Adam, E. J. and Adam, S. A (1994). Identification of cytosolic factors required for nuclear location sequence-mediated binding to the nuclear envelope. J. Cell Biol 125, 547-555.[Abstract/Free Full Text]
Akey, C. W (1989). Interactions and structure of the nuclear pore complex revealed by cryo-electron microscopy. J. Cell Biol 109, 955-970.[Abstract/Free Full Text]
Akey, C. W (1990). Visualization of transport-related configurations of the nuclear pore transporter. Biophys. J 58, 341-355.[Abstract/Free Full Text]
Akey, C. W. and Radermacher, M (1993). Architecture of the Xenopus nuclear pore complex revealed by three-dimensional cryo-electron microscopy. J. Cell Biol 122, 1-19.[Abstract/Free Full Text]
Bastos, R., Ribas de Pouplana, R. L., Enarson, M., Bodoor, K. and Burke, B (1997). Nup84, a novel nucleoporin that is associated with CAN/Nup214 on the cytoplasmic face of the nuclear pore complex. J. Cell Biol 137, 989-1000.[Abstract/Free Full Text]
Bayliss, R., Ribbeck, K., Akin, D., Kent, H. M., Feldherr, C., Gorlich, D. and Stewart, M (1999). Interaction between NTF2 and xFxFG\320containing nucleoporins is required to mediate nuclear import of Ran GDP. J. Mol. Biol 29, 579-593.
Belgareh, N., Snay-Hodge, C., Pasteau, F., Dagher, S., Cole, C. N. and Doye V (1998). Functional characterization of a Nup159p-containing nuclear pore subcomplex. Mol. Biol. Cell 9, 3475-3492.[Abstract/Free Full Text]
Bodoor, K., Shaikh, S., Salina, D., Raharjo, W. H., Bastos, R., Lohka, M. and Burke, B (1999). Sequential recruitment of NPC proteins to the nuclear periphery at the end of mitosis. J. Cell Sci 112, 2253-2264.[Abstract]
Chaillan-Huntingdon, C., Braslavsky, C. V., Kuhlmann, J. and Stewart, M (2000). Dissecting the interactions between NTF2, RanGDP and the nucleoporin XFXFG repeats. J. Biol. Chem 275, 5874-5879.[Abstract/Free Full Text]
Cotter, L. A., Goldberg, M. W. and Allen, T. D (1998). Nuclear pore complex disassembly and nuclear envelope breakdown during mitosis occur by both nuclear envelope vesicularisation and dispersion throughout the endoplasmic reticulum. Scanning 20, 250-251.[Medline]
Delphin, C., Guan, T., Melchior, F. and Gerace, L (1997). RanGTP targets p97 to RanBP2, a filamentous protein localized at the cytoplasmic periphery of the nuclear pore complex. Mol. Biol. Cell 8, 2379-2390.[Abstract/Free Full Text]
Feldherr, C. M. and Akin, D (1993). Regulation of nuclear transport in proliferating and quiescent cells. Exp. Cell Res 205, 179-186.[Medline]
Feldherr, C. M. and Akin, D (1994). Variations in signal mediated nuclear transport during the cell cycle in BALB/C 3T3 cells. Exp. Cell Res 215, 206-210.[Medline]
Feldherr, C. M. and Akin, D (1994). The effects of SV40 large T antigen and p53 on nuclear transport capacity in BALB/C 3T3 cells. Exp. Cell Res 213, 164-171.[Medline]
Feldherr, C. M. and Akin, D (1997). The location of the transport gate in the nuclear pore complex. J. Cell Sci 110, 3065-3070.[Abstract]
Feldherr, C. M. and Akin, D (1999). Signal mediated transport in the amoeba. J. Cell Sci 112, 2043-2048.[Abstract]
Feldherr, C. M., Akin, D. and Moore, M. S (1998). The nuclear import factor p10 regulates the functional size of the nuclear pore complex during oogenesis. J. Cell. Sci 111, 1889-1896.[Abstract]
Finlay, D. R., Meier, E., Bradley, P., Horecka, J. and Forbes, D. J (1991). A complex of nuclear pore proteins required for pore function. J. Cell Biol 114, 169-183.[Abstract/Free Full Text]
Fontoura, B., Blobel, G. and Matunis, M. J (1999). A conserved biogenesis pathway for nucleoporins: proteolytic processing of a 186kDa precursor generates Nup98 and the novel nucleoporin, Nup96. J. Cell Biol 144, 1097-1112.[Abstract/Free Full Text]
Fornerod, M., Boer, J., van Baal, S., Morreau, H. and Grosveld, G (1996). Interaction of cellular proteins with the leukemia specific fusion proteins DEK-CAN and SET-CAN and their normal counterpart, the nucleoporin CAN. Oncogene 13, 1801-1808.[Medline]
Fornerod, M., van Deursen, J., van Baal, S., Reynolds, A., Davis, D., Murti, K. G., Fransen. J. and Grosveld, G (1997). The human homologue of yeast CRM1 is in a dynamic subcomplex with CAN/Nup214 and a novel nuclear pore component Nup88. EMBO J 16, 807-816.[Medline]
