-
1
-
-
12144286654
-
G protein-coupled receptor-dependent development of human frontal cortex
-
DOI 10.1126/science.1092780
-
Piao X, Hill RS, Bodell A et al. G protein-coupled receptor-dependent development of human frontal cortex. Science 2004; 303(5666):2033-2036. (Pubitemid 38393281)
-
(2004)
Science
, vol.303
, Issue.5666
, pp. 2033-2036
-
-
Piao, X.1
Hill, R.S.2
Bodell, A.3
Chang, B.S.4
Basel-Vanagaite, L.5
Straussberg, R.6
Dobyns, W.B.7
Qasrawi, B.8
Winter, R.M.9
Innes, A.M.10
Voit, T.11
Ross, M.E.12
Michaud, J.L.13
Descarie, J.-C.14
Barkovich, A.J.15
Walsh, C.A.16
-
2
-
-
27644525551
-
Genotype-phenotype analysis of human frontoparietal polymicrogyria syndromes
-
DOI 10.1002/ana.20616
-
Piao X, Chang BS, Bodell A et al. Genotype-phenotype analysis of human frontoparietal polymicrogyria syndromes. Ann Neurol 2005; 58(5):680-687. (Pubitemid 41552543)
-
(2005)
Annals of Neurology
, vol.58
, Issue.5
, pp. 680-687
-
-
Piao, X.1
Chang, B.S.2
Bodell, A.3
Woods, K.4
BenZeev, B.5
Topcu, M.6
Guerrini, R.7
Goldberg-Stern, H.8
Sztriha, L.9
Dobyns, W.B.10
Barkovich, A.J.11
Walsh, C.A.12
-
3
-
-
45949087568
-
GPR56 regulates pial basement membrane integrity and cortical lamination
-
Li S, Jin Z, Koirala S et al. GPR56 regulates pial basement membrane integrity and cortical lamination. J Neurosci 2008; 28(22):5817-5826.
-
(2008)
J Neurosci
, vol.28
, Issue.22
, pp. 5817-5826
-
-
Li, S.1
Jin, Z.2
Koirala, S.3
-
4
-
-
0036281013
-
Brain-specific angiogenesis inhibitor 1 (BAI1) is expressed in human cerebral neuronal cells
-
DOI 10.1016/S0168-0102(02)00018-4, PII S0168010202000184
-
Mori K, Kanemura Y, Fujikawa H et al. Brain-specific angiogenesis inhibitor 1 (BAI1) is expressed in human cerebral neuronal cells. Neurosci Res 2002; 43(1):69-74. (Pubitemid 34628584)
-
(2002)
Neuroscience Research
, vol.43
, Issue.1
, pp. 69-74
-
-
Mori, K.1
Kanemura, Y.2
Fujikawa, H.3
Nakano, A.4
Ikemoto, H.5
Ozaki, I.6
Matsumoto, T.7
Tamura, K.8
Yokota, M.9
Arita, N.10
-
5
-
-
0036711916
-
Expression of brain-specific angiogenesis inhibitor 2 (BAI2) in normal and ischemic brain: Involvement of BAI2 in the ischemia-induced brain angiogenesis
-
Kee HJ, Koh JT, Kim MY et al. Expression of brain-specific angiogenesis inhibitor 2 (BAI2) in normal and ischemic brain: Involvement of BAI2 in the ischemia-induced brain angiogenesis. J Cereb Blood Flow Metab 2002; 22(9):1054-1067. (Pubitemid 35006798)
-
(2002)
Journal of Cerebral Blood Flow and Metabolism
, vol.22
, Issue.9
, pp. 1054-1067
-
-
Kee, H.J.1
Koh, J.T.2
Kim, M.-Y.3
Ahn, K.Y.4
Kim, J.K.5
Bae, C.S.6
Park, S.S.7
Kim, K.K.8
-
6
-
-
0035809779
-
Characterization of mouse brain-specific angiogenesis inhibitor 1 (BAI1) and phytanoyl-CoA alpha-hydroxylase-associated protein 1, a novel BAI1-binding protein
-
DOI 10.1016/S0169-328X(01)00004-3, PII S0169328X01000043
-
Koh JT, Lee ZH, Ahn KY et al. Characterization of mouse brain-specific angiogenesis inhibitor 1 (BAI1) and phytanoyl-CoA alpha-hydroxylase-associated protein 1, a novel BAI 1-binding protein. Brain Res Mol Brain Res 2001; 87(2):223-237. (Pubitemid 32195474)
-
(2001)
Molecular Brain Research
, vol.87
, Issue.2
, pp. 223-237
-
-
Koh, J.T.1
Leel, Z.H.2
Ahn, K.Y.3
Kim, J.K.4
Bae, C.S.5
Kim, H.-H.6
Kee, H.J.7
Kim, K.K.8
-
7
-
-
3042553686
-
Expression of brain-specific angiogenesis inhibitor 3 (BAI3) in normal brain and implications for BAI3 in ischemia-induced brain angiogenesis and malignant glioma
-
DOI 10.1016/j.febslet.2004.06.011, PII S0014579304007318
-
Kee HJ, Ahn KY, Choi KC et al. Expression of brain-specific angiogenesis inhibitor 3 (BAI3) in normal brain and implications for BAI3 in ischemia-induced brain angiogenesis and malignant glioma. FEBS Lett 2004; 569(1-3):307-316. (Pubitemid 38844637)
-
(2004)
FEBS Letters
, vol.569
, Issue.1-3
, pp. 307-316
-
-
Kee, H.J.1
Ahn, K.Y.2
Choi, K.C.3
Won Song, J.4
Heo, T.5
Jung, S.6
Kim, J.-K.7
Bae, C.S.8
Kim, K.K.9
-
8
-
-
0033605390
-
A novel ubiquitously expressed α-latrotoxin receptor is a member of the CIRL family of G-protein-coupled receptors
-
DOI 10.1074/jbc.274.9.5491
-
