Mammalian histidine kinase: its characterisation and role in hepatic cellular proliferation. Protein kinases regulate all aspects of cellular metabolism, but there is a class of protein kinase, histidine kinases, which exists in mammalian cells, about which remarkably little is understood. This project will be the first detailed characterisation of such an enzyme and investigation of its cellular function. The enzyme to be characterised is hepatic and it has been implicated in the regulation of ....Mammalian histidine kinase: its characterisation and role in hepatic cellular proliferation. Protein kinases regulate all aspects of cellular metabolism, but there is a class of protein kinase, histidine kinases, which exists in mammalian cells, about which remarkably little is understood. This project will be the first detailed characterisation of such an enzyme and investigation of its cellular function. The enzyme to be characterised is hepatic and it has been implicated in the regulation of DNA replication in regenerating liver. We shall obtain a detailed picture of the role of this histidine kinase in liver cell biology and an insight into the more general biological role of this class of enzyme.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560712
Funder
Australian Research Council
Funding Amount
$630,837.00
Summary
State-of-the-art biophysical tools for the characterisation of molecular interactions. In the current era of 'the genome' there is more demand than ever before for the characterisation of the gene products - the oligonucleotides and proteins that carry out the important functions in the cell. The current proposal is to acquire a suite of instrumentation to characterise the kinetics, thermodynamics and overall affinities of interactions between biological macromolecules and their physiological bi ....State-of-the-art biophysical tools for the characterisation of molecular interactions. In the current era of 'the genome' there is more demand than ever before for the characterisation of the gene products - the oligonucleotides and proteins that carry out the important functions in the cell. The current proposal is to acquire a suite of instrumentation to characterise the kinetics, thermodynamics and overall affinities of interactions between biological macromolecules and their physiological binding partners or with novel ligands. This will reveal the role of the macromolecules of interest in the cell, and potentially lead to the discovery of drug molecules which could interfere with molecular interactions underlying disease.Read moreRead less
Targeting mitochondrial dysfunction in disease. Defects in mitochondria, the energy producing compartments within cells, lead to severe neurodegenerative diseases and contribute to the development of cancer. Treatment for such diseases caused by mutations in mitochondrial DNA remains unsatisfactory and mostly confined to supportive measures. The identification of proteins that regulate gene expression within mitochondria provides an unexplored resource of potential disease modulators and drug ta ....Targeting mitochondrial dysfunction in disease. Defects in mitochondria, the energy producing compartments within cells, lead to severe neurodegenerative diseases and contribute to the development of cancer. Treatment for such diseases caused by mutations in mitochondrial DNA remains unsatisfactory and mostly confined to supportive measures. The identification of proteins that regulate gene expression within mitochondria provides an unexplored resource of potential disease modulators and drug targets. This research will lead to new strategies in the design of improved anticancer drugs, which is an important Australian research priority that will promote and maintain good health, and provide potential commercial outcomes.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
Molecular machines: regulation of the catalysis and rotation of the enzyme ATP synthase. This project aims to elucidate the regulation of the molecular machine ATP synthase. ATP synthase is an enzyme that performs a critical role in all cells - the synthesis of ATP, the universal biological energy currency. It is known that the enzyme operates via rotation of a central stalk which is driven by a hydrogen ion gradient across a membrane. Constructs of this molecule have been envisaged in the desig ....Molecular machines: regulation of the catalysis and rotation of the enzyme ATP synthase. This project aims to elucidate the regulation of the molecular machine ATP synthase. ATP synthase is an enzyme that performs a critical role in all cells - the synthesis of ATP, the universal biological energy currency. It is known that the enzyme operates via rotation of a central stalk which is driven by a hydrogen ion gradient across a membrane. Constructs of this molecule have been envisaged in the design of future biological nano-motors. Our work will provide an understanding of the regulation of this enzyme with potential application in the control of nano-motors.Read moreRead less
Protein modifications in plant mitochondria: towards functional proteomics. Energy production within plants in cellular structures called mitochondria is vital for their growth and development and is central to the early success of germinating and growing seedlings. This project intends to analyse mitochondria within plants using state of the art instrumentation and technologies. The findings from this research have the potential to directly flow into the plant biotechnology industry and could a ....Protein modifications in plant mitochondria: towards functional proteomics. Energy production within plants in cellular structures called mitochondria is vital for their growth and development and is central to the early success of germinating and growing seedlings. This project intends to analyse mitochondria within plants using state of the art instrumentation and technologies. The findings from this research have the potential to directly flow into the plant biotechnology industry and could assist the future development of Australian agriculture through genetic improvements. The expertise developed by this work will ensure that Australia is well placed to exploit future advances in this field and to further generate the development of novel biotechnological applications in agriculture.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561042
