Molecular Interactions in the Eubacterial Replisome: A Paradigm for Study of Dynamic Macromolecular Machines. Many pathogenic bacteria have developed resistance to antibiotics in common use, and new drugs are urgently required to kill them. Copying of their chromosomes before they divide into two new cells is essential for bacteria to live, so DNA synthesis is a good process to target for development of new antibiotics. This project will use state-of-the-art equipment available in several labora ....Molecular Interactions in the Eubacterial Replisome: A Paradigm for Study of Dynamic Macromolecular Machines. Many pathogenic bacteria have developed resistance to antibiotics in common use, and new drugs are urgently required to kill them. Copying of their chromosomes before they divide into two new cells is essential for bacteria to live, so DNA synthesis is a good process to target for development of new antibiotics. This project will use state-of-the-art equipment available in several laboratories in Australia and overseas to develop new understanding of how the molecular machine that copies DNA works. This k nowledge could lead to new drugs, and will give us new information about how cellular machines function.Read moreRead less
Understanding mechanistic and systemic regulation of protein prenyltransferases. The proposed research will expand our understanding of lipid-conjugating enzymes that are critical for a multitude of normal cellular functions. We seek to reveal the basic workings of cells and help to explain the development and complexity of signalling networks in eukaryotic evolution. The findings will enable us to explore and exploit the catalytic properties of these lipid-related enzymes for applications in bi ....Understanding mechanistic and systemic regulation of protein prenyltransferases. The proposed research will expand our understanding of lipid-conjugating enzymes that are critical for a multitude of normal cellular functions. We seek to reveal the basic workings of cells and help to explain the development and complexity of signalling networks in eukaryotic evolution. The findings will enable us to explore and exploit the catalytic properties of these lipid-related enzymes for applications in biotechnology. The ultimate aim is to create novel technologies for protein production, modification and analysis that will accelerate the pace of discovery in protein research, basic cell and organism biology, diagnostics, biotechnology and drug discovery. Read moreRead less
Development of a novel high yield cell-free protein expression system. Recombinant proteins are used as vaccines, drugs, and research tools, as well as food and detergent additives, comprising a A$100 billion international market. Their production requires laborious, expensive, and time-consuming construction of transgenic organisms or cells. Alternatively, recombinant proteins can be produced in extracts prepared from cells or organisms. The aim of this proposal is to develop a new technology t ....Development of a novel high yield cell-free protein expression system. Recombinant proteins are used as vaccines, drugs, and research tools, as well as food and detergent additives, comprising a A$100 billion international market. Their production requires laborious, expensive, and time-consuming construction of transgenic organisms or cells. Alternatively, recombinant proteins can be produced in extracts prepared from cells or organisms. The aim of this proposal is to develop a new technology that will make cell-free production of recombinant proteins rapid, cheap, and scalable. This will advance Australia’s intellectual leadership in the area of biotechnology and will bring numerous economic benefits by accelerating pharmaceutical development. 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
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