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
Development of therapeutic agents that target carbonic anhydrase enzymes. This research will discover new chemical entities (compounds) that may lead to therapies for the treatment of cancer, glaucoma and malaria. The research underpins a mechanism to add value to our compounds before partnering with industry to transform the discoveries made here to deliverable therapies that could benefit the health of millions, thus offering a potentially high value contribution to the Australian economy. The ....Development of therapeutic agents that target carbonic anhydrase enzymes. This research will discover new chemical entities (compounds) that may lead to therapies for the treatment of cancer, glaucoma and malaria. The research underpins a mechanism to add value to our compounds before partnering with industry to transform the discoveries made here to deliverable therapies that could benefit the health of millions, thus offering a potentially high value contribution to the Australian economy. The experience and commitment of the multi-disciplinary network of researchers offers exceptional training and employment opportunities for tomorrow's scientists in techniques for discovery and characterisation of novel chemicals, and their interaction with disease targets.Read moreRead less
Disruption of Sex Pheromone Biosynthesis: A Novel Control Method for Pestiferous Fruit Flies by. Fruit flies from the genus Bactrocera are economically important worldwide. B. tryoni, (Queensland fruit fly) is the most damaging horticultural pest in Australia and B. oleae (olive fly) is a major European pest. These flies use chemicals of similar but distinct structure for communication and particularly for finding mates. This research will examine the pathways and enzymes these flies use to sy ....Disruption of Sex Pheromone Biosynthesis: A Novel Control Method for Pestiferous Fruit Flies by. Fruit flies from the genus Bactrocera are economically important worldwide. B. tryoni, (Queensland fruit fly) is the most damaging horticultural pest in Australia and B. oleae (olive fly) is a major European pest. These flies use chemicals of similar but distinct structure for communication and particularly for finding mates. This research will examine the pathways and enzymes these flies use to synthesise sex pheromones. We propose that understanding the chemical and biochemical steps employed by the flies will allow us to design inhibitors to prevent pheromone production and thus provide a novel, species specific method for controlling fruit flies.Read moreRead less
Biochemical Reconstitution Of The Ubiquitin Ligase Pathway Defective In Fanconi Anaemia
Funder
National Health and Medical Research Council
Funding Amount
$562,742.00
Summary
Fanconi Anemia (FA) is characterised by loss of vital blood cells but also 700x risk of developing leukaemia and other cancers. FA is caused by an inherited defect in one of 15 different genes that provide a signal and repair mechanism protecting cells from cancer causing mutations. By reconstructing this signaling mechanism in the test tube we will determine how it contributes to cancer protection, and highlight potential strategies for treatment of FA and leukaemia in the general population.
Understanding and exploiting bacterial sulfatases. Bacterial sulfatases participate in environmental nutrient cycling and are implicated in bacterial pathogenesis mechanisms. These enzymes catalyze the hydrolysis of sulfate esters and possess an unusual posttranslational active-site modification where a cysteine residue is oxidized to formylglycine. We will study the mechanism of these enzymes in detail and design inhibitors that exploit the reactivity of this aminoacid. This work has significan ....Understanding and exploiting bacterial sulfatases. Bacterial sulfatases participate in environmental nutrient cycling and are implicated in bacterial pathogenesis mechanisms. These enzymes catalyze the hydrolysis of sulfate esters and possess an unusual posttranslational active-site modification where a cysteine residue is oxidized to formylglycine. We will study the mechanism of these enzymes in detail and design inhibitors that exploit the reactivity of this aminoacid. This work has significance because of application to areas that include the treatment of cancer and bacterial infections. Additionally, we will clone novel carbohydrate sulfatases from the heparin-degrading bacterium Flavobacterium heparinum. These sulfatases will have use in biotechnology for characterization of sulfated glycoconjugates.Read moreRead less
Synthesis of substrate analogues for probing catalytic mechanisms and specificity of enzymes involved in the metabolism of plant polysaccharides. The project is aimed at strengthening collaborations between research groups in Adelaide and France, with the specific objective of synthesizing substrate analogues as probes of enzymatic mechanisms and substrate specificity in polysaccharide hydrolases and synthases of barley. The chemical expertise resides in France, while the enzymatic work will be ....Synthesis of substrate analogues for probing catalytic mechanisms and specificity of enzymes involved in the metabolism of plant polysaccharides. The project is aimed at strengthening collaborations between research groups in Adelaide and France, with the specific objective of synthesizing substrate analogues as probes of enzymatic mechanisms and substrate specificity in polysaccharide hydrolases and synthases of barley. The chemical expertise resides in France, while the enzymatic work will be conducted largely in Australia. Exchange of research staff, particularly at the postgraduate student and research associate levels, is considered essential to capture the benefits of the complementary expertise and to extend an existing international collaboration. The target enzymes are of central importance in cell wall metabolism during development of higher plants.Read moreRead less
Multi-domain Regulation Of DNA Damage Response Kinases
Funder
National Health and Medical Research Council
Funding Amount
$313,427.00
Summary
DNA damage plays a key role in the onset of cancer and the response to cancer therapies. Mutations in the Chk2 DNA damage response kinase are associated with increased cancer risk. We will study detailed mechanisms how phosphorylation of Chk2-like kinases contributes to normal copying of our DNA every time a cell divides, and how it regulates how Chk2 is activated. The studies will improve our understanding how cancer may originate and how cancer cells respond to chemo- or radiation therapy.
