Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668526
Funder
Australian Research Council
Funding Amount
$542,000.00
Summary
Biomolecular discovery and analysis facility. This facility will provide Australian researchers with unrivalled access to advanced cell visualisation and analysis tools, which until very recently were only available to the pharmaceutical industry and large US and European institutions. The facility will allow new approaches to identifying novel natural products and understanding cell signalling pathways. Knowledge of these pathways and the identification of molecules that can affect them are key ....Biomolecular discovery and analysis facility. This facility will provide Australian researchers with unrivalled access to advanced cell visualisation and analysis tools, which until very recently were only available to the pharmaceutical industry and large US and European institutions. The facility will allow new approaches to identifying novel natural products and understanding cell signalling pathways. Knowledge of these pathways and the identification of molecules that can affect them are keys to understanding normal cellular physiology and identifying drug-like molecules able to inhibit malfunctioning pathways found in different disease such as cancer. The facility will accellerate drug discovery and basic research in cell biology and underpin National Research Priorities.Read moreRead less
Neurons isolated from embryonic stem cells as functional models for drug discovery. By using gene expression-based selection criteria embryonic stem cells can be driven to differentiate into specific neuronal lineages which show many of the morphological characteristics and immunocytochemical features of neurons in culture. There is, however, comparatively little evidence indicating that these stem cell-derived neurons actually behave as neurons. Our aim is to characterise and contrast four ne ....Neurons isolated from embryonic stem cells as functional models for drug discovery. By using gene expression-based selection criteria embryonic stem cells can be driven to differentiate into specific neuronal lineages which show many of the morphological characteristics and immunocytochemical features of neurons in culture. There is, however, comparatively little evidence indicating that these stem cell-derived neurons actually behave as neurons. Our aim is to characterise and contrast four neuronal cell cultures established with gene-based selection criteria. These cultures will be characterised by gene expression, immunocytochemistry, radiolabelled neurotransmitter release, electrophysiology and Ca2+ imaging studies. This study will highlight the functional effects of gene selection procedures upon stem cell-derived neurons.Read moreRead less
Biased information processing in anxiety: Low anxiety scores, but still at risk. Information processing in anxious persons is biased if confronted with threatening stimulus materials such as words or pictures. This finding has considerable implications for our understanding of fear acquisition and maintenance and for the design of therapeutic interventions. More recent research has shown, however, that low anxious persons who employ repressive coping styles show similar biases. The present proj ....Biased information processing in anxiety: Low anxiety scores, but still at risk. Information processing in anxious persons is biased if confronted with threatening stimulus materials such as words or pictures. This finding has considerable implications for our understanding of fear acquisition and maintenance and for the design of therapeutic interventions. More recent research has shown, however, that low anxious persons who employ repressive coping styles show similar biases. The present project will follow up on these findings by combining the expertises of the two CIs in contemporary cognitive and psychophysiological research. It will not only provide new insights, but also offer research opportunities for postgraduate students, and prospects for future collaborative funding.Read moreRead less
Human learning of likes and dislikes: A test of the dual process account and an investigation of its neural substrates. Dual process accounts of human affective learning hold that affective learning, the learning of likes and dislikes, and relational learning, the learning of predictive relationships, reflect separate learning mechanisms. Affective learning, for instance, is said not to extinguish, a claim that has far reaching consequences for the design of behaviourally based treatments of a ....Human learning of likes and dislikes: A test of the dual process account and an investigation of its neural substrates. Dual process accounts of human affective learning hold that affective learning, the learning of likes and dislikes, and relational learning, the learning of predictive relationships, reflect separate learning mechanisms. Affective learning, for instance, is said not to extinguish, a claim that has far reaching consequences for the design of behaviourally based treatments of anxiety. The project will test this and other predictions of dual process accounts. Moreover, it will extent the experimental analysis of affective learning to the acquisition of likes and identify the cortical bases for aversive, appetitive, and relational learning using event related functional magnetic resonance imaging.Read moreRead less
Special Research Initiatives - Grant ID: SR0354494
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
BRAINnet:
Brain Research And Integrative Neuroscience Network. The brain is the ultimate frontier of science, and its complexity requires an integrative approach to neuroscience. This initiative will facilitate a unique integration of disciplines (biological, physical, computational) and scales of focus (single neurons to networks to whole-brain), within a high profile Network of Australian and international players. The Network will be harnessed by a centralized hub for sharing of data and tec ....BRAINnet:
