3µl of exosome suspension was added onto 200 mesh fomvar coated grids and allowed to dry at room temp. The grids were washed with water, stained with 1% uranyl acetate solution for 5 mins. After staining, the grids were washed once in 70% ethanol followed by 4× washes with molecular grade water. These grids were then loaded onto the sample holder of the electron microscope (FEI Tecnai F20 200 keV microscope) and exposed to 80kv electron beam for capturing images.
Tecnai f20 200 kev microscope
Manufactured by Thermo Fisher Scientific
The Tecnai F20 200 keV microscope is a high-performance transmission electron microscope (TEM) designed for advanced materials analysis. It operates at an accelerating voltage of 200 kiloelectron volts (keV) and is capable of providing high-resolution imaging and analytical capabilities.
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Lab products found in correlation
3 protocols using tecnai f20 200 kev microscope
1
Exosome Visualization by Electron Microscopy
2
Immuno-EM Protocol for Ultrastructural Localization
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Immuno‐EM was performed as described previously (Storrie et al. 1998 (link)). Day 7 PF were plated onto T‐25 cell flasks, washed with 4°C PBS, and scraped from the bottom of the flask. Cells were pelleted by centrifuging at 2500 g for 10 min at 4°C, resuspended in 4% gluteraldehyde, and incubated for 1 h. Cells were then pelleted by centrifugation at 2500 g for 10 min at 4°C, rinsed with PBS, resuspended in 1% OsO4, incubated for 1 h, and rinsed with ddH2O. Cells were then serially dehydrated by incubating for 10 min in 70% ethanol, for 10 min in 80 ethanol, for 10 min in 90% ethanol and finally for 10 min in 100% ethanol two times. Cells were then incubated with propylene oxide for 5 min three times. Cells were then embedded with 2:1 propylene oxide:epoxy resin, 1:1 propylene oxide:epoxy resin, 1:2 propylene oxide:epoxy resin then pure epoxy resin for 30 min. A vacuum was pulled for 10 min at room temperature then the resin was cured at 60°C overnight. Samples were sectioned with microtome and imaged with an electron microscope. Immunolabeling was performed using anti‐MMP (1:100) and gold‐conjugated anti‐rabbit secondary antibodies (1:100). After immunolabeling, sections were positively stained and embedded with 2% methyl cellulose containing 0.3% uranyl acetate air‐dried, and viewed using an FEI Tecnai F20 200 keV microscope (Hillsboro, OR).
3
Exosomal Morphology Visualization Protocol
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