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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: LE0236372
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
CENTRIFUGATION FACILITIES FOR THE GENETICS ANALYSIS FACILITY. Access to both a high-speed centrifuge and an ultracentrifuge is essential for a wide range of biochemistry and molecular biology research projects. A high-speed centrifuge is essential for the collection of bacteria cultured to express specific proteins as well as the collection of purified proteins isolated from a wide range of organisms. Similarly an ultracentrifuge is required for the isolation of viruses and the preparation and p ....CENTRIFUGATION FACILITIES FOR THE GENETICS ANALYSIS FACILITY. Access to both a high-speed centrifuge and an ultracentrifuge is essential for a wide range of biochemistry and molecular biology research projects. A high-speed centrifuge is essential for the collection of bacteria cultured to express specific proteins as well as the collection of purified proteins isolated from a wide range of organisms. Similarly an ultracentrifuge is required for the isolation of viruses and the preparation and purification of RNA and DNA. The two machines will facilitate the continuation of research projects funded by both government and industry grants. The centrifuges will complement the equipment available in the Genetic Analysis Facility.Read moreRead less
To gain insight into the molecular mechanisms involved in antibiotic resistance shown by Gram-negative bacteria. Bacterial infections can strike anyone and usually the body's immune system, which is designed to fight infection, defeats the invading bacteria. Sometimes however, the burden of infection proves too great, so these infections can prove fatal. For 50 years, we have relied on antibiotics to successfully treat the majority of common bacterial infections. As a result, emphasis must be pl ....To gain insight into the molecular mechanisms involved in antibiotic resistance shown by Gram-negative bacteria. Bacterial infections can strike anyone and usually the body's immune system, which is designed to fight infection, defeats the invading bacteria. Sometimes however, the burden of infection proves too great, so these infections can prove fatal. For 50 years, we have relied on antibiotics to successfully treat the majority of common bacterial infections. As a result, emphasis must be placed on the disquieting reality whilst enjoy the use of antibiotics, an inescapable cost is the development of bacterial resistance. The increasing prevalence of bacterial tolerance against beta-lactams is a problem and as a result is a most pressing health issue. Read moreRead less
Molecular analysis of glutathione transferase interactions with drugs and physiological ligands. Proteins called glutathione transferases protect us from toxic molecules that we ingest, breathe in or are by-products of normal metabolism. The same proteins also bind to many types of drugs leading them to be excreted from the body. In this project molecular structures of glutathione transferases bound to anti-cancer drugs will be determined as the basis for devising inhibitors of the protein that ....Molecular analysis of glutathione transferase interactions with drugs and physiological ligands. Proteins called glutathione transferases protect us from toxic molecules that we ingest, breathe in or are by-products of normal metabolism. The same proteins also bind to many types of drugs leading them to be excreted from the body. In this project molecular structures of glutathione transferases bound to anti-cancer drugs will be determined as the basis for devising inhibitors of the protein that will make drugs much more effective.Read moreRead less
Structural studies of glutathione transferases: a model system for functional genomics and drug design. Glutathione S-transferases (GSTs) are a large family of multi-functional proteins that play a vital role in an organism's defence against toxic chemicals. However, they also attack a variety of drugs and hence are a prime target for the development of isoform-specific inhibitors. We will determine the 3D atomic structures of GSTs in complex with a range of substrates and inhibitors as a basis ....Structural studies of glutathione transferases: a model system for functional genomics and drug design. Glutathione S-transferases (GSTs) are a large family of multi-functional proteins that play a vital role in an organism's defence against toxic chemicals. However, they also attack a variety of drugs and hence are a prime target for the development of isoform-specific inhibitors. We will determine the 3D atomic structures of GSTs in complex with a range of substrates and inhibitors as a basis for the design of compounds to improve the efficacy of anti-cancer and other drugs. This is an ambitious, wide-ranging project involving collaborators around the world. We expect the results will not only greatly increase our knowledge of an important enzyme family, but will also have applications in protein folding, catalysis, protein engineering, evolution, drug design and functional genomics. Read moreRead less
