Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882275
Funder
Australian Research Council
Funding Amount
$110,000.00
Summary
Facility for analysing behaviour, learning and motor skills in animal models. Mental disorders are one of the largest costs to the community today and account for more than 50% of the time lost from work. Moreover, these disorders are disabling conditions that relate to fundamental, basic questions of identity and individuality. This collaborative behavioural facility at The University of Queensland will underpin excellent research into how neurological changes affect behaviour and thinking, pro ....Facility for analysing behaviour, learning and motor skills in animal models. Mental disorders are one of the largest costs to the community today and account for more than 50% of the time lost from work. Moreover, these disorders are disabling conditions that relate to fundamental, basic questions of identity and individuality. This collaborative behavioural facility at The University of Queensland will underpin excellent research into how neurological changes affect behaviour and thinking, provide infrastructure to test current models on brain functions, and support the development of new compounds to treat these disorders, thus resulting in significant national and community benefits in improved health outcomes and increased work productivity.Read moreRead less
Neural circuits that mediate fear conditioning and extinction. Understanding of how the brain processes, stores and retrieves information and produces behavioural outcomes is in its infancy. This project will use electrophysiology and molecular techniques to understand the circuits that mediate one form of emotional learning.
Muscling in on the brain. This project investigates an enzyme that 'matures' neurotransmitters in the brain that regulate food intake, energy expenditure and blood pressure by the brain; these neurotransmitters arise from the same precursor molecule. This project will show the physiological relevance of this enzyme in obesity.
Deconstructing the neural circuits regulating appetite. This project aims to expand our knowledge about the neural circuits that influence a feeding response in the absence of emotional or cognitive obstacles. Feeding behaviour is a fundamental physiological process in all animals. Despite the seemingly simple endpoint, feeding behaviour is affected by numerous factors including stress and motivation that can inhibit feeding behaviour. This knowledge is critical to maximise growth and survival i ....Deconstructing the neural circuits regulating appetite. This project aims to expand our knowledge about the neural circuits that influence a feeding response in the absence of emotional or cognitive obstacles. Feeding behaviour is a fundamental physiological process in all animals. Despite the seemingly simple endpoint, feeding behaviour is affected by numerous factors including stress and motivation that can inhibit feeding behaviour. This knowledge is critical to maximise growth and survival in many Australian sectors including agriculture, conservation and basic science.Read moreRead less
Early life overfeeding - mechanisms for programming obesity and long-term immune dysfunction. Early life overfeeding can lead to obesity and related changes in adulthood. With this study we will discover how overfeeding can permanently alter an animal's development so that its body weight and immune functions are dysregulated. The outcomes will facilitate appropriate design of animal experiments considering the impact of neonatal programming. They will also contribute to more efficient feeding p ....Early life overfeeding - mechanisms for programming obesity and long-term immune dysfunction. Early life overfeeding can lead to obesity and related changes in adulthood. With this study we will discover how overfeeding can permanently alter an animal's development so that its body weight and immune functions are dysregulated. The outcomes will facilitate appropriate design of animal experiments considering the impact of neonatal programming. They will also contribute to more efficient feeding protocols for meat production in agriculture and identify targets for risk management and for preventing and ameliorating early life overfeeding effects in humans. This investigation therefore has clear benefits to the social, economic, and health aspects of obesity and to basic science and agriculture.Read moreRead less
How appetite-suppressing brain cells maintain normal function and prevent the development of obesity. The brain plays a critical role in body weight gain by balancing appetite-inducing and appetite-suppressing signals. An imbalance in this process causes obesity and promotes diabetes. The aim of this research is to identify how appetite-suppressing brain cells maintain normal function and prevent the development of obesity.
Investigating the mechanisms of flavonoid actions on glycine receptors. The research to be conducted in this project will use state-of-the-art electrophysiological and molecular biological approaches to carefully characterise the actions of certain flavonoid compounds on the glycine-receptor channel. These compounds have recently been reported to act as modulators of ligand-gated ion channels, proteins integral to brain function and disease. However, no-one has studied in any detail the mechan ....Investigating the mechanisms of flavonoid actions on glycine receptors. The research to be conducted in this project will use state-of-the-art electrophysiological and molecular biological approaches to carefully characterise the actions of certain flavonoid compounds on the glycine-receptor channel. These compounds have recently been reported to act as modulators of ligand-gated ion channels, proteins integral to brain function and disease. However, no-one has studied in any detail the mechanisms by which these compounds act. By discovering their site and mechanisms of action we will further our understanding of these important proteins and their modulation, maintain Australia's significant expertise in this field and provide leads for future development of drugs with potential therapeutic value.Read moreRead less
Understanding how the brain uses sensory information to guide reaching and grasping movements. Reaching, grasping and manipulating objects are crucial aspects of our daily lives, which are performed so effortlessly that they tend to be taken for granted. We know however that these functions take a relatively long time to mature (think of a baby learning how to get an object), and that they can be impaired by brain lesions involving a region called the posterior parietal cortex. We also know that ....Understanding how the brain uses sensory information to guide reaching and grasping movements. Reaching, grasping and manipulating objects are crucial aspects of our daily lives, which are performed so effortlessly that they tend to be taken for granted. We know however that these functions take a relatively long time to mature (think of a baby learning how to get an object), and that they can be impaired by brain lesions involving a region called the posterior parietal cortex. We also know that this region has multiple subdivisions, but how exactly these interact in allowing the sensory information to guide arm and hand muscles is unknown. Discovering how this happens in terms of cellular interaction can have profound implications for the creation of new technologies such as artificial limbs and autonomous robots, and result in health benefits.Read moreRead less
Transcriptional control of neural stem cell differentiation during development and disease. Understanding the molecular mechanisms that control how neural stem cells differentiate is critical to provide potential therapeutic treatment for neurodegenerative diseases and for brain cancer. This project will aim to discover, using an animal model system, the genes and molecules regulating these key biological processes.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100074
Funder
Australian Research Council
Funding Amount
$520,000.00
Summary
Facilities for automated high-throughput slide scanning and stereology. The equipment requested will facilitate the work of the Australian Mouse Brain Mapping Consortium, a consortium of Australian research groups collaborating to provide the only mouse model brain mapping capability in the country. The consortium brings together laboratory, neuroimaging and computational expertise in a comprehensive framework for imaging the mouse brain. This will help researchers to study mouse models of genet ....Facilities for automated high-throughput slide scanning and stereology. The equipment requested will facilitate the work of the Australian Mouse Brain Mapping Consortium, a consortium of Australian research groups collaborating to provide the only mouse model brain mapping capability in the country. The consortium brings together laboratory, neuroimaging and computational expertise in a comprehensive framework for imaging the mouse brain. This will help researchers to study mouse models of genetic and acquired disorders across the life-span. Remote viewing and analysis capabilities will help overcome the 'tyranny of distance', increasing national access to the facility. Repositories of digitised images will increase the availability of valuable research material to other Australian and international researchers.Read moreRead less