Passive mechanical properties of human muscles. Australia has a strong record in the discipline of biomechanics. The proposed studies will help maintain Australia's standing in the discipline. They will provide fundamental new data on the properties of human muscles and basic insights into muscle growth and adaptation. The data will be used to develop more refined biomechanical models than is currently possible. The studies will also provide training in world-leading research methods for two PhD ....Passive mechanical properties of human muscles. Australia has a strong record in the discipline of biomechanics. The proposed studies will help maintain Australia's standing in the discipline. They will provide fundamental new data on the properties of human muscles and basic insights into muscle growth and adaptation. The data will be used to develop more refined biomechanical models than is currently possible. The studies will also provide training in world-leading research methods for two PhD students and a research associate.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668543
Funder
Australian Research Council
Funding Amount
$280,000.00
Summary
A high resolution, high-throughput chromatographic system for separation and characterisation of complex samples. Purchase of this equipment will support innovative and collaborative research addressing three of the National Research Priority areas. For example, defining novel drug delivery systems, or the chemical components present in Australia's bioresources, addresses 'Frontier technologies for building and transforming Australian industries', particularly the priority goals of breakthrough ....A high resolution, high-throughput chromatographic system for separation and characterisation of complex samples. Purchase of this equipment will support innovative and collaborative research addressing three of the National Research Priority areas. For example, defining novel drug delivery systems, or the chemical components present in Australia's bioresources, addresses 'Frontier technologies for building and transforming Australian industries', particularly the priority goals of breakthrough science and frontier technologies. The research into trace components in food products, and on fruit fly chemistry, relates to National Research priority four 'Safeguarding Australia', with a priority goal of protecting Australia from invasive diseases and pests. Nutraceutical research addresses the goal of 'Promoting and maintaining good health'.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230101025
Funder
Australian Research Council
Funding Amount
$456,106.00
Summary
Food for thought: identifying dietary influences on decision making. Cues that signal food are abundant in the surrounding environment, yet their ability to stimulate food consumption remains poorly understood. This project seeks to identify how food cues influence decision-making processes in the presence of food cues. It will also test how dietary habits alter responding to food cues, and explore the underlying neural mechanisms of these effects. Sophisticated behavioural neuroscience techniqu ....Food for thought: identifying dietary influences on decision making. Cues that signal food are abundant in the surrounding environment, yet their ability to stimulate food consumption remains poorly understood. This project seeks to identify how food cues influence decision-making processes in the presence of food cues. It will also test how dietary habits alter responding to food cues, and explore the underlying neural mechanisms of these effects. Sophisticated behavioural neuroscience techniques will be employed in a validated rodent model of the modern diet. Expected outcomes include new interdisciplinary knowledge identifying how nutritional choices influence cognition and the brain. The project should inform how the modern environment shapes dietary habits.Read moreRead less
Illuminating behavioural and environmental influences on human development. This project aims to investigate prehistoric human population growth by documenting nursing behaviour, developmental stress, and fine-scaled climate variation directly from the teeth of ancient children. Knowledge of the nexus of early childhood growth and ecological variation will shed light on modern human health and fertility, which in turn impact planetary health. Outcomes will provide further insight into humanity’s ....Illuminating behavioural and environmental influences on human development. This project aims to investigate prehistoric human population growth by documenting nursing behaviour, developmental stress, and fine-scaled climate variation directly from the teeth of ancient children. Knowledge of the nexus of early childhood growth and ecological variation will shed light on modern human health and fertility, which in turn impact planetary health. Outcomes will provide further insight into humanity’s unprecedented evolutionary success while augmenting multidisciplinary collaborative networks. This will further strengthen Australia’s pioneering role in the development of innovative technologies, and build key workforce capabilities of benefit for diverse fields such as public health and environmental science.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668471
Funder
Australian Research Council
Funding Amount
$262,706.00
Summary
Hyphenated Capillary Electrophoresis - Mass Spectrometry Facility. The requested funding will facilitate the expansion of the activities of the University of Tasmania (UTas) node of the Australian Centre for Research on Separation Science and its collaborators. This initiative will involve the application of integrated, high resolution technologies for the separation and identification of complex chemical and biological samples. The instrument is to be shared by a number of highly research-activ ....Hyphenated Capillary Electrophoresis - Mass Spectrometry Facility. The requested funding will facilitate the expansion of the activities of the University of Tasmania (UTas) node of the Australian Centre for Research on Separation Science and its collaborators. This initiative will involve the application of integrated, high resolution technologies for the separation and identification of complex chemical and biological samples. The instrument is to be shared by a number of highly research-active groups at UTas in the fields of chemistry, biochemistry, plant and agricultural science, Antarctic studies, and pharmacy where detailed structural identification of components separated from complex mixtures is essential. These projects all focus on fundamental and applied research of great national significance.Read moreRead less