Ichtchenko K, Bittner MA, Krasnoperov V et al. A novel ubiquitously expressed alpha-latrotoxin receptor is a member of the CIRL family of G-protein-coupled receptors. J Biol Chem 1999; 274(9):5491-5498. (Pubitemid 29109196)
-
(1999)
Journal of Biological Chemistry
, vol.274
, Issue.9
, pp. 5491-5498
-
-
Ichtchenko, K.1
Bittner, M.A.2
Krasnoperov, V.3
Little, A.R.4
Chepurny, O.5
Holz, R.W.6
Petrenko, A.G.7
-
9
-
-
0033037979
-
The latrophilin family: Multiply spliced G protein-coupled receptors with differential tissue distribution
-
DOI 10.1016/S0014-5793(99)00005-8, PII S0014579399000058
-
Matsushita H, Lelianova VG, Ushkaryov YA. The latrophilin family: Multiply spliced G protein-coupled receptors with differential tissue distribution. FEBS Lett. 1999; 443(3):348-352. (Pubitemid 29080824)
-
(1999)
FEBS Letters
, vol.443
, Issue.3
, pp. 348-352
-
-
Matsushita, H.1
Lelianova, V.G.2
Ushkaryov, Y.A.3
-
10
-
-
0036198940
-
Differential expression of the seven-pass transmembrane cadherin genes Celsr1-3 and distribution of the Celsr2 protein during mouse development
-
DOI 10.1002/dvdy.10054
-
Shima Y, Copeland NG, Gilbert DJ et al. Differential expression of the seven-pass transmembrane cadherin genes Celsr1 -3 and distribution of the Celsr2 protein during mouse development. Dev Dyn 2002;223(3):321-332. (Pubitemid 34203078)
-
(2002)
Developmental Dynamics
, vol.223
, Issue.3
, pp. 321-332
-
-
Shima, Y.1
Copeland, N.G.2
Gilbert, D.J.3
Jenkins, N.A.4
Chisaka, O.5
Takeichi, M.6
Uemura, T.7
-
11
-
-
4344711180
-
Regulation of dendritic maintenance and growth by a mammalian 7-pass transmembrane cadherin
-
DOI 10.1016/j.devcel.2004.07.007, PII S1534580704002382
-
Shima Y, Kengaku M, Hirano T et al. Regulation of dendritic maintenance and growth by a mammalian 7-pass transmembrane cadherin. Dev Cell 2004; 7(2):205-216. (Pubitemid 39145025)
-
(2004)
Developmental Cell
, vol.7
, Issue.2
, pp. 205-216
-
-
Shima, Y.1
Kengaku, M.2
Hirano, T.3
Takeichi, M.4
Uemura, T.5
-
12
-
-
34547529509
-
Opposing roles in neurite growth control by two seven-pass transmembrane cadherins
-
DOI 10.1038/nn1933, PII NN1933
-
Shima Y, Kawaguchi SY, Kosaka K et al. Opposing roles in neurite growth control by two seven-pass transmembrane cadherins. Nat Neurosci 2007; 10(8):963-969. (Pubitemid 47185201)
-
(2007)
Nature Neuroscience
, vol.10
, Issue.8
, pp. 963-969
-
-
Shima, Y.1
Kawaguchi, S.-Y.2
Kosaka, K.3
Nakayama, M.4
Hoshino, M.5
Nabeshima, Y.6
Hirano, T.7
Uemura, T.8
-
13
-
-
20044379285
-
Protocadherin Celsr3 is crucial in axonal tract development
-
DOI 10.1038/nn1428
-
Tissir F, Bar I, Jossin Y et al. Protocadherin Celsr3 is crucial in axonal tract development. Nat Neurosci 2005; 8(4):451-457. (Pubitemid 41007562)
-
(2005)
Nature Neuroscience
, vol.8
, Issue.4
, pp. 451-457
-
-
Tissir, F.1
Bar, I.2
Jossin, Y.3
Goffinet, A.M.4
-
14
-
-
10744227509
-
Mutation of Celsr1 disrupts planar polarity of inner ear hair cells and causes severe neural tube defects in the mouse
-
DOI 10.1016/S0960-9822(03)00374-9
-
Curtin JA, Quint E, Tsipouri V et al. Mutation of Celsr1 disrupts planar polarity of inner ear hair cells and causes severe neural tube defects in the mouse. Current Biology 2003; 13(13):1129-1133. (Pubitemid 36815261)
-
(2003)
Current Biology
, vol.13
, Issue.13
, pp. 1129-1133
-
-
Curtin, J.A.1
Quint, E.2
Tsipouri, V.3
Arkell, R.M.4
Cattanach, B.5
Copp, A.J.6
Henderson, D.J.7
Spurr, N.8
Stanier, P.9
Fisher, E.M.10
Nolan, P.M.11
Steel, K.P.12
Brown, S.D.M.13
Gray, I.C.14
Murdoch, J.N.15
-
15
-
-
0037016757
-
Very large G protein-coupled receptor-1, the largest known cell surface protein, is highly expressed in the developing central nervous system
-
DOI 10.1074/jbc.M108929200
-
McMillan DR, Kayes-Wandover KM, Richardson JA et al. Very large G protein-coupled receptor-1, the largest known cell surface protein, is highly expressed in the developing central nervous system. J Biol Chem 2002; 277(1):785-792. (Pubitemid 34952119)
-
(2002)
Journal of Biological Chemistry
, vol.277
, Issue.1
, pp. 785-792
-
-
Randy McMillan, D.1
Kayes-Wandover, K.M.2
Richardson, J.A.3
White, P.C.4
-
16
-
-
2942633028
-
Loss of the transmembrane and cytoplasmic domains of the very large G-protein-coupled receptor-1 (VLGR1 or Mass1) causes audiogenic seizures in mice
-