Gant, T. M., Goldberg, M. W. and Allen, T. D (1998). Nuclear envelope and nuclear pore assembly: analysis of assembly intermediates by electron microscopy. Curr. Opin. Cell Biol 10, 409-415.[Medline]
Goldberg, M. W. and Allen, T. D (1993). The nuclear pore complex: three-dimensional surface structure revealed by field emission, in-lens scanning electron microscopy, with underlying structure uncovered by proteolysis. J. Cell Sci 106, 261-274.[Abstract]
Goldberg, M. W. and Allen, T. D (1995). Structural and functional organisation of the nuclear envelope. Curr. Opin. Cell Biol 7, 301-309.[Medline]
Goldberg, M. W. and Allen, T. D (1996). The nuclear pore complex and lamina: three-dimensional structure and interactions determined by field emission in-lens scanning electron microscopy. J. Mol. Biol 257, 848-865.[Medline]
Goldberg, M. W., Wiese, C., Allen, T. D. and Wilson, K. L (1997). Dimples, pores, star-rings, and thin rings on growing nuclear envelopes: evidence for structural intermediates in nuclear pore complex assembly. J. Cell Sci 110, 409-420.[Abstract]
Goldberg, M. W., Cronshaw, J. M., Kiseleva, E. and Allen, T. D (1999). Nuclear pore complex dynamics and transport in higher eukaryotes. Protoplasma 209, 144-156.
G\232rlich, D., Vogel, F., Mills, A. D., Hartmann, E. and Laskey, R. A (1995). Distinct functions for the two importin subunits in nuclear protein import. Nature 377, 246-248.[Medline]
G\232rlich, D. and Kutay, U (1999). Transport between the cell nucleus and the cytoplasm. Annu. Rev. Cell Dev. Biol 15, 607-660.[Medline]
Gorsch, L. C., Dockendorf, T. C. and Cole, C (1995). A conditional allelle of the novel repeat containing yeast nucleoporin RAT 7/NUP 159 causes both rapid cessation of mRNA export and reversible clustering of nuclear pore complexes. J. Cell Biol 129, 939-995.[Abstract/Free Full Text]
Grandi, P., Schlaich, N., Tekotte, H. and Hurt, E. C (1995). Functional interaction of Nic96p with a core nucleoporin complex consisting of Nsp1p, Nup49p and a novel protein Nup57p. EMBO J 14, 76-87.[Medline]
Greber, U. F., Senior, A. and Gerace, L (1990). A major glycoprotein of the nuclear pore complex is a membrane-spanning polypeptide with a large lumenal domain and a small cytoplasmic tail. EMBO J 9, 1495-1502.[Medline]
Greber, U. F. and Gerace, L (1992). Nuclear protein import is inhibited by an antibody to a lumenal epitope of a nuclear pore complex glycoprotein. J. Cell Biol 116, 15-30.[Abstract/Free Full Text]
Guan, T., Muller, S., Klier, G., Pante, N., Blevitt, J. M., Hauer, M., Paschal, B., Aebi, U. and Gerace, L (1995). Structural analysis of the p62 complex, an assembly of O -linked glycoproteins that localises near the central channel of the nuclear pore complex. Mol. Biol. Cell 6, 1591-1603.[Abstract]
Hallberg, E., Wozniak, R. W. and Blobel, G (1993). An integral membrane protein of the pore membrane domain of the nuclear envelope contains a nucleoporin-like region. J. Cell Biol 122, 513-521.[Abstract/Free Full Text]
Hinshaw, J. E., Carragher, B. O. and Milligan, R. A (1992). Architecture and design of the nuclear pore complex. Cell 69, 1133-1141.[Medline]
Kehlenbach, R. H., Dickmanns, A., Kehlenbach, A., Guan, T. and Gerace, L (1999). A role for RanBP1 in the release of CRM1 from the nuclear pore complex in a terminal step of nuclear export. J. Cell Biol 145, 645-657.[Abstract/Free Full Text]
Kiseleva, E., Goldberg, M. W., Allen, T. D. and Akey, C. W (1998). Active nuclear pore complexes in Chironomus: visualization of transporter configurations related to mRNP export. J. Cell Sci 111, 223-236.[Abstract]
Kosova, B., Pante, N., Rollenhagen, C. and Hurt, E (1999). Nup192p is a conserved nucleoporin with a preferential location at the inner site of the nuclear membrane. J. Biol. Chem._Fb_274 , 22646-22651_Fb_Kraemer, D. M., Strambio de Castillia, C., Blobel, G. and Rout, M. P. (1995). The essential yeast nucleoporin NUP 159 is located on the cytoplasmic side of the nuclear pore complex and serves as a karyopherin mediated binding of transport substrate. J. Biol. Chem 270, 19017-19021.[Abstract/Free Full Text]
