Cell guidance by micropatterned adhesiveness in vitro.
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P Connolly | P. Clark | P. Connolly | G. Moores | P Clark | G R Moores | Patricia Connolly | Geoffrey R. Moores
[1] M. J. Katz. How straight do axons grow? , 1985, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[2] S. Zackson,et al. A molecular marker for cell guidance information in the axolotl embryo. , 1988, Developmental biology.
[3] D. Brunette. Spreading and orientation of epithelial cells on grooved substrata. , 1986, Experimental cell research.
[4] A. Curtis,et al. Localised application of an activating signal to a cell: experimental use of fibronectin bound to beads and the implications for mechanisms of adhesion. , 1992, Journal of cell science.
[5] P. Riddle,et al. Narrow linear strips of adhesive substratum are powerful inducers of both growth and total focal contact area. , 1990, Journal of cell science.
[6] R. Hynes,et al. Contact and adhesive specificities in the associations, migrations, and targeting of cells and axons , 1992, Cell.
[7] C. ffrench-Constant,et al. Response to fibronectin of mouse primordial germ cells before, during and after migration. , 1991, Development.
[8] W. Harris. Local positional cues in the neuroepithelium guide retinal axons in embryonic Xenopus brain , 1989, Nature.
[9] C. Wilkinson,et al. Topographical control of cell behaviour. I. Simple step cues. , 1987, Development.
[10] C. O'neill,et al. Evidence for two distinct mechanisms of anchorage stimulation in freshly explanted and 3T3 Swiss mouse fibroblasts , 1986, Cell.
[11] P C Letourneau,et al. Neurite extension across regions of low cell-substratum adhesivity: implications for the guidepost hypothesis of axonal pathfinding. , 1986, Developmental biology.
[12] N. Nakatsuji,et al. Fibronectin visualized by scanning electron microscopy immunocytochemistry on the substratum for cell migration in Xenopus laevis gastrulae. , 1985, Developmental biology.
[13] D Kleinfeld,et al. Controlled outgrowth of dissociated neurons on patterned substrates , 1988, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[14] C. McCaig,et al. Electric fields, contact guidance and the direction of nerve growth. , 1986, Journal of embryology and experimental morphology.
[15] M. Bronner‐Fraser,et al. Collagens in avian neural crest development: distribution in vivo and migration-promoting ability in vitro. , 1991, Development.
[16] D. Brunette. Fibroblasts on micromachined substrata orient hierarchically to grooves of different dimensions. , 1986, Experimental cell research.
[17] A. Wood,et al. Contact guidance on microfabricated substrata: the response of teleost fin mesenchyme cells to repeating topographical patterns. , 1988, Journal of cell science.
[18] T. Jessell,et al. Axon guidance and the patterning of neuronal projections in vertebrates. , 1988, Science.
[19] J. Löfberg,et al. Extracellular matrix organization and early neural crest cell migration in the axolotl embryo , 1978 .
[20] A. Gould,et al. Movement and guidance of migrating mesodermal cells in Ambystoma maculatum gastrulae. , 1982, Journal of cell science.
[21] G. Campbell,et al. Induction of fibroblast spreading by Mn2+: a possible role for unusual binding sites for divalent cations in receptors for proteins containing Arg-Gly-Asp. , 1988, Journal of cell science.
[22] J. Vasiliev,et al. Effect of colcemid on the spreading of fibroblasts in culture. , 1976, Experimental cell research.
[23] J. Löfberg,et al. Neural crest cell migration in relation to extracellular matrix organization in the embryonic axolotl trunk. , 1980, Developmental biology.
[24] P Connolly,et al. Micropatterned substratum adhesiveness: a model for morphogenetic cues controlling cell behavior. , 1992, Experimental cell research.
[25] K R Robinson,et al. The responses of cells to electrical fields: a review , 1985, The Journal of cell biology.
[26] N. Nakatsuji,et al. Experimental manipulation of a contact guidance system in amphibian gastrulation by mechanical tension , 1984, Nature.
[27] J. Lackie. Cell Movement and Cell Behaviour , 1986, Springer Netherlands.
[28] D. Newgreen. Physical influences on neural crest cell migration in avian embryos: contact guidance and spatial restriction. , 1989, Developmental biology.
[29] A. S. G. Curtis,et al. THE EFFECTS OF TOPOGRAPHIC AND MECHANICAL PROPERTIES OF MATERIALS ON CELL BEHAVIOR , 1990 .
[30] A. Wood,et al. An analysis of in vivo cell migration during teleost fin morphogenesis. , 1984, Journal of cell science.
[31] J. Taylor. The directed growth of retinal axons towards surgically transposed tecta in Xenopus; an examination of homing behaviour by retinal ganglion cell axons. , 1990, Development.
[32] G. Dunn,et al. Characterising a kinesis response: time averaged measures of cell speed and directional persistence. , 1983, Agents and actions. Supplements.
[33] J. Silver,et al. Guidance of optic axons in vivo by a preformed adhesive pathway on neuroepithelial endfeet. , 1984, Developmental biology.
[34] C. Wilkinson,et al. Topographical control of cell behaviour: II. Multiple grooved substrata. , 1990, Development.
[35] G. Dunn,et al. Alignment of fibroblasts on grooved surfaces described by a simple geometric transformation. , 1986, Journal of cell science.
[36] P Connolly,et al. Cell guidance by ultrafine topography in vitro. , 1991, Journal of cell science.
[37] W. Halfter,et al. The distribution of tenascin coincides with pathways of neural crest cell migration. , 1988, Development.
[38] A. Wood,et al. An ultrastructural and morphometric analysis of an in vivo contact guidance system , 1987 .
[39] S. Moody,et al. Distribution of laminin and fibronectin along peripheral trigeminal axon pathways in the developing chick , 1987, The Journal of comparative neurology.
[40] Paul C. Letourneau,et al. Distribution of laminin in the developing peripheral nervous system of the chick. , 1986, Developmental biology.