The molecular basis of macropinocytosis in mammalian cells: the composition of endosome proteins and their function. Individual cells communicate with their immediate environment by the process of macropinocytosis, a process that involves the exchange of materials between the extracellular space and a specialised region of the cell termed endosomes. It is an important process in mammalian cells being essential to the correct functioning of many tissues. This project will advance understanding of ....The molecular basis of macropinocytosis in mammalian cells: the composition of endosome proteins and their function. Individual cells communicate with their immediate environment by the process of macropinocytosis, a process that involves the exchange of materials between the extracellular space and a specialised region of the cell termed endosomes. It is an important process in mammalian cells being essential to the correct functioning of many tissues. This project will advance understanding of macropinocytosis at a molecular level. The project is relevant to understanding the functioning of normal cells and the means by which some pathogens can enter cells and also understanding processes involved in tumour progression and metastasis.Read moreRead less
A shipload of consequences: studying the impact of Old World diseases on native South American populations via ancient DNA. This pioneering project will give the first real-time picture of the genetic changes induced by epidemics in human populations. This will reveal important new information about the likely impact of future epidemics on the genetic diversity of the immune system in modern human populations and will be of substantial use in building epidemiological models. By proposing to comb ....A shipload of consequences: studying the impact of Old World diseases on native South American populations via ancient DNA. This pioneering project will give the first real-time picture of the genetic changes induced by epidemics in human populations. This will reveal important new information about the likely impact of future epidemics on the genetic diversity of the immune system in modern human populations and will be of substantial use in building epidemiological models. By proposing to combine state-of-the-art science with global problems of humanity, we will address Australia's interests in expanding scientific expertise beyond its borders and place Australia at the leading edge of disease impact studies.Read moreRead less
Lipid raft and cyotoskeleton organization: How membrane domains give cells direction. For a large number of cells in our body it is imperative that they are able to orientate themselves relative to their environment, sense direction and translate incoming signals. To do so it is hypothesised that lipids on the cell surface are redistributed to form specialized domains. An asymmetric distribution of membrane domains can provide cells with a front and rear end and can further concentrate and co-or ....Lipid raft and cyotoskeleton organization: How membrane domains give cells direction. For a large number of cells in our body it is imperative that they are able to orientate themselves relative to their environment, sense direction and translate incoming signals. To do so it is hypothesised that lipids on the cell surface are redistributed to form specialized domains. An asymmetric distribution of membrane domains can provide cells with a front and rear end and can further concentrate and co-ordinate signalling molecules to a specific site. The project will determine the role of lipid domain in stabilizing cell shape and their remodelling during cell migration, the digestion of foreign particles and the formation of cell-cell contacts.Read moreRead less
Function and regulation of the Schlafen gene family: novel regulators of blood cell proliferation and function. The immediate outcomes of the proposed research will be in fundamental knowledge and understanding of important cellular and biological processes in which the Schlafen genes are involved. In particular, Schlafen genes are likely to play a role in inflammatory responses and in blood cell growth. These process clearly have relevance to a range of major human (and animal) diseases includ ....Function and regulation of the Schlafen gene family: novel regulators of blood cell proliferation and function. The immediate outcomes of the proposed research will be in fundamental knowledge and understanding of important cellular and biological processes in which the Schlafen genes are involved. In particular, Schlafen genes are likely to play a role in inflammatory responses and in blood cell growth. These process clearly have relevance to a range of major human (and animal) diseases including infectious disease, auto-immune disease and leukaemia, and thus a long-term outcome may be improved treatments for such disease. Read moreRead less
Structure and function of novel macrophage proteins using high throughput crystallography. We will combine the cutting edge technologies of microarray analysis and high throughput crystallography in an innovative approach to study the structure and function of important and uncharacterised macrophage proteins. Our strategy for targeting novel macrophage proteins will maximise the success rate of structure determination, while at the same time focusing our efforts on proteins that are important i ....Structure and function of novel macrophage proteins using high throughput crystallography. We will combine the cutting edge technologies of microarray analysis and high throughput crystallography in an innovative approach to study the structure and function of important and uncharacterised macrophage proteins. Our strategy for targeting novel macrophage proteins will maximise the success rate of structure determination, while at the same time focusing our efforts on proteins that are important in macrophage biology. Structures of the novel proteins will underpin functional analysis at a molecular level and could represent a basis for inhibitor design should the proteins ultimately be shown to be therapeutic targets.Read moreRead less
GENOMIC/PHENOMIC IDENTIFICATION AND CHARACTERISATION OF NOVEL HEMATOPOIETIC REGULATORS. Blood cells are fundamental to health. They play a vital role in maintaining the condition of tissues and organs, fight infections and are essential players in the body's response to injury. Understanding how blood cells are produced and how they function is critical to improving the treatment of disease. With the sequencing of the genome, we now have the tools we need to find the genes controlling these proc ....GENOMIC/PHENOMIC IDENTIFICATION AND CHARACTERISATION OF NOVEL HEMATOPOIETIC REGULATORS. Blood cells are fundamental to health. They play a vital role in maintaining the condition of tissues and organs, fight infections and are essential players in the body's response to injury. Understanding how blood cells are produced and how they function is critical to improving the treatment of disease. With the sequencing of the genome, we now have the tools we need to find the genes controlling these processes. This project will harness the power of modern genetic technologies to dissect the role of novel genes involved in blood cell formation and function, and will open up new therapeutic opportunities for treating the many diseases associated with dysregulation of this important cell system. Read moreRead less