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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100166
Funder
Australian Research Council
Funding Amount
$370,000.00
Summary
Imaging Cell and Tissue Architecture using Confocal and Super-Resolution Microscopy. Imaging cell and tissue architecture using confocal and super-resolution microscopy: This project aims to understand how the architecture of cells and tissues is controlled. This is because the organisation of biological space underpins the function of cells, tissues and organisms. This project will test the role of identified parts of cell architecture in regulating specific animal functions/pathologies. It wil ....Imaging Cell and Tissue Architecture using Confocal and Super-Resolution Microscopy. Imaging cell and tissue architecture using confocal and super-resolution microscopy: This project aims to understand how the architecture of cells and tissues is controlled. This is because the organisation of biological space underpins the function of cells, tissues and organisms. This project will test the role of identified parts of cell architecture in regulating specific animal functions/pathologies. It will do this by using new microscope technologies which are at the frontier of visualising cell structure in isolation and in the context of tissue including application to the living animal. The dynamic organisation of structures in cells will be imaged in living tissue. Novel insights into structure/function relationships in the body will impact the health industry and generate opportunities for new diagnostics and therapeutics. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100029
Funder
Australian Research Council
Funding Amount
$700,000.00
Summary
High Resolution PET-CT for Small Animal Molecular and Anatomical Imaging. This project will integrate a next generation small animal PET-CT instrument into the Sydney Imaging multi-modality imaging ecosystem. PET-CT enables the investigation of molecular function and anatomical structure in complex living organisms. This platform will enable research as diverse as the development and in-vivo characterisation of new chemical probes and nanoparticles that bind to specific protein targets in the bo ....High Resolution PET-CT for Small Animal Molecular and Anatomical Imaging. This project will integrate a next generation small animal PET-CT instrument into the Sydney Imaging multi-modality imaging ecosystem. PET-CT enables the investigation of molecular function and anatomical structure in complex living organisms. This platform will enable research as diverse as the development and in-vivo characterisation of new chemical probes and nanoparticles that bind to specific protein targets in the body, investigating mechanisms of brain plasticity in predictive learning, understanding the molecular pathways involved in neurodegeneration and cancer, developing novel methods for multi-modal image analysis, and developing and validating new radiation detectors for the next generation of imaging technology.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200101511
Funder
Australian Research Council
Funding Amount
$424,816.00
Summary
Structural insights into activation, dynamics and bias of GPCRs. The project aims to investigate the mechanisms underlying activation, biased agonism and G protein selectivity of G protein-coupled receptors (GPCRs) by utilising the adenosine A1 receptor as a model system. This project expects to generate knowledge in the area of GPCR biology using an interdisciplinary approach including structural biology, pharmacology, biochemistry and protein engineering. The expected outcomes include (i) unde ....Structural insights into activation, dynamics and bias of GPCRs. The project aims to investigate the mechanisms underlying activation, biased agonism and G protein selectivity of G protein-coupled receptors (GPCRs) by utilising the adenosine A1 receptor as a model system. This project expects to generate knowledge in the area of GPCR biology using an interdisciplinary approach including structural biology, pharmacology, biochemistry and protein engineering. The expected outcomes include (i) understanding the structural mechanisms underlying GPCR activation, (ii) biased agonism and (iii) G protein selectivity. This should provide significant benefits, such as advancement of fundamental knowledge in GPCR biology and pharmacology that could also one day lead to therapeutic development.Read moreRead less
Controlling apoptotic cell death in health and disease. Regulating how and when cells die is crucial for the development and maintenance of a healthy body and mind. This project will investigate the proteins that are responsible for controlling cell death with the view to identifying novel ways to target these proteins for the treatment of disorders such as cancer, neurodegenerative disease and autoimmunity.
Controlling apoptotic cell death in health and disease. Regulating how and when cells die is crucial for the development and maintenance of a healthy body and mind. This project will investigate the proteins that are responsible for controlling cell death with the view to identifying novel ways to target these proteins for the treatment of disorders such as cancer, neurodegenerative disease and autoimmunity.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100239
Funder
Australian Research Council
Funding Amount
$480,000.00
Summary
Small biological molecule tissue imaging mass spectrometry facility for Western Australia for spatial metabolomics and lipidomics. This tissue imaging facility for Western Australia will provide researchers with access to much needed instrumentation. The facility will support major research efforts in key disciplines, including agriculture and animal science, fisheries and medical science.
Chromatin structure and pervasive transcription. This project aims to understand mechanisms that repress pervasive transcription and to identify chromatin characteristics that repress transcription initiation outside the promoter regions. Chromatin characteristics, such as position, occupancy and turnover-rate of nucleosomes, establish an elaborate genomic indexing mechanism, which defines functional units in the genome. Defects in this process increase pervasive transcription, toxic accumulatio ....Chromatin structure and pervasive transcription. This project aims to understand mechanisms that repress pervasive transcription and to identify chromatin characteristics that repress transcription initiation outside the promoter regions. Chromatin characteristics, such as position, occupancy and turnover-rate of nucleosomes, establish an elaborate genomic indexing mechanism, which defines functional units in the genome. Defects in this process increase pervasive transcription, toxic accumulation of non-coding transcripts and genomic instability. This work aims to understand eukaryotic genome organisation and may have long-term therapeutic implications for cancer and ageing-related diseases.Read moreRead less
A role for the actin cytoskeleton in suppression of prion pathology in yeast. The discovery that proteins as well as DNA carry genetic information is leading to a re-think of the mechanisms that program cell behaviour. There is a link between proteins that suppress cancer and protein inheritance. This project explores how heritable changes in proteins control cell behaviour and the implications of this for the origin of cancer.
Dissecting the mitochondrial pathway of apoptotic cell death. This research aims to identify each step in cell death regulation by the Bcl-2 family of proteins. Each step is a potential target for drugs that may help cancer cells die, or that may help normal cells such as heart and brain cells recover from damage.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100203
Funder
Australian Research Council
Funding Amount
$250,000.00
Summary
Accessing the third dimension in scanning electron microscopy for rapid, high resolution tomography of large samples. Understanding the three-dimensional structure of materials is essential for modern research. This facility will allow rapid three-dimensional imaging of materials within a scanning electron microscope, including sustainable polymers, tissues from plants and nanocomposites. This will enable high-quality research in science, engineering and medicine.