Regulation of Stress Hormone Receptors in the Brain. Our research will provide information on how the brain controls our response to stress and will allow the development of targeted strategies to reduce the possibility during chronic stress of the development of conditions such as anxiety and depression. This will improve mental health outcomes in Australia and add to Australia's economic and social stability.
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
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
Molecular Investigations into Polyglutamine Repeat Proteins. The proposed research program, will provide significant fundamental insight into the processes that control protein aggregation and disease. Investigating processes central to protein aggregation is important, as it will further our understanding of these critically-important events and our understanding of disease processes. Such knowledge will increase Australia's international research standing, as well as having the potential to ....Molecular Investigations into Polyglutamine Repeat Proteins. The proposed research program, will provide significant fundamental insight into the processes that control protein aggregation and disease. Investigating processes central to protein aggregation is important, as it will further our understanding of these critically-important events and our understanding of disease processes. Such knowledge will increase Australia's international research standing, as well as having the potential to generate novel therapies, that prevent neurodegeneration.Read moreRead less
Analysing the detrimental effects of polyglutamine expansion. The proposed research program, will provide significant fundamental insight into the processes that control protein aggregation and its link with disease. Investigating processes central to protein aggregation is important as it will deepen our understanding of how proteins inappropriately change shape and our understanding of disease processes. Such knowledge will increase Australia's international research standing, as well as ha ....Analysing the detrimental effects of polyglutamine expansion. The proposed research program, will provide significant fundamental insight into the processes that control protein aggregation and its link with disease. Investigating processes central to protein aggregation is important as it will deepen our understanding of how proteins inappropriately change shape and our understanding of disease processes. Such knowledge will increase Australia's international research standing, as well as having the potential to generate novel therapies, that prevent neurodegeneration.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668246
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Advanced Cell Labelling and Imaging Facility. Understanding the genetic regulation of cellular processes such as migration, differentiation and growth is an important frontier technology with significant biomedical potential. The Australian community is facing an increasing need to provide solutions for a variety of human diseases and disorders, including birth defects, nervous system injury and stroke, and ageing-related conditions. The proposed facility will allow researchers to test in vivo g ....Advanced Cell Labelling and Imaging Facility. Understanding the genetic regulation of cellular processes such as migration, differentiation and growth is an important frontier technology with significant biomedical potential. The Australian community is facing an increasing need to provide solutions for a variety of human diseases and disorders, including birth defects, nervous system injury and stroke, and ageing-related conditions. The proposed facility will allow researchers to test in vivo gene/pharmaceutical therapies as well as to better understand the genetic regulation of normal cellular processes. Read moreRead less
Cytopathological roles of AMPK in mitochondrial dysfunction. This research project will benefit the Australian community by deepening our understanding of mitochondrial and neurodegenerative diseases. These diseases are incurable and treatment options are limited. The knowledge gained in this project should assist in the development of new or improved treatments. The project will also contribute to the training of young scientists in biomedical research and will enhance Australia's international ....Cytopathological roles of AMPK in mitochondrial dysfunction. This research project will benefit the Australian community by deepening our understanding of mitochondrial and neurodegenerative diseases. These diseases are incurable and treatment options are limited. The knowledge gained in this project should assist in the development of new or improved treatments. The project will also contribute to the training of young scientists in biomedical research and will enhance Australia's international scientific reputation because it involves a significant and novel biomedical discovery.
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Role of the GxxxG domain in the function of mammalian prion proteins. Prion proteins have been associated with a number of diseases of humans and animals (such as Creutzfeldt-Jakob Disease in humans and BSE, or 'mad-cow' disease in cattle) which have had major public health, social and economic consequences in countries where they have been detected. This project will identify mechanisms by which a highly conserved region of the prion protein plays a role in the conversion to the disease associa ....Role of the GxxxG domain in the function of mammalian prion proteins. Prion proteins have been associated with a number of diseases of humans and animals (such as Creutzfeldt-Jakob Disease in humans and BSE, or 'mad-cow' disease in cattle) which have had major public health, social and economic consequences in countries where they have been detected. This project will identify mechanisms by which a highly conserved region of the prion protein plays a role in the conversion to the disease associated form. This will provide avenues for identifying the normal function of the prion protein, and increase our knowledge of prion biology. This will benefit both in terms of healthy ageing and in protecting the agriculture sector from prion diseases in farmed animals.Read moreRead less
Gene Discovery and Functional Analysis of Copper Homeostasis Genes in Drosophila. Copper is a vital nutrient required for the formation and maintenance of bones, blood vessels and the central nervous system, but copper is also potentially toxic when in excess. Homeostatic mechanisms are needed to maintain safe levels of copper in the body and disruptions to these mechanisms are associated with disorders such as Alzheimer's disease, heart disease and osteoporosis. We are investigating the regulat ....Gene Discovery and Functional Analysis of Copper Homeostasis Genes in Drosophila. Copper is a vital nutrient required for the formation and maintenance of bones, blood vessels and the central nervous system, but copper is also potentially toxic when in excess. Homeostatic mechanisms are needed to maintain safe levels of copper in the body and disruptions to these mechanisms are associated with disorders such as Alzheimer's disease, heart disease and osteoporosis. We are investigating the regulation of a key copper pump, the Menkes protein, which helps control copper levels in the body and we are using the genetic advantages of the fruit fly Drosophila to discover new genes that regulate Menkes activity and therefore copper levels. These studies could lead to novel therapies for a range of copper-related disorders.Read moreRead less