Multiple structural types of gap junctions in mouse lens

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Benedetti, E. L., Dunia, I. and Bloemendal, H (1974). Development of junctions during differentiation of lens fibers. Proc. Nat. Acad. Sci. U.S.A 71, 5073-7077.[Abstract/Free Full Text]

Bernardini, G. and Peracchia, C (1981). Gap junction crystallization in lens fibers after an increase in cell calcium. Invest. Ophthalmol. Vis. Sci 21, 291-299.[Abstract/Free Full Text]

Beyer, E. C (1990). Molecular cloning and developmental expression of two chick embryo gap junction proteins. J. Biol. Chem 265, 14439-14443.[Abstract/Free Full Text]

Beyer, E. C., Kistler, J., Paul, D. L. and Goodenough, D. A (1989). Antisera directed against connexin43 peptides react with a 43-kD protein localized to gap junctions in myocardium and other tissues. J. Cell Biol 108, 595-605.[Abstract/Free Full Text]

Bok, D., Dockstader, J. and Horwitz, J (1982). Immunocytochemical localization of the lens main intrinsic polypeptide (MIP26) in communicating junctions. J. Cell Biol 92, 213-220.[Abstract/Free Full Text]

Costello, M. J., McIntosh, T. J. and Robertson, J. D (1985). Membrane specializations in mammalian lens fiber cells: distribution of square arrays. Curr. Eye Res 4, 1183-1201.[Medline]

Costello, M. J., McIntosh, T. J. and Robertson, J. D (1989). Distribution of gap junctions and square array junctions in the mammalian lens. Invest. Ophthalmol. Vis. Sci 30, 975-989.[Abstract/Free Full Text]

Deleze, J. and Herve, J. C (1986). Quantitative gap junction alterations in mammalian heart cells quickly frozen or chemically fixed after electrical uncoupling. J. Membr. Biol 93, 11-21.[Medline]

Dermietzel, R., Traub, O., Hwand, T. K., Beyer, E., Bennett, M. V. L., Spray, D. C. and Willecke, K (1989). Differential expression of three gap junction proteins in developing and mature brain tissues. Proc. Nat. Acad. Sci. U.S.A 86, 10148-10152.[Abstract/Free Full Text]

Dickson, D. H. and Crock, G. W (1972). Interlocking patterns on primate lens fibers. Invest. Ophthalmol 11, 809-815.[Abstract/Free Full Text]

Duncan, G (1970). Movement of sodium and chloride across amphibian lens membranes. Exp. Eye. Res 10, 117-128.[Medline]

Ehring, G. R., Zampighi, G., Horwitz, J., Bok, D. and Hall, J. E (1990). Properties of channels reconstituted from the major intrinsic protein of lens fiber membranes. J. Gen. Physiol 96, 631-664.[Abstract/Free Full Text]

Fitzgerald, P. G., Bok, D. and Horwitz, J (1983). Immunocytochemical localization of the main intrinsic polypeptide (MIP) in ultrathin frozen sections of rat lens. J. Cell Biol 97, 1491-1499.[Abstract/Free Full Text]

Galvan, A., Lampe, P. D., Hur, K. C., Howard, J. B., Eccleston, E. D., Arneson, M. and Louis, C. F (1989). Structural organization of the lens fiber cell plasma membrane protein MP18. J. Biol. Chem 264, 19974-19978.[Abstract/Free Full Text]

Goodenough, D. A (1979). Lens gap junctions: a structural hypothesis for nonregulated low-resistance intercellular pathways. Invest. Ophthalmol. Vis. Sci 18, 1104-1122.[Abstract/Free Full Text]

Goodenough, D. A., Dick, J. S. B. and Lyons, J. E (1980). Lens metabolic cooperation: a study of mouse lens transport and permeability visualized with freeze substitution autoradiography and electron microscopy. J. Cell Biol 86, 576-589.[Abstract/Free Full Text]

Gorin, M. B., Yancey, S. B., Cline, J., Revel, J. P. and Horwitz, J (1984). The major intrinsic protein (MIP) of the bovine lens fiber membrane: characterization and structure based on cDNA cloning. Cell 39, 49-59.[Medline]

Green, C. R. and Severs, N. J (1984). Gap junction connexon configuration in rapidly frozen myocardium and isolated intercalated disks. J. Cell Biol 99, 453-463.[Abstract/Free Full Text]

Gruijters, W. T. M (1989). A non-connexon protein (MIP) is involved in eye lens gap-junction formation. J. Cell Sci 93, 509-513.[Abstract/Free Full Text]

Gruijters, W. T. M., Kistler, J. and Bullivant, S (1987). Formation, distribution and dissociation of intercellular junctions in the lens. J. Cell Sci 88, 351-359.[Abstract/Free Full Text]

Gruijters, W. T. M., Kistler, J., Bullivant, S. and Goodenough, D. A (1987). Immunolocalization of MP70 in lens fiber 16-17 nm intercellular junctions. J. Cell Biol 104, 565-572.[Abstract/Free Full Text]

Gutekunst, K. A., Rao, G. N. and Church, R. L (1990). Molecular cloning and complete nucleotide sequence of the cDNA encoding a bovine lens intrinsic membrane protein (MP19). Curr. Eye Res 9, 955-961.[Medline]

Harding, C. V., Susan, S. and Murphy, H (1976). Scanning electron microscopy of the adult rabbit lens. Ophthal. Res 8, 443-455.

