Re-purposing shelved 'antibiotics' in the search for new herbicides. This project aims to identify target-specific herbicidal compounds that inhibit amino acid biosynthesis pathways to tackle herbicide resistance. This project expects to validate a novel herbicide discovery strategy by exploiting the similarity between bacterial and plant enzymes in these pathways to re-purpose failed 'antibiotics'. Expected outcomes include advances in our knowledge of the structure, function and inhibition of ....Re-purposing shelved 'antibiotics' in the search for new herbicides. This project aims to identify target-specific herbicidal compounds that inhibit amino acid biosynthesis pathways to tackle herbicide resistance. This project expects to validate a novel herbicide discovery strategy by exploiting the similarity between bacterial and plant enzymes in these pathways to re-purpose failed 'antibiotics'. Expected outcomes include advances in our knowledge of the structure, function and inhibition of novel herbicide targets, and the identification of compounds with herbicidal activity. This should lay the foundations for long-term benefits related to improving the quantity and quality of Australia’s crops to ensure our food security.Read moreRead less
Augmenting the activity of glyoxalase-1 to increase dicarbonyl clearance . Reactive intermediates generated during our metabolism contribute to ageing. Glyoxalase-1 is a key defence enzyme against these toxic intermediates and therefore ageing itself. This project aims to investigate novel pathways how the expression and activity of glyoxalase-1 are regulated. This interdisciplinary project expects to generate new understanding by combining relevant cell and animal models, protein chemistry, epi ....Augmenting the activity of glyoxalase-1 to increase dicarbonyl clearance . Reactive intermediates generated during our metabolism contribute to ageing. Glyoxalase-1 is a key defence enzyme against these toxic intermediates and therefore ageing itself. This project aims to investigate novel pathways how the expression and activity of glyoxalase-1 are regulated. This interdisciplinary project expects to generate new understanding by combining relevant cell and animal models, protein chemistry, epigenetics and structural biology. It is expected that this work will improve understanding of this fundamental biological defence. This will allow us to identify the potential means to enhance the capacity of glyoxalase-1 to the future benefit of biological ageing.Read moreRead less
Investigation of a Novel Protein Implicated in Phosphate Metabolism in Bacteria. Phosphate is an important nutrient for all forms of life on Earth. A novel bacterial protein has been identified that appears to be important for the uptake or processing of phosphate, since mutants lacking the protein grow poorly inside certain cells of the human immune system (where phosphate levels are low) and in media containing low phosphate. The aims of this project are: to determine the role of the protein b ....Investigation of a Novel Protein Implicated in Phosphate Metabolism in Bacteria. Phosphate is an important nutrient for all forms of life on Earth. A novel bacterial protein has been identified that appears to be important for the uptake or processing of phosphate, since mutants lacking the protein grow poorly inside certain cells of the human immune system (where phosphate levels are low) and in media containing low phosphate. The aims of this project are: to determine the role of the protein by examining all phosphate containing molecules in our mutants; to determine its location in bacteria and functional domains; to identify other affected genes in our mutants; and, to find proteins that interact with this new protein. This project expects to demonstrate the importance of this protein in phosphate metabolism in bacteria.Read moreRead less
Unveiling and characterisation of a fundamental pathway important in cell division. This work will have a major impact by producing top quality research that addresses a fundamental biological question of relevance to all organisms. The research will advance understanding of genetic factors important in foetal and early childhood development and proliferative disorders that occur during ageing. This work will provide intellectual and practical training to Honours and PhD students and postdoctora ....Unveiling and characterisation of a fundamental pathway important in cell division. This work will have a major impact by producing top quality research that addresses a fundamental biological question of relevance to all organisms. The research will advance understanding of genetic factors important in foetal and early childhood development and proliferative disorders that occur during ageing. This work will provide intellectual and practical training to Honours and PhD students and postdoctoral researchers in the disciplines of Molecular Genetics, Molecular & Cellular Biology, Developmental Cell Biology, Mass Spectrometry and Proteomics, which will be of immense benefit to their scientific careers and the Australian scientific community.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100806
Funder
Australian Research Council
Funding Amount
$419,854.00
Summary
Towards herbicide cocktails with a new mode of action to avert resistance. This project aims to target herbicide resistant weeds which represent one of the largest threats to Australian and global food security. Targeting of unexplored pathways in plants to develop a novel herbicide strategy is expected to be achieved, and will include the structural and functional characterisation of key enzymes in these pathways. This project is expected to provide significant benefits for effective weed manag ....Towards herbicide cocktails with a new mode of action to avert resistance. This project aims to target herbicide resistant weeds which represent one of the largest threats to Australian and global food security. Targeting of unexplored pathways in plants to develop a novel herbicide strategy is expected to be achieved, and will include the structural and functional characterisation of key enzymes in these pathways. This project is expected to provide significant benefits for effective weed management to sustain Australia’s agricultural industry through enhanced food production from increased crop yields, whilst ensuring food security. These outcomes, coupled with decades of over-reliance on current herbicides, means there has never been a greater need for new and effective herbicides.Read moreRead less
