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Australian Laureate Fellowships - Grant ID: FL140100179
Funder
Australian Research Council
Funding Amount
$2,800,000.00
Summary
Controlling gene expression with synthetic RNA-binding proteins. Controlling gene expression with synthetic RNA-binding proteins. The growth and development of living organisms is largely determined by the genes they contain, but converting the genetic information into biological activity requires intermediary processes involving RNA and proteins that bind to and process RNA. This project aims to understand how the largest class of RNA-binding protein in plants recognise their target RNAs and ai ....Controlling gene expression with synthetic RNA-binding proteins. Controlling gene expression with synthetic RNA-binding proteins. The growth and development of living organisms is largely determined by the genes they contain, but converting the genetic information into biological activity requires intermediary processes involving RNA and proteins that bind to and process RNA. This project aims to understand how the largest class of RNA-binding protein in plants recognise their target RNAs and aims to develop custom-designed proteins for switching genes on or off. This technology will be used to create new hybrid cereal varieties and will also be valuable for applications in human health, such as the correction of genetic mutations.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL180100109
Funder
Australian Research Council
Funding Amount
$2,762,247.00
Summary
Unifying mechanisms of innate immunity signaling in animals and plants. This project aims to improve our understanding of innate immunity, the first line of defense against pathogens in diverse organisms. Innate immune pathways are key to a range of pathological states in animals, and provide plants with resistance to the diseases that account for 15% of crop losses. This project will generate knowledge, through characterising mechanisms of cell signalling for mammalian and plant innate immunity ....Unifying mechanisms of innate immunity signaling in animals and plants. This project aims to improve our understanding of innate immunity, the first line of defense against pathogens in diverse organisms. Innate immune pathways are key to a range of pathological states in animals, and provide plants with resistance to the diseases that account for 15% of crop losses. This project will generate knowledge, through characterising mechanisms of cell signalling for mammalian and plant innate immunity. The outcomes will include a unified signalling model, and form the foundation for a range of applications in human biology and agriculture, such as the development of durable and effective resistance in crops.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL180100139
Funder
Australian Research Council
Funding Amount
$2,973,547.00
Summary
Processes of plant growth that impact agriculture and horticulture. The project aims to discover the genes and processes that control plant shoot architecture, which is a major driver of yield in field, horticultural and forestry crops. Shoot branching is the result of the complex interplay of genes, environment and crop management. By investigating cellular processes governing growth and development, as well as physiology and molecular genetics, this project will enhance Australian capacity and ....Processes of plant growth that impact agriculture and horticulture. The project aims to discover the genes and processes that control plant shoot architecture, which is a major driver of yield in field, horticultural and forestry crops. Shoot branching is the result of the complex interplay of genes, environment and crop management. By investigating cellular processes governing growth and development, as well as physiology and molecular genetics, this project will enhance Australian capacity and multidisciplinary innovation. An improved understanding of shoot branching and how it may be manipulated will improve our knowledge of plant sciences that could contribute to agricultural expansion and food security in Australia and internationally.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL200100057
Funder
Australian Research Council
Funding Amount
$3,311,491.00
Summary
Dynamic Proteins for Nutritious Future Crops. This project aims to understand the processes and genes that regulate synthesis and degradation of proteins in wheat and barley plants. This project will develop methodologies and a new field of research for optimising protein stability in crops. Its significance lies in defining new ways to control protein abundance to increase crop performance and quality and increase the value of recombinant proteins for biotech industries. Expected outcomes will ....Dynamic Proteins for Nutritious Future Crops. This project aims to understand the processes and genes that regulate synthesis and degradation of proteins in wheat and barley plants. This project will develop methodologies and a new field of research for optimising protein stability in crops. Its significance lies in defining new ways to control protein abundance to increase crop performance and quality and increase the value of recombinant proteins for biotech industries. Expected outcomes will enable the protein abundance in plant cells to be designed and control selective protein degradation in plants for the first time. Benefits will include building biotechnology capacity in WA, brokering new collaborations and providing an ideal training environment for students and postdocs.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL190100056
Funder
Australian Research Council
Funding Amount
$2,795,000.00
Summary
Smart Plants and Solutions for Enhancing Crop Resilience and Yield. The Fellowship aims to produce transformative solutions targeting crop resilience and food security. The chloroplast, the site of photosynthesis, regulates a suite of cellular processes that control photosynthesis, growth and drought resilience. It is expected that a first ever blueprint of the suite of communication networks used by the chloroplast will be discovered. I will use synthetic biology to rewire the network in order ....Smart Plants and Solutions for Enhancing Crop Resilience and Yield. The Fellowship aims to produce transformative solutions targeting crop resilience and food security. The chloroplast, the site of photosynthesis, regulates a suite of cellular processes that control photosynthesis, growth and drought resilience. It is expected that a first ever blueprint of the suite of communication networks used by the chloroplast will be discovered. I will use synthetic biology to rewire the network in order to generate 'smart plants' that are higher-yielding and more resilient in both good and bad seasons by precisely switching on and off resilience. Such re-imaginings of crop systems, inclusive of societal implications, will help chart the future of Australian agriculture.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL160100155
