Small RNAs: what makes a plant, a plant. Understanding the roles of small RNAs and their pathways is a young field of research that is giving, and will continue to give, profound insights into how multicellular organisms regulate gene expression at a genomic level. Research in this area has already led to RNA interference technology, by which almost any gene can be switched off, and there is considerable potential for other gene silencing and trait modification technologies to emerge. The projec ....Small RNAs: what makes a plant, a plant. Understanding the roles of small RNAs and their pathways is a young field of research that is giving, and will continue to give, profound insights into how multicellular organisms regulate gene expression at a genomic level. Research in this area has already led to RNA interference technology, by which almost any gene can be switched off, and there is considerable potential for other gene silencing and trait modification technologies to emerge. The project will yield insights into fundamental biological processes which are expected to engender applications in agriculture and biotechnology. It will maintain and enhance Australia's position in this area.Read moreRead less
Using Law To Improve Population Health and the Quality of Health Care Services. There are huge gaps in our understanding of how legal rules and processes impact population health and the quality of health care services in Australia. This research program will begin to fill those gaps by addressing topical issues such as medical negligence litigation, the coroner's role in injury prevention, and the use of medical science in the courtroom. The findings will be useful to government policymakers, ....Using Law To Improve Population Health and the Quality of Health Care Services. There are huge gaps in our understanding of how legal rules and processes impact population health and the quality of health care services in Australia. This research program will begin to fill those gaps by addressing topical issues such as medical negligence litigation, the coroner's role in injury prevention, and the use of medical science in the courtroom. The findings will be useful to government policymakers, regulators, and judges, as well as professionals working in both the legal and health care fields. But most importantly, the findings will serve patients by helping to shape strategies and reforms that enable Australia's health care system to deliver services that are safer, of higher quality, fairer, and more efficient.Read moreRead less
Molecular Mechanisms of Biochemical Regulation: Neutron and X-ray Scattering Studies. This project will develop and use novel neutron and x-ray scattering methods to study the molecular mechanisms by which nature regulates biochemical processes. Healthy function requires cells to tightly control and coordinate a myriad of molecular activities. My research focuses on a set of interdependent molecular networks inside cells whose behavior is controlled by the so-called 'second messengers' that tr ....Molecular Mechanisms of Biochemical Regulation: Neutron and X-ray Scattering Studies. This project will develop and use novel neutron and x-ray scattering methods to study the molecular mechanisms by which nature regulates biochemical processes. Healthy function requires cells to tightly control and coordinate a myriad of molecular activities. My research focuses on a set of interdependent molecular networks inside cells whose behavior is controlled by the so-called 'second messengers' that translate external signals into the right cellular responses. The proposed experiments will provide a unique structural framework by which we can understand how these signals are transmitted. Such knowledge is an important foundation for advances in biomedical research and biotechnology applications.Read moreRead less
Molecular machines that drive microbial pathogens. We will provide a comprehensive understanding of molecular machines situated at the surface of bacteria. This ground-breaking research will provide excellent outcomes in the training of research students and staff: this project entails frontier technology, and the transfer of technological capabilities not currently available in Australia. Our study on a non-pathogenic species of bacteria is timely too for National security: related species of b ....Molecular machines that drive microbial pathogens. We will provide a comprehensive understanding of molecular machines situated at the surface of bacteria. This ground-breaking research will provide excellent outcomes in the training of research students and staff: this project entails frontier technology, and the transfer of technological capabilities not currently available in Australia. Our study on a non-pathogenic species of bacteria is timely too for National security: related species of bacteria were amongst the first organisms trialed as biological weapons, and the pathogenic species remain rated as Class 3 organisms by the Centers for Disease Control.Read moreRead less
New approaches to functional and structural genomics. Genome sequencing has revealed complete sets of macromolecules that make up our cells. We now need to learn how these macromolecules work together in a coordinated fashion. The proposed research will lead to the discovery of new biological molecules, interactions and processes essential for the function of cells, identify new therapeutic targets and strategies to combat disease, identify new concepts in bio- and nanotechnology, and train new ....New approaches to functional and structural genomics. Genome sequencing has revealed complete sets of macromolecules that make up our cells. We now need to learn how these macromolecules work together in a coordinated fashion. The proposed research will lead to the discovery of new biological molecules, interactions and processes essential for the function of cells, identify new therapeutic targets and strategies to combat disease, identify new concepts in bio- and nanotechnology, and train new interdisciplinary researchers. It will underpin the National Research Priorities (Frontier Technologies for Building and Transforming Australian Industries, and Promoting and Maintaining Good Health) and help Australia capitalise on a plethora of opportunities for future economic and health benefits.Read moreRead less
Reducing health inequities and social exclusion: improved theory, understanding and policies. This research will provide knowledge to help understanding of why some groups are less healthy and less included in the mainstream of society than others. Research evidence indicates that reducing differences in health status & making more citizens included in the activities of society has overall health benefits & is good for economic development. The program will provide Australian and other governmen ....Reducing health inequities and social exclusion: improved theory, understanding and policies. This research will provide knowledge to help understanding of why some groups are less healthy and less included in the mainstream of society than others. Research evidence indicates that reducing differences in health status & making more citizens included in the activities of society has overall health benefits & is good for economic development. The program will provide Australian and other governments with much improved evidence about what works, what does not work in terms of improving population health and so enable better decisions about which public programs to invest in. Thus the research conducted under this program will inform ways in which Australian and overseas populations can achieve long and more productive livesRead moreRead less
Molecular control of apoptosis and protein homeostasis. A million cells are produced every second by cell division. At the same time a million cells commit suicide by a process called apoptosis. When cells fail to die when they should they can develop into cancers. In heart attacks, stroke and neurodegenerative diseases, many cells appear to activate their self destruct mechanism to die unnecessarily. Drugs that can cause cancer cells to kill themselves, or drugs that prevent cells dying when th ....Molecular control of apoptosis and protein homeostasis. A million cells are produced every second by cell division. At the same time a million cells commit suicide by a process called apoptosis. When cells fail to die when they should they can develop into cancers. In heart attacks, stroke and neurodegenerative diseases, many cells appear to activate their self destruct mechanism to die unnecessarily. Drugs that can cause cancer cells to kill themselves, or drugs that prevent cells dying when they shouldn't, would make a major impact on many important diseases. Understanding the molecular mechanisms of cell death is the first step towards developing these drugs.Read moreRead less