Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100148
Funder
Australian Research Council
Funding Amount
$1,350,000.00
Summary
Advanced Nuclear Magnetic Resonance Technologies for Southeast Queensland. This project aims to establish an advanced Nuclear Magnetic Resonance capability and capacity at two of Queenslands' leading research intensive universities. The project expects to enhance the scope and productivity of hundreds of research projects spanning natural products, synthetic, medicinal, materials and environmental science. Expected outcomes include smarter science, more productive collaborations and superior res ....Advanced Nuclear Magnetic Resonance Technologies for Southeast Queensland. This project aims to establish an advanced Nuclear Magnetic Resonance capability and capacity at two of Queenslands' leading research intensive universities. The project expects to enhance the scope and productivity of hundreds of research projects spanning natural products, synthetic, medicinal, materials and environmental science. Expected outcomes include smarter science, more productive collaborations and superior research training, leading to innovative solutions to challenging problems that confront science and society. This investment should provide significant benefits in the form of new knowledge across multiple disciplines, informing the design of future medicines, agrochemicals, materials and other products.
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Chemical-biology approaches to pathway selective adenosine receptor ligands. This project aims to develop new chemical-biology tools and approaches for selectively targeting signalling pathways mediated by G protein-coupled receptors (GPCR). GPCRs are an important family of cell surface signalling proteins that are responsible for the regulation of numerous vital physiological functions. The A1 adenosine receptor is an important model and therapeutically relevant GPCR that will be the focus of t ....Chemical-biology approaches to pathway selective adenosine receptor ligands. This project aims to develop new chemical-biology tools and approaches for selectively targeting signalling pathways mediated by G protein-coupled receptors (GPCR). GPCRs are an important family of cell surface signalling proteins that are responsible for the regulation of numerous vital physiological functions. The A1 adenosine receptor is an important model and therapeutically relevant GPCR that will be the focus of this project. Compounds known as bitopic ligands, which can interact with distinct binding sites (termed orthosteric and allosteric sites), will be explored as pathway selective agents capable of activating the signalling pathways mediating the desired effect in preference to those producing adverse effects. Longer-term benefits include the identification of bioactive compounds with more selective modes of action and improved safety profiles.Read moreRead less
Aquatic chemo-modulators: a novel source for potent molecular probes. This project aims to investigate peptides that modulate prey behaviour. Chemical signalling constitutes much of the language of life underwater. Certain cone snails evolved a hunting strategy, where they release potent peptides to modulate fish behaviour through yet unknown mechanisms. The snail then expands its mouth and eats the fish without resistance. This project will investigate the mechanisms at play using transcriptomi ....Aquatic chemo-modulators: a novel source for potent molecular probes. This project aims to investigate peptides that modulate prey behaviour. Chemical signalling constitutes much of the language of life underwater. Certain cone snails evolved a hunting strategy, where they release potent peptides to modulate fish behaviour through yet unknown mechanisms. The snail then expands its mouth and eats the fish without resistance. This project will investigate the mechanisms at play using transcriptomics, proteomics, peptide synthesis, behavioural pharmacology and nuclear magnetic resonance. This will advance the knowledge of aquatic chemo-modulators on a functional, structural and evolutionary level, and provide a source of molecular probes with unique pharmacology and applications in human physiology, developmental biology and aquacultures.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100130
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
New Biomolecular Capabilities for the Melbourne Magnetic Resonance Facility. The project aims to integrate new instrumentation, which does not currently exist in Australia, into the Melbourne Biomolecular Nuclear Magnetic Resonance (NMR) facility. This will introduce new capabilities to the Australian NMR community to characterise important biological molecular interactions at low concentrations. This project expects to support existing areas of research strength with new approaches across inter ....New Biomolecular Capabilities for the Melbourne Magnetic Resonance Facility. The project aims to integrate new instrumentation, which does not currently exist in Australia, into the Melbourne Biomolecular Nuclear Magnetic Resonance (NMR) facility. This will introduce new capabilities to the Australian NMR community to characterise important biological molecular interactions at low concentrations. This project expects to support existing areas of research strength with new approaches across interdisciplinary research programs in biochemistry, structural biology, medicinal and natural product chemistry. Expected outcomes from a range of research with a variety of partners will underpin new, potentially commercially valuable, applications across the chemical, pharmaceutical, agricultural or manufacturing industries.Read moreRead less
Developing new tools for chemical biology. We will develop new synthetic strategies to support the development of small molecule chemical probes that bind with high affinity and specificity to a target protein. Such chemical probes are invaluable in elucidating the role of specific proteins in biological pathways. Our novel strategy aims to be rapid, efficient in its use of materials and widely applicable to a range of different protein targets. The core of our approach involves using biophysica ....Developing new tools for chemical biology. We will develop new synthetic strategies to support the development of small molecule chemical probes that bind with high affinity and specificity to a target protein. Such chemical probes are invaluable in elucidating the role of specific proteins in biological pathways. Our novel strategy aims to be rapid, efficient in its use of materials and widely applicable to a range of different protein targets. The core of our approach involves using biophysical binding assays to characterise compounds that are produced on small scale using parallel chemistry. This approach will enable better chemical probes to be developed more rapidly at lower cost than is currently possible.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100139
Funder
Australian Research Council
Funding Amount
$1,240,000.00
Summary
Revitalizing facilities for nuclear magnetic resonance in South Australia. Nuclear magnetic resonance (NMR) spectroscopy is the single most powerful spectroscopic tool for determining molecular structure. Our aim is to upgrade NMR infrastructure available to researchers across South Australia with an integrated and complementary array of state-of-the-art spectrometers to diversify usage across a range of disciplines. Replacement of outdated spectrometers will modernise core NMR facilities along ....Revitalizing facilities for nuclear magnetic resonance in South Australia. Nuclear magnetic resonance (NMR) spectroscopy is the single most powerful spectroscopic tool for determining molecular structure. Our aim is to upgrade NMR infrastructure available to researchers across South Australia with an integrated and complementary array of state-of-the-art spectrometers to diversify usage across a range of disciplines. Replacement of outdated spectrometers will modernise core NMR facilities along with installation of new probes to improve sensitivity and the ability to analyze small sample quantities. Our overall strategy is to maximize capability and minimize duplication, while bringing South Australia's NMR capabilities up to a national and international standard. Read moreRead less