Chemical synthesis of cancer-associated glycoproteins. Glycosylation of proteins is an extremely common event which plays an important role in a variety of biological processes. Aberrant glycosylation and over-production of glycoproteins is associated with numerous cancer types (including breast, prostate, ovarian and small lung) and are recognised as promising agents for disease diagnosis and vaccine development. A range of cancer-associated glycoproteins will be synthesised in this research p ....Chemical synthesis of cancer-associated glycoproteins. Glycosylation of proteins is an extremely common event which plays an important role in a variety of biological processes. Aberrant glycosylation and over-production of glycoproteins is associated with numerous cancer types (including breast, prostate, ovarian and small lung) and are recognised as promising agents for disease diagnosis and vaccine development. A range of cancer-associated glycoproteins will be synthesised in this research program using a number of novel chemical technologies. These glycoproteins will be used to develop cancer vaccines and diagnostics. Cancer is a severe burden on the Australian community and on the economy, therefore this research will be of significant benefit to Australia.Read moreRead less
New inhibitors of HIV based on cellular enzymes. Over 39 million people are infected with HIV worldwide. However, none of the most highly affected countries have yet reached the peak in AIDS-related illness and death, thus the global impact of HIV/AIDS will get significantly worse, before it gets better.
In Australia, HIV is again on the rise. Ironically, improved treatments that have extended life expectancy will cause the number of HIV infected Australians to rise for many years to come. ....New inhibitors of HIV based on cellular enzymes. Over 39 million people are infected with HIV worldwide. However, none of the most highly affected countries have yet reached the peak in AIDS-related illness and death, thus the global impact of HIV/AIDS will get significantly worse, before it gets better.
In Australia, HIV is again on the rise. Ironically, improved treatments that have extended life expectancy will cause the number of HIV infected Australians to rise for many years to come. Therefore many Australians will suffer from the combined impact of the AIDS illness itself, opportunistic infections, the side-effects of treatment and natural aging. We aim to develop new drugs to combat this disease to help people everywhere lead happier, healthier and more productive lives.Read moreRead less
Functional and structural diversity of the cathepsin L peptidase from the human blood fluke Schistosoma mansoni. Peptidases are enzymes that are important in many infectious and physiological disease states. For example, they are used by infectious pathogens to enter human tissues and survive inside their bodies. The same type of enzymes also contribute to tissue damage in many pathological processes in humans such as cancer, arithritis and osteoporosis. There is an urgent need to define their s ....Functional and structural diversity of the cathepsin L peptidase from the human blood fluke Schistosoma mansoni. Peptidases are enzymes that are important in many infectious and physiological disease states. For example, they are used by infectious pathogens to enter human tissues and survive inside their bodies. The same type of enzymes also contribute to tissue damage in many pathological processes in humans such as cancer, arithritis and osteoporosis. There is an urgent need to define their structure and properties so that we can employ rational approaches to develop new drugs that can combat these diseases and ailments. Read moreRead less
Allosteric regulation, molecular structure and function of transglutaminase 2. With Australia's ageing population, we can expect to see increasing prevalence of pathologies such as cancer, Alzheimer's disease, and cataracts. The ubiquitous enzyme transglutaminase 2 (TG2) has been implicated in all of these age-related diseases, as well as in chronic disorders such as coeliac disease and diabetes, and may contribute in a positive way to wound healing. Understanding how TG2 is activated and inac ....Allosteric regulation, molecular structure and function of transglutaminase 2. With Australia's ageing population, we can expect to see increasing prevalence of pathologies such as cancer, Alzheimer's disease, and cataracts. The ubiquitous enzyme transglutaminase 2 (TG2) has been implicated in all of these age-related diseases, as well as in chronic disorders such as coeliac disease and diabetes, and may contribute in a positive way to wound healing. Understanding how TG2 is activated and inactivated, and how it selects its targets, will be a critical addition to current knowledge of this enzyme, and will be an essential prerequisite for the development of TG2-targetted drugs and other TG2-related therapies.Read moreRead less