Kutay, U. Bischoff, F. R. Kostka, S. Kraft, R. G\232rlich, D (1997). Export of importin alpha from the nucleus is mediated by a specific nuclear transport factor. Cell 90, 1061-1071.[Medline]
Macaulay, C. and Forbes, D. J (1996). Assembly of the nuclear pore: biochemically distinct steps revealed with NEM, GTPS and BAPTA. J. Cell Biol 132, 5-20.[Abstract/Free Full Text]
Mattaj, I. W. and Engelmeier, I (1998). Nucleocytoplasmic transport: the soluble phase. Annu. Rev. Biochem 67, 265-306.[Medline]
Nakielny, S. and Dreyfuss, G (1999). Transport of proteins and RNAs in and out of the nucleus. Cell 99, 677-690.[Medline]
Ohno, M., Fornerod, M. and Mattaj, I (1998). Nucleocytoplasmic transport; the last 200 nanometres. Cell 92, 327-336.[Medline]
Pante, N. and Aebi, U (1996). Toward the molecular dissection of protein import into nuclei. Curr. Opin. Cell Biol 8, 397-406.[Medline]
Pante, N., Bastos, R., McMorrow, I., Burke, B. and Aebi, U (1994). Interactions and three-dimensional localization of a group of nuclear pore complex proteins. J. Cell Biol 126, 603-617.[Abstract/Free Full Text]
Powers, M. A., Forbes, D. J., Dahlberg, J. E. and Lund, E (1997). The vertebrate GLFG nucleoporin, Nup98, is an essential component of multiple RNA export pathways. J. Cell Biol 136, 241-250.[Abstract/Free Full Text]
Radu, A., Blobel, G. and Wozniak, R (1993). NUP 155 is a novel nuclear pore complex protein that contains neither repetitive sequence motifs nor reacts with WGA. J. Cell Biol 121, 1-9.[Abstract/Free Full Text]
Rappsilber, J., Siniarsoglu, S., Hurt, E. C. and Mann, M (2000). A generic strategy to analyse the spatial organisation of multiprotein complexes by cross-linking and mass spectrometry. Anal. Chem 72, 267-275.[Medline]
Reichelt, R., Holzenburg, A., Buhle, E. L. Jr, Jarnik, M., Engel, A. and Aebi, U (1990). Correlation between structure and mass distribution of the nuclear pore complex and of distinct pore complex components. J. Cell Biol 110, 883-894.[Abstract/Free Full Text]
Richardson, W. D., Mills, A. D., Dilworth, S. M, Laskey, R. A. and Dingwall, C (1988). Nuclear protein migration involves two steps: rapid binding at the nuclear envelope followed by slower translocation through nuclear pores. Cell 52, 655-664.[Medline]
Rout, M. P. and Blobel, G (1993). Isolation of the yeast nuclear pore complex. J. Cell Biol 123, 771-783.[Abstract/Free Full Text]
Rout, M. P., Aitchison, J. D., Suprapto, A., Hjertaas, K., Zhao, Y. and Chait, B. T (2000). The yeast nuclear pore complex: Composition, architecture and transport mechanism. J. Cell Biol 148, 635-651.[Abstract/Free Full Text]
Rutherford, S. A., Goldberg, M. W. and Allen, T. D (1997). Three-dimensional visualization of the route of protein import: the role of nuclear pore complex substructure. Exp. Cell Res 232, 146-160.[Medline]
Stoffler, D., Fahrenkrog, B. and Aebi, U (1999). The nuclear pore complex: from molecular architecture to functional dynamics. Curr. Opin. Cell Biol 11, 391-401.[Medline]
Stoffler, D., Goldie, K. N., Feja, B. and Aebi, U (1999). Calcium-mediated structural changes of native nuclear pore complexes monitored by time-lapse atomic force microscopy. J. Mol. Biol 287, 741-752.[Medline]
Wu, J., Matunis, M. J., Kraemer, D., Blobel, G. and Coutavas, E (1995). Nup358, a cytoplasmically exposed nucleoporin with peptide repeats, Ran-GTP binding sites, zinc fingers, a cyclophilin A homologous domain, and a leucine-rich region. J. Biol. Chem 270, 14209-14213.[Abstract/Free Full Text]
Yang, Q., Rout, M. P. and Akey, C. W (1998). Three-dimensional architecture of the isolated yeast nuclear pore complex: functional and evolutionary considerations. Mol. Cell 1, 223-234.
Yaseen, N. R. and Blobel, G (1997). Cloning and characterization of human karyopherin-3. Proc. Nat. Acad. Sci. USA 94, 4451-4456.[Abstract/Free Full Text]
Yokoyama, N., Hayashi, N., Seki, T., Pante, N., Ohba, T., Nishii, K., Kuma, K., Hayashida, T., Miyata, T., Aebi, U., Fukui, M. and Nishimoto, T (1995). A giant nuclear pore protein that binds Ran/TC4. Nature 376, 184-188.[Medline]
