Coppolino, M. G., Woodside, M. J., Demaurex, N., Grinsten, S., St-Arnaud, R. and Dedhar, S (1997). Calreticulin is essential for integrin mediated calcium signalling and cell adhesion. Nature 386, 343-347.
Cowley, S., Paterson, H., Kemp, P. and Marshall, C. J (1994). Activation of MAP kinase kinase is necessary and sufficient for PC12 differentiation and for transformation of HIH 3T3 cells. Cell 77, 841-852.[Medline]
Crossley, P. H., Mart\222nez, S. and Martin, G. R (1996). Midbrain development induced by FGF8 in the chick embryo. Nature 380, 66-68.[Medline]
Dahmane, N. and Ruiz i Altaba, A (1999). Sonic hedgehog regulates the growth and patterning of the cerebellum. Development 126, 3089-3100.[Abstract]
De Curtis, I. and Reichardt, L (1993). Function and spatial distribution in developing chick retina of the laminin receptor6 1 and its isoforms. Development 118, 377-388.[Abstract]
Echelard, Y., Epstein, D. J., St-Jacques B., Shen L., Mohler, J., McMahon, J. A. and McMahon, A.P (1993). Sonic hedgehog, a member of a family of putative signalling molecules, is implicated in regulation of CNS polarity. Cell 75, 1417-1430.[Medline]
Epstein, D. J., Mart\222, E., Scott, M. P. and McMahon A. P (1996). Antagonizing cAMP-dependent protein kinase A in the dorsal CNS activates a conserved Sonic hedgehog signal. Development 122, 2885-2894.[Abstract]
Garc\222a-Segura, L. M., Baetens, D., Roth, J., Norman, A. W. and Orci, L (1984). Immunohistochemical mapping of calcium-binding protein immunoreactivity in the rat central nervous system. Brain Res 296, 75-68.[Medline]
Gonzales, G. A. and Montminy, M. R (1989). Cyclic AMP stimulates somatostatin gene transcription by phosphorylation of CREB at serine 133. Cell 59, 675-680.[Medline]
Hallonet, M. and LeDouarin, N. M (1993). Tracing neuroepithelial cells of the mesencephalic and metencephalic alar plates during cerebellar ontogeny in quail-chick chimeras. Eur. J. Neurosci 5, 1145-1155.[Medline]
Hamburger, V. and Hamilton, H. L (1951). A series of normal stages in the development of chick embryo. J. Morphol 88, 49-92.
Hammerschimdt, M., Brook, A. and McMahon, A. P (1997). The world according to hedgehog. Trends Genet 13, 14-21.[Medline]
Hammerschimdt, M. and McMahon, A. P (1998). The effect of pertussis toxin on zebrafish development: a possible role for inhibitory G-proteins in hedgehog signalling. Dev. Biol 194, 166-171.[Medline]
Hatten, M. E (1999). Central nervous system neuronal migration. Annu. Rev. Neurosci 22, 511-539.[Medline]
Hatten, M. E. and Heintz, N (1995). Mechanisms of neural patterning and specification in the developing cerebellum. Annu. Rev. Neurosci 18, 385-408.[Medline]
Howe, A., Alpin, A. E., Alahari, S. K. and Juliano, R. L (1998). Integrin signalling and growth control. Curr. Opin. Cell Biol 10, 220-231.[Medline]
Hynes, M., Stone, D. M., Dowd, M., Pitts-Meek, S., Goddard, A., Gurney, A. and Rosenthal, A (1997). Control of cell pattern in the neural tube bythe zinc finger trancription factor and oncogene Gli-1. Neuron 19, 15-26.[Medline]
Hynes, R. O (1992). Integrins: versatility, modulation and signalling in cell adhesion. Cell 69, 11-25.[Medline]
Ingham, P. W (1998). Transducing Hedgehog: the story so far. EMBO J 17, 3505-3511.[Medline]
Joyner, A. L (1996). Engrailed, wnt and pax genes regulate midbrain-hindbrain development. Trends Genet 12, 15-20.[Medline]
Lumsden, A. and Krumlauf, R (1996). Patterning the vertebrate neuraxis. Science 274, 1109-1115.[Abstract/Free Full Text]
McMahon, A. P. and Bradley, A (1990). The Wnt-1 (int-1) proto-oncogene is required for development of a large region of the mouse brain. Cell 62, 1073-1085.[Medline]
Mart\222, E., Bumcrot, D. A., Takada, R. and McMahon, A. P (1995). Requirement of 19K form of Sonic hedgehog for induction of distinct ventral cell types in CNS explants. Nature 375, 322-325.[Medline]
Mart\222, E., Takada, R., Bumcrot, D. A. and McMahon, A. P (1995). Distribution of Sonic hedgehog peptides in the developing chick and mouse embryo. Development 121, 2537-2547.[Abstract]
