Mechanism of transmission of calcium waves by glial cells. This research concerns determining the fundamental properties of cells that occupy about 70% of the brain, the glial cells. Two very important discoveries on glial cells have recently been made, namely that they can convey information in the form of patterns of waves and that they possess molecules on their surface membranes that have been implicated in psychotic disorders. One such molecule is called the D2 receptor and its malfunctioni ....Mechanism of transmission of calcium waves by glial cells. This research concerns determining the fundamental properties of cells that occupy about 70% of the brain, the glial cells. Two very important discoveries on glial cells have recently been made, namely that they can convey information in the form of patterns of waves and that they possess molecules on their surface membranes that have been implicated in psychotic disorders. One such molecule is called the D2 receptor and its malfunctioning has been implicated in schizophrenia. Our research will determine the way in which information is propagated in the glial system of the brain and also illuminate the function of several of the molecules found on the surface of the glial cells.Read moreRead less
Neuron-microglia signalling mechanisms. This research concerns determining the fundamental mechanisms by which one of the principal non-neuronal cells in the brain , the microglial cell, interacts with neurons to change their properties. The correct functioning of neural networks is necessary for our normal behaviour. Such networks can be disrupted and indeed destroyed by the release of inflammatory molecules from microglial cells. In this work the way in which anti-inflammatory molecules are re ....Neuron-microglia signalling mechanisms. This research concerns determining the fundamental mechanisms by which one of the principal non-neuronal cells in the brain , the microglial cell, interacts with neurons to change their properties. The correct functioning of neural networks is necessary for our normal behaviour. Such networks can be disrupted and indeed destroyed by the release of inflammatory molecules from microglial cells. In this work the way in which anti-inflammatory molecules are released from the microglia will be elucidated, thus providing insight into how to prevent the destructive actions of the inflammatory molecules on the nervous system. Read moreRead less
Monotremes provide a key to understanding the molecular biology of mammalian gamete evolution. As the platypus and echidna (monotremes) are our most distant relatives among living mammals, interpreting their genome is important to determine the molecular sequences in human genes that are essential for fertility, and possibly responsible for infertility. As the only country with monotremes accessible for research, Australia has a responsibility to promote the work. The research can be applied to ....Monotremes provide a key to understanding the molecular biology of mammalian gamete evolution. As the platypus and echidna (monotremes) are our most distant relatives among living mammals, interpreting their genome is important to determine the molecular sequences in human genes that are essential for fertility, and possibly responsible for infertility. As the only country with monotremes accessible for research, Australia has a responsibility to promote the work. The research can be applied to improve the poor breeding record in zoos of these unique, iconic Australian fauna which generate considerable tourist interest. Publication of monotreme research attracts considerable publicity internationally. Publication of the platypus genome sequence in 2008 attracted headlines all over the world.Read moreRead less
Novel ways of regulating epithelial transport. This project is intended to discover novel intracellular mechanisms that regulate the rate of ion transport by the lung, the gut and the kidney. It will not only provide new insights into how the body controls a process that is critical to animal life, but also provide new targets for the development of pharmaceuticals.
