Adhesion of Golgi cisternae by proteinaceous interactions: intercisternal bridges as putative adhesive structures

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Amos, W. B. and Grimstone, A. V (1968). Intercisternal material in the Golgi body of Trichomonas. J. Cell Biol 38, 466-477.[Free Full Text]

Balch, W. E., Dunphy, W. G., Braell, W. A. and Rothman, J. E (1984). Reconstitution of the transport of protein between successive compartments of the Golgi measured by the coupled incorporation of N-acetylglucosamine. Cell 39, 405-416.[Medline]

Balch, W. E. and Rothman, J. E (1985). Characterization of protein transport between successive compartments of the Golgi apparatus: asymmetric properties of donor and acceptor activities in a cell-free system. Arch. Biochem. Biophys 240, 413-425.[Medline]

Bergeron, J. J. M., Rachubinski, R. A., Sikstrom, R. A., Posner, B. I. and Paiement, J (1982). Galactose transfer to endogenous acceptors within Golgi fractions of rat liver. J. Cell Biol 92, 139-146.[Abstract/Free Full Text]

Bergmann, J. E. and Singer, S. J (1983). Immunoelectron microscopic studies of the intracellular transport of the membrane glycoprotein (G) of784vesicular stomatitis virus in infected Chinese hamster ovary cells. J. Cell Biol 97, 1777-1787.[Abstract/Free Full Text]

Bracker, C. E., Grove, S. N., Heintz, C. E. and Morre, D. J (1971). Continuity between endomembrane components in hyphae of Pythium spp. Cytobiologie 4, 1-8.

Bruni, C. and Porter, K. R (1965). The fine structure of the parenchymal cell of the normal rat liver. Amer. J. Pathol 46, 691-755.

Chadwick, C. C., Inui, M. and Fleischer, S (1988). Identification and purification of a transverse tubule coupling protein which binds to the ryanodine receptor of terminal cisternae at the triad junction in skeletal muscle. J. Biol. Chem 263, 10872-10877.[Abstract/Free Full Text]

Dalton, A. J. and Felix, M. D (1954). Cytologic and cytochemical characteristics of the Golgi substance of epithelial cells of the epididymis- in situ, in homogenates and after isolation. Amer. J. Anat 94, 171-187.[Medline]

Dean, N. and Pelham, H. R (1990). Recycling of proteins from the Golgi compartment to the ER in yeast. J. Cell Biol 111, 369-377.[Abstract/Free Full Text]

Dunphy, W. G., Fries, E., Urbani, L. J. and Rothman, J. E (1981). Early and late functions associated with the Golgi apparatus reside in distinct compartments. Proc. Nat. Acad. Sci. USA 79, 7453-7457.

Dunphy, W. G. and Rothman, J. E (1983). Compartmentation of asparagine-linked oligosaccharide processing in the Golgi apparatus. J. Cell Biol 97, 270-275.[Abstract/Free Full Text]

Dunphy, W. G. and Rothman, J. E (1985). Compartmental organization of the Golgi stack. Cell 42, 13-21.[Medline]

Farquhar, M. G (1985). Progress in unraveling pathways of Golgi traffic. Annu. Rev. Cell Biol 1, 447-488.[Medline]

Farquhar, M. G. and Palade, G. E (1981). The Golgi apparatus (complex)- (1954-1981)- from artifact to center stage. J. Cell Biol 91, 77-.[Abstract/Free Full Text]

Ferguson, D. G., Schwartz, H. W. and Franzini-Armstrong, C (1984). Subunit structure of the junctional feet in triads of skeletal muscle: a freeze-drying, rotary shadowing study. J. Cell Biol 99, 1735-1742.[Abstract/Free Full Text]

Ferris, C. D., Huganir, R. L., Supattapone, S. and Snyder, S. H (1989). Purified inositol 1,4,5-trisphosphate receptor mediates calcium flux in reconstituted lipid vesicles. Nature 342, 87-89.[Medline]

Friend, D. S. and Murray, M. J (1965). Osmium impregnation of the Golgi apparatus. Amer. J. Anat 117, 135-150.[Medline]

Franke, W. W., Kartenbeck, J., Zentgraf, H., Scheer, U. and Falk, H (1971). Membrane-to-membrane cross-bridges. A means to orientation and interaction of membrane faces. J. Cell Biol 51, 881-888.[Free Full Text]

Geuze, H. J., Slot, J. W., Strous, G. J. A. M., Hasilik, A. and von Figura, K (1984). Ultrastructural localization of the mannose 6-phosphate receptor in rat liver. J. Cell Biol 98, 2047-2054.[Abstract/Free Full Text]

Geuze, H. J., Stoorvogel, W., Strous, G. J., Slot, J. W., Bleekemolen, J. E. and Mellman, I (1988). Sorting of mannose 6-phosphate receptors and lysosomal membrane proteins in endocytic vesicles. J. Cell Biol 107, 2491-2501.[Abstract/Free Full Text]

Goldberg, D. E. and Kornfeld, S (1983). Evidence for extensive subcellular organization of asparagine-linked oligosaccharide processing and lysosomal enzyme phosphorylation. J. Biol. Chem 258, 3159-3165.[Free Full Text]

Griffiths, G. and Simon, K (1986). The trans Golgi network: sorting at the exit site of the Golgi complex. Science 234, 438-443.[Abstract/Free Full Text]

