Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882977
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Enhanced NMR Research, Characterisation and Analysis Facility. Studying molecular species is at the heart of chemistry and biochemistry and fundamental to improving our understanding of molecular mechanisms and interactions. This becomes important for elucidating aspects of biological function, medicinal and pharmaceutical chemistry, materials science and synthetic methodology, which all underpin health and technology advances in Australia. The infrastructure will support projects involving fun ....Enhanced NMR Research, Characterisation and Analysis Facility. Studying molecular species is at the heart of chemistry and biochemistry and fundamental to improving our understanding of molecular mechanisms and interactions. This becomes important for elucidating aspects of biological function, medicinal and pharmaceutical chemistry, materials science and synthetic methodology, which all underpin health and technology advances in Australia. The infrastructure will support projects involving fundamental and strategic research spanning nanotechnology and the biological and materials sciences to industry-oriented projects.Read moreRead less
Nucleotides for bioelectronics. Bioelectronics is a key component of nanobiotechnology, a new field that merges the science of biological molecules (DNA, proteins etc.) with electronics and semiconductor physics. We have recently introduced redox-labelled nucleotides that enable the production of electrochemically-active DNA and RNA for genetic, forensic and nanotechnology applications. This project further develops redox nucleotides for use in electronic devices.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989078
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Unique, state-of-the-art lipidomics infrastructure. The new technologies provided through this grant will significantly enhance our understanding of lipids and their role in normal cell biology and disease. These new insights will be vital in improving our understanding of lipid-related disorders such obesity, type 2 diabetes and cardiovascular disease and helping to improve their treatment and prevention.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0454209
Funder
Australian Research Council
Funding Amount
$126,326.00
Summary
A Glycobiology Facility for Glycoconjugate Analysis and Oligosaccharide Sequencing. The carbohydrate moiety of glycoconjugates plays an important role in their function and metabolism. Advances in glycan analytical and oligosaccharide sequencing techniques offer tremendous potential for the application of glycobiology to biotechnology, cell biology and medicine. This application aims to establish a Glycobiology Facility dedicated to glycoconjugate analysis and oligosaccharide sequencing. Funds a ....A Glycobiology Facility for Glycoconjugate Analysis and Oligosaccharide Sequencing. The carbohydrate moiety of glycoconjugates plays an important role in their function and metabolism. Advances in glycan analytical and oligosaccharide sequencing techniques offer tremendous potential for the application of glycobiology to biotechnology, cell biology and medicine. This application aims to establish a Glycobiology Facility dedicated to glycoconjugate analysis and oligosaccharide sequencing. Funds are requested for state of the art HPLC equipment, associated equipment and reagents for glycan purification/labelling, and a staff member, that are all essential to establish this technology in Australia. The Facility will support $25 million of existing research; approximately half of which is derived from ARC.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100311
Funder
Australian Research Council
Funding Amount
$383,982.00
Summary
Shining nanoparticles for single microRNA detection in microfluidics. This project aims to extensively study the interface between nanoparticles and nucleic acids. It sets out to produce a novel ultrasensitive high-performance biosensing platform that will combine luminescent nanoparticles with microfluidics in a digital assay. This portable platform will detect biological fingerprints, or microRNAs, at a single-molecule level, delivering unprecedented levels of sensitivity and specificity. The ....Shining nanoparticles for single microRNA detection in microfluidics. This project aims to extensively study the interface between nanoparticles and nucleic acids. It sets out to produce a novel ultrasensitive high-performance biosensing platform that will combine luminescent nanoparticles with microfluidics in a digital assay. This portable platform will detect biological fingerprints, or microRNAs, at a single-molecule level, delivering unprecedented levels of sensitivity and specificity. The multiplexed platform has the potential to benefit the biomedical research of microRNAs and opens up a genuine commercialisation potential for portable biosensing of nucleic acids.Read moreRead less
Imaging Mass Spectrometry (IMS), a peptide biomarker discovery tool using tissue. Cancer is the second most common cause of death in Australia. The newly developed technology of Imaging Mass Spectrometry for peptides in tissue has the potential to discover biomarkers for early diagnosis of cancer. This new technology could avoid a number of cancer deaths and reduce suffering of patients through earlier and better diagnosis.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100036
