Background-free imaging of single membrane-receptors with nanophosphors. This project aims to develop nanophosphor beacons and real-time, ultrahigh-sensitivity functional imaging to provide a picture of the brain. Time-gated detection microscopy will give these nanophosphors a superior optical contrast. The nanophosphors’ antibody-targeting will image single AMPA membrane receptors in their full biological context, crucial to understanding neuronal signalling. Simultaneous imaging of receptor tr ....Background-free imaging of single membrane-receptors with nanophosphors. This project aims to develop nanophosphor beacons and real-time, ultrahigh-sensitivity functional imaging to provide a picture of the brain. Time-gated detection microscopy will give these nanophosphors a superior optical contrast. The nanophosphors’ antibody-targeting will image single AMPA membrane receptors in their full biological context, crucial to understanding neuronal signalling. Simultaneous imaging of receptor trafficking and activity in neurons will help to uncover details of the dynamic activity in the brain. This technology is expected to help understand the inner workings of the brain and provide insights into its functioning.Read moreRead less