Ackerman, S., Kozak, L. P., Przyborski, S. A., Rund, L. A., Boyer, B. B. and Knowles, B. B (1997). The mouse rostral cerebellar malformation gene encodes an UNC-5-like protein. Nature 386, 838-842.[Medline]
Alc\207ntara, S., Ruiz, M., D'Arcangelo, G., Ezan, F., de Lecea, L., Curran, T., Sotelo, C. and Soriano, E (1998). Regional and cellular patterns of reelin mRNA expression in the forebrain of the developing and adult mouse. J. Neurosci 18, 7779-7799.[Abstract/Free Full Text]
Anderson, S. A., Eisenstat, D. D., Shi, L. and Rubenstein, J. L. R (1997). Interneuron migration from basal forebrain to neocortex: dependence on DLX genes. Science 278, 474-476.[Abstract/Free Full Text]
Bloch-Gallego, E., Ezan, F., Tessier-Lavigne, M. and Sotelo, C (1999). Floor plate and netrin-1 are involved in the migration and survival of inferior olivary neurons. J. Neurosci 19, 4407-4420.[Abstract/Free Full Text]
Bourrat, F. and Sotelo, C (1988). Migratory pathways and neuritic differentiation of inferior olivary neurons in the rat embryo: Axonal tracing study using the in vitro slab technique. Dev. Brain Res 39, 19-37.
Bourrat, F. and Sotelo, C (1990). Early development of the precerebellar system: Migratory routes, Selective aggregation and neuritic differentiation of the inferior olive and lateral reticular nucleus neurons. An overview. Arch. Ital. Biol 128, 151-170.[Medline]
Bourrat, F. and Sotelo, C (1991). Relationships between neuronal birthdates and cytoarchitecture in the rat inferior olivary complex. J. Comp. Neurol 313, 509-521.[Medline]
Buttiglione, M., Revest, J. M., Rougon, G. and Faivre-Sarrailh, C (1996). F3 neuronal adhesion molecule controls outgrowth and fasciculation of cerebellar granule cell neurites: a cell type specific mediated by the Ig-like domains. Mol. Cell Neurosci 8, 53-69.[Medline]
Cho, K. R. and Fearon, E. R (1995). DCC: linking tumor suppressor genes and altered cell surface interactions in cancer?. Curr. Opin. Genet. Dev 5, 72-78.[Medline]
Colavita, A., Krishna, S., Zheng, H., Padget, R. W. and Culotti, J. G (1998). Pioneer axon guidance by UNC-129. a C. elegans TGF-. Science 281, 706-709.[Abstract/Free Full Text]
Colamarino, S. A. and Tessier-Lavigne, M (1995). The axonalchemoattractant netrin-1 is also a chemorepellent for trochlear motor axons. Cell 81, 621-629.[Medline]
Culotti, J. G. and Kolodkin, A. L (1996). Functions of netrins and semaphorins in axon guidance. Curr. Opin. Neurobiol 6, 81-88.[Medline]
D'Arcangelo, G., Miao, G. G., Chen, S.-C., Soares, H. D., Morgan, J. I. and Curran, T (1995). A protein related to extracellular matrix proteins deleted in the mouse mutant reeler. Nature 374, 719-723.[Medline]
Del R\222o, J. A., Heimrich, B., Borrell, V., F\232rster, E., Drakew, A., Alc\207ntara, S., Nakajima, K., Miyata, T., Ogawa, M., Mikoshiba, K., Derer, P., Frotscher, M. and Soriano, E (1997). An essential role for Cajal-Retzius cells and reelin in the layer-specific targeting of hippocampal afferents. Nature 385, 70-74.[Medline]
Eickholt, B. J., Mackenzie, S. L., Graham A., Walsh, F. S. and Doherty, P (1999). Evidence for collapsin-1 functioning in the control of neural crest migration in both trunk and hindbrain regions. Development 126, 2181-2189.[Abstract]
Ellerberger, C., Hanaway, J. and Netsky, M. G (1969). Embryogenesis of the inferior olivary nucleus in the rat: A radioautographic study and reevaluation of the rhombic lip. J. Comp. Neurol 137, 71-88.[Medline]
Engelkamp, D., Rashbas, P., Seawright, A. and van Heyningen, V (1999). Role of Pax6 in development of the cerebellar system. Development 126, 3585-3596.[Abstract]
Fabre M., Martin, M., Ulloa, F. and Real, F. X (1999). In vitro analysis of the role of DCC in mucus-secreting intestinal differentiation. Int. J. Cancer 81, 799-807.[Medline]
Fazeli, A., Dickinson, S. L., Hermiston. M. L., Tighe, R. V., Steen, R. G., Small, R. G., Stoeckli, E. T., Keino-Masu, K., Masu M., Rayburn, H., Simons, J., Bronson, R. T., Gordon, J. I., Tessier-Lavigne, M. and Weinberg, R. A (1997). Phenotype of mice lacking functional deleted in colorectal cancer ( DCC ) gene. Nature 386, 796-804.[Medline]
Felsenfeld, D. P., Hynes M. A., Skoler, K. M., Furley, A. J. and Jessell, T. M (1994). TAG-1 can mediate homophilic binding but neurite outgrowth on TAG-1 requires a L1-like molecule and1 integrins. Neuron 12, 257-267.