Molecular mechanisms of catalysis and the basis of substrate specificity in polysaccharide hydrolases. Reaction intermediates along hydrolytic pathways and molecular determinants of substrate specificity of barley B-glucan exo- and endohydrolases will be defined using crystallographic and kinetic analyses. These enzymes are of central importance in cell wall metabolism during development of higher plants, and in plant-pathogen interactions. Realization of the project objectives will not only pro ....Molecular mechanisms of catalysis and the basis of substrate specificity in polysaccharide hydrolases. Reaction intermediates along hydrolytic pathways and molecular determinants of substrate specificity of barley B-glucan exo- and endohydrolases will be defined using crystallographic and kinetic analyses. These enzymes are of central importance in cell wall metabolism during development of higher plants, and in plant-pathogen interactions. Realization of the project objectives will not only provide fundamental information on catalytic mechanisms, but will also provide opportunities to manipulate enzyme specificity. Further, site-directed mutagenesis of the enzymes will be used to generate glycosynthases, which will be evaluated for their ability to synthesise novel oligosaccharide and polysaccharide products, some of which might show immunomodulating activity.Read moreRead less
From Chemical Architecture to Protein Surfaces. Creation of small stable molecules that reproduce key functions of important protein surfaces, would be a significant technology breakthrough with many important potential applications in science, medicine & industry. As new scientific tools they could be used to interrogate biological systems & implicate specific protein surfaces in biological/disease mechanisms. As leads to new medicines (pharmaceuticals, vaccines, diagnostics), they could offer ....From Chemical Architecture to Protein Surfaces. Creation of small stable molecules that reproduce key functions of important protein surfaces, would be a significant technology breakthrough with many important potential applications in science, medicine & industry. As new scientific tools they could be used to interrogate biological systems & implicate specific protein surfaces in biological/disease mechanisms. As leads to new medicines (pharmaceuticals, vaccines, diagnostics), they could offer new ways of impacting on infection, diseases of the aged, & preventative medicine (National Research Priorities). As new intellectual property, the technology has the potential to advance basic science at the chemistry-biology interface while providing new economic opportunities for Australia.Read moreRead less
Biosynthetic LEGO: enzymatic redesign to produce new vancomycin analogues. This project aims to uncover the reengineering potential of the biosynthetic machinery that produces glycopeptide antibiotics by advancing our understanding of how the core peptide production line functions. Natural product biosynthesis often produces complex peptide structures, with one important example being the glycopeptide antibiotics. This project expects to generate new knowledge about enzymatic peptide biosynthesi ....Biosynthetic LEGO: enzymatic redesign to produce new vancomycin analogues. This project aims to uncover the reengineering potential of the biosynthetic machinery that produces glycopeptide antibiotics by advancing our understanding of how the core peptide production line functions. Natural product biosynthesis often produces complex peptide structures, with one important example being the glycopeptide antibiotics. This project expects to generate new knowledge about enzymatic peptide biosynthesis using a highly interdisciplinary approach and previously developed tools. The anticipated outcomes of this project will be an enhanced understanding of how such complex peptide biosynthesis is performed, which is knowledge vital for future efforts to reengineer such biosynthetic peptide assembly lines as a series of modular LEGO blocks to produce new bioactive peptides.Read moreRead less