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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775529
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Structural elucidation by chemical degradation mass spectrometry using a linear ion trap with electron transfer dissociation. The mass spectrometric instrumentation that we plan to acquire represents a true breakthrough in technology, and will be the first of its kind in operation in Australia. The instrument to be purchased will improve the ability of a wide cross section of researchers to characterize compounds important in fields as varied as medical research, agricultural biotechnology, and ....Structural elucidation by chemical degradation mass spectrometry using a linear ion trap with electron transfer dissociation. The mass spectrometric instrumentation that we plan to acquire represents a true breakthrough in technology, and will be the first of its kind in operation in Australia. The instrument to be purchased will improve the ability of a wide cross section of researchers to characterize compounds important in fields as varied as medical research, agricultural biotechnology, and natural product characterization. All types of chemical research, from fundamental to applied, will benefit from access to this system, which has clearly positive implications with regard to societal impact. Implementing this type of frontier technology is an essential step in maintaining the world class capabilities of the Australian research community.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989077
Funder
Australian Research Council
Funding Amount
$225,600.00
Summary
Regional Facility for Real Time Analysis of Molecular Interactions. The ARC Facility for the Analysis of Biomacromolecular Interactions at the University of Wollongong and ANU serves many research groups working at the interface of chemistry and biology with the ultimate aim of drug target identification and drug development. New state-of-the-art instrumentation will enhance their capabilities and enable new activities. Specifically, the new instruments will facilitate characterization of macrom ....Regional Facility for Real Time Analysis of Molecular Interactions. The ARC Facility for the Analysis of Biomacromolecular Interactions at the University of Wollongong and ANU serves many research groups working at the interface of chemistry and biology with the ultimate aim of drug target identification and drug development. New state-of-the-art instrumentation will enhance their capabilities and enable new activities. Specifically, the new instruments will facilitate characterization of macromolecular complexes and enable rapid and precise study in real time of the rates at which molecules interact, under many different experimental conditions. It will strengthen existing collaborations among the partner institutions and provide essential infrastructure for drug development projects.Read moreRead less
The colour of cellular aging: a deep probe of cellular processes. Understanding why we age and whether aging is preventable are profound research challenges, which must be first tackled at a cellular level. Building on our advances in non-invasive colour monitoring of cell function, this project aims to uncover intimate links between cellular processes and aging in cells that must survive for many decades such as oocytes and neurons. We will explore the tantalising possibility to rejuvenate such ....The colour of cellular aging: a deep probe of cellular processes. Understanding why we age and whether aging is preventable are profound research challenges, which must be first tackled at a cellular level. Building on our advances in non-invasive colour monitoring of cell function, this project aims to uncover intimate links between cellular processes and aging in cells that must survive for many decades such as oocytes and neurons. We will explore the tantalising possibility to rejuvenate such aged cells by interfering with molecular master switches of aging. A unique machine learning approach will be applied for finding the most effective interventions. The results will have broad impact beyond the science of aging, in the areas of female fertility, neurodegeneration and immunity.
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Rejuvenating adult stem cells. This project aims to uncover intimate links between metabolic regulation and longevity in adult stem cells, the source of all cells in the body. Understanding why we age and whether ageing is preventable are research challenges which must be first attacked at a cellular level. This project will try to rejuvenate aged stem cells by interfering with a prospective molecular master switch of aging and also develop an approach to identify and select youthful stem cells. ....Rejuvenating adult stem cells. This project aims to uncover intimate links between metabolic regulation and longevity in adult stem cells, the source of all cells in the body. Understanding why we age and whether ageing is preventable are research challenges which must be first attacked at a cellular level. This project will try to rejuvenate aged stem cells by interfering with a prospective molecular master switch of aging and also develop an approach to identify and select youthful stem cells. The results are expected to be important beyond informing the science of ageing, in the areas of tissue engineering, wound healing, embryology and cancer.Read moreRead less
Single molecule spectroscopy-guided design of thermostable industrial enzymes. The production and engineering of proteins are key methodologies in life sciences. The current project aims to develop new approaches to accelerate the production and analysis of proteins and to apply them to discover improved proteins for use as feedstock supplements.
Our current understanding of cellular signalling and disease is based on ensemble measurements over a cellular or molecular population. While these measurements have provided valuable information on the molecular circuitry required for cellular function, there is a lack of detail on the spatio-temporal dynamics of signal initiation and propagation at the single molecule and single cellular level. Single particle (molecule or cell) approaches offer the advantage of being able to detect individual ....Our current understanding of cellular signalling and disease is based on ensemble measurements over a cellular or molecular population. While these measurements have provided valuable information on the molecular circuitry required for cellular function, there is a lack of detail on the spatio-temporal dynamics of signal initiation and propagation at the single molecule and single cellular level. Single particle (molecule or cell) approaches offer the advantage of being able to detect individual processes including rare events that would be lost in an ensemble measurement. Moreover single particle approaches provide dynamic-kinetic information that does not rely on synchronising a population of molecules or cells. In this proposal we aim to build on our combined expertise in EGF-EGFR signalling, biophysics, biosensors, quantum dot nanotechnology and single molecule spectroscopy to learn more about how EGFR cellular signalling works and how it is impaired in cancer. This project will provide basic information that could lead to the design of more effective drugs directed agaisnt this therapeutic target.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100199
Funder
Australian Research Council
Funding Amount
$475,000.00
Summary
Establishment of the Protein Quantitation Centre of South Australia (PQCSA). Determining the protein quantities in culture cells, plant material, biological fluids and entire organisms will provide critical information regarding biological processes in plants and other organisms. The facility will allow the project to progress the understanding of complex biological systems.
New methods to complete the lipidomics puzzle: revealing the structural diversity of lipids by mass spectrometry. Lipid-related disorders such as obesity, diabetes and heart disease are reaching epidemic proportions in the western world. The integration of innovative techniques will provide Australia with unique capabilities to investigate these diseases and place Australia at the forefront of lipid research internationally.
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