Mart\222nez, S. and Alvarado-Mallart, R. M (1989). Rostral cerebellum originates from the caudal portion of the so-called \324mesencephalic' vesicle: a study using chick-quail chimeras. Eur. J. Neurosci 1, 549-560.[Medline]
Mart\222nez-Morales, J. R., Mart\222, E., Frade, J. M. and Rodr\222guez-Tebar, A (1995). Developmentally regulated vitronectin influences cell differentiation, neuron survival and process outgrowth in the developing chicken retina. Neuroscience 68, 245-253.[Medline]
Mart\222nez-Morales, J. R., Barbas, J. A., Mart\222, E., Bovolenta, P., Edgar, D. and Rodr\222guez-Tebar, A (1997). Vitronectin is expressed in the ventral region of the neural tube and promotes the differentiation of motor neurones. Development 124, 5139-5147.[Abstract]
Meyer-Franke, A., Kaplan, M. R., Pfrieger, F. W. and Barres, B. A (1995). Characterisation of the signalling interactions that promote the survival and growth of developing retinal ganglion cells in culture. Neuron 15, 805-819.[Medline]
Murase, S. and Hayashi, Y (1998). Concomitant expression of genes encoding integrin alpha v beta 5 heterodimer and vitronectin in growing parallel fibers of postnatal rat cerebellum: a possible role as mediators of parallel fiber elongation. J. Comp. Neurol 397, 199-212.[Medline]
Nagano, Y., Hamano, T., Nakashima, N., Ishiwaka, M., Miyazaki, K. and Hayashi, M (1992). Yolk Vitronectin: Purification and differences from its blood homologue in molecular size, heparin binding, collagen binding and bound carbohydrate. J. Biol. Chem 267, 24863-24870.[Abstract/Free Full Text]
Perrimon, N. and Bernfield, M (2000). Specificities of heparan sulphate proteoglycans in developmental processes. Nature 404, 725-728.[Medline]
Pons, S. and Mart\222, E (2000). Sonic hedgehog synergizes with the extracellular matrix protein Vitronectin, to induce spinal motor neuron differentiation. Development 127, 333-342.[Abstract]
Powel, S. K., Williams, C. C., Nomizu, M., Yamada, Y. and Kleinman, H. K (1998). Laminin-like proteins are differentially regulated during cerebellar development and stimulate granule cell neurite outgrowth in vitro. J. Neurosci. Res 54, 233-247.[Medline]
Riddle, R. D., Jonson, R. L., Laufer, E. and Tabin, C (1993). Sonic hedgehog mediates the polarising activity of the ZPA. Cell 75, 1401-1416.[Medline]
Rowitch, D. H., St-Jacques, B., Lee, S. M. K., Flax, J. D., Snyder, E. Y. and McMahon, A. P (1999). Sonic hedgehog regulates proliferation and inhibits differentiation of CNS precursors. J. Neurosci 19, 8954-8965.[Abstract/Free Full Text]
Ruiz i Altaba, A (1999). Gli proteins and hedgehog signalling. Trends Genet 15, 418-425.[Medline]
Selleck, S. B (2000). Proteoglycans and pattern formation. Trends Genet 16, 206-212.[Medline]
Shaywitz, A. J. and Greenberg, M. E (1999). CREB: a stimulus-induced transcription factor activated by a diverse array of extracellular signals. Annu. Rev. Biochem 68, 821-861.[Medline]
The, I., Bellaiche, Y. and Perrimon, N (1999). Hedgehog movement is regulated through tout velu-dependent sysnthesis of a heparan sulfate proteoglycan. Mol. Cell 4, 633-639.
Thomas, K. R. and Capecci, M. R (1990). Targeted disruption of the murine int-1 proto-oncogene resulting in severe abnormalities in midbrain and cerebellar development. Nature 346, 847-850.[Medline]
Traiffort, E., Charytoniuk, D., Watroba, L., Faure, H. and Ruat, M (1999). Discrete localisation of hedgehog signalling components in the developing and adult rat nervous system. Eur. J. Neurosci 11, 3199-3214.[Medline]
Wallace, V. A (1999). Purkinje-cell-derived Sonic hedgehog regulates granule neurone precursor cell proliferation in the developing mouse cerebellum. Curr. Biol 9, 445-448.[Medline]
Wechsler-Reya, R. J. and Scott, M. P (1999). Control of neuronal precursor proliferation in the cerebellum by sonic hedgehog. Neuron 22, 103-114.[Medline]
Zheng, X., Saunders, T. L., Camper, S. A., Samuelson, L. C. and Ginsburg, D (1995). Vitronectin is not essential for normal mammalian development and fertility. Proc. Natl. Acad. Sci. USA 92, 12426-12430.[Abstract/Free Full Text]
