-
1
-
-
34249018367
-
GEFs and GAPs: Critical elements in the control of small G proteins
-
Bos JL, Rehmann H, Wittinghofer A. GEFs and GAPs: critical elements in the control of small G proteins. Cell 2007; 129:865-77; http://dx.doi.org/10.1016/j.cell.2007.05.018
-
(2007)
Cell
, vol.129
, pp. 865-877
-
-
Bos, J.L.1
Rehmann, H.2
Wittinghofer, A.3
-
2
-
-
16844387479
-
The Ras superfamily at a glance
-
Wennerberg K, Rossman KL, Der CJ. The Ras superfamily at a glance. J Cell Sci 2005; 118:843-6; http://dx.doi.org/10.1242/jcs.01660
-
(2005)
J Cell Sci
, vol.118
, pp. 843-846
-
-
Wennerberg, K.1
Rossman, K.L.2
Der, C.J.3
-
3
-
-
77649191184
-
Rap1, a mercenary among the Ras-like GTPases
-
Frische EW, Zwartkruis FJ. Rap1, a mercenary among the Ras-like GTPases. Dev Biol 2010; 340:1-9; http://dx.doi.org/10.1016/j.ydbio.2009.12.043
-
(2010)
Dev Biol
, vol.340
, pp. 1-9
-
-
Frische, E.W.1
Zwartkruis, F.J.2
-
4
-
-
70349335654
-
Control of cell adhesion dynamics by Rap1 signaling
-
Boettner B, Van Aelst L. Control of cell adhesion dynamics by Rap1 signaling. Curr Opin Cell Biol 2009; 21:684-93; http://dx.doi.org/10.1016/j.ceb.2009.06.004
-
(2009)
Curr Opin Cell Biol
, vol.21
, pp. 684-693
-
-
Boettner, B.1
van Aelst, L.2
-
5
-
-
79960843611
-
Reelin, Rap1 and N-cadherin orient the migration of multipolar neurons in the developing neocortex
-
Jossin Y, Cooper JA. Reelin, Rap1 and N-cadherin orient the migration of multipolar neurons in the developing neocortex. Nat Neurosci 2011; 14:697-703; http://dx.doi.org/10.1038/nn.2816
-
(2011)
Nat Neurosci
, vol.14
, pp. 697-703
-
-
Jossin, Y.1
Cooper, J.A.2
-
6
-
-
1642458489
-
Cortical neurons arise in symmetric and asymmetric division zones and migrate through specific phases
-
Noctor SC, Martinez-Cerdeno V, Ivic L, Kriegstein AR. Cortical neurons arise in symmetric and asymmetric division zones and migrate through specific phases. Nat Neurosci 2004; 7:136-44; http://dx. doi.org/10.1038/nn1172
-
(2004)
Nat Neurosci
, vol.7
, pp. 136-144
-
-
Noctor, S.C.1
Martinez-Cerdeno, V.2
Ivic, L.3
Kriegstein, A.R.4
-
7
-
-
0018186897
-
The development of the cerebral cortex in the embryonic mouse: An electron microscopic serial section analysis
-
Shoukimas GM, Hinds JW. The development of the cerebral cortex in the embryonic mouse: an electron microscopic serial section analysis. J Comp Neurol 1978; 179:795-830; http://dx.doi.org/10.1002/cne.901790407
-
(1978)
J Comp Neurol
, vol.179
, pp. 795-830
-
-
Shoukimas, G.M.1
Hinds, J.W.2
-
8
-
-
47649084675
-
C3G regulates cortical neuron migration, preplate splitting and radial glial cell attachment
-
Voss AK, Britto JM, Dixon MP, Sheikh BN, Collin C, Tan SS, et al. C3G regulates cortical neuron migration, preplate splitting and radial glial cell attachment. Development 2008; 135:2139-49; http://dx.doi.org/10.1242/dev.016725
-
(2008)
Development
, vol.135
, 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
-
9
-
-
65749112744
-