Gao, W.-Q. and Hatten, M. E (1994). Immortalizing oncogenes subvert the establishment of granule cell identity in developing cerebellum. Development 120, 1059-1070.[Abstract]
Goodman, C. S (1996). Mechanisms and molecules that control growth cone guidance. Annu. Rev. Neurosci 19, 341-377.[Medline]
Guthrie, S. and Pini, A (1995). Chemorepulsion of developing motor axons by the floor plate. Neuron 14, 1117-1130.[Medline]
Hamelin, M., Zhou, Y., Su, M. W. and Culotti, J. G (1993). Expression of the UNC-5 guidance receptor in the touch neurons of C. elegans steers their axons dorsally. Nature 364, 327-330.[Medline]
Harkmark, W (1954). Cell migrations from the rhombic lip to the inferior olive, the nucleus raphe and the pons. A morphological and experimental investigation on chick embryos. J. Comp. Neurol 100, 115-205.[Medline]
Hatten, M. E. and Liem, R. K. H (1981). Astroglia provide a template for the positioning of developing cerebellar neurons in vitro. J. Cell Biol 90, 622-630.[Abstract/Free Full Text]
Hong, K., Hinck, L., Nishiyama, M., Poo, M., Tessier-Lavigne, M. and Stein, E (1999). A ligand-gated association between cytoplasmic domains of UNC5 and DCC family receptors converts Netrin-induced growth cone attraction to repulsion. Cell 97, 927-942.[Medline]
Hu, H (1999). Chemorepulsion of neuronal migration by Slit2 in the developing mammalian forebrain. Neuron 23, 703-711.[Medline]
Hu, H. and Rutishauser, U (1996). A septum-derived chemorepulsive factor for migrating olfactory interneuron precursors. Neuron 16, 933-940.[Medline]
Hu, H., Tomasiewics, H., Magnuson, T. and Rutishauser, U (1996). The role of polysialic acid in migration of olfactory bulb interneuron precursors in the subventricular zone. Neuron 16, 735-743.[Medline]
Hynes, R. O., Patel, R. and Miller, R. H (1986). Migration of neuroblasts along preexisting axonal tracts during prenatal cerebellar development. J. Neurosci 6, 867-876.[Abstract]
Jankovski, A. and Sotelo, C (1996). Subventricular zone-olfactory bulb migratory pathway in the adult mouse: cellular composition and specificity as determined by heterochronic and heterotopic transplantation. J. Comp. Neurol 371, 376-396.[Medline]
Karagogeos, D., Morton, S. B., Casano, F., Dodd, J. and Jessell, T. M (1991). Developmental expression of the axonal glycoprotein TAG-1: Differential regulation by central and peripheral neurons in vitro. Development 112, 51-67.[Abstract]
Keino-Masu K., Masu, M., Hinck, L., Leonardo, E. D., Chan, S. S. Y., Culotti, J. G. and Tessier-Lavigne, M (1996). Deleted in colorectal cancer ( DCC ) encodes a Netrin receptor. Cell 87, 175-185.[Medline]
Kennedy, T. E., Serafini, T., de la Torre, J. and Tessier-Lavigne, M (1994). Netrins are diffussible chemotropic factors for commissural axons in the embryonic spinal cord. Cell 78, 425-435.[Medline]
