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Visualising molecular level detail in single cells and intact tissues. The goal of this project is to deliver a new toolkit for imaging cells at an unprecedented resolution and level of chemical detail. We will expand the capabilities of two existing, but complementary, methods: optical fluorescence microscopy with responsive probes and X-ray fluorescence imaging. Expected outcomes include improved techniques and benchmarks for visualising bacterial and mammalian cells; development of new molecu ....Visualising molecular level detail in single cells and intact tissues. The goal of this project is to deliver a new toolkit for imaging cells at an unprecedented resolution and level of chemical detail. We will expand the capabilities of two existing, but complementary, methods: optical fluorescence microscopy with responsive probes and X-ray fluorescence imaging. Expected outcomes include improved techniques and benchmarks for visualising bacterial and mammalian cells; development of new molecules for elucidating cellular chemistry; better utilisation of valuable synchrotron resources; and greater understanding of the strengths and limitations of current microscopy workflows. Results should benefit the biotechnology sector, and may lead to improved medical, diagnostic, and bioremediation capacity.Read moreRead less
Imaging metal homeostasis in the ageing brain. This fellowship aims to deliver new tools to visualise how changes to blood vessels during ageing effect the amount and distribution of metal ions in brain cells in animal models. This will be a significant advance as current methods cannot image these parameters. Metal ions are essential for brain function, but the effects of ageing on metal ions within brain cells is largely unknown. The results are expected to associate brain-blood vessel permeab ....Imaging metal homeostasis in the ageing brain. This fellowship aims to deliver new tools to visualise how changes to blood vessels during ageing effect the amount and distribution of metal ions in brain cells in animal models. This will be a significant advance as current methods cannot image these parameters. Metal ions are essential for brain function, but the effects of ageing on metal ions within brain cells is largely unknown. The results are expected to associate brain-blood vessel permeability with changes to metal ion content during ageing. The methods developed, and the fundamental new knowledge they reveal will benefit national and international neuroscientists seeking to elucidate the fundamental neurobiology of metal ions with respect to maintaining healthy brain function.Read moreRead less