Dorsal telencephalon-specific RA-GEF-1 knockout mice develop heterotopic cortical mass and commissural fiber defect
-
Bilasy SE, Satoh T, Ueda S, Wei P, Kanemura H, Aiba A, et al. Dorsal telencephalon-specific RA-GEF-1 knockout mice develop heterotopic cortical mass and commissural fiber defect. Eur J Neurosci 2009; 29:1994-2008; http://dx.doi.org/10.1111/j.1460-9568.2009.06754.x
-
(2009)
Eur J Neurosci
, vol.29
, pp. 1994-2008
-
-
Bilasy, S.E.1
Satoh, T.2
Ueda, S.3
Wei, P.4
Kanemura, H.5
Aiba, A.6
-
10
-
-
37249047911
-
Beta1 integrins in radial glia but not in migrating neurons are essential for the formation of cell layers in the cerebral cortex
-
Belvindrah R, Graus-Porta D, Goebbels S, Nave KA, Muller U. Beta1 integrins in radial glia but not in migrating neurons are essential for the formation of cell layers in the cerebral cortex. J Neurosci 2007; 27:13854-65; http://dx.doi.org/10.1523/JNEUROSCI.4494-07.2007
-
(2007)
J Neurosci
, vol.27
, pp. 13854-13865
-
-
Belvindrah, R.1
Graus-Porta, D.2
Goebbels, S.3
Nave, K.A.4
Muller, U.5
-
11
-
-
0345550397
-
FAK deficiency in cells contributing to the basal lamina results in cortical abnormalities resembling congenital muscular dystrophies
-
Beggs HE, Schahin-Reed D, Zang K, Goebbels S, Nave KA, Gorski J, et al. FAK deficiency in cells contributing to the basal lamina results in cortical abnormalities resembling congenital muscular dystrophies. Neuron 2003; 40:501-14; http://dx.doi.org/10.1016/S0896-6273(03)00666-4
-
(2003)
Neuron
, vol.40
, pp. 501-514
-
-
Beggs, H.E.1
Schahin-Reed, D.2
Zang, K.3
Goebbels, S.4
Nave, K.A.5
Gorski, J.6
-
12
-
-
33947199740
-
N-cadherin mediates cortical organization in the mouse brain
-
Kadowaki M, Nakamura S, Machon O, Krauss S, Radice GL, Takeichi M. N-cadherin mediates cortical organization in the mouse brain. Dev Biol 2007; 304:22-33; http://dx.doi.org/10.1016/j.ydbio.2006.12.014
-
(2007)
Dev Biol
, vol.304
, pp. 22-33
-
-
Kadowaki, M.1
Nakamura, S.2
Machon, O.3
Krauss, S.4
Radice, G.L.5
Takeichi, M.6
-
13
-
-
33745100482
-
Classic cadherins regulate tangential migration of precerebellar neurons in the caudal hindbrain
-
Taniguchi H, Kawauchi D, Nishida K, Murakami F. Classic cadherins regulate tangential migration of precerebellar neurons in the caudal hindbrain. Development 2006; 133:1923-31; http://dx.doi.org/10.1242/dev.02354
-
(2006)
Development
, vol.133
, pp. 1923-1931
-
-
Taniguchi, H.1
Kawauchi, D.2
Nishida, K.3
Murakami, F.4
-
14
-
-
72849112793
-
Cadherin-2 controls directional chain migration of cerebellar granule neurons
-
Rieger S, Senghaas N, Walch A, Koster RW. Cadherin-2 controls directional chain migration of cerebellar granule neurons. PLoS Biol 2009; 7:e1000240; http://dx.doi.org/10.1371/journal.pbio.1000240
-
(2009)
PLoS Biol
, vol.7
-
-
Rieger, S.1
Senghaas, N.2
Walch, A.3
Koster, R.W.4
-
15
-
-
58149352862
-
PDGF signalling controls the migration of mesoderm cells during chick gastrulation by regulating N-cadherin expression
-
