A rational approach to a high-resolution structure of the multidrug transporter EmrE. Membrane proteins form only 0.3% of the available protein structures in the protein data bank (PDB), yet 30% of the proteins in the human genome and 50% of human drug targets are membrane proteins. Multidrug transporters are membrane proteins responsible for antibiotic resistance in humans. A high-resolution structure of a multidrug resistance protein, together with comprehensive biochemical characterization, w ....A rational approach to a high-resolution structure of the multidrug transporter EmrE. Membrane proteins form only 0.3% of the available protein structures in the protein data bank (PDB), yet 30% of the proteins in the human genome and 50% of human drug targets are membrane proteins. Multidrug transporters are membrane proteins responsible for antibiotic resistance in humans. A high-resolution structure of a multidrug resistance protein, together with comprehensive biochemical characterization, would enable a detailed understanding of how these protein functions. Potentially it could also aid in the development of specific inhibitors that would prevent EmrE (and perhaps other similar proteins) from carry out its harmful mission. 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
The response of mitochondria to oxidative stress in plants. Crops encounter many situations in their environment which place them under stress. Reactive oxygen molecules produced in these situations act as messengers to trigger defence mechanisms but also cause cellular damage. Mitochondria are the subcellular compartments involved in energy production and are essential for plant development and growth. However, they also have been implicated in the response of plants to stress and pathogen atta ....The response of mitochondria to oxidative stress in plants. Crops encounter many situations in their environment which place them under stress. Reactive oxygen molecules produced in these situations act as messengers to trigger defence mechanisms but also cause cellular damage. Mitochondria are the subcellular compartments involved in energy production and are essential for plant development and growth. However, they also have been implicated in the response of plants to stress and pathogen attack, and in production of reactive oxygen molecules. This proposal seeks to investigate how mitochondria are involved in these processes, focusing on the role of terminal oxidases. Potential outcomes include crops better able to cope with environmental stress.Read moreRead less
Nanostructures of Surfactants at Solid-Liquid and Gas-Liquid Interfaces and Interfacial Properties. The proposed research aims to investigate nanostructures of surface-active agents at interfaces and related interfacial properties. Specifically, the proposal focuses on quantitative models for the self-assembly of surfactants at solid-liquid and gas-liquid interfaces, experimental validation of the models and interfacial properties produced by the surfactants for industrial applications. The stud ....Nanostructures of Surfactants at Solid-Liquid and Gas-Liquid Interfaces and Interfacial Properties. The proposed research aims to investigate nanostructures of surface-active agents at interfaces and related interfacial properties. Specifically, the proposal focuses on quantitative models for the self-assembly of surfactants at solid-liquid and gas-liquid interfaces, experimental validation of the models and interfacial properties produced by the surfactants for industrial applications. The study will increase our understanding of surfactant-interface interaction to allow us to have greater control over the interfacial properties and improve the interface-based industrial processes. The research is relevant to the minerals and coal processing industry worth hundreds of billions dollars annually to Australia and USA.Read moreRead less
Development of ultrastable high flux hydrophobic pervaporation membranes for organic separations. Perfluorinated glassy polymers (Teflons AF) as membrane materials are endowed with unique fluxes and excellent stability when in contact with various liquid organic mixtures. However, they have never been explored as membrane materials for pervaporation. The aims of this project are therefore to evaluate the applicability of composite membranes based on amorphous Teflons AF to the separation of orga ....Development of ultrastable high flux hydrophobic pervaporation membranes for organic separations. Perfluorinated glassy polymers (Teflons AF) as membrane materials are endowed with unique fluxes and excellent stability when in contact with various liquid organic mixtures. However, they have never been explored as membrane materials for pervaporation. The aims of this project are therefore to evaluate the applicability of composite membranes based on amorphous Teflons AF to the separation of organic mixtures and the removal of organic pollutants from water. The outcomes of this project will be the development of novel environmentally friendly processes in the petrochemical and biotechnology industries as well as ecologically efficient methods of waste water treatment.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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Understanding fungal diversity and functioning in forest soils using molecular and stable isotope approaches. The project aims to investigate fungal community structure and functioning in forest soils using novel molecular, stable isotope and physiological approaches. This will provide new insights into the linkage between diversity and functioning in forest soil fungal communities and the importance of these organisms in ecosystem processes. In addition, this pioneering research will facilitate ....Understanding fungal diversity and functioning in forest soils using molecular and stable isotope approaches. The project aims to investigate fungal community structure and functioning in forest soils using novel molecular, stable isotope and physiological approaches. This will provide new insights into the linkage between diversity and functioning in forest soil fungal communities and the importance of these organisms in ecosystem processes. In addition, this pioneering research will facilitate development and refinement of methodologies that will pave the way for future investigations of fungal ecology. The on-going collaboration will produce high quality joint publications and provide significant opportunities for early career researchers to gain international experience in a dynamic research environment.Read moreRead less
Identification of structural proteins in the tissue cyst wall of Toxoplasma gondii. Most infections with Toxoplasma gondii are asymptomatic, however, infection during pregnancy can lead to miscarriage or blindness, deafness and mental retardation in the developing baby. Furthermore, in AIDS patients, toxoplasmosis is the leading cause of fatal encephalitis as the normally dormant tissue cysts are reactivated in the absence of an effective immune system. In Australia, it has been estimated that ~ ....Identification of structural proteins in the tissue cyst wall of Toxoplasma gondii. Most infections with Toxoplasma gondii are asymptomatic, however, infection during pregnancy can lead to miscarriage or blindness, deafness and mental retardation in the developing baby. Furthermore, in AIDS patients, toxoplasmosis is the leading cause of fatal encephalitis as the normally dormant tissue cysts are reactivated in the absence of an effective immune system. In Australia, it has been estimated that ~30% of the population is infected with T. gondii and the occurrence of congenital toxoplasmosis is 0.2% of live births, which translates to roughly 500 cases/year. Our research will identify structural proteins in Toxoplasma cyst walls that will lead to the design of new strategies to control the diseases caused by these parasites.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
Future climate change: consequences for decomposition and pathways of carbon flow through rhizosphere fungal communities. The proposed collaboration will provide novel insights into likely consequences of global climate change on decomposition and pathways of carbon flow through forest soils. This will refine predictive models of future climate change and its impacts on the sustainability of Australia's forests. It will also enhance the protection of our valued habitats and their important soil ....Future climate change: consequences for decomposition and pathways of carbon flow through rhizosphere fungal communities. The proposed collaboration will provide novel insights into likely consequences of global climate change on decomposition and pathways of carbon flow through forest soils. This will refine predictive models of future climate change and its impacts on the sustainability of Australia's forests. It will also enhance the protection of our valued habitats and their important soil biodiversity. The knowledge gained will help land managers to adapt current practices to meet the demands of future climate change. This will maximize the opportunities for sequestering carbon in Australia's forests and so contribute to meeting Australia's global responsibility for mitigation of climate change.Read moreRead less