Studies Of Myeloid Leukaemogenesis In The Zebrafish
Funder
National Health and Medical Research Council
Funding Amount
$171,827.00
Summary
This project aims to investigate the causes of white blood cell cancer, or leukaemia, at the molecular level, using a novel approach in zebrafish. Zebrafish provide a powerful experimental model for developmental genetics, largely due to the visual and technical accessibility of embryos for experimentation. We plan to introduce a fluorescent molecular tag into the white blood cells in order to directly visualise them. We will then predispose these fish to leukaemia and screen for mutants with en ....This project aims to investigate the causes of white blood cell cancer, or leukaemia, at the molecular level, using a novel approach in zebrafish. Zebrafish provide a powerful experimental model for developmental genetics, largely due to the visual and technical accessibility of embryos for experimentation. We plan to introduce a fluorescent molecular tag into the white blood cells in order to directly visualise them. We will then predispose these fish to leukaemia and screen for mutants with enhanced or suppressed leukaemia. We anticipate that the mutants will allow new genes involved in the development of leukaemia to be identified.Read moreRead less
Models Of Cerebellar Function During Motor Learning
Funder
National Health and Medical Research Council
Funding Amount
$384,775.00
Summary
The cerebellum is responsible for smooth movements and for learning new patterns of motions, but many details of how it works are unclear. We aim to describe neural activity in the cerebellum while motor learning is in progress, and determine exactly what patterns of activity lead to the acquisition of new types of learned movement. The basic knowledge gained will contribute to a better understanding of cerebellar disorders including nystagmus, ataxia, and loss of motor control with ageing.
Production and application of novel diagnostic and therapeutic reagents using transgenic mice. The project will be a collaboration between the University of Queensland and PanBio Ltd. We intend to use humanized transgenic mice to produce fully human monoclonal antibodies. Fully human antibodies have great advantages over murine antibodies as diagnostics and therapeutics. These reagents will be used to 1)replace human sera , 2)replace antigens from infectious organisms in a range of diagnostic ....Production and application of novel diagnostic and therapeutic reagents using transgenic mice. The project will be a collaboration between the University of Queensland and PanBio Ltd. We intend to use humanized transgenic mice to produce fully human monoclonal antibodies. Fully human antibodies have great advantages over murine antibodies as diagnostics and therapeutics. These reagents will be used to 1)replace human sera , 2)replace antigens from infectious organisms in a range of diagnostic kits for animal and human infectious disease and 3) as therapeutic leads and 4)to discover vaccine leads. The project will allow production of diagnostic kits where this was previously not feasible or not economically viable (eg. uncommon and/or dangerous animal or human diseases) and will lead to development of novel infectious disease diagnostics and therapeutics.Read moreRead less
Microgenomics - a tool to dissect effects of salinity on gene expression in specific cell types of Arabidopsis and rice. This project will provide novel, fundamental understanding of the cell type-specific processes involved in salinity tolerance in higher plants. As such, it will impact on our understanding of a range of processes relevant to salinity tolerance, an area of great importance to Australian agriculture and environmental sustainability. The increased understanding arising from this ....Microgenomics - a tool to dissect effects of salinity on gene expression in specific cell types of Arabidopsis and rice. This project will provide novel, fundamental understanding of the cell type-specific processes involved in salinity tolerance in higher plants. As such, it will impact on our understanding of a range of processes relevant to salinity tolerance, an area of great importance to Australian agriculture and environmental sustainability. The increased understanding arising from this project will underpin future work to increase agricultural productivity and the quality of life for all in the Australian and international communities.Read moreRead less
SELECTIVE VULNERABILITY IN ALZHEIMER’S DISEASE AND RELATED DISORDERS: MECHANISM OF TAU PATHOLOGY
Funder
National Health and Medical Research Council
Funding Amount
$1,072,324.00
Summary
Alzheimer’s disease and related dementias affect 230,000 people in Australia, with numbers expected to grow to 730,000 by 2050. The direct costs for health and residential care alone exceed $6.6 billion per annum. By identifying genes that protect degenerating neurons in the Alzheimer brain, a deeper understanding of the underlying processes will be gained and therapeutic targets will be defined that will assist in developing a therapy for a yet uncurable disease.
Development of symbiont based approaches to pest and disease control in sugarcane. This project aims to develop a new approach to the control of insect damage to sugarcane in Australia. It focuses on the manipulation of bacteria that are intimately associated with insects that feed on sugarcane, so as to decrease their ability to cause crop damage both directly through feeding and indirectly through the transmission of disease