Yang X, Chrisman H, Weijer CJ. PDGF signalling controls the migration of mesoderm cells during chick gastrulation by regulating N-cadherin expression. Development 2008; 135:3521-30; http://dx.doi.org/10.1242/dev.023416
-
(2008)
Development
, vol.135
, pp. 3521-3530
-
-
Yang, X.1
Chrisman, H.2
Weijer, C.J.3
-
16
-
-
3242685086
-
Rap1 regulates the formation of E-cadherin-based cell-cell contacts
-
Hogan C, Serpente N, Cogram P, Hosking CR, Bialucha CU, Feller SM, et al. Rap1 regulates the formation of E-cadherin-based cell-cell contacts. Mol Cell Biol 2004; 24:6690-700; http://dx.doi.org/10.1128/MCB.24.15.6690-6700.2004
-
(2004)
Mol Cell Biol
, vol.24
, pp. 6690-6700
-
-
Hogan, C.1
Serpente, N.2
Cogram, P.3
Hosking, C.R.4
Bialucha, C.U.5
Feller, S.M.6
-
17
-
-
30044444270
-
Activation of Rac by cadherin through the c-Src-Rap1- phosphatidylinositol 3-kinase-Vav2 pathway
-
Fukuyama T, Ogita H, Kawakatsu T, Inagaki M, Takai Y. Activation of Rac by cadherin through the c-Src-Rap1- phosphatidylinositol 3-kinase-Vav2 pathway. Oncogene 2006; 25:8-19
-
(2006)
Oncogene
, vol.25
, pp. 8-19
-
-
Fukuyama, T.1
Ogita, H.2
Kawakatsu, T.3
Inagaki, M.4
Takai, Y.5
-
18
-
-
31944446602
-
MAGI-1 is required for Rap1 activation upon cell-cell contact and for enhancement of vascular endothelial cadherin-mediated cell adhesion
-
Sakurai A, Fukuhara S, Yamagishi A, Sako K, Kamioka Y, Masuda M, et al. MAGI-1 is required for Rap1 activation upon cell-cell contact and for enhancement of vascular endothelial cadherin-mediated cell adhesion. Mol Biol Cell 2006; 17:966-76; http://dx.doi.org/10.1091/mbc.E05-07-0647
-
(2006)
Mol Biol Cell
, vol.17
, pp. 966-976
-
-
Sakurai, A.1
Fukuhara, S.2
Yamagishi, A.3
Sako, K.4
Kamioka, Y.5
Masuda, M.6
-
19
-
-
66349121353
-
Classical cadherins control nucleus and centrosome position and cell polarity
-
Dupin I, Camand E, Etienne-Manneville S. Classical cadherins control nucleus and centrosome position and cell polarity. J Cell Biol 2009; 185:779-86; http://dx.doi.org/10.1083/jcb.200812034
-
(2009)
J Cell Biol
, vol.185
, pp. 779-786
-
-
Dupin, I.1
Camand, E.2
Etienne-Manneville, S.3
-
20
-
-
77954926645
-
Collective chemotaxis requires contact-dependent cell polarity
-
Theveneau E, Marchant L, Kuriyama S, Gull M, Moepps B, Parsons M, et al. Collective chemotaxis requires contact-dependent cell polarity. Dev Cell 2010; 19:39-53; http://dx.doi.org/10.1016/j.devcel.2010.06.012
-
(2010)
Dev Cell
, vol.19
, pp. 39-53
-
-
Theveneau, E.1
Marchant, L.2
Kuriyama, S.3
Gull, M.4
Moepps, B.5
Parsons, M.6
-
21
-
-
0036781973
-
A signaling pathway leading to metastasis is controlled by N-cadherin and the FGF receptor
-
Suyama K, Shapiro I, Guttman M, Hazan RB. A signaling pathway leading to metastasis is controlled by N-cadherin and the FGF receptor. Cancer Cell 2002; 2:301-14; http://dx.doi.org/10.1016/S1535-6108(02)00150-2
-
(2002)
Cancer Cell
, vol.2
, pp. 301-314
-
-
Suyama, K.1
Shapiro, I.2
Guttman, M.3
Hazan, R.B.4
-
22
-
-
41949112173
-
VE-cadherin is a critical endothelial regulator of TGF-beta signalling
