Biomolecular surface interactions with smart biomaterials. Current materials used for medical implants are often recognised by the body as foreign materials causing implant rejection or encapsulation. Research into the interactions between biological molecules and chemically and topographically modified materials will aid in the development of new materials and devices that optimise the body's response to the implanted material. The new materials and surfaces developed from this research will pr ....Biomolecular surface interactions with smart biomaterials. Current materials used for medical implants are often recognised by the body as foreign materials causing implant rejection or encapsulation. Research into the interactions between biological molecules and chemically and topographically modified materials will aid in the development of new materials and devices that optimise the body's response to the implanted material. The new materials and surfaces developed from this research will provide longer lasting implants and reduce the need for repeated operations. This will improve the quality of life for implant recipients and reduce health care costs.Read moreRead less
Proteomic and Transcriptional Profiling of Cartilage. Gene expression and signalling pathways that regulate cartilage formation, and its orderly transition to bone, are poorly described. Our studies will, for the first time, combine two complementary cutting-edge approaches, protein identification by proteomic analysis, and mRNA profiling by microarray analysis, to define these pathways and develop a comprehensive catalogue of proteins and gene expression patterns during cartilage development a ....Proteomic and Transcriptional Profiling of Cartilage. Gene expression and signalling pathways that regulate cartilage formation, and its orderly transition to bone, are poorly described. Our studies will, for the first time, combine two complementary cutting-edge approaches, protein identification by proteomic analysis, and mRNA profiling by microarray analysis, to define these pathways and develop a comprehensive catalogue of proteins and gene expression patterns during cartilage development and bone formation. This information will provide insight into the regulation of cartilage differentiation, maturation and structure, and will provide a critical platform for the development of more sophisticated cartilage and bone biomaterials for improved tissue repair and regeneration.Read moreRead less
Characterization and optimisation of Myomatrix: A novel extracellular matrix hydrogel from muscle. This project would have several sources of benefit for the community. Foremost we will have produced a product that will have a strong commercial application in several fields including basic science and bioengineering. If its full potential were achieved, the development of this innovative new hydrogel would strengthen Australia's standing in the biotechnology field and also enrich specific applic ....Characterization and optimisation of Myomatrix: A novel extracellular matrix hydrogel from muscle. This project would have several sources of benefit for the community. Foremost we will have produced a product that will have a strong commercial application in several fields including basic science and bioengineering. If its full potential were achieved, the development of this innovative new hydrogel would strengthen Australia's standing in the biotechnology field and also enrich specific applications. The knowledge gained from the characterization of this product could also be of benefit to several areas including chemical engineering, tissue engineering, tissue repair, polymer chemistry and food manufacture. The expertise generated and the possibility of collaboration, both academic and with industry would also benefit the community. Read moreRead less
Neurons isolated from embryonic stem cells as functional models for drug discovery. By using gene expression-based selection criteria embryonic stem cells can be driven to differentiate into specific neuronal lineages which show many of the morphological characteristics and immunocytochemical features of neurons in culture. There is, however, comparatively little evidence indicating that these stem cell-derived neurons actually behave as neurons. Our aim is to characterise and contrast four ne ....Neurons isolated from embryonic stem cells as functional models for drug discovery. By using gene expression-based selection criteria embryonic stem cells can be driven to differentiate into specific neuronal lineages which show many of the morphological characteristics and immunocytochemical features of neurons in culture. There is, however, comparatively little evidence indicating that these stem cell-derived neurons actually behave as neurons. Our aim is to characterise and contrast four neuronal cell cultures established with gene-based selection criteria. These cultures will be characterised by gene expression, immunocytochemistry, radiolabelled neurotransmitter release, electrophysiology and Ca2+ imaging studies. This study will highlight the functional effects of gene selection procedures upon stem cell-derived neurons.Read moreRead less
Endosomal Protein Transport: From Molecular Structures to Biological Function. Intracellular transport of biomolecules through the endosomal organelle is critical for normal cellular processes such as signalling, homoeostasis and development. Defects in this fundamental process and subversion of it by bacterial and viral pathogens also lead to many different human diseases. This project will build on Australia's strong programme of structural and cellular biology research to develop key insights ....Endosomal Protein Transport: From Molecular Structures to Biological Function. Intracellular transport of biomolecules through the endosomal organelle is critical for normal cellular processes such as signalling, homoeostasis and development. Defects in this fundamental process and subversion of it by bacterial and viral pathogens also lead to many different human diseases. This project will build on Australia's strong programme of structural and cellular biology research to develop key insights into endosomal trafficking at the molecular level. Outcomes from this work will place Australia at the forefront of international efforts to understand this essential biological process and will have important implications for future design of pharmaceuticals.Read moreRead less
