Abstract
Specific transport processes exist within the cell to ensure that molecules are directed to their correct subcellular or extracellular location. The transport of macromolecules into and out of the nucleus is arguably the most important of these processes because of its involvement in the regulation of gene activity.
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References
Adam, G. and Delbruck, M. (1968). In Structural Chemistry and Molecular Biology. (Eds. A. Rich and N. Davidson) W.H. Freeman & Co. San Francisco pp 198–215.
Bonner, W.M. (1975). J. Cell Biol. 64, 431–437.
Bonner, W.M. (1978). In The Cell Nucleus 6 (Ed. H. Busch part C ). pp 97–148.
Davey, J., Dimmock, N.J., and Colman, A. (9185) Cell 40, 667–675.
De Robertis, E.M., Longthorne, R.F., and Gurdon, J.B. (1978). Nature 272, 254–256.
Dingwall, C., Sharnick, S.V. and Laskey, R.A. (1982). Cell 30, 449–458.
Earnshaw, W.C., Honda, B.M., Laskey, R.A. and Thomas, J.O. (1980). Cell 21, 373–383.
Feldherr, C.M., Cohen, R.J. and Ogburn, J.A. (1983). J. Cell Biol. 96, 1486–1490.
Feldherr, C.M., Kallenbaeh, E. and Schultz, N. (1984). J. Cell Biol. 99, 2216–2222.
Gething, M-J. (1985). Current Communications in Molecular Biology. Protein Transport and Secretion. Cold Spring Harbor Laboratory.
Gurdon, J.B. (1970). Proc. Roy. Soc. Lond. B 176, 303–314.
Hall, M.N., Hereford, L., and Herskowitz, I. (1984). Cell 36, 1057–1065.
Hardt, S. (1980). In Mathematical Models in Molecular and Cell Biology. (Ed. L.E. Segel ). Cambridge University Press pp 453–457.
Kalderon, D., Richardson, W.D., Markham, A.F. and Smith, A.E. (1984a). Nature 311, 33–38.
Kalderon, D., Roberts, B.L., Richardson, W.D. and Smith, A.E. (1984b). Cell 39, 499–509.
Kreil, G. (1981). Ann. Rev. Biochem. 50, 317–348.
Kleinschmidt, J.A., Fortkamp, E., Krohne. G., Zentgraf. F., and Franke. W.W. (1985) J. Biol. Chem. 260, 1166–1176.
Lanford, R.E. and Butel, J.S. (1984). Cell 37, 801–813.
Laskey, R.A., Mills, A.D. and Morris, N.R. (1977). Cell 10, 237–243.
Laskey, R.A., Honda, B.M., Mills, A.D. and Finch, J.T. (1978). Nature 275, 416–420.
Messing, J. (1983) Methods in Enzymology 101, 20–78.
Paine, P.L., Moore, L.C. and Horowitz, S.B. (1975). Nature 254, 109–114.
Sabatini, D., Kreibach, G., Morimoto, T. and Adesmik, M. (1981). J. Cell Biol. 92, 1–22.
Smith, A.E., Kalderon, D., Roberts, B.L., Colledge, W.H., Edge, M., Gillet, P., Markham, A., Paucha, E. and Richardson, W.D. (1985). Proc. Roy. Soc. Lond. B. 226, 43–58.
Young, R.A. and Davis, R.W. (1983a). Proc. Nat. Acad. Sci. 80, 1194–1198.
Young, R.A. and Davis, R.W. (1983b). Science 222, 778–782.
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© 1986 Springer-Verlag, Berlin Heidelberg
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Dingwall, C., Bürglin, T.R., Kearsey, S.E., Dilworth, S., Laskey, R.A. (1986). Sequence Features of the Nucleoplasmin Tail Region and Evidence for a Selective Entry Mechanism for Transport into the Cell Nucleus. In: Peters, R., Trendelenburg, M. (eds) Nucleocytoplasmic Transport. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-71565-5_14
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DOI: https://doi.org/10.1007/978-3-642-71565-5_14
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