The role of turgor in hyphal extension of the Ascomycete Neurospora crassa. Cellular expansion is an absolute necessity during the growth and development of plants and fungi. This process relies heavily upon the accumulation of inorganic ions. Osmotically driven water influx then creates the hydrostatic pressure that underlies the increase in cell volume. Cellular expansion is normally asymmetric and localised in one small region, such as hyphal tip. How does the cell maintain the turgor that dr ....The role of turgor in hyphal extension of the Ascomycete Neurospora crassa. Cellular expansion is an absolute necessity during the growth and development of plants and fungi. This process relies heavily upon the accumulation of inorganic ions. Osmotically driven water influx then creates the hydrostatic pressure that underlies the increase in cell volume. Cellular expansion is normally asymmetric and localised in one small region, such as hyphal tip. How does the cell maintain the turgor that drives expansion? How is expansion controlled spatially? These questions will be addressed in this project by comprehensive study of ion transport processes in a model organism, Neurospora crassa, using osmotic sensitive and transport mutants.Read moreRead less
A microscopical examination of curdlan production by an Agrobacterium sp. We will investigate the secretion of the insoluble polysaccharide curdlan, a (1,3)-beta-glucan, from the surfaces of Agrobacterium cells and the assembly of the individual polysaccharide chains into microfibrils. Using state-of-the-art techniques in time lapse and electron microscopy we will compare the images of wild type curdlan-producing cells with those of mutants impaired in the production of curdlan. The outputs will ....A microscopical examination of curdlan production by an Agrobacterium sp. We will investigate the secretion of the insoluble polysaccharide curdlan, a (1,3)-beta-glucan, from the surfaces of Agrobacterium cells and the assembly of the individual polysaccharide chains into microfibrils. Using state-of-the-art techniques in time lapse and electron microscopy we will compare the images of wild type curdlan-producing cells with those of mutants impaired in the production of curdlan. The outputs will be information on the mechanics of curdlan production that will complement that emerging from our molecular biological and biochemical studies. These will have implications for understanding bacterial polysaccharide production in general and may have a commercial outcome in enhanced curdlan production.Read moreRead less
Ubiquinone in Giardia: Amitochondrial component in an amitochondriate parasite. Giardia intestinalis is a fascinating organism, it is one of the most primitive nucleated organisms known and is responsible for ~280 million infections annually. Ubiquinone is usually associated with mitochondrial function, however it has been found in Giardia, which lacks this organelle. Our initial studies show that in Giardia, ubiquinone plays essential roles in electron transport pathways associated with membr ....Ubiquinone in Giardia: Amitochondrial component in an amitochondriate parasite. Giardia intestinalis is a fascinating organism, it is one of the most primitive nucleated organisms known and is responsible for ~280 million infections annually. Ubiquinone is usually associated with mitochondrial function, however it has been found in Giardia, which lacks this organelle. Our initial studies show that in Giardia, ubiquinone plays essential roles in electron transport pathways associated with membrane energisation and oxidative stress management. Elucidation of these mechanisms will have a major impact on the understanding of Giardia and other anaerobic organisms as well as being of significant evolutionary and medical importance.
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Regulation of proteolysis by specialised adaptor proteins. Training research scientists of the future forms an integral part of this research program and this collaboration will provide an excellent opportunity for young Australian scientists to be exposed to the very professional and competitive environment of basic research, as it exists in Germany. It will expose early career researchers to new ideas and emerging methodologies arming them with valuable skills, which they will transfer to Aust ....Regulation of proteolysis by specialised adaptor proteins. Training research scientists of the future forms an integral part of this research program and this collaboration will provide an excellent opportunity for young Australian scientists to be exposed to the very professional and competitive environment of basic research, as it exists in Germany. It will expose early career researchers to new ideas and emerging methodologies arming them with valuable skills, which they will transfer to Australia. The involvement of Prof. Turgay in the Deutsche Forschungsgemeinschaft (DFG) Priority Programme: Proteolysis in Prokaryotes also provides a unique opportunity for these young researchers to interact with several of the worlds leading scientists in the area of proteolysis, enhancing Australia's reputation at the forefront of science.Read moreRead less
