Cell microscopy imaging systems

Asymmetric localization of intracellular proteins and signals directs movement dimng axon guidance, endothelial cell invasion, and immune cell migration. In these processes, cell movement is guided by external chemical cues in a process known as chemotaxis. In particular, leukocyte migration in the innate immune system has been studied in the human neutrophil-like cell line (HL-60). Here, we describe the maintenance and transfection of HL-60 cells and explain how to analyze their behavior with two standard chemotactic assays. Finally, we demonstrate how to fix and stain the actin cytoskeleton of polarized cells for fluorescent microscopy imaging. 

Measuring FRET by fluorescence lifetime imaging microscopy (FRET-FLIM) offers the ability to see beyond the resolution of the optical system ( 10-100 times that of modern far field microscopes [5]). FRET efficiency can be used as a proxy for molecular distance, thereby allowing the easy detection and somewhat more challenging quantification of molecular interactions. Although many types of assay exist, FRET-FLIM is a highly suitable technique that is capable of in situ measurements of molecular interactions and conformation in living and fixed cells. 

Homo-FRET is a useful tool to study the interactions in living cells that can be detected by the decrease in anisotropy [106, 107]. Since commonly the donor and acceptor dipoles are not perfectly aligned in space, the energy transfer results in depolarization of acceptor emission. Imaging in polarized light can be provided both in confocal and time-resolved microscopies. However, a decrease of steady-state anisotropy can be observed not only due to homo-FRET, but also due to rotation of the fluorescence emitter. The only possibility of discriminating them in an unknown system is to use the variation of excitation wavelength and apply the... 

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