Lemmon, V., Farr, K. L. and Lagenaur, C (1989). L1-mediated axon outgrowth occurs via a homophilic binding mechanism. Neuron 2, 1597-1603.[Medline]
Leonardo, E. D., Hinck, L., Masu, M., Keino-Masu, K., Ackerman, S. L. and Tessier-Lavigne, M (1997). Vertebrate homologues of C. elegans UNC-5 are candidate Netrin receptors. Nature 386, 833-837.[Medline]
Lois, C., Garc\222a-Verdugo, J. M. and Alvarez-Buylla, A (1996). Chain migration of neuronal precursors. Science 271, 978-981.[Abstract]
Lumsden, A. G. S. and Davies, A. M (1986). Chemotropic effect of specific target epithelium in the development of the mammalian central nervous system. Nature 323, 538-539.[Medline]
Mathis, L., Bonnerot, C., Puelles, L. and Nicolas, J.-F (1997). Retrospective clonal analysis of the cerebellum using genetic lac Z/lacZ mouse mosaics. Development 124, 4089-4104.[Abstract]
Mehlen, P., Rabizadeh, S., Snipas, S. J., Ass-Munt, N., Salvesen, G. S. and Bredesen, D. E (1998). The DCC gene product induces apoptosis by a mechanism requiring receptor proteolysis. Nature 395, 801-804.[Medline]
Metin, C., Deleglise, D., Serafini, T., Kennedy, T. E. and Tessier-Lavigne, M (1997). A role for netrin-1 in the guidance of cortical efferents. Development 124, 5063-5074.[Abstract]
Miale, I. and Sidman,R. L (1961). An autoradiographic analysis of histogenesis in the mouse cerebellum. Exp. Neurol 4, 277-296.[Medline]
Moody, S. A., Quigg, M. S. and Frankfurter, A (1989). Development of the peripheral trigeminal system in the chick revealed by an isotype-specific anti-beta-tubulin monoclonal antibody. J. Comp. Neurol 279, 567-580.[Medline]
Ono, K. and Kawamura, K (1989). Migration of immature neurons along tangentially oriented fibers in the subpial part of the fetal mouse medulla oblongata. Exp. Brain Res 78, 290-300.[Medline]
Ono, K. and Kawamura, K (1990). Mode of neuronal migration of the pontine stream in fetal mice. Anat. Embryol 182, 11-19.[Medline]
Persohn, E., and Schachner, M (1987). Immunoelectron microscopic localization of the neural adhesion molecules L1 and N-CAM during postnatal development of the rat cerebellum. J. Cell. Biol 105, 569-576.[Abstract/Free Full Text]
Placzek, M., Tessier-Lavigne, M., Jessell, T. M. and Dodd, J (1990). Orientation of commisural axons in vitro in response to a floor plate-derived chemoattractant. Development 110, 19-30.[Abstract]
Przyborski, S. A., Knowles, B. B. and Ackerman, S. L (1998). Embryonic phenotype of Unc5h3 mutant mice suggest chemorepulsion during the formation of the rostral cerebellar boundary. Development 125, 41-50.[Abstract]
Rakic, P (1971). Neuron-glia relationship during cell migration in developing cerebellar cortex: A Golgi and electron microscopic study in Macacus rhesus. J. Comp. Neurol 141, 283-312.[Medline]
Rakic, P (1981). Neuron-glial interaction during brain development. Trends Neurosci 4, 184-187.