Protein degradation in mammals. One mechanism by which the regulation of protein turnover occurs is the balance between the activity of enzymes responsible for the ubiquitination and deubiquitination of target proteins. The majority of targets of this second family of enzymes are unknown. This project proposes a method for the identification of the targets of two specific mammalian deubiquitinating enzymes in order to understand their function and to begin to explore this new research field. ....Protein degradation in mammals. One mechanism by which the regulation of protein turnover occurs is the balance between the activity of enzymes responsible for the ubiquitination and deubiquitination of target proteins. The majority of targets of this second family of enzymes are unknown. This project proposes a method for the identification of the targets of two specific mammalian deubiquitinating enzymes in order to understand their function and to begin to explore this new research field. Knowledge about this new aspect of protein degradation could provide a powerful tool to test the effect of the stabilisation or removal of specific proteins in the cell and also to develop new technologies in protein production.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347955
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
A Cell Sorter Facility for Neuroscience and Related Biotechnology. Neuroscience is entering an era of accelerated discovery in which Queensland neuroscientists can excel if they gain leadership in key technologies. One critical technology is the ability to obtain specific cell populations from various parts of the nervous system in sufficient quantity and purity to enable their accurate examination by gene array, proteomics and physiological techniques. The aim is to establish the world's first ....A Cell Sorter Facility for Neuroscience and Related Biotechnology. Neuroscience is entering an era of accelerated discovery in which Queensland neuroscientists can excel if they gain leadership in key technologies. One critical technology is the ability to obtain specific cell populations from various parts of the nervous system in sufficient quantity and purity to enable their accurate examination by gene array, proteomics and physiological techniques. The aim is to establish the world's first cell-sorting facility dedicated to the production of nerve cells suitable for molecular characterization and screening, providing the basis for identifying key molecules regulating brain function, ageing and repair of great importance to the biotechnology/pharmaceutical industry.Read moreRead less
Novel approaches for structural and functional analysis of the protein complex COG, a tether that controls intra-Golgi trafficking. Production and engineering of proteins are key methodologies of the life sciences in general and biotechnology in particular. Our ability to produce and analyse protein-based components of the cell determines the expense and speed of discovery, as well as the creation of new vaccines, drugs, and diagnostic methods. The current project aims to develop new approaches ....Novel approaches for structural and functional analysis of the protein complex COG, a tether that controls intra-Golgi trafficking. Production and engineering of proteins are key methodologies of the life sciences in general and biotechnology in particular. Our ability to produce and analyse protein-based components of the cell determines the expense and speed of discovery, as well as the creation of new vaccines, drugs, and diagnostic methods. The current project aims to develop new approaches for protein production and to apply them to the analysis of the basic mechanisms of cell self-maintenance.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100125
Funder
Australian Research Council
Funding Amount
$330,000.00
Summary
Oxidative stress bioanalytical facility. The primary national benefit of this application is that it will provide a currently unavailable, state-of-the-art facility for Australian scientists to define precisely how changes in cellular redox state contribute to biological processes relevant to health and diseases. The facility will uniquely complement, and in many cases integrate with existing facilities in this area of research in Australia. It will act as a platform for major national and inter ....Oxidative stress bioanalytical facility. The primary national benefit of this application is that it will provide a currently unavailable, state-of-the-art facility for Australian scientists to define precisely how changes in cellular redox state contribute to biological processes relevant to health and diseases. The facility will uniquely complement, and in many cases integrate with existing facilities in this area of research in Australia. It will act as a platform for major national and international research collaborations, develop cutting-edge technology and unique local skills, and contribute to Australia maintaining a leading position in redox-related research in biology and medicine. In doing so, the facility will increase the likelihood of gaining future, value-adding funding.Read moreRead less
The molecular mechanism of retromer and sorting nexin function in endosomal membrane trafficking. The proposed research represents breakthrough science that will lead to a fundamental understanding at the molecular level of the structure and assembly of the retromer complex and how it regulates sorting of receptors in the endosomal system. It will provide excellent research training for top graduate students and post-doctoral scientists in multidisciplinary methods that constitute state-of the- ....The molecular mechanism of retromer and sorting nexin function in endosomal membrane trafficking. The proposed research represents breakthrough science that will lead to a fundamental understanding at the molecular level of the structure and assembly of the retromer complex and how it regulates sorting of receptors in the endosomal system. It will provide excellent research training for top graduate students and post-doctoral scientists in multidisciplinary methods that constitute state-of the-art structural and molecular cell biology research. By addressing an area of great interest internationally the project will have the capacity to increase Australia's knowledge base and strengthen it's reputation for research excellence.Read moreRead less