Discovery Early Career Researcher Award - Grant ID: DE210101176
Funder
Australian Research Council
Funding Amount
$445,000.00
Summary
Fluorescent probes for super-resolution imaging of the amyloid architecture. The goal of this project is to develop chemical tools that enable molecular-level imaging of the amyloid structure. The Nobel Prize-winning super-resolution microscopy provides nanoscale imaging capabilities, but surprisingly there have been no substantive efforts to design fluorescent sensors that are compatible with this cutting-edge technology. In this project, new fluorescent super-resolution sensors will be develop ....Fluorescent probes for super-resolution imaging of the amyloid architecture. The goal of this project is to develop chemical tools that enable molecular-level imaging of the amyloid structure. The Nobel Prize-winning super-resolution microscopy provides nanoscale imaging capabilities, but surprisingly there have been no substantive efforts to design fluorescent sensors that are compatible with this cutting-edge technology. In this project, new fluorescent super-resolution sensors will be developed that enable nanoscale visualisation of amyloid assemblies. These chemical and biochemical studies will establish rational design strategies to develop fluorescent sensors for super-resolution imaging applications and significantly advance our understanding of fundamental differences functional and toxic protein assemblies.Read moreRead less
Biologically inert probes to unravel nutrient directed cellular processing . In this project we will develop novel compounds that can act as probes of the pathways present in cells for the uptake of nutrients and other essential molecules and show how to generate new agents for identifying and targeting specific populations of cells. The project will generate new tools for understanding biological processes including cell transport and processing. The insights gained from this work are expected ....Biologically inert probes to unravel nutrient directed cellular processing . In this project we will develop novel compounds that can act as probes of the pathways present in cells for the uptake of nutrients and other essential molecules and show how to generate new agents for identifying and targeting specific populations of cells. The project will generate new tools for understanding biological processes including cell transport and processing. The insights gained from this work are expected to help guide the development of new agents for selectively delivering imaging and biologically active agents to cells.Read moreRead less