Discovery Early Career Researcher Award - Grant ID: DE140100162
Funder
Australian Research Council
Funding Amount
$374,005.00
Summary
Enzymatic synthesis of pro-resolution lipid mediators: Towards new therapeutic strategies for inflammatory diseases. Inflammation is a major contributing factor in many diseases, including arthritis, Alzheimer's disease, multiple sclerosis, cardiovascular disease and cancer. It has recently been shown that the resolution of inflammation is an active biological process initiated by lipid mediators. The aim of this project is to synthesise and characterise pro-resolution lipid mediators, elucidate ....Enzymatic synthesis of pro-resolution lipid mediators: Towards new therapeutic strategies for inflammatory diseases. Inflammation is a major contributing factor in many diseases, including arthritis, Alzheimer's disease, multiple sclerosis, cardiovascular disease and cancer. It has recently been shown that the resolution of inflammation is an active biological process initiated by lipid mediators. The aim of this project is to synthesise and characterise pro-resolution lipid mediators, elucidate the enzyme cascades involved in their biosynthesis and explore their roles in the active resolution of inflammation. This project will provide a fundamental understanding of pro-resolution and anti-inflammatory pathways as well as new therapeutic target molecules for the treatment of inflammatory diseases.Read moreRead less
Taking nature's lead in the development of new and improved enzyme inhibitors. This project will address some key fundamental issues associated with advancing a chemical entity from proof of principle through to a new pharmaceutical. The compounds in the study target cancer, cataract and other diseases that are confronting Australia's ageing population.
Heparan sulphate mimetics: Versatile tools for chemical biology. This project aims to develop chemical tools to study heparan sulphate-binding proteins. Heparan sulphate is a complex polysaccharide that is ubiquitously expressed on mammalian cells and interacts with proteins to mediate numerous biological and pathological functions. These interactions are poorly understood. This project will use homogeneous, structurally defined compounds to study heparan sulphate and its binding partners in bio ....Heparan sulphate mimetics: Versatile tools for chemical biology. This project aims to develop chemical tools to study heparan sulphate-binding proteins. Heparan sulphate is a complex polysaccharide that is ubiquitously expressed on mammalian cells and interacts with proteins to mediate numerous biological and pathological functions. These interactions are poorly understood. This project will use homogeneous, structurally defined compounds to study heparan sulphate and its binding partners in biology. This is expected to lead to a better, molecular-level understanding of these fundamental processes, and may have future applications in biotechnology and drug development.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100192
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
Deep Protein Sequencing, Structure and Quantification Facility. This project aims to establish state-of-the-art complementary mass spectrometers to help research into molecular structure and interactions, post-translational modifications, compound stability and availability within complex biological samples. The facility’s complementary mass spectrometers combine high specificity with high sensitivity and ultrafast scanning, and are expected to rapidly discover, identify and characterise biomole ....Deep Protein Sequencing, Structure and Quantification Facility. This project aims to establish state-of-the-art complementary mass spectrometers to help research into molecular structure and interactions, post-translational modifications, compound stability and availability within complex biological samples. The facility’s complementary mass spectrometers combine high specificity with high sensitivity and ultrafast scanning, and are expected to rapidly discover, identify and characterise biomolecules including peptides, proteins and small molecules. The discovery of unknown compounds is expected to improve fundamental understanding of molecular structure and function, provide opportunities for new bio-industries in health and the environment, and generate commercial opportunities through spin-off companies, patents and licensing.Read moreRead less
Advancing hybrid imaging with magnetic resonance imaging and positron emission tomography (MRI-PET). This project aims to increase the utility, accessibility, cost-effectiveness and accuracy of magnetic resonance imaging and positron emission tomography (MRI-PET) hybrid imaging technology for brain tumour imaging. This project will develop new contrast agents, better ways of measuring their uptake including a new high sensitivity MRI-PET head coil and methods for predicting tumour progression us ....Advancing hybrid imaging with magnetic resonance imaging and positron emission tomography (MRI-PET). This project aims to increase the utility, accessibility, cost-effectiveness and accuracy of magnetic resonance imaging and positron emission tomography (MRI-PET) hybrid imaging technology for brain tumour imaging. This project will develop new contrast agents, better ways of measuring their uptake including a new high sensitivity MRI-PET head coil and methods for predicting tumour progression using imaging information.Read moreRead less
Development Of A Self-adjuvanting Mucosal Vaccine Candidate Against Group A Streptococcus Using Lipid Core Technology
Funder
National Health and Medical Research Council
Funding Amount
$316,449.00
Summary
Novel developments in drug/vaccine delivery are clearly to have enormous economic and social impacts. My research aim is to rationally design and develop vaccines against relevant diseases. By understanding the mechanism of protection against diseases, development of novel vaccines for the treatment of many diseases can be achieved. This would contribute enormously to the betterment of public health.