DOI 10.1016/j.mcn.2004.02.005, PII S1044743104000405
-
McMillan DR, White PC. Loss of the transmembrane and cytoplasmic domains of the very large G protein-coupled receptor-1 (VLGR1 or Mass1) causes audiogenic seizures in mice. Mol Cell Neurosci 2004; 26(2):322-329. (Pubitemid 38781088)
-
(2004)
Molecular and Cellular Neuroscience
, vol.26
, Issue.2
, pp. 322-329
-
-
McMillan, D.R.1
White, P.C.2
-
17
-
-
0032522230
-
Genetic mapping of a locus (mass1) causing audiogenic seizures in mice
-
DOI 10.1006/geno.1998.5229
-
Skradski SL, White HS, Ptacek LJ. Genetic mapping of a locus (mass1) causing audiogenic seizures in mice. Genomics 1998; 49(2):188-192. (Pubitemid 28240684)
-
(1998)
Genomics
, vol.49
, Issue.2
, pp. 188-192
-
-
Skradski, S.L.1
White, H.S.2
Ptacek, L.J.3
-
18
-
-
0842328857
-
Mutations in the VLGR1 Gene Implicate G-Protein Signaling in the Pathogenesis of Usher Syndrome Type II
-
DOI 10.1086/381685
-
Weston MD, Luijendijk MW, Humphrey KD et al. Mutations in the VLGR1 gene implicate G-protein signaling in the pathogenesis of Usher syndrome type II. Am J Hum Genet 2004; 74(2):357-366. (Pubitemid 38168623)
-
(2004)
American Journal of Human Genetics
, vol.74
, Issue.2
, pp. 357-366
-
-
Weston, M.D.1
Luijendijk, M.W.J.2
Humphrey, K.D.3
Moller, C.4
Kimberling, W.J.5
-
19
-
-
33144483550
-
The DFNB31 gene product whirlin connects to the Usher protein network in the cochlea and retina by direct association with USH2A and VLGR1
-
DOI 10.1093/hmg/ddi490
-
van Wijk E, van der Zwaag B, Peters T et al. The DFNB31 gene product whirlin connects to the Usher protein network in the cochlea and retina by direct association with USH2A and VLGR1. Hum Mol Genet 2006; 15(5):751-765. (Pubitemid 43264700)
-
(2006)
Human Molecular Genetics
, vol.15
, Issue.5
, pp. 751-765
-
-
Van Wijk, E.1
Van Der Zwaag, B.2
Peters, T.3
Zimmermann, U.4
Te Brinke, H.5
Kersten, F.F.J.6
Marker, T.7
Aller, E.8
Hoefsloot, L.H.9
Cremers, C.W.R.J.10
Cremers, F.P.M.11
Wolfrum, U.12
Knipper, M.13
Roepman, R.14
Kremer, H.15
-
20
-
-
33745787321
-
The very large G-protein-coupled receptor VLGR1: A component of the ankle link complex required for the normal development of auditory hair bundles
-
DOI 10.1523/JNEUROSCI.0693-06.2006
-
McGee J, Goodyear RJ, McMillan DR et al. The very large G-protein-coupled receptor VLGR1: A component of the ankle link complex required for the normal development of auditory hair bundles. J Neurosci 2006; 26(24):6543-6553. (Pubitemid 44318335)
-
(2006)
Journal of Neuroscience
, vol.26
, Issue.24
, pp. 6543-6553
-
-
McGee, J.1
Goodyear, R.J.2
McMillan, D.R.3
Stauffer, E.A.4
Holt, J.R.5
Locke, K.G.6
Birch, D.G.7
Legan, P.K.8
White, P.C.9
Walsh, E.J.10
Richardson, G.P.11
-
21
-
-
18344389160
-
An autosomal recessive form of bilateral frontoparietal polymicrogyria maps to chromosome 16q12.2-21
-
DOI 10.1086/339552
-
Piao X, Basel-Vanagaite L, Straussberg R et al. An autosomal recessive form of bilateral frontoparietal polymicrogyria maps to chromosome 16q12.2-21. Am J Hum Genet 2002; 70(4):1028-1033. (Pubitemid 34259320)
-
(2002)
American Journal of Human Genetics
, vol.70
, Issue.4
, pp. 1028-1033
-
-
Piao, X.1
Basel-Vanagaite, L.2
Straussberg, R.3
Grant, P.E.4
Pugh, E.W.5
Doheny, K.6
Doan, B.7
Hong, S.E.8
Shugart, Y.Y.9
Walsh, C.A.10
-
22
-
-
0038416095
-
Bilateral frontoparietal polymicrogyria: Clinical and radiological features in 10 families with linkage to chromosome 16
-
DOI 10.1002/ana.10520
-
Chang BS, Piao X, Bodell A et al. Bilateral frontoparietal polymicrogyria: Clinical and radiological features in 10 families with linkage to chromosome 16. Ann Neurol 2003; 53(5):596-606. (Pubitemid 36529433)
-
(2003)
Annals of Neurology
, vol.53
, Issue.5
, pp. 596-606
-
-
Chang, B.S.1
Piao, X.2
Bodell, A.3
Basel-Vanagaite, L.4
Straussberg, R.5
Dobyns, W.B.6
Qasrawi, B.7
Winter, R.M.8
Innes, A.M.9
Voit, T.10
Grant, P.E.11
Barkovich, A.J.12
Walsh, C.A.13
-
23
-
-
66849087677
-
Bilateral frontoparietal polymicrogyria, Lennox-Gastaut syndrome and GPR56 gene mutations
-
Parrini E, Ferrari AR, Dorn T et al. Bilateral frontoparietal polymicrogyria, Lennox-Gastaut syndrome and GPR56 gene mutations. Epilepsia 2008; 50(6):1344-1353.