A global approach to structure, assembly and function of yeast mitochondrial ATP synthase. ATP synthase is responsible for the synthesis of the ubiquitous energy substance ATP in living cells. This multisubunit enzyme complex is a molecular rotatory motor whose mechanism relies on functional dynamic interactions of the component protein subunits of the complex. Using a combination of powerful and sophisticated molecular biology techniques the functional and dynamic contacts made by subunits wi ....A global approach to structure, assembly and function of yeast mitochondrial ATP synthase. ATP synthase is responsible for the synthesis of the ubiquitous energy substance ATP in living cells. This multisubunit enzyme complex is a molecular rotatory motor whose mechanism relies on functional dynamic interactions of the component protein subunits of the complex. Using a combination of powerful and sophisticated molecular biology techniques the functional and dynamic contacts made by subunits within the complex, or between ATP synthase and other enzyme complex involved in energy production (including other ATP synthase complexes) will be investigated. New and significant insights into one of the most fundamental and challenging enzymes of life will be obtained.Read moreRead less
The Structure Function and Biology of Serpins. The serpin family of proteins control protease activity, in a variety of biological systems, via a dramatic conformational change. We are 4 leaders in the serpin reseacrh field using an integrated approach of biochemistry, biophysics, molecular biology, cell biology, structural biology and bioinformatics to analyse every facet of serpin structure, function and biology. We will apply and develop novel technologies that will determine how these confor ....The Structure Function and Biology of Serpins. The serpin family of proteins control protease activity, in a variety of biological systems, via a dramatic conformational change. We are 4 leaders in the serpin reseacrh field using an integrated approach of biochemistry, biophysics, molecular biology, cell biology, structural biology and bioinformatics to analyse every facet of serpin structure, function and biology. We will apply and develop novel technologies that will determine how these conformational changes are achieved and how they are controlled. Our increased understanding of this inhibitor - enzyme interaction will have implications to other proteins which undergo conformational change and biotechnology.Read moreRead less
Structural and functional studies on prokaryote serpins. Proteins are the machines of life, many of which undergo complex movements to achieve function. The basic research described in this proposal will result in major outcomes in understanding how proteins fold, undergo complex changes in conformation, and misfold to dysfunctional states. As a result, the study will contribute fundamental knowledge that will underpin research in the fields of structural biology, protein design and protein fo ....Structural and functional studies on prokaryote serpins. Proteins are the machines of life, many of which undergo complex movements to achieve function. The basic research described in this proposal will result in major outcomes in understanding how proteins fold, undergo complex changes in conformation, and misfold to dysfunctional states. As a result, the study will contribute fundamental knowledge that will underpin research in the fields of structural biology, protein design and protein folding. Through providing insight into protein misfolding, the work will will contribute to our understanding of degenerative misfolding pathologies that affect the ageing population and thus targets the 'ageing well ageing productively' priority goal.Read moreRead less
Structural and functional characterisation of compounds that inhibit the malarial aminopeptidases. Malaria is the world's most prevalent parasitic disease. Due to the rapid spread of drug resistant parasites there is a need to develop new antimalarial drugs. In this proposal we will characterise new targets and novel methods of inhibition that will form the basis of a new mechanism for antimalarial drugs.
Isolation and analysis of novel caspases. Apoptosis is an evolutionarily conserved cellular process which must be tightly controlled for normal development and to avoid disease. Rapid progress has been made recently in the elucidation of apoptotic pathways, but many important components are likely still unknown. The caspases constitute the effector arm of apoptotic signalling pathways and some members play important roles in cytokine maturation. We aim to identify novel caspases using an innovat ....Isolation and analysis of novel caspases. Apoptosis is an evolutionarily conserved cellular process which must be tightly controlled for normal development and to avoid disease. Rapid progress has been made recently in the elucidation of apoptotic pathways, but many important components are likely still unknown. The caspases constitute the effector arm of apoptotic signalling pathways and some members play important roles in cytokine maturation. We aim to identify novel caspases using an innovative technique, and to characterise their function and regulation. Molecules identified in this project may be candidate targets for therapies which modulate apoptosis for treatment or prevention of disease, or diagnostic reagent development.Read moreRead less