A molecular structure-function investigation of major membrane channels involved in olfactory transduction. Olfactory receptor neurons are extraordinarily-sensitive sensors for detecting minute concentrations of odorant molecules. This project aims to extend our previous studies of these specialised mammalian olfactory cells by using state-of-the art technologies: electrophysiology (patch-clamp) and molecular biology (site-directed-mutagenesis), to investigate how the molecular structure of the ....A molecular structure-function investigation of major membrane channels involved in olfactory transduction. Olfactory receptor neurons are extraordinarily-sensitive sensors for detecting minute concentrations of odorant molecules. This project aims to extend our previous studies of these specialised mammalian olfactory cells by using state-of-the art technologies: electrophysiology (patch-clamp) and molecular biology (site-directed-mutagenesis), to investigate how the molecular structure of their ion channels (selective protein pores) and receptors contribute to the odorant-induced generation of electrical activity, which mediates our sense of smell (olfaction). The project has specific relevance for understanding olfaction, as well as relevance for other sensory systems and other ion channels.Read moreRead less
Phospholipids and kinases as regulators of epithelial sodium channels. The intracellular signalling pathways that will be identified in this project will facilitate the development of novel therapies for the many conditions in which the activity of epithelial sodium channels is abnormal. These include influenza, otitis media, high blood pressure and cystic fibrosis. It will also provide training for post-doctoral fellows and research students in a number of the key techniques in modern cellular ....Phospholipids and kinases as regulators of epithelial sodium channels. The intracellular signalling pathways that will be identified in this project will facilitate the development of novel therapies for the many conditions in which the activity of epithelial sodium channels is abnormal. These include influenza, otitis media, high blood pressure and cystic fibrosis. It will also provide training for post-doctoral fellows and research students in a number of the key techniques in modern cellular physiology.Read moreRead less
Inhibitory control of retinal sensitivity. We will determine how the nerve cells that carry information from the eye to the brain are always able to provide signals despite very different environments; daylight, fog and night. Knowledge of how nerve cells achieve this rapid learning is important for any understanding of brain function; it is fundamental if we are to develop machines that see or that help restore vision in humans. The project will provide the world's first look at the synaptic ph ....Inhibitory control of retinal sensitivity. We will determine how the nerve cells that carry information from the eye to the brain are always able to provide signals despite very different environments; daylight, fog and night. Knowledge of how nerve cells achieve this rapid learning is important for any understanding of brain function; it is fundamental if we are to develop machines that see or that help restore vision in humans. The project will provide the world's first look at the synaptic physiology that underpins all visual perception, helping to bring Australia back to the forefront of research in this field. This new collaboration between two successful researchers will attract top quality students and researchers from Australia and abroad and be published in major journals.Read moreRead less
Novel kinases: How do they regulate epithelial ion transport, and what is their role in epithelial function? The project will produce the knowledge of fundamental physiology that will lead to novel approaches for treating respiratory and gastrointestinal infections and cystic fibrosis, as well as for the accumulation of fluid in the lungs and abdomen that accompany many advanced malignancies. It thus has the potential to have a significant economic and social impact in Australia and internation ....Novel kinases: How do they regulate epithelial ion transport, and what is their role in epithelial function? The project will produce the knowledge of fundamental physiology that will lead to novel approaches for treating respiratory and gastrointestinal infections and cystic fibrosis, as well as for the accumulation of fluid in the lungs and abdomen that accompany many advanced malignancies. It thus has the potential to have a significant economic and social impact in Australia and internationally. Furthermore, it will provide advanced training in research methods to Australian scientists, equipping them to undertake challenging and interesting positions in the medical and life sciences and beyond.Read moreRead less
Use of Gradipore technology to develop novel methods for the preparation and segregation of mammalian spermatozoa. The purpose of this project is to harness the expertise available within an Australian biotechnology company, Gradipore, to develop novel methods for the preparation of mammalian spermatozoa and the segregation of these cells into X-and Y- bearing populations. This technology will find application in: (1)clinical andrology, where rapid, safe protocols for the preparation and segrega ....Use of Gradipore technology to develop novel methods for the preparation and segregation of mammalian spermatozoa. The purpose of this project is to harness the expertise available within an Australian biotechnology company, Gradipore, to develop novel methods for the preparation of mammalian spermatozoa and the segregation of these cells into X-and Y- bearing populations. This technology will find application in: (1)clinical andrology, where rapid, safe protocols for the preparation and segregation of human spermatozoa are being actively sought in the context of assisted conception and the management of sex-linked genetic diseases and (2) agriculture, particularly the cattle industry, where a capacity to predetermine the sex of the offspring would be extremely valuable.Read moreRead less
A mathematical model of calcium signalling in single cells and in multicellular systems. Calcium released from stores inside cells plays a vital signalling role in living organisms. It initiates cell division after fertilization, mediates communication and learning in the nervous system, causes contraction in the muscular walls of arteries and plays an important but as yet poorly understood role in the information processing that occurs in systems of coupled glial cells. We will construct a uni ....A mathematical model of calcium signalling in single cells and in multicellular systems. Calcium released from stores inside cells plays a vital signalling role in living organisms. It initiates cell division after fertilization, mediates communication and learning in the nervous system, causes contraction in the muscular walls of arteries and plays an important but as yet poorly understood role in the information processing that occurs in systems of coupled glial cells. We will construct a unified mathematical model of calcium signalling in multicellular systems, starting from the known processes in single cells, and use it to gain insight into the functioning and possible dysfunctioning of calcium-mediated intercellular communication.Read moreRead less