-
(2008)
Epilepsia
, vol.50
, Issue.6
, pp. 1344-1353
-
-
Parrini, E.1
Ferrari, A.R.2
Dorn, T.3
-
24
-
-
34548390149
-
Disease-associated mutations affect GPR56 protein trafficking and cell surface expression
-
DOI 10.1093/hmg/ddm144
-
Jin Z, Tietjen I, Bu L et al. Disease-associated mutations affect GPR56 protein trafficking and cell surface expression. Hum Mol Genet 2007; 16(16):1972-1985. (Pubitemid 47354880)
-
(2007)
Human Molecular Genetics
, vol.16
, Issue.16
, pp. 1972-1985
-
-
Jin, Z.1
Tietjen, I.2
Bu, L.3
Liu-Yesucevitz, L.4
Gaur, S.K.5
Walsh, C.A.6
Piao, X.7
-
25
-
-
0036591672
-
Smooth, rough and upside-down neocortical development
-
DOI 10.1016/S0959-437X(02)00305-2
-
Olson EC, Walsh CA. Smooth, rough and upside-down neocortical development. Curr Opin Genet Dev 2002; 12(3):320-327. (Pubitemid 34663766)
-
(2002)
Current Opinion in Genetics and Development
, vol.12
, Issue.3
, pp. 320-327
-
-
Olson, E.C.1
Walsh, C.A.2
-
26
-
-
0032560851
-
An ancient retrotransposal insertion causes Fukuyama-type congenital muscular dystrophy
-
DOI 10.1038/28653
-
Kobayashi K, Nakahori Y, Miyake M et al. An ancient retrotransposal insertion causes Fukuyama-type congenital muscular dystrophy. Nature 1998; 394(6691):388-392. (Pubitemid 28373837)
-
(1998)
Nature
, vol.394
, Issue.6691
, pp. 388-392
-
-
Kobayashi, K.1
Nakahori, Y.2
Miyake, M.3
Matsumura, K.4
Kondo-Iida, E.5
Nomura, Y.6
Segawa, M.7
Yoshioka, M.8
Saito, K.9
Osawa, M.10
Hamano, K.11
Sakakihara, Y.12
Nonaka, I.13
Nakagome, Y.14
Kanazawa, I.15
Nakamura, Y.16
Tokunaga, K.17
Toda, T.18
-
27
-
-
18044400450
-
Muscular Dystrophy and Neuronal Migration Disorder Caused by Mutations in a Glycosyltransferase, POMGnT1
-
DOI 10.1016/S1534-5807(01)00070-3, PII S1534580701000703
-
Yoshida A, Kobayashi K, Manya H et al. Muscular dystrophy and neuronal migration disorder caused by mutations in a glycosyltransferase, POMGnT1. Dev Cell 2001; 1(5):717-724. (Pubitemid 33586123)
-
(2001)
Developmental Cell
, vol.1
, Issue.5
, pp. 717-724
-
-
Yoshida, A.1
Kobayashi, K.2
Manya, H.3
Taniguchi, K.4
Kano, H.5
Mizuno, M.6
Inazu, T.7
Mitsuhashi, H.8
Takahashi, S.9
Takeuchi, M.10
Herrmann, R.11
Straub, V.12
Talim, B.13
Voit, T.14
Topaloglu, H.15
Toda, T.16
Endo, T.17
-
28
-
-
0037173670
-
Post-translational disruption of dystroglycan-ligand interactions in congenital muscular dystrophies
-
DOI 10.1038/nature00837
-
Michele DE, Barresi R, Kanagawa M et al. Post-translational disruption of dystroglycan-ligand interactions in congenital muscular dystrophies. Nature 2002; 418(6896):417-422. (Pubitemid 34826841)
-
(2002)
Nature
, vol.418
, Issue.6896
, pp. 417-422
-
-
Michele, D.E.1
Barresi, R.2
Kanagawa, M.3
Salto, F.4
Cohn, R.D.5
Satz, J.S.6
Dollar, J.7
Nishino, I.8
Kelley, R.I.9
Somer, H.10
Straub, V.11
Mathews, K.D.12
Moore, S.A.13
Campbell, K.P.14
-
30
-
-
0032587606
-
Synergistic activities of α3 and α6 integrins are required during apical ectodermal ridge formation and organogenesis in the mouse
-
De Arcangelis A, Mark M, Kreidberg J et al. Synergistic activities of alpha3 and alpha6 integrins are required during apical ectodermal ridge formation and organogenesis in the mouse. Development 1999; 126(17):3957-3968. (Pubitemid 29440492)
-
(1999)
Development
, vol.126
, Issue.17
, pp. 3957-3968
-
-
De Arcangelis, A.1
Mark, M.2
Kreidberg, J.3
Sorokin, L.4
Georges-Labouesse, E.5
-
31
-
-
17944373768
-
β1-Class integrins regulate the development of laminae and folia in the cerebral and cerebellar cortex
-
DOI 10.1016/S0896-6273(01)00374-9
-
Graus-Porta D, Blaess S, Senften M et al. Beta1-class integrins regulate the development of laminae and folia in the cerebral and cerebellar cortex. Neuron 2001; 31 (3):367-379. (Pubitemid 32778557)
-
(2001)
Neuron
, vol.31
, Issue.3
, pp. 367-379
-
-
Graus-Porta, D.1
Blaess, S.2
Senften, M.3
Littlewood-Evans, A.4
Damsky, C.5
Huang, Z.6
Orban, P.7
Klein, R.8
Schittny, J.C.9
Muller, U.10
-
32
-
-
0345550397
-
FAK deficiency in cells contributing to the basal lamina results in cortical abnormalities resembling congenital muscular dystrophies
-
DOI 10.1016/S0896-6273(03)00666-4
-
Beggs HE, Schahin-Reed D, Zang K et al. FAK deficiency in cells contributing to the basal lamina results in cortical abnormalities resembling congenital muscular dystrophies. Neuron 2003; 40(3):501-514. (Pubitemid 37494700)
-
(2003)
Neuron
, vol.40
, Issue.3
, pp. 501-514
-
-
Beggs, H.E.1
Schahin-Reed, D.2