Brain Research And Integrative Neuroscience Network. The brain is the ultimate frontier of science, and its complexity requires an integrative approach to neuroscience. This initiative will facilitate a unique integration of disciplines (biological, physical, computational) and scales of focus (single neurons to networks to whole-brain), within a high profile Network of Australian and international players. The Network will be harnessed by a centralized hub for sharing of data and techniques, and mentoring of early career researchers. The principal socio-economic and discovery outcomes will flow from the exceptionally strong foundations in fundamental and applied science, established collaboration, and demonstrated capacity for development and commercialization of frontier biotechnologies.Read moreRead less
Learning and memory in the honeybee: Task-dependent brain development. We wish to explore whether the development of specific brain regions in young bees depends upon the nature of the learning task in which they are engaged. We will examine tasks that involve two sensory modalities: olfaction and vision, both of which are important to successful foraging. The relative ease with which bees can be trained, and their nervous systems accessed, make them a very attractive subject in which to study f ....Learning and memory in the honeybee: Task-dependent brain development. We wish to explore whether the development of specific brain regions in young bees depends upon the nature of the learning task in which they are engaged. We will examine tasks that involve two sensory modalities: olfaction and vision, both of which are important to successful foraging. The relative ease with which bees can be trained, and their nervous systems accessed, make them a very attractive subject in which to study fundamental principles of learning and memory that may span a variety of organisms.Read moreRead less
The Flores hobbit - Homo floresiensis or microcephalic eastern Indonesian? The hobbit is so controversial as it implies that a tiny hominin with a miniature brain coexisted for 30,000 years with modern humans in our region. This would have immense, fundamental implications for understanding the human colonisation of our region and the role of brain size in human evolution. Our research will determine whether the alternative explanation of microcephalic pathology is viable. If so the hobbit would ....The Flores hobbit - Homo floresiensis or microcephalic eastern Indonesian? The hobbit is so controversial as it implies that a tiny hominin with a miniature brain coexisted for 30,000 years with modern humans in our region. This would have immense, fundamental implications for understanding the human colonisation of our region and the role of brain size in human evolution. Our research will determine whether the alternative explanation of microcephalic pathology is viable. If so the hobbit would still be of unique signficance as the only known microcephalic hunter-gatherer who had survived to adulthood. The role of Australian scientists in spearheading the hobbit discovery places a high priority on resolving the debate objectively.Read moreRead less
Higher cognitive functions emerging from a small brain. The honeybee is becoming one of the most attractive model systems in which to study processes of learning, memory and cognition, given its rich and flexible behaviour, its relatively simple nervous system, and a genome that is on the verge of being sequenced. We intend to examine how bees learn rules, associations, concepts and categories, and to uncover some of the underlying neuronal substrates. The results should illuminate fundamental p ....Higher cognitive functions emerging from a small brain. The honeybee is becoming one of the most attractive model systems in which to study processes of learning, memory and cognition, given its rich and flexible behaviour, its relatively simple nervous system, and a genome that is on the verge of being sequenced. We intend to examine how bees learn rules, associations, concepts and categories, and to uncover some of the underlying neuronal substrates. The results should illuminate fundamental principles of cognitive function across a variety of animal species, and suggest novel approaches to artificial intelligence.Read moreRead less
NEURAL MECHANISMS UNDERLYING VISUAL CONTROL OF FLIGHT IN HONEYBEES. Recent behavioural studies of freely flying bees have uncovered novel principles by which bees regulate flight speed, avoid collisions with obstacles, orchestrate smooth landings and estimate distance flown. This is a proposal to investigate the neural mechanisms that mediate these behaviours. The results will provide new insights into the mechanisms subserving flight control and navigation, as well as suggest innovative, biolog ....NEURAL MECHANISMS UNDERLYING VISUAL CONTROL OF FLIGHT IN HONEYBEES. Recent behavioural studies of freely flying bees have uncovered novel principles by which bees regulate flight speed, avoid collisions with obstacles, orchestrate smooth landings and estimate distance flown. This is a proposal to investigate the neural mechanisms that mediate these behaviours. The results will provide new insights into the mechanisms subserving flight control and navigation, as well as suggest innovative, biologically inspired stratagems for the guidance of autonomous aerial vehicles, with applications in national defence and planetary exploration.Read moreRead less
Force from lipids: the role of the lipid bilayer in mechanosensory transduction. The proposed research will significantly contribute to a better understanding of the wide range of physiological processes underlying mechanosensory transduction in living cells. The direct benefit for Australian science consists of: (i) strengthening international links with leading overseas laboratories, and (ii) accessing the state-of-the-art expertise not available in Australia. The acquired knowledge will aid i ....Force from lipids: the role of the lipid bilayer in mechanosensory transduction. The proposed research will significantly contribute to a better understanding of the wide range of physiological processes underlying mechanosensory transduction in living cells. The direct benefit for Australian science consists of: (i) strengthening international links with leading overseas laboratories, and (ii) accessing the state-of-the-art expertise not available in Australia. The acquired knowledge will aid in developing and designing artificial tactile sensors inspired by their biological models studied in this project. Long-term, the project is expected to make an original contribution towards developing new technologies and novel medical applications, both of which promise to be of great national benefit.Read moreRead less