In Situ Multiple Sampling of Attached Bacteria for Scanning and Transmission Electron Microscopy

Abstract

An in situ electron microscope sampling technique for characterizing cells attached to smooth surfaces is demonstrated with an ultraviolet-induced mutant of Streptococcus mutans. The sterilized sampling unit consists of a 9 cm plastic Petri dish containing a glass slide, a 12 mm round coverglass, and a coverglass with Formvar-carbon coated copper grids. After the bacterial culture in a liquid medium is incubated in the Petri dish, the slide with attached bacteria is washed in double-distilled water, air-dried, coated with platinum and carbon, and processed for replicas and shadowed specimens for transmission electron microscopy. The coverglass is similarly washed, fixed in 2% glutaraldehyde, air- or freeze-dried, coated with palladium/gold, and examined in the scanning electron microscope. The coverglass with grids is rinsed in double distilled water, the grids are transferred to a filter paper and stained with a loopful of 2% phosphotungstic acid at pH 5.5. The bacteria growing on the surface of the plastic Petri dish are fixed, dehydrated, and embedded in situ with Epon. Sectioned and stained specimens are then examined in the transmission electron microscope. This procedure also appears useful with such other attached systems as normal or infected tissue culture cells.