Zang, K.3
Goebbels, S.4
Nave, K.-A.5
Gorski, J.6
Jones, K.R.7
Sretavan, D.8
Reichardt, L.F.9
-
33
-
-
23044450124
-
Integrin-linked kinase deletion from mouse cortex results in cortical lamination defects resembling cobblestone lissencephaly
-
DOI 10.1523/JNEUROSCI.1695-05.2005
-
Niewmierzycka A, Mills J, St-Arnaud R et al. Integrin-linked kinase deletion from mouse cortex results in cortical lamination defects resembling cobblestone lissencephaly. JNeurosci 2005; 25(30):7022-7031. (Pubitemid 41077010)
-
(2005)
Journal of Neuroscience
, vol.25
, Issue.30
, pp. 7022-7031
-
-
Niewmierzycka, A.1
Mills, J.2
St.-Arnaud, R.3
Dedhar, S.4
Reichardt, L.F.5
-
34
-
-
0033615959
-
Perlecan maintains the integrity of cartilage and some basement membranes
-
Costell M, Gustafsson E, Aszodi A et al. Perlecan maintains the integrity of cartilage and some basement membranes. J Cell Biol 1999; 147(5):1109-1122.
-
(1999)
J Cell Biol
, vol.147
, Issue.5
, pp. 1109-1122
-
-
Costell, M.1
Gustafsson, E.2
Aszodi, A.3
-
35
-
-
33845810120
-
MEKK4 signaling regulates filamin expression and neuronal migration
-
DOI 10.1016/j.neuron.2006.10.024, PII S0896627306008233
-
Sarkisian MR, Bartley CM, Chi H et al. MEKK4 signaling regulates filamin expression and neuronal migration. Neuron 2006; 52(5):789-801. (Pubitemid 44828449)
-
(2006)
Neuron
, vol.52
, Issue.5
, pp. 789-801
-
-
Sarkisian, M.R.1
Bartley, C.M.2
Chi, H.3
Nakamura, F.4
Hashimoto-Torii, K.5
Torii, M.6
Flavell, R.A.7
Rakic, P.8
-
36
-
-
47649084675
-
C3G regulates cortical neuron migration, preplate splitting and radial glial cell attachment
-
DOI 10.1242/dev.016725
-
Voss AK, Britto JM, Dixon MP et al. C3G regulates cortical neuron migration, preplate splitting and radial glial cell attachment. Development 2008; 135(12):2139-2149. (Pubitemid 352015148)
-
(2008)
Development
, vol.135
, Issue.12
, pp. 2139-2149
-
-
Voss, A.K.1
Britto, J.M.2
Dixon, M.P.3
Sheikh, B.N.4
Collin, C.5
Tan, S.-S.6
Thomas, T.7
-
37
-
-
35648949465
-
Ena/VASP Is Required for Neuritogenesis in the Developing Cortex
-
DOI 10.1016/j.neuron.2007.09.008, PII S0896627307007064
-
Kwiatkowski AV, Rubinson DA, Dent EW et al. Ena/VASP is required for neuritogenesis in the developing cortex. Neuron 2007; 56(3):441-455. (Pubitemid 350030877)
-
(2007)
Neuron
, vol.56
, Issue.3
, pp. 441-455
-
-
Kwiatkowski, A.V.1
Rubinson, D.A.2
Dent, E.W.3
Edward Van Veen, J.4
Leslie, J.D.5
Zhang, J.6
Mebane, L.M.7
Philippar, U.8
Pinheiro, E.M.9
Burds, A.A.10
Bronson, R.T.11
Mori, S.12
Fassler, R.13
Gertler, F.B.14
-
38
-
-
0037101611
-
A critical function of the pial basement membrane in cortical histogenesis
-
Halfter W, Dong S, Yip YP et al. A critical function of the pial basement membrane in cortical histogenesis. J Neurosci 2002; 22(14):6029-6040. (Pubitemid 35387646)
-
(2002)
Journal of Neuroscience
, vol.22
, Issue.14
, pp. 6029-6040
-
-
Halfter, W.1
Dong, S.2
Yip, Y.-P.3
Willem, M.4
Mayer, U.5
-
39
-
-
33748782757
-
Basement membrane attachment is dispensable for radial glial cell fate and for proliferation, but affects positioning of neuronal subtypes
-
DOI 10.1242/dev.02486
-
Haubst N, Georges-Labouesse E, De Arcangelis A et al. Basement membrane attachment is dispensable for radial glial cell fate and for proliferation, but affects positioning of neuronal subtypes. Development 2006; 133(16):3245-3254. (Pubitemid 44404347)
-
(2006)
Development
, vol.133
, Issue.16
, pp. 3245-3254
-
-
Haubst, N.1
Georges-Labouesse, E.2
De Arcangelis, A.3
Mayer, U.4
Gotz, M.5
-
40
-
-
33846522301
-
Breaches of the pial basement membrane and disappearance of the glia limitans during development underlie the cortical lamination defect in the mouse model of muscle-eye-brain disease
-
DOI 10.1002/cne.21238
-
Hu H, Yang Y, Eade A et al. Breaches of the pial basement membrane and disappearance of the glia limitans during development underlie the cortical lamination defect in the mouse model of muscle-eye-brain disease. J Comp Neurol 2007; 501(1):168-183. (Pubitemid 46155877)
-
(2007)
Journal of Comparative Neurology
, vol.501
, Issue.1
, pp. 168-183
-
-
Hu, H.1
Yang, Y.2
Eade, A.3
Xiong, Y.4
Qi, Y.5
-
41
-
-
67049087112
-
GPR56-regulated granule cell adhesion is essential for rostral cerebellar development
-
Koirala S, Jin Z, Piao X et al. GPR56-regulated granule cell adhesion is essential for rostral cerebellar development. J Neurosci 2009; 29(23):7439-7449.
