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Characterisation of p14ARF intracellular trafficking pathways. Over 3500 new cases of melanoma are diagnosed in NSW each year, and one of the most important proteins involved in suppressing melanoma initiation or growth is p14ARF. This project will characterise the movement and functions of this protein with the aim of identifying novel targets for more effective drug therapies.
Understanding the potency and role of individual stem cells in the skin using Rainbow technology. To renew itself, the skin and its components rely on the activity of stem cells. This project will define more precisely the role of each individual stem cell by labelling them with a unique colour and following its fate. This project has the potential to change our current view on how the skin maintains and repairs itself.
Modelling cell invasion incorporating the epithelial to mesenchymal transition: Exploring therapies to control wound healing and cancer progression. Cancer and wounds are closely related, commonly lethal, diseases. Both require cell growth and invasion. This project will apply experimental measurements to create new mathematical models of cancer and wounds; models that will inform new targets and strategies for the treatment of these deadly diseases.
CD151 and functional overlap in tetraspanins. The applicants are currently world leaders in the tetraspanin field. This project will enhance existing international collaborations to maintain and increase the applicants', and hence Australia's, international standing in this field and Australia's reputation in cell and molecular biology in general.
The project will greatly increase our understanding of this important but poorly understood family of proteins. It will also provide training opport ....CD151 and functional overlap in tetraspanins. The applicants are currently world leaders in the tetraspanin field. This project will enhance existing international collaborations to maintain and increase the applicants', and hence Australia's, international standing in this field and Australia's reputation in cell and molecular biology in general.
The project will greatly increase our understanding of this important but poorly understood family of proteins. It will also provide training opportunities for postgraduate students in state-of-the-art approaches in biotechnology.Read moreRead less
Biochemistry of tropoelastin: functional analysis of an essential cell-interactive domain. Elastin is ten times more durable than the best man-made synthetic rubbers because our bodies need to control life-threatening rips in skin, artery and lung. Warm-blooded animals use elastin to build diversely shaped elastic materials for multiple biological environments in these tissues. In this project, we will learn a lot more about the most preserved and functional part of elastin. These discoveries wi ....Biochemistry of tropoelastin: functional analysis of an essential cell-interactive domain. Elastin is ten times more durable than the best man-made synthetic rubbers because our bodies need to control life-threatening rips in skin, artery and lung. Warm-blooded animals use elastin to build diversely shaped elastic materials for multiple biological environments in these tissues. In this project, we will learn a lot more about the most preserved and functional part of elastin. These discoveries will increase our understanding of the grand architectural rules by which elastic protein-based structures are made. We will learn new ways to manage cell interactions in an elastic environment and define design rules to assist in the future design of new cell-binding, elastic, composite materials.Read moreRead less
Molecular, genetic and cellular analysis of melanisation in human pigmentation. This investigation examines variations in the genes that determine human skin pigmentation and are likely to be associated with skin cancer risk. Our research program will form the basis of future diagnostics based on major genes that determine a persons skin type. Current skin cancer prevention strategies rely predominantly on broad spectrum campaigns that are aimed at increasing the general community awareness of ....Molecular, genetic and cellular analysis of melanisation in human pigmentation. This investigation examines variations in the genes that determine human skin pigmentation and are likely to be associated with skin cancer risk. Our research program will form the basis of future diagnostics based on major genes that determine a persons skin type. Current skin cancer prevention strategies rely predominantly on broad spectrum campaigns that are aimed at increasing the general community awareness of the damaging effects of ultraviolet (UV) radiation. A better understanding of the genetic basis of UV-sensitive skin types will greatly enhance the targeting of such skin cancer-prevention campaigns, provide an understanding of changes that occur in skin pathology, and the mechanisms of sun induced tanning.Read moreRead less
Combined genetic and cellular analysis of melanisation to study variation in human pigmentation. This investigation examines variations in the genes that are important determinants of human skin pigmentation and are likely to be associated with skin cancer risk. Our research program will form the basis of future diagnostics based on major genes that determine a persons skin type. Current skin cancer prevention strategies rely predominantly on broad spectrum campaigns that are aimed at increasi ....Combined genetic and cellular analysis of melanisation to study variation in human pigmentation. This investigation examines variations in the genes that are important determinants of human skin pigmentation and are likely to be associated with skin cancer risk. Our research program will form the basis of future diagnostics based on major genes that determine a persons skin type. Current skin cancer prevention strategies rely predominantly on broad spectrum campaigns that are aimed at increasing the general community awareness of the damaging effects of UV radiation. A better understanding of the genetic basis of UV-sensitive skin types will greatly enhance the targeting of such skin cancer-prevention campaigns, provide an understanding of changes that occur in skin pathology, and the mechanisms of sun induced tanning.Read moreRead less
Parallel genetic and cellular analysis of melanogensis: A new paradigm to study variation in pigmentation. This is the first attempt to characterise the differences in human pigmentation using a combined genetic and cellular analysis of melanogenesis. We have the ability to culture the pigmenting cells of the human epidermis and hair follicles called melanocytes from individuals of defined genotype. This will allow us to correlate mutations in melanosomal proteins with functional defects withi ....Parallel genetic and cellular analysis of melanogensis: A new paradigm to study variation in pigmentation. This is the first attempt to characterise the differences in human pigmentation using a combined genetic and cellular analysis of melanogenesis. We have the ability to culture the pigmenting cells of the human epidermis and hair follicles called melanocytes from individuals of defined genotype. This will allow us to correlate mutations in melanosomal proteins with functional defects within the cells in culture using live cell imaging, electron microscopy and biochemical analysis. This will provide a molecular basis to explain the pigmentary characteristics of individuals allowing prediction and diagnosis of their photosensitivity with important implications for skin cancer risk.Read moreRead less
Targeting mitochondria with mitocans to treat cancer: mechanistic aspects. Mitochondria are the power-house of the cell and also the reservoir of proteins causing the demise of cancer cells, therefore suppressing tumour progression. This project proposes a novel way to modify certain compounds, increasing their level in mitochondria in order to maximise their anti-cancer effect.
Biochemistry of tropoelastin and elastin. Elastin is the main protein responsible for the elasticity of vertebrate tissues. The Weiss Lab makes large quantities of full-length tropoelastin, which is crosslinked to make elastin. We want to examine the biochemistry of tropoelastin, learn how its domains participate in elastin structure and assembly, and explore cellular responses to our synthetic elastin biomaterial. Remarkably little is known of this biochemistry because elastin is a highly cross ....Biochemistry of tropoelastin and elastin. Elastin is the main protein responsible for the elasticity of vertebrate tissues. The Weiss Lab makes large quantities of full-length tropoelastin, which is crosslinked to make elastin. We want to examine the biochemistry of tropoelastin, learn how its domains participate in elastin structure and assembly, and explore cellular responses to our synthetic elastin biomaterial. Remarkably little is known of this biochemistry because elastin is a highly cross-linked and substantially insoluble macroscopic network of tropoelastin multimers. Our availability of tropoelastin and synthetic elastin now makes these studies possible.Read moreRead less