Development of therapeutic agents that target carbonic anhydrase enzymes. This research will discover new chemical entities (compounds) that may lead to therapies for the treatment of cancer, glaucoma and malaria. The research underpins a mechanism to add value to our compounds before partnering with industry to transform the discoveries made here to deliverable therapies that could benefit the health of millions, thus offering a potentially high value contribution to the Australian economy. The ....Development of therapeutic agents that target carbonic anhydrase enzymes. This research will discover new chemical entities (compounds) that may lead to therapies for the treatment of cancer, glaucoma and malaria. The research underpins a mechanism to add value to our compounds before partnering with industry to transform the discoveries made here to deliverable therapies that could benefit the health of millions, thus offering a potentially high value contribution to the Australian economy. The experience and commitment of the multi-disciplinary network of researchers offers exceptional training and employment opportunities for tomorrow's scientists in techniques for discovery and characterisation of novel chemicals, and their interaction with disease targets.Read moreRead less
Proteomics of the Influenza Virus for In-field Surveillance. The influenza virus continues to pose a serious health risk to Australians and remains a leading cause of death. The molecular characterisation of emerging strains of the virus lies at the heart of current surveillance procedures vital to vaccine preparation and the development of new anti-viral drugs. This research will advance a world-first proteomics surveillance of the virus developed in this laboratory that will enable it to be ch ....Proteomics of the Influenza Virus for In-field Surveillance. The influenza virus continues to pose a serious health risk to Australians and remains a leading cause of death. The molecular characterisation of emerging strains of the virus lies at the heart of current surveillance procedures vital to vaccine preparation and the development of new anti-viral drugs. This research will advance a world-first proteomics surveillance of the virus developed in this laboratory that will enable it to be characterised in-field at the site(s) of infection outbreaks. This rapid response is vital, particularly in the event of a pandemic or a deliberate release of the virus in a bioterrorist attack.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC170100035
Funder
Australian Research Council
Funding Amount
$4,743,710.00
Summary
ARC Training Centre for Innovation in Biomedical Imaging Technology. The ARC Training Centre for Innovation in Biomedical Imaging Technology expects to train 20 industry-ready innovation scientists who will undertake industry-driven research in the development and application of novel diagnostics, therapeutics and theranostics. They will inform changes in regulatory policy that support industry growth. The Centre will build multidisciplinary links between researchers and within industry to devel ....ARC Training Centre for Innovation in Biomedical Imaging Technology. The ARC Training Centre for Innovation in Biomedical Imaging Technology expects to train 20 industry-ready innovation scientists who will undertake industry-driven research in the development and application of novel diagnostics, therapeutics and theranostics. They will inform changes in regulatory policy that support industry growth. The Centre will build multidisciplinary links between researchers and within industry to develop ‘smart’ probes and ‘smart’ scanning, harnessing the digital revolution for better, cost effective diagnostic imaging and improved health outcomes.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100164
Funder
Australian Research Council
Funding Amount
$310,000.00
Summary
A facility for ex-vivo molecular imaging. The facility will allow a consortium of Australian researchers to create an integrated facility for imaging biological receptors in tissue, bringing together laboratory, radiochemistry and imaging expertise. Digital data at each site will be able to be viewed and analysed remotely.
The chemistry and biology of circular proteins. This project aims to develop plant-derived ultra-stable cyclic peptides for pharmaceutical and agricultural applications. The project will use innovative new methodologies for discovery, chemical synthesis and engineering of these molecules. It is expected that the project will contribute to high value biotechnology and agricultural industries in Australia. The proposed outcomes will include fundamental new knowledge on the biosynthesis of circular ....The chemistry and biology of circular proteins. This project aims to develop plant-derived ultra-stable cyclic peptides for pharmaceutical and agricultural applications. The project will use innovative new methodologies for discovery, chemical synthesis and engineering of these molecules. It is expected that the project will contribute to high value biotechnology and agricultural industries in Australia. The proposed outcomes will include fundamental new knowledge on the biosynthesis of circular proteins in plants, new approaches for their discovery and technologies for applying them as drug leads and agricultural products.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140101788
Funder
Australian Research Council
Funding Amount
$358,920.00
Summary
Structural Analysis of Biomolecular Complexes at Membrane Interfaces Important to Health and Disease. This project will study structural aspects of key biomolecular complexes at membrane interfaces that are involved with apoptosis (programmed cell death). Malfunctions in apoptosis have been implicated in many aliments including age-related diseases and cancers. Understanding of the molecular and structural aspects of key complexes can pave the way to novel therapies. The approach that will be us ....Structural Analysis of Biomolecular Complexes at Membrane Interfaces Important to Health and Disease. This project will study structural aspects of key biomolecular complexes at membrane interfaces that are involved with apoptosis (programmed cell death). Malfunctions in apoptosis have been implicated in many aliments including age-related diseases and cancers. Understanding of the molecular and structural aspects of key complexes can pave the way to novel therapies. The approach that will be used is to design new biomimetic outer mitochondrial membranes and use these to study the structure and binding of proteins involved with apoptosis. By studying simple models of complex systems, this project promises to yield detailed information on important biomolecular complexes where structural detail is currently lacking. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100071
Funder
Australian Research Council
Funding Amount
$290,000.00
Summary
Chemi–biology computational platform for lead discovery in infectious disease. A challenge in fighting infectious disease is in finding new bioactive compounds. This facility will provide a high performance computational environment designed to accelerate the discovery of quality compounds for use in anti-infective medicine.
Next generation dengue diagnostics. The 2009 dengue epidemic was widespread and the largest in North Queensland for 50 years. The outbreak was not quickly contained despite an extensive education program and a mosquito control taskforce. All four types of Dengue were detected, greatly increasing the chance of more severe complications such as Dengue haemorrhagic fever and Dengue shock syndrome. This project will improve our knowledge of Dengue proteins used in tests to diagnose the virus. The ne ....Next generation dengue diagnostics. The 2009 dengue epidemic was widespread and the largest in North Queensland for 50 years. The outbreak was not quickly contained despite an extensive education program and a mosquito control taskforce. All four types of Dengue were detected, greatly increasing the chance of more severe complications such as Dengue haemorrhagic fever and Dengue shock syndrome. This project will improve our knowledge of Dengue proteins used in tests to diagnose the virus. The new knowledge will be used to develop an easy to use test to diagnose Dengue infection early, rapidly and accurately. Effective diagnosis of Dengue will then allow timely implementation of intervention strategies (mosquito control, public advice, isolation and care).Read moreRead less