-
(2009)
J Neurosci
, vol.29
, Issue.23
, pp. 7439-7449
-
-
Koirala, S.1
Jin, Z.2
Piao, X.3
-
42
-
-
2342653563
-
q/11 Association
-
DOI 10.1091/mbc.E03-12-0886
-
Little KD, Hemler ME, Stipp CS. Dynamic regulation of a GPCR-tetraspanin-G protein complex on intact cells: Central role of CD81 in facilitating GPR56-Gaq/,1 association. Mol Biol Cell 2004; 15(5):2375-2387. (Pubitemid 38580653)
-
(2004)
Molecular Biology of the Cell
, vol.15
, Issue.5
, pp. 2375-2387
-
-
Little, K.D.1
Hemler, M.E.2
Stipp, C.S.3
-
43
-
-
13444259476
-
The tetraspanin web modulates immune-signalling complexes
-
DOI 10.1038/nri1548
-
Levy S, Shoham T. The tetraspanin web modulates immune-signalling complexes. Nat Rev Immunol 2005; 5(2):136-148. (Pubitemid 40208903)
-
(2005)
Nature Reviews Immunology
, vol.5
, Issue.2
, pp. 136-148
-
-
Levy, S.1
Shoham, T.2
-
44
-
-
33745138517
-
GPR56, an atypical G protein-coupled receptor, binds tissue transglutaminase, TG2, and inhibits melanoma tumor growth and metastasis
-
DOI 10.1073/pnas.0602681103
-
Xu L, Begum S, Hearn JD et al. GPR56, an atypical G protein-coupled receptor, binds tissue transglutaminase, TG2 and inhibits melanoma tumor growth and metastasis. Proc Natl Acad Sci USA 13 2006; 103(24):9023-9028. (Pubitemid 43902526)
-
(2006)
Proceedings of the National Academy of Sciences of the United States of America
, vol.103
, Issue.24
, pp. 9023-9028
-
-
Xu, L.1
Begum, S.2
Hearn, J.D.3
Hynes, R.O.4
-
45
-
-
0037317032
-
Transglutaminases: Crosslinking enzymes with pleiotropic functions
-
DOI 10.1038/nrm1014
-
Lorand L, Graham RM. Transglutaminases: Crosslinking enzymes with pleiotropic functions. Nat Rev Mol Cell Biol 2003; 4(2):140-156. (Pubitemid 36172696)
-
(2003)
Nature Reviews Molecular Cell Biology
, vol.4
, Issue.2
, pp. 140-156
-
-
Lorand, L.1
Graham, R.M.2
-
46
-
-
0036804796
-
Transglutaminase 2: An enigmatic enzyme with diverse functions
-
DOI 10.1016/S0968-0004(02)02182-5, PII S0968000402021825
-
Fesus L, Piacentini M. Transglutaminase 2: An enigmatic enzyme with diverse functions. Trends Biochem Sci 2002; 27(10):534-539. (Pubitemid 35279599)
-
(2002)
Trends in Biochemical Sciences
, vol.27
, Issue.10
, pp. 534-539
-
-
Fesus, L.1
Piacentini, M.2
-
47
-
-
0032747129
-
Cell surface localization of tissue transglutaminase is dependent on a fibronectin-binding site in its N-terminal beta-sandwich domain
-
Gaudry CA, Verderio E, Aeschlimann D et al. Cell surface localization of tissue transglutaminase is dependent on a fibronectin-binding site in its N-terminal beta-sandwich domain. J Biol Chem 1999; 274(43):30707-30714.
-
(1999)
J Biol Chem
, vol.274
, Issue.43
, pp. 30707-30714
-
-
Gaudry, C.A.1
Verderio, E.2
Aeschlimann, D.3
-
48
-
-
51049089580
-
Fibronectin-tissue transglutaminase matrix rescues RGD-impaired cell adhesion through syndecan-4 and beta1 integrin cosignaling
-
Telci D, Wang Z, Li X et al. Fibronectin-tissue transglutaminase matrix rescues RGD-impaired cell adhesion through syndecan-4 and beta1 integrin cosignaling. J Biol Chem 2008; 283(30):20937-20947.
-
(2008)
J Biol Chem
, vol.283
, Issue.30
, pp. 20937-20947
-
-
Telci, D.1
Wang, Z.2
Li, X.3
-
49
-
-
3042531037
-
Ghα/tissue transglutaminase 2: An emerging G protein in signal transduction
-
DOI 10.1016/j.biolcel.2004.03.003, PII S0248490004000760
-
Mhaouty-Kodja S. Ghalpha/tissue transglutaminase 2: An emerging G protein in signal transduction. Biol Cell 2004; 96(5):363-367. (Pubitemid 38807902)
-
(2004)
Biology of the Cell
, vol.96
, Issue.5
, pp. 363-367
-
-
Mhaouty-Kodja, S.1
-
50
-
-
0028176166
-
Gh: A GTP-binding protein with transglutaminase activity and receptor signaling function
-
Nakaoka H, Perez DM, Baek KJ et al. Gh: A GTP-binding protein with transglutaminase activity and receptor signaling function. Science 1994; 264(5165):1593-1596.
