Homogenous Antibody-Metal Conjugates For Immuno-Mass Spectrometry Imaging. This project aims to use bespoke metal labels and high-resolution mass spectrometry imaging to address current shortcomings in approaches that visualise and measure proteins in cells and tissue. It expects to substantially increase the utility of immuno-mass spectrometry imaging technology to analyses that are refractory to current techniques and workflows. Expected outcomes include metal probes that facilitate the spatia ....Homogenous Antibody-Metal Conjugates For Immuno-Mass Spectrometry Imaging. This project aims to use bespoke metal labels and high-resolution mass spectrometry imaging to address current shortcomings in approaches that visualise and measure proteins in cells and tissue. It expects to substantially increase the utility of immuno-mass spectrometry imaging technology to analyses that are refractory to current techniques and workflows. Expected outcomes include metal probes that facilitate the spatial quantification of multiple biomolecules on a single histological section, providing significant benefits to bioscience laboratories that require complex workflows to visualise and obtain quantitative data on the expression of biomolecules.Read moreRead less
Next Generation Fluorescent Tools for Measuring Autophagy Dynamics in Cells. This project aims to create new molecular tools for detecting a crucial cell survival process called autophagy. Specifically, this project will develop small molecule fluorescent probes that are specific to autophagy, for the first time, by interacting with the key autophagy marker proteins or cargos. This will allow researchers to visualise and quantify autophagy activity in living cells without disrupting the system, ....Next Generation Fluorescent Tools for Measuring Autophagy Dynamics in Cells. This project aims to create new molecular tools for detecting a crucial cell survival process called autophagy. Specifically, this project will develop small molecule fluorescent probes that are specific to autophagy, for the first time, by interacting with the key autophagy marker proteins or cargos. This will allow researchers to visualise and quantify autophagy activity in living cells without disrupting the system, which is not currently possible. This project represents a major technical and knowledge advance that will improve our understanding of autophagy in fundamental biology and ultimately contribute to the development of new intervention strategies for diseases like neurodegeneration and cancers.Read moreRead less