Sort by
Refine Your Search
-
imaging techniques and structural biology analysis. The student will learn a variety of research techniques including CRISPR genome editing, molecular biology, biochemistry, advanced fluorescent imaging
-
with immune assays and western blot; MS and AD human tissue bank brain and ChP samples for immunohistochemistry and fluorescence microscopy. Overall, the project explores exciting concepts in macrophage
-
fluorescence scanning (MA-XRF) and reflectance imaging spectroscopy (RIS). These multimodal datasets contain a wealth of information which when properly exploited offer unprecedented insights into the creation
-
and require labelling with fluorescent dyes, which may alter the cell's properties or introduce artefacts. You will develop a 3D Imaging Flow Cytometer, including hardware (fast-imaging, optics and
-
imaged with light and due to their dimensions, are very difficult to study alive and unperturbed. The short wavelengths (i.e. UV) or fluorescent dyes required to resolve fine features of cells are damaging
-
of the container, and type of excipient used to stabilise the solution. Experiments will be performed using high-speed imaging, where the focus will be on characterising surface deformation and entrainment
-
of myonuclei in relation to mitochondrial function in individual muscle fibers. Optimize and refine the CLEM methodology by integrating live fluorescent light microscopy with Transmission EM and 3D volume EM