Life at the nanometre scale: imaging immunological synapses with a novel super-resolution fluorescence microscope. This project aims to image individual proteins in activated white blood cells in order to understand how lymphocytes participate in an immune response. The problem is that current imaging modalities either lack resolution or are unsuitable for live cell and three-dimensional (3D) imaging. With the project’s industry partner, Carl Zeiss MicroImaging, the project will build and apply ....Life at the nanometre scale: imaging immunological synapses with a novel super-resolution fluorescence microscope. This project aims to image individual proteins in activated white blood cells in order to understand how lymphocytes participate in an immune response. The problem is that current imaging modalities either lack resolution or are unsuitable for live cell and three-dimensional (3D) imaging. With the project’s industry partner, Carl Zeiss MicroImaging, the project will build and apply a novel microscope that is capable of visualising single proteins in 3D and live cells. This technology will provide insights into signalling and lymphocyte function on a true molecular scale.Read moreRead less
Intramembrane Mechanics of Immunoreceptor Signalling. The cells of the immune system constantly survey the body for markers of injury and infection through molecular sensors that are responsive to the presence of pathogens, tumours and damaged cells. The goal of this project is to understand how the mechanical action of these molecular sensors direct the transmission of information to the cell interior.
The biogenesis of bacterial outer membranes: how bacteria build their surface coating. This project will determine how bacteria build their outer membranes. The outer membrane protects 'probiotic bacteria' in the human intestine and enables 'pathogenic' bacteria to cause infectious diseases. The project presents outstanding training opportunities with the use of cutting edge technology and the development of skills not common in Australia.