Hirokawa, N. and Heuser, J (1982). The inside and outside of gap-junction membranes visualized by deep etching. Cell 30, 395-406.[Medline]

Hertzberg, E. L., Anderson, D. J., Friedlander, M. and Gilula, N. B (1982). Comparative analysis of the major polypeptides from liver gap junctions and lens fibers junctions. J. Cell Biol 92, 53-59.[Abstract/Free Full Text]

Itoi, M., Kodama, R., Takayama, S. and Eguchi, G (1991). Ultrastructural observations of typical gap junctions in human foetal lens nucleus. Curr. Eye Res 10, 1-9.

Kistler, J., Kirkland, B. and Bullivant, S (1985). Identification of a 70,000 dalton protein in lens membrane junctional domains. J. Cell Biol 101, 28-35.[Abstract/Free Full Text]

Kistler, J., Gilbert, K., Brooks, H. V., Jolly, R. D., Hopcroft, D. L. and Bullivant, S (1986). Membrane interlocking domains in the lens. Invest. Ophthalmol. Vis. Sci 27, 1527-1534.[Abstract/Free Full Text]

Kistler, J., Christie, D. and Bullivant, S (1988). Homologies between gap junction proteins in lens, heart and liver. Nature 331, 721-723.[Medline]

Kumar, N. M., Jarvis, L. J., Tenbroek, E. and Louis, C. F (1993). Cloning and expression of a major rat lens membrane protein, MP20. Exp. Eye Res 56, 35-43.[Medline]

Kuszak, J., Maisel, H. and Harding, C. V (1978). Gap junctions of chick lens fiber cells. Exp. Eye Res 27, 495-498.[Medline]

Kuszak, J., Alcala, J. and Maisel, H (1980). The surface morphology of embryonic and adult chick lens-fiber cells. Amer. J. Anat 159, 395-410.[Medline]

Kuwabara, T (1975). The maturation of the lens cells: a morphologic study. Exp. Eye Res 20, 427-443.[Medline]

Leeson, T. S (1971). Lens of the rat eye: an electron microscope and freeze-etch study. Exp Eye Res 11, 78-82.[Medline]

Lo, W.-K (1988). Adherens junctions in the ocular lens of various species: ultrastructural analysis with an improved fixation. Cell Tiss. Res 254, 31-40.[Medline]

Lo, W.-K. and Harding, C. V (1984). Square arrays and their role in ridge formation in human lens fibers. J. Ultrastruct. Res 86, 228-245.[Medline]

Lo, W.-K. and Harding, C. V (1986). Structure and distribution of gap junctions in lens epithelium and fiber cells. Cell Tiss. Res 244, 253-263.[Medline]

Lo, W.-K. and Kuck, J. F. R (1987). Alterations in fiber cell membranes of Emory mouse cataract: a morphologic study. Curr. Eye Res 6, 433-444.[Medline]

Louis, C. F., Hur, K. C., Galvan, A. C., TenBroek, E. M., Jarvis, L. J., Eccleston, E. D. and Howard, J. B (1989). Identification of an 18,000-dalton protein in mammalian lens fiber cell membranes. J. Biol. Chem 264, 19967-19973.[Abstract/Free Full Text]

Manjunath, C. K., Goings, G. E. and Page, E (1984). Cytoplasmic surface and intramembrane components of rat heart gap junctional proteins. Amer. J. Physiol 246, 865-.

Manjunath, C. K., Nicholson, B. J., Teplow, D., Hood, L., Page, E. and Revel, J.-P (1987). The cardiac gap junction protein (Mr 47,000) has a tissue-specific cytoplasmic domain of Mr 17,000 at its carboxyl-terminus. Biochem. Biophys. Res. Commun 142, 228-234.[Medline]

Mathias, R. T. and Rae, J. L (1985). Transport properties of the lens. Amer. J. Physiol 249, 181-190.