Funder
Australian Research Council
Funding Amount
$852,705.00
Summary
Establishing a high-throughput Protein Production Unit. We seek to establish a world class high-throughput (H-T) protein production unit, the first of its kind in Australia. Throughout the unit robotic technology will be used to build and test protein expression systems as well as drive large scale protein production. The product of the unit will be high quality, pure protein, effective expression systems and world class research. The unit will act as a centre for research into H-T protein ex ....Establishing a high-throughput Protein Production Unit. We seek to establish a world class high-throughput (H-T) protein production unit, the first of its kind in Australia. Throughout the unit robotic technology will be used to build and test protein expression systems as well as drive large scale protein production. The product of the unit will be high quality, pure protein, effective expression systems and world class research. The unit will act as a centre for research into H-T protein expression technology, will underpin the finest biological research, provide the basis for large "structural genomic" type approaches to biological problems and provide a wealth of projects for the Australian synchrotron.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882893
Funder
Australian Research Council
Funding Amount
$260,000.00
Summary
A cryopreparation facility for Western Australia. Western Australia is home to a number of world-leading biological and biomedical research groups and some of the best microscopy facilities in the country. Establishing a world-class cryopreparation facility in WA will enable local researchers to remain at the forefront of their research fields and will serve to attract additional high profile international scientists and students to WA. Significant research advancements in areas such as genetic ....A cryopreparation facility for Western Australia. Western Australia is home to a number of world-leading biological and biomedical research groups and some of the best microscopy facilities in the country. Establishing a world-class cryopreparation facility in WA will enable local researchers to remain at the forefront of their research fields and will serve to attract additional high profile international scientists and students to WA. Significant research advancements in areas such as genetic muscular diseases, nerve regeneration, parasitic infection in humans, crop optimisation and tolerance to environmental conditions, and animal growth and reproduction, will result from the establishment of such a facility. Read moreRead less
Plant Mitochondrial Signalling and Regulation. Plant energy production is essential for successful growth and development and is essential for processes such as seedling establishment and germination. This research project intends to expand our understanding of energy regulation within the plant using advanced technologies. Such studies can provide direct benefits to the Australian agriculture community through novel targets for genetic improvements. The capacity to create such advantages is eco ....Plant Mitochondrial Signalling and Regulation. Plant energy production is essential for successful growth and development and is essential for processes such as seedling establishment and germination. This research project intends to expand our understanding of energy regulation within the plant using advanced technologies. Such studies can provide direct benefits to the Australian agriculture community through novel targets for genetic improvements. The capacity to create such advantages is economically vital for the industry and the development of such expertise within Australia will ensure we are well placed to exploit future advances in agricultural improvements and provide the capacity to further generate novel biotechnological applications.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775673
Funder
Australian Research Council
Funding Amount
$1,200,000.00
Summary
A high throughput protein crystallization & imaging facility. Protein crystallography is an important field of research that enables us to understand the precise shape of proteins. The precise shape of a protein determines the function of a protein. This information is essential in understanding the physiological role of a protein and may be used for the development of therapeutics, where approrpiate. We aim to develop a high-throughput robotics system that will enable us to determine the sh ....A high throughput protein crystallization & imaging facility. Protein crystallography is an important field of research that enables us to understand the precise shape of proteins. The precise shape of a protein determines the function of a protein. This information is essential in understanding the physiological role of a protein and may be used for the development of therapeutics, where approrpiate. We aim to develop a high-throughput robotics system that will enable us to determine the shape of many proteins more rapidly, thereby greatly accelerating the pace of biomedical research.Read moreRead less