Imaging and Spectroscopic Analysis of Living Cells

<p><U>Part A: Viruses, Microbes and Parasites</U></p> <p>Nanoscale imaging of microbial pathogens using atomic force microscopy</p> <p>Challenges in imaging parasites</p> <p><U>Part B: Disease States</U><br><br>Real-time live imaging to study bacterial infections in vivo</p> <p>Analysis of cellular membrane dynamics by following virus endocytosis</p> <p>Imaging of live malaria blood stage parasites</p> <p>Escherichia coli K1 invasion of human brain microvascular endothelial cells</p> <p>Real-time imaging after cerebral ischemia</p> <p>Imaging acute inflammation in zebrafish</p> <p>Imaging protein oligomerization in neurodegeneration using BiEC</p> <p>Imagng and quantifying the dyanmics of tumor-associated proteolysis</p> <p><U>Part C: Other Techniques</U></p> <p>Live cell imaging in vivo with fluorescent proteins</p> <p>Visualization of gene expression</p> <p>Imaging stem cell implant for cellular-based therapies</p> <p>Live cell single molecule imaging to investigate early events in B lymphocyte signaling</p> <p>A quantitative method for measuring phototoxicity of a live cell imaging microscope</p> <p>High content screening of defined chemical libraries using normal and glioma-derived neural stem cell lines</p> <p>High-content screening of primary neurons</p> <p>Live-imaging fluorescent proteins in early mouse embryos</p> <p>Comparing the methods for quantitative analysis of dendritic spine dynamics</p> <p>Live-imaging of cell competition in drosophila imaginal epithelium</p> <p>Live cell imaging of the oviduct</p> <p>Computational estimation of leukocyte numbers in zebrafish</p> <p>Four dimensional tracking of lymphocyte migration and interactions by two-photon microscopy</p>