The Inhibition Of Biotin Protein Ligase As A New Source Of Antibiotics
Funder
National Health and Medical Research Council
Funding Amount
$750,167.00
Summary
We have become so accustomed to treating bacterial infections with antibiotics that it is hard to imagine life without them. However, the emergence of drug-resistance is creating a global health care crisis. Recently, there has not been enough attention paid to replacing old antibiotics with new products to combat drug resistance. Our team is addressing this challenge. We have discovered a new class of antibiotic that is unlike any other drug in clinical use.
Exploring metabotropic glutamate receptor 5 bias, allostery and heteromers. This project aims to provide novel mechanistic and structural insights into metabotropic glutamate receptor 5 (mGlu5) function. The mGlu5 is an essential regulator of neurotransmission and higher order brain functions including learning and memory. This project expects to expand knowledge of the fundamental biological processes engaged by mGlu5 through exploration of three novel paradigms of receptor activity: allostery, ....Exploring metabotropic glutamate receptor 5 bias, allostery and heteromers. This project aims to provide novel mechanistic and structural insights into metabotropic glutamate receptor 5 (mGlu5) function. The mGlu5 is an essential regulator of neurotransmission and higher order brain functions including learning and memory. This project expects to expand knowledge of the fundamental biological processes engaged by mGlu5 through exploration of three novel paradigms of receptor activity: allostery, bias and heteromerisation. Expected outcomes also include generation of new pharmacological tools through interdisciplinary collaborative research between multiple institutions. There is significant expected economic benefit through commercialisation of new tools and facilitation of novel drug discovery.Read moreRead less
Biosynthesis and functions of two phytotoxins in Septoria nodorum blotch. This project aims to investigate how a fungal plant pathogen makes and uses small bioactive molecules to facilitate infection. It will characterise the function of the genes and enzymes involved in the biosynthesis of a light-activated phytotoxic molecule and a potential anti-plant defence molecule found in the pathogenic wheat fungus Parastagonospora nodorum, and investigate their contribution to disease development. Expe ....Biosynthesis and functions of two phytotoxins in Septoria nodorum blotch. This project aims to investigate how a fungal plant pathogen makes and uses small bioactive molecules to facilitate infection. It will characterise the function of the genes and enzymes involved in the biosynthesis of a light-activated phytotoxic molecule and a potential anti-plant defence molecule found in the pathogenic wheat fungus Parastagonospora nodorum, and investigate their contribution to disease development. Expected outcomes include better understanding of plant-microbe interactions, disease management strategies, technologies for identifying biosynthetic pathways in other fungi, and enzyme technology for synthesising molecules. This could lead to new herbicides, biopesticides and drugs.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100015
Funder
Australian Research Council
Funding Amount
$630,000.00
Summary
High-resolution and high-throughput Nuclear Magnetic Resonance (NMR) facility. This facility will provide researchers at James Cook University and The University of Queensland with a nuclear magnetic resonance spectroscope with a cryogenically cooled probe which will enable the structures of novel biomolecules from spiders, hookworms, plants and synthetic drugs to be revealed. These studies have the potential to lead to new drugs for cancer, pain, inflammatory and tropical diseases.