A unified approach to studies on mitochondrial biogenesis. Mitochondria supply the cell with the majority of its energy as well as performing other key functions. How mitochondrial processes are regulated within the cell is an important area of biology. The broad aims of this collaboration are to analyse processes involved in mitochondrial biogenesis using yeast and mammalian cells as model systems. In particular the protein import processes and mitochondrial stress responses will be studied. Th ....A unified approach to studies on mitochondrial biogenesis. Mitochondria supply the cell with the majority of its energy as well as performing other key functions. How mitochondrial processes are regulated within the cell is an important area of biology. The broad aims of this collaboration are to analyse processes involved in mitochondrial biogenesis using yeast and mammalian cells as model systems. In particular the protein import processes and mitochondrial stress responses will be studied. The outcomes of this work will enable us to gain an appreciation of the similarities and differences in processes that exist between organisms so that general, unifying models can be made.Read moreRead less
In situ measurements of the electrostatic properties inside photosynthetic reaction centres: correlation with the energy conversion function of the protein. The photochemical reaction centre is a key protein complex involved in energy conversion. It converts solar energy into chemical energy as a transmembrane charge separation. Coupling of electron and proton transfer is catalysed at the level of a ubiquinone cofactor. In order to understand how the redox properties of this cofactor are fine tu ....In situ measurements of the electrostatic properties inside photosynthetic reaction centres: correlation with the energy conversion function of the protein. The photochemical reaction centre is a key protein complex involved in energy conversion. It converts solar energy into chemical energy as a transmembrane charge separation. Coupling of electron and proton transfer is catalysed at the level of a ubiquinone cofactor. In order to understand how the redox properties of this cofactor are fine tuned by the protein environment, we plan to probe the ubiquinone site using a voltage-sensitive fluorescent dye. This exciting multidisciplinary project will contribute to the understanding of how protein matrices influence and govern the midpoint redox potential of their cofactors and the environments of theirRead moreRead less
Heparan sulfate proteoglycan from smooth muscle cell basal lamina: It's role in cell signalling. Heart disease is the major killer of people in the Western world. central to this disease is the killing of heart muscle tissue to it being starved of oxygen via a "heart attack". One of the common treatments is coronary artery bypass surgery, however, the supply of vessels that can be used is limited. In order to provide an alternative supply of vessels, we are aiming to engineer blood vessels i ....Heparan sulfate proteoglycan from smooth muscle cell basal lamina: It's role in cell signalling. Heart disease is the major killer of people in the Western world. central to this disease is the killing of heart muscle tissue to it being starved of oxygen via a "heart attack". One of the common treatments is coronary artery bypass surgery, however, the supply of vessels that can be used is limited. In order to provide an alternative supply of vessels, we are aiming to engineer blood vessels in the laboratory. The major cell of the wall of arteries, the smooth muscle cell, is critical to normal functioning and integration of these transplanted arteries. To do this we will need to understand the cell signalling responses of these cells in relation to molecules in their surrounding environment.Read moreRead less
The effects of alpha-2-macroglobulin on amyloid formation and toxicity. The expected outcomes will provide major advances in understanding how the abundant human blood protein alpha-2-macroglobulin influences the formation of protein aggregates that underpin a number of serious diseases (e.g. Alzheimer's disease). The linkages involved are of the highest calibre and will give the Fellowship holder a unique opportunity for training in environments that are truly internationally leading-edge. Fur ....The effects of alpha-2-macroglobulin on amyloid formation and toxicity. The expected outcomes will provide major advances in understanding how the abundant human blood protein alpha-2-macroglobulin influences the formation of protein aggregates that underpin a number of serious diseases (e.g. Alzheimer's disease). The linkages involved are of the highest calibre and will give the Fellowship holder a unique opportunity for training in environments that are truly internationally leading-edge. Furthermore, the very high novelty and broad significance of this work indicate that it will produce high-impact publications which will tangibly assist Australia being recognized as a major contributor to international research outcomes of the highest quality.Read moreRead less
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
Is Calcium part of the mechanism used in glucose signalling in embryogenesis. A vital stage in the development of the embryo is formation of the blastocyst about 4 days after conception. For this to happen the embryo must receive glucose from the mother. We believe that rather being used by the embryo to generate energy, this glucose acts as a signal to switch on the developmental pathway leading to blastocyst formation. Without this signal there is no blastocyst and the pregnancy fails. The pr ....Is Calcium part of the mechanism used in glucose signalling in embryogenesis. A vital stage in the development of the embryo is formation of the blastocyst about 4 days after conception. For this to happen the embryo must receive glucose from the mother. We believe that rather being used by the embryo to generate energy, this glucose acts as a signal to switch on the developmental pathway leading to blastocyst formation. Without this signal there is no blastocyst and the pregnancy fails. The project investigates this signal mechanism. The results will advance understanding of the mechanisms regulating development and in particular link the mother's nutritive status to her fertility during very early pregnancy.Read moreRead less