Funder
Australian Research Council
Funding Amount
$470,000.00
Summary
A protein molecular interaction and localization facility. This proposal will address a major gap in our mass spectrometry capabilities and aid in our understanding of protein interactions and tissue distribution in areas such as neuroscience, microbiology, immunology, and botany, as well as enhance our understanding of fundamental gas phase chemistry of protein molecules. It brings together a highly successful multidisciplinary team of high-profile researchers with a track record of collaborati ....A protein molecular interaction and localization facility. This proposal will address a major gap in our mass spectrometry capabilities and aid in our understanding of protein interactions and tissue distribution in areas such as neuroscience, microbiology, immunology, and botany, as well as enhance our understanding of fundamental gas phase chemistry of protein molecules. It brings together a highly successful multidisciplinary team of high-profile researchers with a track record of collaboration and delivering outcomes from shared facilities. In addition to these key scientific outcomes this project will also facilitate the training of several new personnel in a skill area for which there is a critical shortage (mass spectrometry) and promote true cross-disciplinary skills.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0236167
Funder
Australian Research Council
Funding Amount
$580,000.00
Summary
The Sydney Combinatorial Research Facility. The proposal is to establish a multidisciplinary inter-institutional research facility for solution-phase combinatorial chemistry synthesis and analysis, and medium to high throughput biological evaluation of lead compounds through fluorescence detection methods. This will be the first and only multi-user facility of its type in Sydney. It will provide through its synthetic node at NSW and Macquarie Universities and biological screening node at Univers ....The Sydney Combinatorial Research Facility. The proposal is to establish a multidisciplinary inter-institutional research facility for solution-phase combinatorial chemistry synthesis and analysis, and medium to high throughput biological evaluation of lead compounds through fluorescence detection methods. This will be the first and only multi-user facility of its type in Sydney. It will provide through its synthetic node at NSW and Macquarie Universities and biological screening node at University of Sydney an essential resource that will enable modern combinatorial techniques to be applied to chemical and drug-lead development studies in the region.Read moreRead less
Characterising post-translational modifications in bacterial proteins. This project represents the first global attempt to characterize post-translational modifications in bacterial proteins using the tools of proteomics. Modifications to proteins are key elements in altering their function. In bacteria, modifications are important in cell-cell adhesion, signalling and triggering of the immune response. Characterisation of modified proteins and their sites of modification represents an opportuni ....Characterising post-translational modifications in bacterial proteins. This project represents the first global attempt to characterize post-translational modifications in bacterial proteins using the tools of proteomics. Modifications to proteins are key elements in altering their function. In bacteria, modifications are important in cell-cell adhesion, signalling and triggering of the immune response. Characterisation of modified proteins and their sites of modification represents an opportunity to understand how bacterial cell populations communicate in the environment, as well as aid in understanding pathogenesis in medical, veterinary and food-borne pathogens. Therefore, improved vaccine targets and therapeutics, as well as method-based products, may be generated by this project.Read moreRead less
Protein chips for the high-throughput study of immune complexes by mass spectrometry. Mass spectrometry is a core enabling technology for proteomics with proteins identified by molecular weight, mass maps and sequencing within the confines of a mass spectrometer. We have found conditions under which it is possible to preserve and detect protein complexes by matrix-assisted laser desorption ionization (MALDI) mass spectrometry that has promising implications for the high-throughput screening of p ....Protein chips for the high-throughput study of immune complexes by mass spectrometry. Mass spectrometry is a core enabling technology for proteomics with proteins identified by molecular weight, mass maps and sequencing within the confines of a mass spectrometer. We have found conditions under which it is possible to preserve and detect protein complexes by matrix-assisted laser desorption ionization (MALDI) mass spectrometry that has promising implications for the high-throughput screening of protein-protein interactions. Technologies pioneered by the applicant will be advanced to achieve the high-throughput analysis of antibody complexes with native gel recovered protein antigens across emerging strains of the influenza virus by means of miniature protein chips.Read moreRead less