecular sciences, nanotechnology, photonics and device engineering.Read moreRead less
Single-molecule optofluidics: streamlining high-throughput engineering and analysis of proteins and protein assemblies. This project aims at creating novel technologies for high-throughput engineering and analysis of proteins with single-molecule sensitivity. The platform will considerably accelerate the generation of protein-based diagnostics, new vaccines and therapeutics; it will foster collaborations with industry putting Australia at the forefront of protein research.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100035
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Hyperpolarised gas functional lung and molecular imaging. This project will produce a polariser to generate magnetised gas for research with magnetic resonance imaging (MRI). This allows imaging of normal and abnormal lung ventilation and circulation in animal and humans. The use of these hyperpolarised gases can also be used to tag specific molecules and increase understanding of lung metabolism.
Industrial Transformation Training Centres - Grant ID: IC160100026
Funder
Australian Research Council
Funding Amount
$3,722,989.00
Summary
ARC Training Centre in Additive Biomanufacturing. ARC Training Centre in Additive Biomanufacturing. The training centre aims to bring together leading researchers and industry to develop and translate key technology platforms for personalised treatments of challenging medical conditions. The centre expects its research will lead to synergistic and innovative technologies needed for personalised therapies including: modular additive biomanufacturing platforms; advanced bio-inks for regenerative m ....ARC Training Centre in Additive Biomanufacturing. ARC Training Centre in Additive Biomanufacturing. The training centre aims to bring together leading researchers and industry to develop and translate key technology platforms for personalised treatments of challenging medical conditions. The centre expects its research will lead to synergistic and innovative technologies needed for personalised therapies including: modular additive biomanufacturing platforms; advanced bio-inks for regenerative medicine; and additive manufactured tools for surgical planning and education. Highly experienced researchers and industry partners with teams of exceptional post-doctoral fellows and doctoral students would drive each technology. Anticipated impacts are that Australia will be a world-leader in additive biomanufacturing, and that the research will change the fields of science, health and biotechnology.Read moreRead less