Reactions of seven basic fluorochromes with unfixed cells obtained from the salivary glands of the dipteran fly Megaselia scalaris Loew (Phoridae).

Seven basic fluorochromes with varying specificities were used to stain the large squamous epithelial cells isolated from the larval salivary glands of Megaselia scalaris (Phoridae). Although the EDTA-based method selected for isolating the cells produced permeabilization and a loss of viability of the cells, consistent results were obtained with the various fluorochromes. The "classical" pattern of green nuclear and red cytoplasmic fluorescence observed in cells stained with acridine orange could be changed to green cytoplasmic and red nuclear fluorescence by pretreatment with RNase. The predominantly cytoplasmic and nucleolar fluorescence obtained with pyronine Y could be changed to mainly nuclear fluorescence by RNase pretreatment. The other five fluorochromes tested were not affected appreciably by extraction with RNase. Quinacrine mustard, dicarbocyanine (DiOC3(3)), and rhodamine 123 produced primarily cytoplasmic and nucleolar fluorescence, while nile red revealed mainly cytoplasmic lipid droplets. Phosphine 3R initially stained lipid droplets but very rapidly redistributed throughout the cytoplasm and nucleus. Because of their large size, flatness, and content of histochemically demonstrable components, the cells of Megaselia are especially appropriate for use as "optical objects" or controls in various studies. New methods of isolating the cells, however, will be needed to prevent permeabilization and loss of viability of the cells.