AlvarezISSchoenwolfGC: Expansion of surface epithelium provides the major extrinsic force for bending of the neural plate. J Exp Zool261: 340–348, 1992.
2.
AngevineJBSidmanRL: Autoradiographic study of cell migration during histogenesis of cerebral cortex in the mouse. Nature192: 978–984, 1961.
3.
BeloJABouwmeesterT: Cerberus-like is a secreted factor with neuralizing activity expressed in the anterior primitive endoderm of the mouse gastrula. Mech Dev68: 45–57, 1997.
4.
BouwmeesterTKimS-H: Cerberus is a head-inducing secreted factor expressed in the anterior endoderm of Spemann's organizer. Nature382: 596–601, 1996.
5.
CatalaMTeilletM-A: A spinal cord fate map in the avian embryo: While regressing, Hensen's node lays down the notochord and floor plate thus joining the spinal cord lateral walls. Development122: 2599–2610, 1996.
6.
des PortesVPinardJ-M: A novel CNS gene required for neuronal migration and involved in X-linked subcortical laminar heterotopia and lissencephaly syndrome. Cell92: 51–61, 1998.
7.
FishellGMasonCAHattenME: Dispersion of neural progenitors within the germinal zones of the forebrain. Nature362: 636–638, 1993.
8.
FoxJWLampertiED: Mutations in filamin 1 prevent migration of cerebral cortical neurons in human periventricular heterotopia. Neuron21: 1315–1325, 1998.
9.
GoffinetAM: Mutation reeler et protéine reelin: Bases d'un nouveau modèle du développement cortical. Médecine / Sciences12: 631–635, 1996.
10.
HattenME: Riding the glial monorail: A common mechanism for glial-guided neuronal migration in different regions of the developing mammalian brain. Trends Neurosci13: 179–184, 1990.
11.
HattoriMAdachiH: Miller-Dieker lissencephaly gene encodes a subunit of brain platelet-activating factor acetylhydrolase. Nature370: 216–218, 1994.
12.
HirotsuneSFleckMW: Graded reduction of Pafahlbl (Lis1) activity results in neuronal migration defects and early embryonic lethality. Nature Genetics19: 333–339, 1998.
13.
KnoetgenHViebahnCKesselM: Head induction in the chick by primitive endoderm of mammalian, but not avian origin. Development126: 815–825, 1999.
14.
LuskinMBShatzCJ: Studies of the earliest generated cells of the cat's visual cortex: Cogeneration of subplate and marginal zones. J Neurosci5: 1062–1075, 1985.
15.
McConnellSKGhoshAShatzCJ: Subplate neurons pioneer the first axon pathway from the cerebral cortex. Science245: 978–984, 1989.
16.
MouryJDSchoenwolfGC: Cooperative model of epithelial shaping and bending during avian neurulation: Autonomous movements of the neural plate, autonomous movements of the epidermis, and interactions in the neural plate/epidermis transition zone. Dev Dynamics204: 323–337, 1995.
17.
O'LearyDDM: Do cortical areas emerge form a protocor-tex?Trends Neurosci12: 400–406, 1989.
18.
O'RourkeNASullivanDP: Tangential migration of neurons in the developing cerebral cortex. Development121: 2165–2176, 1995.
19.
RakicP: Guidance of neurons migrating to the fetal monkey neocortex. Brain Res33: 471–476, 1971.
20.
RakicP: Specification of cerebral cortical areas. Science241: 170–176, 1988.
ReinerOCarrozzoR: Isolation of a Miller-Dieker lissencephaly gene containing G protein b-subunit-like repeats. Nature364: 717–721, 1993.
23.
RubinsteinJLRShimamuraK: Regionalization of the prosencephalic neural plate. Annu Rev Neurosci21: 445–477, 1998.
24.
SapirTElbaumMReinerO: Reduction of microtubule catastrophe events by LIS1, platelet-activating factor acetylhydrolase subunit. EMBO J16: 6977–6984, 1997.
25.
SmithJLSchoenwolfGC: Notochordal induction of cell wedging in the chick neural plate and its role in neural tube formation. J Exp Zool250: 49–62, 1989.
26.
TanS-SBreenS: Radial mosaicism and tangential cell dispersion both contribute to mouse neocortical development. Nature362: 638–640, 1993.
27.
TanS-SFaulkner-JonesB: Cell dispersion patterns in different cortical regions studied with an X-inactivated transgenic marker. Development121: 1029–1039, 1995.
28.
TanS-SKalloniatisM: Separate progenitors for radial and tangential cell dispersion during development of the cerebral cortex. Neuron21: 295–304, 1998.
29.
TempleSQuianX: Vertebrate neural progenitor cells: Subtypes and regulation. Current Opinion in Neurobiology6: 11–17, 1996.
30.
WalshCCepkoCL: Widespread dispersion of neuronal clones accross functional regions of the cerebral cortex. Science255: 434–440, 1992.
31.
WalshCCepkoCL: Clonal dispersion in proliferative layers of the developing cerebral cortex. Nature362: 632–635, 1993.