Hsu, V. W., Yuan, L. C., Nuchtern, J. G., Lippincott-Schwartz, J., Hammerling, G. J. and Klausner, R. D (1991). A recycling pathway between the endoplasmic reticulum and the Golgi apparatus for retention of unassembled MHC class I molecules. Nature 352, 441-444.[Medline]

Hymel, L., Inui, M., Fleischer, S. and Schindler, H (1988). Purified ryanodine receptor of skeletal muscle sarcoplasmic reticulum forms Ca2+-activated oligomeric Ca2+ channels in planar bilayers. Proc. Nat. Acad. Sci. U.S.A 85, 441-445.[Abstract/Free Full Text]

Izawa, S. and Good, N. E (1966). Effects of salts and electron transport on the conformation of isolated chloroplasts. II. Electron microscopy. Pl. Physiol 41, 544-552.[Abstract/Free Full Text]

Leelavathi, D. E., Estes, L. W., Feingold, D. S. and Lombardi, B (1970). Isolation of a Golgi-rich fraction from rat liver. Biochim. Biophys. Acta 211, 124-138.

Lippincott-Schwartz, J., Yuan, L. C., Bonifacino, J. S. and Klausner, R. D (1989). Rapid redistribution of Golgi proteins into the ER in cells treated with brefeldin A: evidence for membrane cycling from Golgi to ER. Cell 56, 801-813.[Medline]

Millonig, G (1961). Advantages of a phosphate buffer for OsO4 solutions in fixation. J. Appl. Phys 32, 1637-.

Mitchell, R. D., Saito, A., Palade, P. and Fleischer, S (1983). Morphology of isolated triads. J. Cell Biol 96, 1017-1029.[Abstract/Free Full Text]

Mollenhauer, H. H (1965). An intercisternal structure in the Golgi apparatus. J. Cell Biol 24, 504-511.[Free Full Text]

Morimoto, T., Ogihara, S. and Takisawa, H (1990). Anchorage of secretion-competent dense granules on the plasma membrane of bovine platelets in the absence of secretory stimulation. J. Cell Biol 111, 79-86.[Abstract/Free Full Text]

Morre, D. J., Morre, D. M. and Heidrich, H.-G (1983). Subfractionation of rat liver Golgi apparatus by free-flow electrophoresis. Eur. J. Cell Biol 31, 263-274.[Medline]

Murphy, D. J (1986). The molecular organisation of the photosynthetic membranes of higher plants. Biochim. Biophys. Acta 864, 33-94.

Neutra, M. and LeBlond, C. P (1966). Synthesis of the carbohydrate of mucus in the Golgi complex as shown by electron microscope radioautography of goblet cells from rats injected with glucose-H3. J. Cell Biol 30, 119-136.[Abstract/Free Full Text]

Orci, L., Glick, B. S. and Rothman, J. E (1986). A new type of coated vesicular carrier that appears not to contain clathrin: its possible role in protein transport within the Golgi stack. Cell 46, 171-184.[Medline]

Ovtracht, L., Morre, D. J., Cheetham, R. D. and Mollenhauer, H. H (1973). Subfractionation of Golgi apparatus from rat liver: method and morphology. J. Microsc 18, 87-102.

Palade, G. E (1975). Intracellular aspects of the process of protein synthesis. Science 189, 347-358.[Free Full Text]

Pearse, B. M. F. and M. S. Robinson (1990). Clathrin, adaptors and sorting. Annu. Rev. Cell Biol 6, 151-171.

Pfeffer, S. R. and Rothman, J. E (1987). Biosynthetic protein transport and sorting by the endoplasmic reticulum and Golgi complex. Annu. Rev. Biochem 56, 829-852.[Medline]

Poste, G. and Allison, A. C (1973). Membrane fusion. Biochim. Biophys. Acta 300, 421-465.[Medline]

Roth, J. and Berger, E. G (1982). Immunocytochemical localization of galactosyltransferase in HeLa cells: codistribution with thiamine pyrophosphatase in trans- Golgi cisternae. J. Cell Biol 93, 223-229.[Abstract/Free Full Text]

Rothman, J. E. and Orci, L (1990). Movement of proteins through the Golgi stack: a molecular dissection of vesicular transport. FASEB J 4, 1460-1468.[Abstract]

Saraste, J. and Hedman, K (1983). Intracellular vesicles involved in the transport of Semliki Forest virus membrane proteins to the cell surface. EMBO J 2, 2001-2006.[Medline]

Saito, A., Seiler, S., Chu, A. and Fleischer, S (1984). Preparation and morphology of sarcoplasmic reticulum terminal cisternae from rabbit skeletal muscle. J. Cell Biol 99, 875-885.[Abstract/Free Full Text]

Tanaka, K., Mitsushima, A., Fukudome, H. and Kashima, Y (1986). Three-dimensional architecture of the Golgi complex observed by high resolution scanning electron microscopy. J. Submicrosc. Cytol 18, 1-9.[Medline]

Tilney, L. G., Bryan, J., Bush, D. J., Fujiwara, K., Mooseker, M. S., Murphy, D. B. and Synder, D. H (1973). Microtubules: evidence for 13 protofilaments. J. Cell Biol 59, 267-275.[Abstract/Free Full Text]

Weiland, F. T., Gleason, M. L., Serafini, T. A. and Rothman, J. E (1987). The rate of bulk flow from the endoplasmic reticulum to the cell surface. Cell 50, 289-300.[Medline]

Wood, S. A., Park, J. E. and Brown, W. J (1991). Brefeldin A causes a microtubule-mediated fusion of the trans Golgi network and early endosomes. Cell 67, 591-600.[Medline]

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