Mixing the jigsaw pieces of natural products: new molecules-new properties. This project aims to examine the capacity of exploiting the bacterial biosynthetic machinery to fast-track access to analogues of natural products. Due to increased drug resistance, new reservoirs of natural products are needed for evaluation as future drugs. Desferrioxamine B will be used as a model natural product to establish the biosynthesis of new analogues in bacterial culture supplemented with unsaturated, fluorin ....Mixing the jigsaw pieces of natural products: new molecules-new properties. This project aims to examine the capacity of exploiting the bacterial biosynthetic machinery to fast-track access to analogues of natural products. Due to increased drug resistance, new reservoirs of natural products are needed for evaluation as future drugs. Desferrioxamine B will be used as a model natural product to establish the biosynthesis of new analogues in bacterial culture supplemented with unsaturated, fluorinated or deuterated building blocks. The intended outcomes are to deliver advances in methods for generating structurally diverse pools of natural products, new label-free probes, knowledge of natural product biosynthesis, and excellence in training research students in frontier methods in chemical biology and drug discovery.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210101144
Funder
Australian Research Council
Funding Amount
$429,450.00
Summary
Understanding crosstalks between Natural Killer cells and Dendritic Cells. This project aims to investigate the interactions between two populations of immune cells: natural killer cells and dendritic cells. This proposal will advance basic knowledge in immunology by innovating in considering the heterogeneity and diversity of these two immune populations and combining interdisciplinary approaches using cutting-edge technologies. Expected outcomes from this proposal include the identification of ....Understanding crosstalks between Natural Killer cells and Dendritic Cells. This project aims to investigate the interactions between two populations of immune cells: natural killer cells and dendritic cells. This proposal will advance basic knowledge in immunology by innovating in considering the heterogeneity and diversity of these two immune populations and combining interdisciplinary approaches using cutting-edge technologies. Expected outcomes from this proposal include the identification of new immunoregulatory pathways, the development of new scientific theories, and enhancement of Australia’s research capacity through international collaborations and student training. This project will provide significant benefits such as the identification of biological targets for development of new biotechnologies. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100148
Funder
Australian Research Council
Funding Amount
$1,350,000.00
Summary
Advanced Nuclear Magnetic Resonance Technologies for Southeast Queensland. This project aims to establish an advanced Nuclear Magnetic Resonance capability and capacity at two of Queenslands' leading research intensive universities. The project expects to enhance the scope and productivity of hundreds of research projects spanning natural products, synthetic, medicinal, materials and environmental science. Expected outcomes include smarter science, more productive collaborations and superior res ....Advanced Nuclear Magnetic Resonance Technologies for Southeast Queensland. This project aims to establish an advanced Nuclear Magnetic Resonance capability and capacity at two of Queenslands' leading research intensive universities. The project expects to enhance the scope and productivity of hundreds of research projects spanning natural products, synthetic, medicinal, materials and environmental science. Expected outcomes include smarter science, more productive collaborations and superior research training, leading to innovative solutions to challenging problems that confront science and society. This investment should provide significant benefits in the form of new knowledge across multiple disciplines, informing the design of future medicines, agrochemicals, materials and other products.
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Developing a multicomponent platform for targeted gene delivery. Gene delivery systems are important tools in biological research and offer many exciting future prospects. Delivering gene material is very difficult in practice: rapid deterioration, poor cell uptake, and reaching the right tissue and cell types are major obstacles. Ways to overcome each barrier individually have been suggested in existing research but these components have not yet been combined in a single solution, which this pr ....Developing a multicomponent platform for targeted gene delivery. Gene delivery systems are important tools in biological research and offer many exciting future prospects. Delivering gene material is very difficult in practice: rapid deterioration, poor cell uptake, and reaching the right tissue and cell types are major obstacles. Ways to overcome each barrier individually have been suggested in existing research but these components have not yet been combined in a single solution, which this project will tackle. This proposal aims to create a technology to stabilise and deliver active gene material to target cells. The gene delivery tool developed in this project will advance biological research greatly with many potential future applications.Read moreRead less
Chemical probes to dissect the cell cycle of globally important parasites . This project aims to develop new reagents, called chemical probes, to visualise key biological events in globally important pathogens. We will use innovative chemistry to modify the building blocks of DNA and provide researchers with essential tools to 'see' DNA synthesis in order to study growth and replication of pathogens in combination with microscopy. This project expects to support a major technical advance that wi ....Chemical probes to dissect the cell cycle of globally important parasites . This project aims to develop new reagents, called chemical probes, to visualise key biological events in globally important pathogens. We will use innovative chemistry to modify the building blocks of DNA and provide researchers with essential tools to 'see' DNA synthesis in order to study growth and replication of pathogens in combination with microscopy. This project expects to support a major technical advance that will address important gaps in our understanding of many pathogens (e.g. those that cause malaria and tuberculosis), at both the cellular and molecular levels. This should provide significant benefits by enabling researchers worldwide to identify new intervention opportunities that target unique aspects of pathogen biology.Read moreRead less
Oxytocin receptor PET ligands: imaging the love receptor’s engagement. This project aims to develop a positron emission tomography (PET) ligand for the oxytocin receptor. This novel platform is significant as it will allow the scientific community to answer questions about the role of the oxytocin receptor in the important process of social behaviour which underlies quality of life. This knowledge gap has remained unanswered for decades due to the lack of specific techniques to measure oxytocin ....Oxytocin receptor PET ligands: imaging the love receptor’s engagement. This project aims to develop a positron emission tomography (PET) ligand for the oxytocin receptor. This novel platform is significant as it will allow the scientific community to answer questions about the role of the oxytocin receptor in the important process of social behaviour which underlies quality of life. This knowledge gap has remained unanswered for decades due to the lack of specific techniques to measure oxytocin receptor engagement. It is also significant as it will equip Australian startup Kinoxis Therapeutics to progress their molecules to market, a process enabled by measuring oxytocin receptor engagement. Our dual expertise on the oxytocin receptor and PET ligand development uniquely situate us to generate this technology.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC210100040
Funder
Australian Research Council
Funding Amount
$4,997,903.00
Summary
ARC Training Centre for Facilitated Advancement of Australia's Bioactives (FAAB). The Centre for Facilitated Advancement of Australia's Bioactives (FAAB) will transform the rapidly growing bioactive ingredients sector. It will apply advanced analytical methods to molecular characterisation of bioactive products derived from foods, food-waste, and cell-based biotechnologies. FAAB will determine modes of action for bioactives with potential lifestyle and nutritional benefits allowing for evidence- ....ARC Training Centre for Facilitated Advancement of Australia's Bioactives (FAAB). The Centre for Facilitated Advancement of Australia's Bioactives (FAAB) will transform the rapidly growing bioactive ingredients sector. It will apply advanced analytical methods to molecular characterisation of bioactive products derived from foods, food-waste, and cell-based biotechnologies. FAAB will determine modes of action for bioactives with potential lifestyle and nutritional benefits allowing for evidence-informed decision-making, and regulatory framework development. FAAB graduates will lead and deliver future national self-reliance to the Australian bioactives sector, increasing diversification and international competitiveness and development of regulation in a growing market. Read moreRead less