-
(1994)
Science
, vol.264
, Issue.5165
, pp. 1593-1596
-
-
Nakaoka, H.1
Perez, D.M.2
Baek, K.J.3
-
51
-
-
4344669555
-
h/transglutaminase 2 inhibits cell migration through interaction with cytoplasmic tail of integrin α subunits
-
DOI 10.1074/jbc.M402084200
-
Kang SK, Yi KS, Kwon NS et al. Alpha1B-adrenoceptor signaling and cell motility: GTPase function of Gh/transglutaminase 2 inhibits cell migration through interaction with cytoplasmic tail of integrin alpha subunits. J Biol Chem 2004; 279(35):36593-36600. (Pubitemid 39129003)
-
(2004)
Journal of Biological Chemistry
, vol.279
, Issue.35
, pp. 36593-36600
-
-
Kang, S.K.1
Yi, K.S.2
Kwon, N.S.3
Park, K.-H.4
Kim, U.-H.5
Baek, K.J.6
Im, M.-J.7
-
52
-
-
10644228540
-
Developmental regulation of tissue transglutaminase in the mouse forebrain
-
DOI 10.1111/j.1471-4159.2004.02825.x
-
Bailey CD, Johnson GV. Developmental regulation of tissue transglutaminase in the mouse forebrain. J Neurochem 2004; 91(6):1369-1379. (Pubitemid 39658563)
-
(2004)
Journal of Neurochemistry
, vol.91
, Issue.6
, pp. 1369-1379
-
-
Bailey, C.D.C.1
Johnson, G.V.W.2
-
53
-
-
0027957756
-
Meningeal cells organize the superficial glia limitans of the cerebellum and produce components of both the interstitial matrix and the basement membrane
-
Sievers J, Pehlemann FW, Gude S et al. Meningeal cells organize the superficial glia limitans of the cerebellum and produce components of both the interstitial matrix and the basement membrane. J Neurocytol 1994; 23(2):135-149. (Pubitemid 24055466)
-
(1994)
Journal of Neurocytology
, vol.23
, Issue.2
, pp. 135-149
-
-
Sievers, J.1
Pehlemann, F.W.2
Gude, S.3
Berry, M.4
-
54
-
-
0343852976
-
Degeneration of Cajal-Retzius cells in the developing cerebral cortex of the mouse after ablation of meningeal cells by 6-hydroxydopamine
-
DOI 10.1016/S0165-3806(96)00155-1, PII S0165380696001551
-
Super H, Martinez A, Soriano E. Degeneration of Cajal-Retzius cells in the developing cerebral cortex of the mouse after ablation of meningeal cells by 6-hydroxydopamine. Brain Res Dev Brain Res 1997; 98(1):15-20. (Pubitemid 27033649)
-
(1997)
Developmental Brain Research
, vol.98
, Issue.1
, pp. 15-20
-
-
Super, H.1
Martinez, A.2
Soriano, E.3
-
55
-
-
35348924902
-
Cortical dysplasia and skull defects in mice with a Foxc1 allele reveal the role of meningeal differentiation in regulating cortical development
-
DOI 10.1073/pnas.0702618104
-
Zarbalis K, Siegenthaler JA, Choe Y et al. Cortical dysplasia and skull defects in mice with a Foxc1 allele reveal the role of meningeal differentiation in regulating cortical development. Proc Natl Acad Sci USA 2007; 104(35):14002-14007. (Pubitemid 350003326)
-
(2007)
Proceedings of the National Academy of Sciences of the United States of America
, vol.104
, Issue.35
, pp. 14002-14007
-
-
Zarbalis, K.1
Siegenthaler, J.A.2
Choe, Y.3
May, S.R.4
Peterson, A.S.5
Pleasure, S.J.6
-
56
-
-
33748693511
-
Stromal-derived factor-1 (CXCL12) regulates laminar position of Cajal-Retzius cells in normal and dysplastic brains
-
DOI 10.1523/JNEUROSCI.2575-06.2006
-
Paredes MF, Li G, Berger O et al. Stromal-derived factor-1 (CXCL12) regulates laminar position of Cajal-Retzius cells in normal and dysplastic brains. J Neurosci 2006; 26(37):9404-9412. (Pubitemid 44396853)
-
(2006)
Journal of Neuroscience
, vol.26
, Issue.37
, pp. 9404-9412
-
-
Paredes, M.F.1
Li, G.2
Berger, O.3
Baraban, S.C.4
Pleasure, S.J.5
-
57
-
-
44649195798
-
Zic deficiency in the cortical marginal zone and meninges results in cortical lamination defects resembling those in type II lissencephaly
-
Inoue T, Ogawa M, Mikoshiba K et al. Zic deficiency in the cortical marginal zone and meninges results in cortical lamination defects resembling those in type II lissencephaly. J Neurosci 2008; 28(18):4712-4725.
-
(2008)
J Neurosci
, vol.28
, Issue.18
, pp. 4712-4725
-
-
Inoue, T.1
Ogawa, M.2
Mikoshiba, K.3
-
58
-
-
47249103800
-
Orphan G protein-coupled receptor GPR5 6 regulates neural progenitor cell migration via a Ga12/13 and Rho pathway
-
Iguchi T, Sakata K, Yoshizaki K et al. Orphan G protein-coupled receptor GPR5 6 regulates neural progenitor cell migration via a Ga12/13 and Rho pathway. J Biol Chem 2008; 283(21):14469-14478.