Mathias, R. T., Riquelme, G. and Rae, J. L (1991). Cell to cell communication and pH in the frog lens. J. Gen. Physiol 98, 1085-1103.[Abstract/Free Full Text]

Miller, T. M. and Goodenough, D. A (1985). Gap junction structures afterW.-K. Lo and T. S. Reese235Multiple types of lens gap junctionsexperimental alteration of junctional channel conductance. J. Cell Biol 101, 1741-1748.[Abstract/Free Full Text]

Musil, L. S., Beyer, E. C. and Goodenough, D. A (1990). Expression of the gap junction protein connexin43 in embryonic chick lens: molecular cloning, ultrastructural localization, and post-translational phosphorylation. J. Membr. Biol 116, 163-175.[Medline]

Nicholson, B., Dermietzel, R., Teplow, D., Traub, O., Willecke, K. and Revel, J.-P (1987). Two homologous protein components of hepatic gap junctions. Nature 329, 732-734.[Medline]

Nicholson, B. J., Takemoto, L. J., Hunkapiller, M. W., Hood, L. E. and Revel, J.-P (1983). Differences between liver gap junction protein and lens MIP 26 from rat: implications for tissue specificity of gap junctions. Cell 32, 967-978.[Medline]

Okinami, S (1978). Freeze-fracture replicas of the primate lens. Albrecht von Graefes Arch. Klin. Ophthalmol 209, 52-58.

Paul, D. L., Ebihara, L., Takemoto, L. J., Swenson, K. I. and Goodenough, D. A (1991). Connexin46, a novel lens gap junction protein, induces voltage-gated currents in nonjunctional plasma membrane of Xenopus oocytes. J. Cell Biol 115, 1077-1089.[Abstract/Free Full Text]

Paul, D. L. and Goodenough, D. A (1983). Preparation, characterization and localization of antisera against bovine MP26, an integral protein from lens fiber plasma membrane. J. Cell Biol 96, 625-632.[Abstract/Free Full Text]

Peracchia, C (1980). Structural correlates of gap junction permeation. Int. Rev. Cytol 66, 81-146.[Medline]

Peracchia, C. and Peracchia, L. L (1980). Gap junction dynamics: reversible effects of divalent cations. J. Cell Biol 87, 708-718.[Abstract/Free Full Text]

Peracchia, C. and Peracchia, L. L (1980). Gap junction dynamics: Effect of H+ ions. J. Cell Biol 87, 719-727.[Abstract/Free Full Text]

Piatigorsky, J. and Wistow, G. J (1989). Enzyme/crystallins: gene sharing as an evolutionary strategy. Cell 57, 197-199.[Medline]

Rae, J. L (1979). The electrophysiology of the crystalline lens. Curr. Top. Eye Res 1, 37-90.[Medline]

Rae, J. L. and Kuszak, J. R (1983). The electrical coupling of epithelium and fibers in the frog lens. Exp. Eye Res 36, 317-326.[Medline]

Rao, P. V. and Zigler, J. S. Jr (1991). Zeta-crystallin from guinea pig lens is capable of functioning catalytically as an oxidoreductase. Arch. Biochem. Biophys 284, 181-185.[Medline]

Raviola, E., Goodenough, D. A. and Raviola, G (1980). Structure of rapidly frozen gap junctions. J. Cell Biol 87, 273-279.[Abstract/Free Full Text]

Rup, D. M., Veenstra, R. D., Wang, H. Z., Brink, P. R. and Beyer, E. C (1993). Chick connexin-56, a novel lens gap junction protein. Molecular cloning and functional expression. J. Biol. Chem 268, 706-712.[Abstract/Free Full Text]

Sas, D., Sas, J., Johnson, K., Menko, A. and Johnson, K. R (1985). Junctions between lens fiber cells are labeled with a monoclonal antibody shown to be specific for MP26. J. Cell Biol 100, 216-225.[Abstract/Free Full Text]

Shibata, Y., Manjunath, C. K. and Page, E (1985). Differences between cytoplasmic surfaces of deep-etched heart and liver gap junctions. Amer. J. Physiol 249, 690-693.

Willekens, B. and Vrensen, G (1981). The three-dimensional organization of lens fibers in the rabbit. Albrecht von Graefes Arch. Klin. Ophthalmol 216, 275-289.[Medline]

Wistow, G., Anderson, A. and Piatigorsky, J (1990). Evidence for neutral and selective processes in the recruitment of enzyme-crystallins in avian lenses. Proc. Nat. Acad. Sci. USA 87, 6277-6280.[Abstract/Free Full Text]

White, T. W., Bruzzone, R., Goodenough, D. A. and Paul, D. L (1992). Mouse Cx50, a functional member of the connexin family of gap junction proteins, is the lens fiber protein MP70. Mol. Biol. Cell 3, 711-720.[Abstract]

Zampighi, G., Simon, S. A., Robertson, J. D., McIntosh, T. J. and Costello, M. J (1982). On the structural organization of isolated bovine lens fiber junctions. J. Cell Biol 93, 175-189.[Abstract/Free Full Text]

Zampighi, G., Hall, J. E., Ehring, G. R. and Simon, S. A (1989). The structural organization and protein composition of lens fiber junctions. J. Cell Biol 108, 2255-2275.[Abstract/Free Full Text]

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