Semi-thin sections can be obtained from frozen blocks of cryoprotected biological material by sectioning at -90°C. The advantages for using these sections for light microscopy are that the subcellullar morphology is preserved and the optical resolution is improved. Chemically fixed biological material is cryoprotected by immersion in 2.3 M sucrose and frozen onto specimen pins by immersion in liquid nitrogen. The sectioning is performed in a cryo-ultramicrotome with the thickness control of the ultramicrotome adjusted to cut thicker sections (0.3 to 1µm). Once the sections have been obtained, they are removed from the knife using a sucrose droplet but instead of being placed on specimen grids they are placed on glass slides. The glass slides should be marked with a diamond pencil on the side where the sections will be placed (mark the glass, wash and then coat the glass). After cleaning with detergent and water they may be coated with either gelatin, poly-L-lysine or alcian blue. For the first of these, a drop of 1% gelatin is smeared onto the glass slide using a second slide and air dried. For the other two methods, see below. Coating the slides may ensure that the sections stick to the slides during the labeling procedure. If the material under study was fixed with glutaraldehyde then autofluorescence will be present. This can be removed by treating the sections with 0.1% sodium borohydride in PBS (pH 8). Borohydride stock solutions can be stored indefinitely at pH 12. At pH 7 the molecules have a half life of 10 seconds. At pH 8 the half life is 100 seconds. If the autofluorescence is from the tissue, then gold- or enzyme-conjugated antibodies can be substituted for the secondary fluorescent antibodies. In this way the antibody binding can be visualized using silver enhancement to reveal the gold, or enzyme cytochemistry to produce a colored reaction product in the tissue slice.