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Continuous tooth replacement in mammals: revealing the fundamental processes in tooth generation and movement. This project will investigate how molar teeth are made in mammals by examining the nabarlek, or little rock-wallaby, which is one of a handful of mammals that is able to regenerate new molars throughout its life. These new teeth migrate through the bone in order to move into the correct position in the mouth. By investigating two well-studied organisms, the mouse and the tammar wallaby, ....Continuous tooth replacement in mammals: revealing the fundamental processes in tooth generation and movement. This project will investigate how molar teeth are made in mammals by examining the nabarlek, or little rock-wallaby, which is one of a handful of mammals that is able to regenerate new molars throughout its life. These new teeth migrate through the bone in order to move into the correct position in the mouth. By investigating two well-studied organisms, the mouse and the tammar wallaby, as well as the nabarlek itself, the developmental processes and genes involved in molar generation and movement will be revealed. This project will integrate findings in regenerative medicine, evolutionary biology, materials engineering and palaeontology to reveal the mechanisms and origins of this astounding capability.Read moreRead less
Closing the gap in Aboriginal maternal and child health outcomes. This project will build the evidence base needed to design and implement effective strategies to close the gap in Aboriginal maternal and child health outcomes and reduce Indigenous disadvantage across the life course.
Unveiling the epigenome dynamics through the pluripotency continuum. This project aims to utilise stem cells and genomics based technologies, in combination with new computational algorithms to dissect the fundamental molecular events that drive the first steps during development. The project is expected to unveil the basic mechanisms underpinning how genes driving the developmental master plan are controlled in cells that have the capacity to give rise to the whole organism and placenta. The kn ....Unveiling the epigenome dynamics through the pluripotency continuum. This project aims to utilise stem cells and genomics based technologies, in combination with new computational algorithms to dissect the fundamental molecular events that drive the first steps during development. The project is expected to unveil the basic mechanisms underpinning how genes driving the developmental master plan are controlled in cells that have the capacity to give rise to the whole organism and placenta. The knowledge gained from this work will inform and guide future novel approaches, such as in assisted reproductive technologies or regenerative medicine.Read moreRead less
Smart polymer-DNA hybrids as recognition sites for advanced DNA nanotechnology applications. This project aims to design and synthesise a new family of DNA-conjugated chain transfer agents for the positional control of DNA in a broad range of 2D and 3D 'smart' polymer-DNA hybrid materials. These bioconjugated materials will be investigated to understand the fundamental self-assembly processes which underpin emerging dynamic DNA nanotechnologies. This timely research will revolutionise the use of ....Smart polymer-DNA hybrids as recognition sites for advanced DNA nanotechnology applications. This project aims to design and synthesise a new family of DNA-conjugated chain transfer agents for the positional control of DNA in a broad range of 2D and 3D 'smart' polymer-DNA hybrid materials. These bioconjugated materials will be investigated to understand the fundamental self-assembly processes which underpin emerging dynamic DNA nanotechnologies. This timely research will revolutionise the use of biologically inspired intelligent metamaterials for use in medical diagnostics, DNA computing and DNA nanomachines.Read moreRead less
Psyllids as biosecurity threats to plantation and native eucalypts in Australia and internationally. Psyllids are tiny cicada-like insects that are economic pests of forestry and horticulture because the saliva injected when feeding causes leaf death and some vector plant diseases. Advanced technologies and procedures will be used to determine what makes plants susceptible to psyllids and to improve Australian preparedness ahead of an incursion.