Discovery Early Career Researcher Award - Grant ID: DE120101311
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Role of intrinsic versus extrinsic cues in cell type determination during development and regeneration. During development all of the different cell types are generated by the action of genes and also signals from the embryo that read out which cell types are present or missing. This project studies how much environmental signals affect cell type generation developmentally and if they can be used to regenerate only the types missing in different diseases.
Epigenetic and neurobehavioural changes in a new mouse model of foetal alcohol spectrum disorders. Foetal alcohol syndrome involves changes in growth, skull structure, central nervous system defects and intellectual disabilities. This project will use a mouse model to study the underlying causes of this disorder, focussing on brain structure and function, and aim to identify markers that can be used for early diagnosis and treatment.
Insulin transport into the central nervous system. This project aims to understand transportation of peripheral insulin into the central nervous system and how it maintains energy balance. Insulin is essential for normal physiological functioning in the periphery and central nervous system, but some circumstances, including high-fat diets, reduce insulin signalling in the brain. This project examines the mechanisms of insulin transport into the central nervous system, and may improve our underst ....Insulin transport into the central nervous system. This project aims to understand transportation of peripheral insulin into the central nervous system and how it maintains energy balance. Insulin is essential for normal physiological functioning in the periphery and central nervous system, but some circumstances, including high-fat diets, reduce insulin signalling in the brain. This project examines the mechanisms of insulin transport into the central nervous system, and may improve our understanding of blood brain barrier insulin transport and dysfunction.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668450
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Upgrade of comparative phenotypical and functional cell analysis at James Cook University. North Queensland is a fast growing region with significant need for the development of a world-class research facility. James Cook University has recently established the Comparative Genomics Centre at the School of Pharmacy and Molecular Sciences, which will contribute to education and basic research in the region. The research outcomes from the projects of the Comparative Genomics Centre and affiliated l ....Upgrade of comparative phenotypical and functional cell analysis at James Cook University. North Queensland is a fast growing region with significant need for the development of a world-class research facility. James Cook University has recently established the Comparative Genomics Centre at the School of Pharmacy and Molecular Sciences, which will contribute to education and basic research in the region. The research outcomes from the projects of the Comparative Genomics Centre and affiliated laboratories facilitated by the analytical flow cytometer will support the definition and identification of the interactions between genetic and environmental factors in disease and will help to attract researchers. Results from this work will aid the search for therapies for specific health problems.Read moreRead less
How do interactions between axon guidance molecules bring about directed axon growth? This project deals with a fundamental, yet poorly understood biological problem at the cutting edge of international science - how axons navigate to their targets. A better understanding of this basic biological process will greatly assist the development of therapies to treat a wide range of clinical conditions in which axonal connections between neurons are disrupted by trauma or disease.
Development of the PD GeneChip: a research and diagnostic tool for Parkinson's disease. The PD GeneChip will provide both social and economic benefits to Australia. It will be a key research platform for Australian scientists, and will facilitate collaboration both within Australia and overseas. It will assist with health care management of PD (Parkinson's disease) patients by providing a cost-effective diagnostic tool and the possibility of predicting the clinical course of disease. This inform ....Development of the PD GeneChip: a research and diagnostic tool for Parkinson's disease. The PD GeneChip will provide both social and economic benefits to Australia. It will be a key research platform for Australian scientists, and will facilitate collaboration both within Australia and overseas. It will assist with health care management of PD (Parkinson's disease) patients by providing a cost-effective diagnostic tool and the possibility of predicting the clinical course of disease. This information will provide the basis for tailoring treatment to a patients needs. It is anticipated that marketing of the PD GeneChip within Australia and overseas may produce revenue of at least $40 million annually.Read moreRead less
Discovery Indigenous Researchers Development - Grant ID: DI0560757
Funder
Australian Research Council
Funding Amount
$160,896.00
Summary
Identification and Characterisation of Genes involved in the Copper Regulation of the Human Alzheimer's Disease Amyloid-Beta Precursor Protein (APP) Gene. Alzheimer's disease (AD) is the most common form of dementia in the ageing population. This research project aims to identify and characterise new genes involved in the copper regulation of the Alzheimer's disease gene. This may lead to the development of novel therapeutic targets and clinical intervention strategies as well as early diagnost ....Identification and Characterisation of Genes involved in the Copper Regulation of the Human Alzheimer's Disease Amyloid-Beta Precursor Protein (APP) Gene. Alzheimer's disease (AD) is the most common form of dementia in the ageing population. This research project aims to identify and characterise new genes involved in the copper regulation of the Alzheimer's disease gene. This may lead to the development of novel therapeutic targets and clinical intervention strategies as well as early diagnostic procedures in preventative healthcare for the treatment of AD. The benefits would affect the international community as a whole, potentially minimising the socio-economic costs arising from the predicted world-wide increase in AD in the ageing population.Read moreRead less
Identification of genetic polymorphisms of synaptically expressed genes that contribute to variation in normal brain function. This project focuses on understanding brain functions. Brain and mind disorders are by far the largest contributors to the burden of disability, far exceeding any other disorder. This research will contribute to knowledge through addressing the national research priority promoting and maintaining good health. The research outcomes will form the scientific knowledge base ....Identification of genetic polymorphisms of synaptically expressed genes that contribute to variation in normal brain function. This project focuses on understanding brain functions. Brain and mind disorders are by far the largest contributors to the burden of disability, far exceeding any other disorder. This research will contribute to knowledge through addressing the national research priority promoting and maintaining good health. The research outcomes will form the scientific knowledge base essential for the translation of the project into public benefit through their application in development of new testing paradigms for a range of brain and mind disorders. Read moreRead less
Imaging genetics in schizophrenia and bipolar disorder: shared neurocognitive endophenotypes. Combined, schizophrenia and bipolar disorder afflict approximately 506,000 Australians at any one time, and are leading causes of disability and national economic burden. This study will delineate genetic underpinnings for these conditions in association with specific neurocognitive dysfunctions that are common to both disorders. These findings have important implications for the implementation of perso ....Imaging genetics in schizophrenia and bipolar disorder: shared neurocognitive endophenotypes. Combined, schizophrenia and bipolar disorder afflict approximately 506,000 Australians at any one time, and are leading causes of disability and national economic burden. This study will delineate genetic underpinnings for these conditions in association with specific neurocognitive dysfunctions that are common to both disorders. These findings have important implications for the implementation of personalised pharmaceutical treatments on the basis of genotype, and the development of therapeutic agents to target cognitive function. These results will also aid detection of premorbid psychotic illness in young individuals who may benefit from early intervention that may thwart the illness trajectory. Read moreRead less
Molecular genetic analyses of trinucleotide repeat expansions. Several neuronal diseases like Huntington's disease, Frederick's ataxia and fragile X syndrome are caused by expansion of trinucleotide repeat sequences in the deoxyribonucleic acid (DNA). These diseases show progressive severity in subsequent generations. Here we use a simple plant model with a very similar DNA mutation to study the genetic basis of repeat expansions over several generations across populations. This proposal will im ....Molecular genetic analyses of trinucleotide repeat expansions. Several neuronal diseases like Huntington's disease, Frederick's ataxia and fragile X syndrome are caused by expansion of trinucleotide repeat sequences in the deoxyribonucleic acid (DNA). These diseases show progressive severity in subsequent generations. Here we use a simple plant model with a very similar DNA mutation to study the genetic basis of repeat expansions over several generations across populations. This proposal will improve our mechanistic understanding of genetic diseases in populations. In addition, this proposal is expected to lead to identification of potential targets and technologies that would be of interest to Australian industry.Read moreRead less