-
(2008)
J Biol Chem
, vol.283
, Issue.21
, pp. 14469-14478
-
-
Iguchi, T.1
Sakata, K.2
Yoshizaki, K.3
-
59
-
-
14944362292
-
GPR56 is a GPCR that is overexpressed in gliomas and functions in tumor cell adhesion
-
DOI 10.1038/sj.onc.1208395
-
Shashidhar S, Lorente G, Nagavarapu U et al. GPR56 is a GPCR that is overexpressed in gliomas and functions in tumor cell adhesion. Oncogene 2005; 24(10):1673-1682. (Pubitemid 40461124)
-
(2005)
Oncogene
, vol.24
, Issue.10
, pp. 1673-1682
-
-
Shashidhar, S.1
Lorente, G.2
Nagavarapu, U.3
Nelson, A.4
Kuo, J.5
Cummins, J.6
Nikolich, K.7
Urfer, R.8
Foehr, E.D.9
-
60
-
-
44049084598
-
Expression profile of the entire family of Adhesion G protein-coupled receptors in mouse and rat
-
Haitina T, Olsson F, Stephansson O et al. Expression profile of the entire family of Adhesion G protein-coupled receptors in mouse and rat. BMC Neurosci 2008; 9:43.
-
(2008)
BMC Neurosci
, vol.9
, pp. 43
-
-
Haitina, T.1
Olsson, F.2
Stephansson, O.3
-
61
-
-
33846252240
-
Genome-wide atlas of gene expression in the adult mouse brain
-
DOI 10.1038/nature05453, PII NATURE05453
-
Lein ES, Hawrylycz MJ, Ao N et al. Genome-wide atlas of gene expression in the adult mouse brain. Nature 2007; 445(7124):168-176. (Pubitemid 46095716)
-
(2007)
Nature
, vol.445
, Issue.7124
, pp. 168-176
-
-
Lein, E.S.1
Hawrylycz, M.J.2
Ao, N.3
Ayres, M.4
Bensinger, A.5
Bernard, A.6
Boe, A.F.7
Boguski, M.S.8
Brockway, K.S.9
Byrnes, E.J.10
Chen, L.11
Chen, L.12
Chen, T.-M.13
Chin, M.C.14
Chong, J.15
Crook, B.E.16
Czaplinska, A.17
Dang, C.N.18
Datta, S.19
Dee, N.R.20
Desaki, A.L.21
Desta, T.22
Diep, E.23
Dolbeare, T.A.24
Donelan, M.J.25
Dong, H.-W.26
Dougherty, J.G.27
Duncan, B.J.28
Ebbert, A.J.29
Eichele, G.30
Estin, L.K.31
Faber, C.32
Facer, B.A.33
Fields, R.34
Fischer, S.R.35
Fliss, T.P.36
Frensley, C.37
Gates, S.N.38
Glattfelder, K.J.39
Halverson, K.R.40
Hart, M.R.41
Hohmann, J.G.42
Howell, M.P.43
Jeung, D.P.44
Johnson, R.A.45
Karr, P.T.46
Kawal, R.47
Kidney, J.M.48
Knapik, R.H.49
Kuan, C.L.50
Lake, J.H.51
Laramee, A.R.52
Larsen, K.D.53
Lau, C.54
Lemon, T.A.55
Liang, A.J.56
Liu, Y.57
Luong, L.T.58
Michaels, J.59
Morgan, J.J.60
Morgan, R.J.61
Mortrud, M.T.62
Mosqueda, N.F.63
Ng, L.L.64
Ng, R.65
Orta, G.J.66
Overly, C.C.67
Pak, T.H.68
Parry, S.E.69
Pathak, S.D.70
Pearson, O.C.71
Puchalski, R.B.72
Riley, Z.L.73
Rockett, H.R.74
Rowland, S.A.75
Royall, J.J.76
Ruiz, M.J.77
Sarno, N.R.78
Schaffnit, K.79
Shapovalova, N.V.80
Sivisay, T.81
Slaughterbeck, C.R.82
Smith, S.C.83
Smith, K.A.84
Smith, B.I.85
Sodt, A.J.86
Stewart, N.N.87
Stumpf, K.-R.88
Sunkin, S.M.89
Sutram, M.90
Tam, A.91
Teemer, C.D.92
Thaller, C.93
Thompson, C.L.94
Varnam, L.R.95
Visel, A.96
Whitlock, R.M.97
Wohnoutka, P.E.98
Wolkey, C.K.99
more..
-
62
-
-
54849431384
-
The Adhesion-GPCR GPR125 is specifically expressed in the choroid plexus and is upregulated following brain injury
-
Pickering C, Hagglund M, Szmydynger-Chodobska J et al. The Adhesion-GPCR GPR125 is specifically expressed in the choroid plexus and is upregulated following brain injury. BMC Neurosci 2008; 9:97.
-
(2008)
BMC Neurosci
, vol.9
, pp. 97
-
-
Pickering, C.1
Hagglund, M.2
Szmydynger-Chodobska, J.3
-
63
-
-
33846804514
-
The evolutionary history and tissue mapping of GPR123: Specific CNS expression pattern predominantly in thalamic nuclei and regions containing large pyramidal cells
-
DOI 10.1111/j.1471-4159.2006.04281.x
-
Lagerstrom MC, Rabe N, Haitina T et al. The evolutionary history and tissue mapping of GPR123: Specific CNS expression pattern predominantly in thalamic nuclei and regions contraining large pyramidal cells. J Neurochem 2007; 100:1129-1142. (Pubitemid 46213935)
-
(2007)
Journal of Neurochemistry
, vol.100
, Issue.4
, pp. 1129-1142
-
-
Lagerstrom, M.C.1
Rabe, N.2
Haitina, T.3
Kalnina, I.4
Hellstrom, A.R.5
Klovins, J.6
Kullander, K.7
Schioth, H.B.8
|