Rakic, P (1990). Principles of neural migration. Experientia 46, 882-891.[Medline]
Richards, L. J., Koester, S. E., Tuttle, R. and O'Leary, D. D. M (1997). Directed growth of early cortical axons is influenced by a chemoattractant released from an intermediate target. J. Neurosci 17, 2445-2458.[Abstract/Free Full Text]
Ryder, E. F. and Cepko, C. L (1994). Migration patterns of clonally related granule cells and their progenitors in the developing chick cerebellum. Neuron 12, 1011-1029.[Medline]
Serafini, T., Kennedy, T. E., Galko, M. J., Mirzayan, C., Jessell, T. M. and Tessier-Lavigne, M (1994). The Netrins define a family of axon outgrowth-promoting proteins homologous to C. elegans UNC-6. Cell 78, 409-424.[Medline]
Serafini, T., Colamarino, S. A., Leonardo, E. D., Wang, E., Beddington,R., Skarnes, W. C. and Tessier-Lavigne, M (1996). netrin-1 is required for commissural axon guidance in the developing vertebrate nervous system. Cell 87, 1001-1014.[Medline]
Shirasaki, R., Tamada, A., Katsumata, R. and Murakami, F (1995). Guidance of cerebellofugal axons in the rat embryo: Directed growth toward the floor plate and subsequent elongation along the longitudinal axis. Neuron 14, 961-972.[Medline]
Shirasaki, R., Mirzayan, C., Tessier-Lavigne, M. and Murakami, F (1996). Guidance of circumferentially growing axons by Netrin-dependent and- independent floor plate chemotropism in the vertebrate brain. Neuron 17, 1079-1088.[Medline]
Soriano, E., Alvarado-Mallart, R. M., Dumesnil, N., Del R\222o, J. A. and Sotelo, C (1997). Cajal-Retzius cells regulate the radial glia phenotype in the adult and developing cerebellum and alter granule cell migration. Neuron 18, 563-577.[Medline]
Stoeckli, E. T. and Landmesser, L. T (1995). Axonin-1, Nr.CAM and Ng-CAM play different roles in the in vivo guidance of chick commissural neurons. Neuron 14, 1165-1179.[Medline]
Taber-Pierce, E (1966). Histogenesis of the nuclei griseum pontis, corporis pontobulbaris and reticularis tegmenti pontis (Bechterew) in the mouse. J. Comp. Neurol 129, 219-240.
Tamada, A., Shirasaki, R. and Murakami, F (1995). Floor plate chemoattracts crossed axons and chemorepels uncrossed axons in the vertebrate brain. Neuron 14, 1083-1093.[Medline]
Tessier-Lavigne, M. and Goodman, C. S (1996). The molecular biology of axon guidance. Science 274, 1123-1132.[Abstract/Free Full Text]
Varela-Echevarr\222a, A., Tucker, A., Puschel, A. W. and Guthrie, S (1997). Motor axon subpopulations respond differentially to the chemorepellents netrin-1 and semaphorin D. Neuron 18, 193-207.[Medline]
Walsh, F. S. and Doherty, P (1997). Neural cell adhesion molecules of the immunoglobulin superfamily: Role in axon growth and guidance. Ann. Rev. Cell Dev. Biol 13, 425-456.[Medline]
Wassef, M., Zanetta, J. P., Brehier, A. and Sotelo, C (1985). Transient biochemical compartmentalization of Purkinje cells during early cerebellar development. Dev. Biol 111, 129-137.[Medline]
Wichterle, H., Garc\222a-Verdugo, J. and Alvarez-Buylla, A (1997). Direct evidence for homotypic, glia-independent neuronal migration. Neuron 18, 779-791.[Medline]
Wolfer, D. P., Henehan-Beatty, A., Stoeckli, E. T., Sondererger, P. and Lipp, H. P (1994). Distribution of TAG-1/Axonin-1 in fibre tracts and migratory streams of the developing mouse nervous system. J. Comp. Neurol 345, 1-32.[Medline]
Wu, W., Wong, K., Chen, J-h., Jiang Z-h, Dupuis, S., Wu, J. and Rao, Y (1999). Directional guidance of neuronal migration in the olfactory system by the protein Slit. Nature 400, 331-336.[Medline]
Yamamoto, M., Hassinger, L. and Crandall, J. E (1990). Ultrastructural localization of stage-specific neurite associated proteins in the developing rat cerebral and cerebellar cortices. J. Neurocytol 19, 619-627.[Medline]
