Pathophysiological mechanisms in equine dyschondroplasia (osteochondrosis). Dyschondroplasia (osteochondrosis) is a developmental orthopaedic disease of horses, which causes significant wastage within the Thoroughbred racing industry. The disease affects growth cartilage beneath joint surfaces in such a way that cartilage fails to be replaced by bone, resulting in defects in the joint surface and lameness. This project will identify differences in gene expression between normal cartilage and ea ....Pathophysiological mechanisms in equine dyschondroplasia (osteochondrosis). Dyschondroplasia (osteochondrosis) is a developmental orthopaedic disease of horses, which causes significant wastage within the Thoroughbred racing industry. The disease affects growth cartilage beneath joint surfaces in such a way that cartilage fails to be replaced by bone, resulting in defects in the joint surface and lameness. This project will identify differences in gene expression between normal cartilage and early dyschondroplastic lesions, in order to identify the sequence of molecular events leading to induction of disease. The basic understanding of joint development obtained from this work will assist in the development of strategies to prevent and diagnose dyschondroplasia in horses.Read moreRead less
Molecular characterization of stem cell differentiation and oocyte maturation using synchrotron infrared spectroscopy and Atomic Force Microscopy/Raman imaging. There are currently no molecular based methods to assess oocyte maturation and stem cell differentiation at the single cell level. Consequently the need for such techniques is critical in placing Australia at the forefront in this rapidly expanding field. Such technology would give Australia a leading edge in stem cell and oocyte researc ....Molecular characterization of stem cell differentiation and oocyte maturation using synchrotron infrared spectroscopy and Atomic Force Microscopy/Raman imaging. There are currently no molecular based methods to assess oocyte maturation and stem cell differentiation at the single cell level. Consequently the need for such techniques is critical in placing Australia at the forefront in this rapidly expanding field. Such technology would give Australia a leading edge in stem cell and oocyte research and ultimately assist in discovering disease cures for debilitating neurodegenerative diseases and spinal chord injury, while techniques for determining the viability of oocytes may have important implications for future in vitro fertilization programs. The intellectual property and technologies developed from this research could also have potential to impact on the global market.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347970
Funder
Australian Research Council
Funding Amount
$186,000.00
Summary
Integrated Bio-nano-fabrication Facility. The project proposes the upgrade of a joint facility for the probing, fabrication and operation of hybrid bio-nano-devices. The facility will enhance the proposers' capabilities in the area of the fundamental and prototype-type research on biomolecular/cellular devices. The ultimate goal of these projects is to thrust Australian science in the era when the essential functions of cells can be replicated and controlled on devices that are smaller than livi ....Integrated Bio-nano-fabrication Facility. The project proposes the upgrade of a joint facility for the probing, fabrication and operation of hybrid bio-nano-devices. The facility will enhance the proposers' capabilities in the area of the fundamental and prototype-type research on biomolecular/cellular devices. The ultimate goal of these projects is to thrust Australian science in the era when the essential functions of cells can be replicated and controlled on devices that are smaller than living cells. The proposed facility has a modular structure consisting of additional nano-positioning, confocal microscope and zeta potential modules built on the existent laser tweezers/scissors, picoliter pipette and Atomic Force Microscope modules.Read moreRead less
Dissociation of a Tetrameric Enzyme with Interface-Targeted Peptides. With antibiotic resistance on the rise, there is an urgent need to develop new antibiotics and an equally urgent need to characterise new antibiotic targets. One such target is dihydrodipicolinate synthase (DHDPS) which catalyses the critical step in lysine and cell wall biosynthesis in bacteria. This proposal aims to generate new drugs targeting DHDPS for effective and rapid treatment of bacterial infections, including gastro ....Dissociation of a Tetrameric Enzyme with Interface-Targeted Peptides. With antibiotic resistance on the rise, there is an urgent need to develop new antibiotics and an equally urgent need to characterise new antibiotic targets. One such target is dihydrodipicolinate synthase (DHDPS) which catalyses the critical step in lysine and cell wall biosynthesis in bacteria. This proposal aims to generate new drugs targeting DHDPS for effective and rapid treatment of bacterial infections, including gastroenteritis. Recent statistics show that over 5 million Australians suffer from gastroenteritis each year and hospitalisation for this infection is nearly seven times higher for indigenous than non-indigenous children. Accordingly, this research has the potential to assure a healthier future for millions of Australians.Read moreRead less
Inhibitors of meso-diaminopimelic acid (meso-DAP) and lysine biosynthesis: targeting dihydrodipicolinate synthase. With antibiotic resistance on the rise, there is an urgent need to develop new antibiotics with novel modes of action. This project aims to generate new drug candidates that target dihydrodipicolinate synthase (DHDPS) - the first enzyme in the synthesis of the bacterial cell wall - using a triple-pronged approach. This novel approach will allow for the development of new drugs to tr ....Inhibitors of meso-diaminopimelic acid (meso-DAP) and lysine biosynthesis: targeting dihydrodipicolinate synthase. With antibiotic resistance on the rise, there is an urgent need to develop new antibiotics with novel modes of action. This project aims to generate new drug candidates that target dihydrodipicolinate synthase (DHDPS) - the first enzyme in the synthesis of the bacterial cell wall - using a triple-pronged approach. This novel approach will allow for the development of new drugs to treat a range of pathogenic bacteria, including "Golden Staph".Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775758
Funder
Australian Research Council
Funding Amount
$587,000.00
Summary
A Mass Spectrometry and Proteomics Facility. This facility will support a large group of nationally and internationally recognised scientists working on a range of projects in the National Interest: the role of apoptosis in normal and diseased cells, mitochondrial biogenesis and genetic diseases resulting from defects in mitochondrial function, malarial vaccine and drug development, plant biotehnology, design and synthesis of drugs, DNA-anticancer drug interactions and biomarker discovery. By su ....A Mass Spectrometry and Proteomics Facility. This facility will support a large group of nationally and internationally recognised scientists working on a range of projects in the National Interest: the role of apoptosis in normal and diseased cells, mitochondrial biogenesis and genetic diseases resulting from defects in mitochondrial function, malarial vaccine and drug development, plant biotehnology, design and synthesis of drugs, DNA-anticancer drug interactions and biomarker discovery. By supporting this wide range of well funded researh, the mass spectrometry facility will support the emerging Biotechnology sector and National Research Priorities.Read moreRead less
Special Research Initiatives - Grant ID: SR0354892
Funder
Australian Research Council
Funding Amount
$40,000.00
Summary
The Australian Protease Network. Proteases are pivotal enzymes during birth, life, ageing and death of all organisms. Proteases regulate most physiological processes by controlling protein activation, synthesis and turnover and are essential for replication and spread of viruses, bacteria and parasites that cause infectious diseases. Blockbuster drugs and diagnostics already target a few proteases. Australians have made innovative contributions individually to understanding and regulating these ....The Australian Protease Network. Proteases are pivotal enzymes during birth, life, ageing and death of all organisms. Proteases regulate most physiological processes by controlling protein activation, synthesis and turnover and are essential for replication and spread of viruses, bacteria and parasites that cause infectious diseases. Blockbuster drugs and diagnostics already target a few proteases. Australians have made innovative contributions individually to understanding and regulating these enzymes. However this initiative aims to network their efforts by value-adding to the current protease research through promoting national and international collaborations to improve our understanding of biology, and encourage exploitation of proteases/inhibitors/receptors for pharmaceutical and industrial applications.Read moreRead less