Immobilised Lipid Chromatography for Membrane Protein Isolation and Analysis. Current techniques for membrane protein are inadequate for the emerging proteomic challenge, in which approximately 40% of proteins are predicted to be membrane associated. The aim of this proposal is to develop a new approach to purify membrane proteins using our recently-developed immobilised membrane chromatography materials. The present proposal will provide a new high-resolution separation technique that allows is ....Immobilised Lipid Chromatography for Membrane Protein Isolation and Analysis. Current techniques for membrane protein are inadequate for the emerging proteomic challenge, in which approximately 40% of proteins are predicted to be membrane associated. The aim of this proposal is to develop a new approach to purify membrane proteins using our recently-developed immobilised membrane chromatography materials. The present proposal will provide a new high-resolution separation technique that allows isolation and on-line mass analysis of complex mixtures of membrane proteins for subsequent proteomic analysis, high-throughput screening or structural studies and could form the basis for further development of new commercial tools for membrane protein analysis.Read moreRead less
Biological Role of Contraction-Induced Heat Shock Protein Expression. It is well known that mammalian skeletal muscle increases its expression of a group of highly conserved proteins, the heat shock proteins (HSP) in response to repeated contraction. However, the biological role of this expression is unclear. The aim of this project is to determine the biological role of contraction-induced HSP expression. We expect to show that HSP synthesis in response to exercise has three major roles; 1) to ....Biological Role of Contraction-Induced Heat Shock Protein Expression. It is well known that mammalian skeletal muscle increases its expression of a group of highly conserved proteins, the heat shock proteins (HSP) in response to repeated contraction. However, the biological role of this expression is unclear. The aim of this project is to determine the biological role of contraction-induced HSP expression. We expect to show that HSP synthesis in response to exercise has three major roles; 1) to act to repair damaged proteins in recovery from muscle injury 2) to act as a "molecular motor" to translocate proteins from one region of a muscle cell to another and 3) to be released into the circulation in order to act as a central signal to activate immune cells. Such a project will be significant because it will allow for a fundamental understanding as to why these proteins are produced in response to exercise. We expect to enhance our understanding of fundamental cell biology.Read moreRead less
Theoretical and experimental studies on magnetoelectroelastic bone remodelling process. The project combines biotechnology and material science which will have national economic, social and environment impact. It can benefit industry by providing knowledge that help scientists understand remodeling under coupled fields and is used to develop bone replacement. By better understanding remodeling due to multi-field loading, we can assist scientists in aeronautical industry in developing countermeas ....Theoretical and experimental studies on magnetoelectroelastic bone remodelling process. The project combines biotechnology and material science which will have national economic, social and environment impact. It can benefit industry by providing knowledge that help scientists understand remodeling under coupled fields and is used to develop bone replacement. By better understanding remodeling due to multi-field loading, we can assist scientists in aeronautical industry in developing countermeasures that reduce or eliminate bone loss resulting from long-duration space flight. It can provide knowledge that can be used to explore underlying mechanisms controlling bone remodeling and self-repair in gaining insight into debilitating diseases such as osteoporosis, to develop high-performance prosthetics for medical injury healing.Read moreRead less
Probing the Tasmanian Devil Serum Proteome for Preclinical Diagnosis of Devil Facial Tumour Disease. The Tasmanian Devil (Sarcophilus harrisii) is a carnivorous marsupial endemic to the island state of Tasmania, and is found all over the state. Over the past decade, a dramatic decline has occurred in the Devil population in association with the emergence of Devil Facial Tumour Disease (DFTD). This project aims to develop a preclinical diagnostic test for DFTD that will provide vital information ....Probing the Tasmanian Devil Serum Proteome for Preclinical Diagnosis of Devil Facial Tumour Disease. The Tasmanian Devil (Sarcophilus harrisii) is a carnivorous marsupial endemic to the island state of Tasmania, and is found all over the state. Over the past decade, a dramatic decline has occurred in the Devil population in association with the emergence of Devil Facial Tumour Disease (DFTD). This project aims to develop a preclinical diagnostic test for DFTD that will provide vital information for use in developing management strategies to ensure the ongoing survival of the Tasmanian Devil. The benefit to Australia in performing this research rests in the new technology that will be developed and the application of this technology to key areas of national and international significance.Read moreRead less
Higher cognition and hemispheric specialization in an avian species: referential and intentional communication. We will discover whether alarm calls of Australian magpies, noted for their outstanding range of vocalisations, are referential (signalling predator type and location) and intentional (vocalised in specific contexts). Such complex communication , once thought to be unique to humans, has been found in some mammals and just one avian species, the domestic chick. This project will be the ....Higher cognition and hemispheric specialization in an avian species: referential and intentional communication. We will discover whether alarm calls of Australian magpies, noted for their outstanding range of vocalisations, are referential (signalling predator type and location) and intentional (vocalised in specific contexts). Such complex communication , once thought to be unique to humans, has been found in some mammals and just one avian species, the domestic chick. This project will be the first such investigation of an avian species in its natural habitat. This is important also because bird and mammalian brains are organised differently and birds offer a unique opportunity to discover whether one hemisphere is specialised for this purpose.Read moreRead less