Funder
Australian Research Council
Funding Amount
$2,715,383.00
Summary
Harmonising genes for modern agriculture. Harmonising genes for modern agriculture. This project aims to fully understand how a plant distinguishes self from non-self genes and to develop ways of precisely enhancing, repairing, updating, and/or redirecting genetic traits in harmony with the genome. The world’s food security relies on modern crops that are continually updated with genetic traits for higher yield and protection against changing environmental stresses. A crop plant’s genes determin ....Harmonising genes for modern agriculture. Harmonising genes for modern agriculture. This project aims to fully understand how a plant distinguishes self from non-self genes and to develop ways of precisely enhancing, repairing, updating, and/or redirecting genetic traits in harmony with the genome. The world’s food security relies on modern crops that are continually updated with genetic traits for higher yield and protection against changing environmental stresses. A crop plant’s genes determine its growth, development, survival and agronomic fitness. The ability to precisely edit genes in crop plants is tantalizingly close but significant barriers must be overcome. Anticipated outcomes are safer, higher yielding and more sustainable crops.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL200100096
Funder
Australian Research Council
Funding Amount
$3,367,940.00
Summary
Mapping the genetic and lifestyle landscape of Healthy Ageing. This project aims to dissect how genes interact with the environment to control healthy ageing using a multidisciplinary approach combining state-of-the-art omics technologies, metabolic and ageing phenotyping and genetic analysis and a highly diverse model system. The project is expected to establish fundamental new understanding of the ageing process by identifying genes that regulate ageing either alone or in response to diet; by ....Mapping the genetic and lifestyle landscape of Healthy Ageing. This project aims to dissect how genes interact with the environment to control healthy ageing using a multidisciplinary approach combining state-of-the-art omics technologies, metabolic and ageing phenotyping and genetic analysis and a highly diverse model system. The project is expected to establish fundamental new understanding of the ageing process by identifying genes that regulate ageing either alone or in response to diet; by defining the mechanism by which such genes control ageing and by identifying biomarkers that predict different ageing outcomes. This knowledge will contribute to future strategies based on genetic testing and biomarkers to optimise healthy ageing in humans. Read moreRead less
Australian Laureate Fellowships - Grant ID: FL210100107
Funder
Australian Research Council
Funding Amount
$2,960,000.00
Summary
Tracking nanoparticles: from cell culture to in vivo delivery. Understanding how cells function in the ‘real-time’ context of a living organism is a key challenge in the new era of cell biology. Using super-resolution light microscopy and state-of-the-art correlative electron microscopy together with model systems, this Fellowship aims to deliver new understandings of cells in their natural environment. Significantly, the project will elucidate how proteins or nanoparticles pass from the bloodst ....Tracking nanoparticles: from cell culture to in vivo delivery. Understanding how cells function in the ‘real-time’ context of a living organism is a key challenge in the new era of cell biology. Using super-resolution light microscopy and state-of-the-art correlative electron microscopy together with model systems, this Fellowship aims to deliver new understandings of cells in their natural environment. Significantly, the project will elucidate how proteins or nanoparticles pass from the bloodstream into tissues and then into cells, and in doing so deliver much-needed knowledge of protein and particle trafficking in situ. Outcomes and benefits include leading-edge fundamental science into the function of cells, education, outreach and building of Australian capacity in high-demand skill sets.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL170100019
Funder
Australian Research Council
Funding Amount
$2,606,250.00
Summary
Proteins in motion - new tools for biotechnology. This project aims to assess the function of proteins by monitoring their motions using new nuclear magnetic resonance (NMR) spectroscopy techniques. As snapshots of 3D protein structures have been determined by crystallography, the new tools are designed to analyse functionally important motions in solution. A facility for ultrafast (> 100 kHz) magic angle spinning NMR spectroscopy of proteins in the semi-solid state will bring cutting-edge know- ....Proteins in motion - new tools for biotechnology. This project aims to assess the function of proteins by monitoring their motions using new nuclear magnetic resonance (NMR) spectroscopy techniques. As snapshots of 3D protein structures have been determined by crystallography, the new tools are designed to analyse functionally important motions in solution. A facility for ultrafast (> 100 kHz) magic angle spinning NMR spectroscopy of proteins in the semi-solid state will bring cutting-edge know-how to Australia and allow the interrogation of 3D structure and dynamics in selected protein regions. The expected outcomes of the project will have immediate benefits for the rational engineering of biocatalysts and in the design of lead compounds in drug development.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL160100049
Funder
Australian Research Council
Funding Amount
$2,915,738.00
Summary
A molecular investigation into immune function. A molecular investigation into immune function. The project aims to understand how key immune recognition events enable immunity. This project would use a multidisciplinary approach empowered by technological innovations, including the latest advances in atomic and molecular imaging. This research is expected to identify new approaches for the biotechnology industry.