Globally, zebrafish are making a very significant impact on biomedical research. Zebrafish have a number of attributes that make them ideal models for the study of development and disease, including: - adults are relatively small, so housing is cheap - eggs are transparent, so early developmental processes can be visualized easily - development is rapid - organs are made in 1-7 days - zebrafish are vertebrates and thus have a gene complement very similar to humans - large numbers of eggs are pro ....Globally, zebrafish are making a very significant impact on biomedical research. Zebrafish have a number of attributes that make them ideal models for the study of development and disease, including: - adults are relatively small, so housing is cheap - eggs are transparent, so early developmental processes can be visualized easily - development is rapid - organs are made in 1-7 days - zebrafish are vertebrates and thus have a gene complement very similar to humans - large numbers of eggs are produced each week from a single mother, aiding experimentation - ENU mutagenesis screens have generated thousands of useful mutants, including an increasing number that accurately model human genetic diseases - high-resolution imaging of RNA and protein expression in whole embryos is easy - drugs and chemicals can be easily tested for activities in zebrafish by adding them to the water Becuase of these attributes, zebrafish are becoming the model organism of choice for the study to human development and disease - indeed, the zebrafish field is growing at three times the rate of the mouse field. The international biomedical community has invested very heavily in infrastructure to aid the zebrafish community in realising the potential of this model. In Australia we have very strong basic research teams whom have embraced zebrafish mdoels. However, we lag behind other parts of the world in that, as yet, we have not had much specific funding allocated to animal model infrastructure. This Enabling Grant will build unique infrastructure by bringing together the zebrafish community with two areas in which Australia is very strong - genomics and biodiversity. This will result in a greatly enhanced ability to determine how genes work, and a pipeline for screening Australia's rich source of natural products and chemical libraries for activites against common human diseases such as cancer, dementia, and muscle diseases using zebrafish models.Read moreRead less
Australian Drosophila Biomedical Research Support Facility
Funder
National Health and Medical Research Council
Funding Amount
$1,008,895.00
Summary
Breakthroughs in biomedical research frequently come from the study of model organisms, one of the most important of which is the vinegar fly, Drosophila melanogaster. In Australia, Drosophila is used in biomedical research with a particular focus on understanding processes that result in human cancer or are associated with birth defects or inherited diseases. Drosophila-based research is funded by bodies such as the Anti-Cancer Foundation, the National Health and Medical Research Council (NH an ....Breakthroughs in biomedical research frequently come from the study of model organisms, one of the most important of which is the vinegar fly, Drosophila melanogaster. In Australia, Drosophila is used in biomedical research with a particular focus on understanding processes that result in human cancer or are associated with birth defects or inherited diseases. Drosophila-based research is funded by bodies such as the Anti-Cancer Foundation, the National Health and Medical Research Council (NH and MRC) and the National Institutes of Health of the USA. This proposal seeks to establish infrastructure support for Drosophila research in the form of a central collection of key research stocks, a centralized facility for the importation of genetically defined stocks and a facility for the generation of transgenic Drosophila for use in biomedical research.Read moreRead less
The proposal is to set-up a high-standard cell culture facility that will enable the establishment of a national repository of quality-controlled vertebrate cell lines derived from various tissues and species. This will facilitate high quality studies in a wide range of areas of basic health and medical research and in biotechnology.
The Australian Proteomics Computational Facility (APCF)
Funder
National Health and Medical Research Council
Funding Amount
$2,509,000.00
Summary
In recent years, Australia has invested in the equipment capable of identifying proteins important in health and medicine. This sophisticated equipment requires high capacity computing support. The Australian Proteomics Computational Facility will establish a single advanced computing cluster accessible to scientists at proteomics centres all over the country. This integrated approach to proteomics computing and the sharing of databases will put Australia at the forefront of the world�s efforts ....In recent years, Australia has invested in the equipment capable of identifying proteins important in health and medicine. This sophisticated equipment requires high capacity computing support. The Australian Proteomics Computational Facility will establish a single advanced computing cluster accessible to scientists at proteomics centres all over the country. This integrated approach to proteomics computing and the sharing of databases will put Australia at the forefront of the world�s efforts to identify the proteins associated with the early detection of our major diseasesRead moreRead less