The evolution of female mating frequency and its consequences. This project explores the evolutionary significance of female mating frequency for male and female reproductive biology. The research proposes to use innovative approaches to examine the evolution of ejaculate characteristics, will focus on the evolution of sperm form and function, and will examine the fitness benefits of promiscuity from the females' perspective. The research uses both vertebrates and invertebrates as model organi ....The evolution of female mating frequency and its consequences. This project explores the evolutionary significance of female mating frequency for male and female reproductive biology. The research proposes to use innovative approaches to examine the evolution of ejaculate characteristics, will focus on the evolution of sperm form and function, and will examine the fitness benefits of promiscuity from the females' perspective. The research uses both vertebrates and invertebrates as model organisms to test predictions and assumptions of theoretical models relevant to both internal and external modes of fertilization. The design of this project will allow cutting-edge, theoretically informed and experimentally grounded conclusions to be drawn regarding selection under sperm competition.Read moreRead less
Chemical Mimics Of Bioactive Protein Surfaces. Frontier chemical technology will be developed and applied to construction of new compounds that mimic unstable fragments of bioactive protein surfaces. New materials can contribute to National Research Priorities by presenting new ways of impacting on infection, diseases of the aged, and preventative medicine (drugs, vaccines, diagnostics). The technology and materials will advance basic science at the chemistry-biology interface; permit new applic ....Chemical Mimics Of Bioactive Protein Surfaces. Frontier chemical technology will be developed and applied to construction of new compounds that mimic unstable fragments of bioactive protein surfaces. New materials can contribute to National Research Priorities by presenting new ways of impacting on infection, diseases of the aged, and preventative medicine (drugs, vaccines, diagnostics). The technology and materials will advance basic science at the chemistry-biology interface; permit new applications in medicine, science and industry; present new economic opportunities for building and strengthening Australian companies; attract and train outstanding young people in interdisciplinary science; and enhance the international reputation of Australian science and technology.Read moreRead less
Multiscale modelling: Applications to the Biomedical Sciences. 1) Significant reductions in the costs of developing pharmaceutical treatments, 2) Substantial reduction in hospitalisation costs, 3) Improved treatment of wounds, a significant cause of chronic ill-health which presently costs the Australian HealthCare System A$500,000,000/year.
Building Molecularly Engineered Polymer Nanomaterials. The development of new technologies at the interface between nano- and biotechnology promises to revolutionise healthcare and medicine. This research program will involve the design and synthesis of responsive and programmable polymers and their assembly to form next-generation, engineered materials. The nanomaterials prepared are expected to lead to the development of techniques that enable new types of minimally invasive diagnostics and th ....Building Molecularly Engineered Polymer Nanomaterials. The development of new technologies at the interface between nano- and biotechnology promises to revolutionise healthcare and medicine. This research program will involve the design and synthesis of responsive and programmable polymers and their assembly to form next-generation, engineered materials. The nanomaterials prepared are expected to lead to the development of techniques that enable new types of minimally invasive diagnostics and therapeutics as well as smaller devices. The interdisciplinary research program will cement Australia's position as a leading country in nanobiotechnology research and development.Read moreRead less
The first stage of vision: transduction and adaptation in retinal photoreceptors. The project aims to provide a detailed understanding of the molecular steps involved in the first stage of vision - the conversion of light into a neural signal in the rod and cone photoreceptors of the retina. The significance of this is that it will explain the initial events that enable us to see, and will help explain the deficits that occur when the process fails. The outcome will be a comprehensive understand ....The first stage of vision: transduction and adaptation in retinal photoreceptors. The project aims to provide a detailed understanding of the molecular steps involved in the first stage of vision - the conversion of light into a neural signal in the rod and cone photoreceptors of the retina. The significance of this is that it will explain the initial events that enable us to see, and will help explain the deficits that occur when the process fails. The outcome will be a comprehensive understanding of how our photoreceptors respond with extreme sensitivity, yet great rapidity, and over an enormous range of light intensities, thus endowing us with our remarkable sense of vision.Read moreRead less
