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1975507 
Journal Article 
Review 
Thin is better!: ultrathin cryosection immunocytochemistry 
Takizawa, T; Robinson, JM 
2004 
Yes 
Journal of Nippon Medical School
ISSN: 1345-4676
EISSN: 1347-3409 
71 
306-307 
English 
15514446 
In immunofluorescence microscopy (IFM), the repression of out of focus fluorescence signal is crucial in order to obtain high-resolution images. One option to acquire high vertical resolution (z-axis resolution) is to produce optical sections with a confocal microscope. The z-axis resolution usually obtained with confocal microscopy of biological samples is about 500 nm. Another option is to produce very thin sections with a cryo-ultramicrotome (physical sections). The ultrathin cryosections we employ are about 100 nm in thickness: thus all of the fluorescence must come from within this 100 nm thickness. The use of ultrathin cryosections permits the acquisition of extremely high-quality images and minimizes the possibility for false localization in IFM (Fig. 1). Ultrathin cryosections can be applied to immunoelectron microscopy (IEM) as well as IFM (Fig. 2). We show new methods of ultrathin cryosection immunocytochemistry(1-3). Human full-term placentas were fixed with 4% paraformaldehyde, solidified with 10% gelatin, infiltrated with 2.3 M sucrose, and then frozen in liquid nitrogen. Ultrathin cryosections were cut with a cryo-ultramicrotome and then transferred to glass cover slips for IFM or to nickel grids for IEM. Cryosections were incubated with mouse anti-p230, a trans-Golgi network marker, and subsequently incubated with Alexa 488-labeled goat anti-mouse IgG or with goat anti-mouse 5-nm colloidal gold particles. For visualization and preservation of ultrastructure of cryosections at the electron microscopic level, the sections on grids were postfixed with ferrocyanide-reduced osmium and then stained with uranyl acetate and lead citrate in polyvinyl alcohol(1). Ultrathin cryosection immunocytochemistry should be an important technique for functional genomics research, especially for the analysis of the in situ expression of target molecules(2,3). 
Cryoultramicrotomy/ methods; Immunohistochemistry/ methods; Microscopy, Fluorescence; Microscopy, Immunoelectron; Placenta/metabolism/ultrastructure; Pregnancy 
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