Intra and intermolecular steps underpinning vesicular priming. This project aims to discover how secretory vesicles fuse with the plasma membrane, a process called priming. The fusion of secretory vesicles by exocytosis underpins neuronal communication. Despite efforts to understand vesicular fusion, how these vesicles become fusion-competent upon arrival at the plasma membrane is unknown. This project will use single molecule imaging to assess mobility changes of key priming molecules and uncov ....Intra and intermolecular steps underpinning vesicular priming. This project aims to discover how secretory vesicles fuse with the plasma membrane, a process called priming. The fusion of secretory vesicles by exocytosis underpins neuronal communication. Despite efforts to understand vesicular fusion, how these vesicles become fusion-competent upon arrival at the plasma membrane is unknown. This project will use single molecule imaging to assess mobility changes of key priming molecules and uncover their diffusional signature during priming. It intends to build a comprehensive model of molecular interactions that make a recently docked vesicle fusion-competent. This understanding is key to unravelling how the brain worksRead moreRead less
Mechanism of transmission of calcium waves by glial cells. This research concerns determining the fundamental properties of cells that occupy about 70% of the brain, the glial cells. Two very important discoveries on glial cells have recently been made, namely that they can convey information in the form of patterns of waves and that they possess molecules on their surface membranes that have been implicated in psychotic disorders. One such molecule is called the D2 receptor and its malfunctioni ....Mechanism of transmission of calcium waves by glial cells. This research concerns determining the fundamental properties of cells that occupy about 70% of the brain, the glial cells. Two very important discoveries on glial cells have recently been made, namely that they can convey information in the form of patterns of waves and that they possess molecules on their surface membranes that have been implicated in psychotic disorders. One such molecule is called the D2 receptor and its malfunctioning has been implicated in schizophrenia. Our research will determine the way in which information is propagated in the glial system of the brain and also illuminate the function of several of the molecules found on the surface of the glial cells.Read moreRead less
Neuron-microglia signalling mechanisms. This research concerns determining the fundamental mechanisms by which one of the principal non-neuronal cells in the brain , the microglial cell, interacts with neurons to change their properties. The correct functioning of neural networks is necessary for our normal behaviour. Such networks can be disrupted and indeed destroyed by the release of inflammatory molecules from microglial cells. In this work the way in which anti-inflammatory molecules are re ....Neuron-microglia signalling mechanisms. This research concerns determining the fundamental mechanisms by which one of the principal non-neuronal cells in the brain , the microglial cell, interacts with neurons to change their properties. The correct functioning of neural networks is necessary for our normal behaviour. Such networks can be disrupted and indeed destroyed by the release of inflammatory molecules from microglial cells. In this work the way in which anti-inflammatory molecules are released from the microglia will be elucidated, thus providing insight into how to prevent the destructive actions of the inflammatory molecules on the nervous system. Read moreRead less