Genes to phenotype: Exploiting the marsupial model. This research will exploit one of Australia's finest natural resources, its marsupial fauna. The features of marsupial reproduction and development provide a unique opportunity to answer fundamental biological questions. This research will show how the minor differences in key developmental genes that have arisen in their 100 million year isolation give rise to the characteristic differences in developmental timing and reproduction between mar ....Genes to phenotype: Exploiting the marsupial model. This research will exploit one of Australia's finest natural resources, its marsupial fauna. The features of marsupial reproduction and development provide a unique opportunity to answer fundamental biological questions. This research will show how the minor differences in key developmental genes that have arisen in their 100 million year isolation give rise to the characteristic differences in developmental timing and reproduction between marsupials and other mammals. The focus on reproduction and development will also provide invaluable knowledge to underpin efforts to conserve our endangered species and to control those that are overabundant.Read moreRead less
Membrane Attack Complex / Perforin like proteins in Defence, Attack and Developmental Biology. This proposal will result in a major advancement of knowledge, for example, in our understanding of the emerging links between immunity and development as well as the role and mechanism of function of the pore forming family of MACPF proteins in host defence, attack, embryo development and diseases such as cancer. These data will be crucial for developing approaches to control unwanted MACPF function, ....Membrane Attack Complex / Perforin like proteins in Defence, Attack and Developmental Biology. This proposal will result in a major advancement of knowledge, for example, in our understanding of the emerging links between immunity and development as well as the role and mechanism of function of the pore forming family of MACPF proteins in host defence, attack, embryo development and diseases such as cancer. These data will be crucial for developing approaches to control unwanted MACPF function, for example in disease such as diabetes or transplant rejection. Furthermore, a detailed understanding of how MACPF proteins assemble into rings and punch holes in membranes will facilitate the development of these proteins as technological tools.Read moreRead less
Coherent X-ray Science and Biophysics. The twenty first century is said to be the century of biology. And there is no doubt that the development of our understanding of biological system is continuing at a massive rate. However, as our understanding deepens, we need to draw on the whole range of scientific disciplines to proceed. This program draws together a multidisciplinary team of world-leading scientists to address one the key questions in modern biology, the structure of a membrane protein ....Coherent X-ray Science and Biophysics. The twenty first century is said to be the century of biology. And there is no doubt that the development of our understanding of biological system is continuing at a massive rate. However, as our understanding deepens, we need to draw on the whole range of scientific disciplines to proceed. This program draws together a multidisciplinary team of world-leading scientists to address one the key questions in modern biology, the structure of a membrane protein. We will develop techniques based on the latest developments in theoretical physics & chemistry, imaging, biology and technology - including the new Australian Synchrotron - to create new approaches to structural biology.Read moreRead less
Beyond Microarrays: Nano-Scaled Devices for High Throughput Biomolecular Sensing. Current developments in Nanoscience and Nanotechnology hold many promises in terms of revolutionising our industrial base, transforming biology, medical science and practice. This project strives to achieve some of these aims by, for the first time, building and testing nano-scaled devices with the capability to 'read' massive amounts of biological information. With the recent completion of the Human Genome proje ....Beyond Microarrays: Nano-Scaled Devices for High Throughput Biomolecular Sensing. Current developments in Nanoscience and Nanotechnology hold many promises in terms of revolutionising our industrial base, transforming biology, medical science and practice. This project strives to achieve some of these aims by, for the first time, building and testing nano-scaled devices with the capability to 'read' massive amounts of biological information. With the recent completion of the Human Genome project, major opportunities exist to provide spectacular advances in human health care (eg, via personalised medicine) provided that appropriate high-throughput biological reading devices can be developed. In developing such devices, this project also aims to substantially catalyse the Australian Nanotechnology/Biotechnology industry.Read moreRead less
Dynamics of Multiscale Complex Systems. Australia has built a strong position in the science and applications of multiscale phenomena, especially in interdisciplinary fields. The project will advance this position in plasma and biomedical physics by making new discoveries, developing new methods of analyzing such systems, and applying them to achieve practical outcomes. It will underpin Australia's participation in NASA's $600M STEREO mission, and will lead to improved methods and technologies ....Dynamics of Multiscale Complex Systems. Australia has built a strong position in the science and applications of multiscale phenomena, especially in interdisciplinary fields. The project will advance this position in plasma and biomedical physics by making new discoveries, developing new methods of analyzing such systems, and applying them to achieve practical outcomes. It will underpin Australia's participation in NASA's $600M STEREO mission, and will lead to improved methods and technologies for brain function analysis and imaging, which will be commercialized via industry partnerships. It will contribute to national research goals, especially in Breakthrough Science, Frontier Technologies, Smart Information Use, and Promoting Innovation.Read moreRead less