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I am a stem cell scientist working on the biology of human embryonic stem cells and their differentiation into cells of mesodermal (blood, endothelium and cardiomyocyte) and endodermal (pancreatic islet cells) lineages.
Genetic selection of artificial polyketides. This project aims to harness the potential of synthetic biology to build cells that can make valuable new derivatives of polyketides. Polyketides are natural products that have proven to be highly effective for use in industry, medicine and agriculture. The technologies developed in this project will provide resources to discover new chemicals, accessible to almost any scientific laboratory. Expected outcomes include the opportunity to put the future ....Genetic selection of artificial polyketides. This project aims to harness the potential of synthetic biology to build cells that can make valuable new derivatives of polyketides. Polyketides are natural products that have proven to be highly effective for use in industry, medicine and agriculture. The technologies developed in this project will provide resources to discover new chemicals, accessible to almost any scientific laboratory. Expected outcomes include the opportunity to put the future of natural product discovery and optimisation in the hands of the wider scientific community, which will provide significant benefits, such as providing new tools for Australian industries.Read moreRead less
Unleashing the Hidden Chemical Diversity in Australian Fungi. This project aims to exploit an exclusive genomic resource consisting of >150 unique Australian filamentous fungi that has been built in a university-industry collaboration for genomic-guided biodiscovery. The genome sequence of these fungi revealed extensive hidden genetic instructions for production of novel biologically active molecules. The project will apply cutting-edge synthetic biology and chemical tools to tap into the hidden ....Unleashing the Hidden Chemical Diversity in Australian Fungi. This project aims to exploit an exclusive genomic resource consisting of >150 unique Australian filamentous fungi that has been built in a university-industry collaboration for genomic-guided biodiscovery. The genome sequence of these fungi revealed extensive hidden genetic instructions for production of novel biologically active molecules. The project will apply cutting-edge synthetic biology and chemical tools to tap into the hidden genomic potential of these Australian fungi. Expected outcomes of this project include new fine chemicals and lead molecules with desirable bioactivies. This will provide significant benefits to Australia's economy through the discovery of new pharmaceuticals, veterinary products and agrichemicals.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
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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346876
Funder
Australian Research Council
Funding Amount
$1,584,000.00
Summary
800 MHz NMR Spectrometer for Molecular Structure-Function Analyses. An 800 MHz high-resolution nuclear magnetic resonance (NMR) spectrometer equipped with a triple-resonance cryoprobe is required to support the research of 5 universities in the NSW/ACT area. The high magnetic field of the spectrometer is necessary for the study of proteins, protein-ligand complexes and other biomolecular systems of molecular weight >30,000. Projects previously inaccessible due to sensitivity, solubility or resol ....800 MHz NMR Spectrometer for Molecular Structure-Function Analyses. An 800 MHz high-resolution nuclear magnetic resonance (NMR) spectrometer equipped with a triple-resonance cryoprobe is required to support the research of 5 universities in the NSW/ACT area. The high magnetic field of the spectrometer is necessary for the study of proteins, protein-ligand complexes and other biomolecular systems of molecular weight >30,000. Projects previously inaccessible due to sensitivity, solubility or resolution problems will become tractable. The increased turn-around times afforded by the high sensitivity of the cryo-enabled spectrometer make it possible to provide access for Australian institutions that would not otherwise have access to comparable equipment.Read moreRead less
A Unique Target in the Purine Biosynthesis of the Pathogen Helicobacter pylori. The uptake systems of purine and analogues of the human pathogen Helicobacter pylori will be characterised because they can be utilised to introduce cytotoxic compounds into the cells. The first step in de novo purine biosynthesis of the bacterium is catalysed by two different enzymes, which are components of other biosynthetic pathways. These unique properties make them excellent potential therapeutic targets. Their ....A Unique Target in the Purine Biosynthesis of the Pathogen Helicobacter pylori. The uptake systems of purine and analogues of the human pathogen Helicobacter pylori will be characterised because they can be utilised to introduce cytotoxic compounds into the cells. The first step in de novo purine biosynthesis of the bacterium is catalysed by two different enzymes, which are components of other biosynthetic pathways. These unique properties make them excellent potential therapeutic targets. Their individual combined activities in purine biosynthesis will be characterised in situ and in vitro. Isogenic mutants with inactivated genes encoding for these enzymes will be constructed to investigate their role in the survival of the organism.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561041
Funder
Australian Research Council
Funding Amount
$347,358.00
Summary
A New Generation Biosensor and Fluorescence Facility for Proteomics. The complete DNA sequence (the genome) is now known for many organisms and advances are being made to identify the complement of messenger RNA (the transcriptome) and the resultant collection of proteins (the proteome). The genome is largely fixed while the transcriptome and proteome differ between cell types in an organism and constantly vary to adapt the cell to changing conditions. The mediators of these variations are prote ....A New Generation Biosensor and Fluorescence Facility for Proteomics. The complete DNA sequence (the genome) is now known for many organisms and advances are being made to identify the complement of messenger RNA (the transcriptome) and the resultant collection of proteins (the proteome). The genome is largely fixed while the transcriptome and proteome differ between cell types in an organism and constantly vary to adapt the cell to changing conditions. The mediators of these variations are proteins, interacting with each other and with signal molecules. The next frontier in molecular biology is to identify and quantify these protein interactions. Our two institutions have a very large cohort of biologists whose research on proteins would be greatly facilitated by the Biacore 3000 and the ISS K2.Read moreRead less
Molecular structure and function of the glycine receptor. This proposal will employ a cutting edge approach to reveal fundamental new insights into the ways that ligand-gated ion channels, and proteins in general, work. The new knowledge and technology developed here will broaden and strengthen Australia's research expertise across a number of basic scientific disciplines. The results will also have relevance to human health. Glycine receptors have an essential role in brain function and are ....Molecular structure and function of the glycine receptor. This proposal will employ a cutting edge approach to reveal fundamental new insights into the ways that ligand-gated ion channels, and proteins in general, work. The new knowledge and technology developed here will broaden and strengthen Australia's research expertise across a number of basic scientific disciplines. The results will also have relevance to human health. Glycine receptors have an essential role in brain function and are targets for anaesthetics and drugs of abuse. GlyRs are also important in modulating pain sensation by the brain. New insights into how natural agonists and drugs affect ion channel structure and function may lead to novel therapeutic opportunities and improved drug structure predictions.Read moreRead less