An immunocytochemical ultrastructural study of Rhodospirilum rubrum cultured under semiaerobic conditions was conducted to correlate the localization of functional components with membrane formation. R. rubrum is a facultatively phototrophic organism. Under reduced oxygen, this bacterium forms an intracytoplasmic chromatophore membrane that is the site of the photosynthetic apparatus. Immunogold techniques were used to localize intracellular protein antigens associated with the photosynthetic apparatus. Antibody, demonstrated by immunoblotting to be specific for the reaction center and light-harvesting photochemical components, was conjugated to colloidal gold particles and used for direct immunolabeling of fixed, sectioned specimens. Membrane invaginations appeared by 4 h after transition to induction conditions, and mature chromatophore membrane was abundant by 22 h. The occurrence of chromatophore membrane was correlated with bacteriochlorophyll a content and the density of the immunolabel. In uninduced (aerobic) cells and those obtained from cultures 0.5 h posttransition, the immunogold preferentially labeled the peripheral area of the cell. In contrast, in cells obtained after 22 h of induction, the central region of the cell was preferentially immunolabeled. These findings provided immunocytochemical evidence supporting the hypothesis that the chromatophore membrane is formed by invagination of the cytoplasmic membrane.Rhodospirillum rubrum is a facultatively photosynthetic bacterium that has been used as a model in studies of membrane structure and formation (22,36). Under aerobic conditions nonpigmented cells undergo chemotrophic metabolism. Under anaerobic conditions in the light, R. rubrum grows phototrophically. Bacteriochlorophyll a (BCHL) and carotenoids and associated proteins are localized in the intracytoplasmic chromatophore membrane. Ultrastructural and physical evidence has suggested that this chromatophore membrane is continuous with the cytoplasmic membrane (for a review, see reference 39). Moreover, studies revealing the opposite asymmetry of the chromatophore and cytoplasmic membranes in R. rubrum (34, 42) and other photosynthetic bacteria (8,11,25) imply the existence of a membrane continuum because the cytoplasmic face of the chromatophore membrane forms the outer surface of isolated chromatophores.The apparent continuity between the chromatophore and cytoplasmic membrane has led to the hypothesis that the chromatophore membrane is formed by invagination of the cytoplasmic membrane (35). Evidence to support this hypothesis is provided by the freeze-etching studies of Golecki and Oelze (13 Electron microscopy. Cells were harvested, washed, and suspended in a minimal amount of 10 mM potassium phosphate buffer (pH 7.0) and held at 0°C until cell blocks were prepared with 2% agarose (Seakem HGT; FMC Corp., Marine Colloids Div., Rockland, Maine). Double-distilled water used in all reagents was boiled for 10 min and filter sterilized. For cell block preparation, cell suspensions were broug...
An immunocytochemical study was performed to localize the site of hemoglobin synthesis in larvae and embryos of the insect Chironomus thummi. Heterologous antisera specific for C. thummi hemoglobins were prepared using a highly purified hemoglobin extract. Tissue samples were prepared by glutaraldehyde fixation of whole dissected larvae or whole embryos without osmium tetroxide postfixation. Epoxy resin-embedded thin sections were labeled with a direct immunogold conjugate. Immune label was localized in rough endoplasmic reticulum of fat body cells of larvae. Immune label was also present in embryos. The technique, which did not require chemical etching of the sections, proved very useful for demonstration of this intracellular protein antigen.
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