Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100089
Funder
Australian Research Council
Funding Amount
$700,000.00
Summary
Super-resolution fluorescence microscopy. The prestigious journal Nature Methods named super-resolution fluorescent microscopy as the Method of the Year 2008. This recognition is justified because fluorescent imaging on the molecular scale will revolutionise biological sciences. It will literally change the way we see the smallest building blocks of life and this allows researchers to identify the function of proteins and lipids in health and disease. This breakthrough technology is currently no ....Super-resolution fluorescence microscopy. The prestigious journal Nature Methods named super-resolution fluorescent microscopy as the Method of the Year 2008. This recognition is justified because fluorescent imaging on the molecular scale will revolutionise biological sciences. It will literally change the way we see the smallest building blocks of life and this allows researchers to identify the function of proteins and lipids in health and disease. This breakthrough technology is currently not available to researchers in Australia. Super-resolution fluorescence microscopy would extend Australia's leading position in the fundamental biological sciences, bio- and nano-technologies as well as imaging and microscopy.Read moreRead less
Characterisation of p14ARF intracellular trafficking pathways. Over 3500 new cases of melanoma are diagnosed in NSW each year, and one of the most important proteins involved in suppressing melanoma initiation or growth is p14ARF. This project will characterise the movement and functions of this protein with the aim of identifying novel targets for more effective drug therapies.
Discovery Early Career Researcher Award - Grant ID: DE140101626
Funder
Australian Research Council
Funding Amount
$394,179.00
Summary
Flotillin link membrane microdomains to signalling endosome during T cell activation. This project aims to determine the mechanisms that connect signalling microdomains at the cell surface to intracellular signalling endosomes to regulate T cell activation. A T cell immune response begins with the reorganisation of the plasma membrane to yield two-dimensional signalling microdomains that must be connected to the three-dimensional microarchitecture of the endocytic matrix for full T cell activati ....Flotillin link membrane microdomains to signalling endosome during T cell activation. This project aims to determine the mechanisms that connect signalling microdomains at the cell surface to intracellular signalling endosomes to regulate T cell activation. A T cell immune response begins with the reorganisation of the plasma membrane to yield two-dimensional signalling microdomains that must be connected to the three-dimensional microarchitecture of the endocytic matrix for full T cell activation. This project hypothesises that Flotillin form distinct signalling microdomains in the plasma membrane that internalise to constitute an independent endocytic pathway. Using single-molecule and ultra-fast fluorescence imaging, the project will demonstrate that Flotillin represent a unique two-dimensional to three-dimensional regulatory mechanism for T cell signalling.Read moreRead less