-
Rudini N, Felici A, Giampietro C, Lampugnani M, Corada M, Swirsding K, et al. VE-cadherin is a critical endothelial regulator of TGF-beta signalling. EMBO J 2008; 27:993-1004; http://dx.doi.org/10.1038/emboj.2008.46
-
(2008)
EMBO J
, vol.27
, pp. 993-1004
-
-
Rudini, N.1
Felici, A.2
Giampietro, C.3
Lampugnani, M.4
Corada, M.5
Swirsding, K.6
-
23
-
-
0033535049
-
DE-Cadherin is required for intercellular motility during Drosophila oogenesis
-
Niewiadomska P, Godt D, Tepass U. DE-Cadherin is required for intercellular motility during Drosophila oogenesis. J Cell Biol 1999; 144:533-47; http://dx.doi.org/10.1083/jcb.144.3.533
-
(1999)
J Cell Biol
, vol.144
, pp. 533-547
-
-
Niewiadomska, P.1
Godt, D.2
Tepass, U.3
-
24
-
-
0036714316
-
Invasive cell migration is initiated by guided growth of long cellular extensions
-
Fulga TA, Rorth P. Invasive cell migration is initiated by guided growth of long cellular extensions. Nat Cell Biol 2002; 4:715-9; http://dx.doi.org/10.1038/ncb848
-
(2002)
Nat Cell Biol
, vol.4
, pp. 715-719
-
-
Fulga, T.A.1
Rorth, P.2
-
25
-
-
0032577562
-
Sec6/8 complex is recruited to cell-cell contacts and specifies transport vesicle delivery to the basal-lateral membrane in epithelial cells
-
Grindstaff KK, Yeaman C, Anandasabapathy N, Hsu SC, Rodriguez-Boulan E, Scheller RH, et al. Sec6/8 complex is recruited to cell-cell contacts and specifies transport vesicle delivery to the basal-lateral membrane in epithelial cells. Cell 1998; 93:731-40; http://dx.doi.org/10.1016/S0092-8674(00)81435-X
-
(1998)
Cell
, vol.93
, pp. 731-740
-
-
Grindstaff, K.K.1
Yeaman, C.2
Anandasabapathy, N.3
Hsu, S.C.4
Rodriguez-Boulan, E.5
Scheller, R.H.6
-
26
-
-
32144461352
-
Activation of Rap1, Cdc42, and rac by nectin adhesion system
-
Ogita H, Takai Y. Activation of Rap1, Cdc42, and rac by nectin adhesion system. Methods Enzymol 2006; 406:415-24; http://dx.doi.org/10.1016/S0076-6879(06)06030-7
-
(2006)
Methods Enzymol
, vol.406
, pp. 415-424
-
-
Ogita, H.1
Takai, Y.2
-
27
-
-
19944432451
-
Involvement of the c-Src-Crk- C3G-Rap1 signaling in the nectin-induced activation of Cdc42 and formation of adherens junctions
-
Fukuyama T, Ogita H, Kawakatsu T, Fukuhara T, Yamada T, Sato T, et al. Involvement of the c-Src-Crk- C3G-Rap1 signaling in the nectin-induced activation of Cdc42 and formation of adherens junctions. J Biol Chem 2005; 280:815-25
-
(2005)
J Biol Chem
, vol.280
, pp. 815-825
-
-
Fukuyama, T.1
Ogita, H.2
Kawakatsu, T.3
Fukuhara, T.4
Yamada, T.5
Sato, T.6
-
28
-
-
33947310595
-
Rac is a dominant regulator of cadherin-directed actin assembly that is activated by adhesive ligation independently of Tiam1
-
Kraemer A, Goodwin M, Verma S, Yap AS, Ali RG. Rac is a dominant regulator of cadherin-directed actin assembly that is activated by adhesive ligation independently of Tiam1. Am J Physiol Cell Physiol 2007; 292:C1061-9; http://dx.doi.org/10.1152/ajpcell.00073.2006
-
(2007)
Am J Physiol Cell Physiol
, vol.292
-
-
Kraemer, A.1
Goodwin, M.2
Verma, S.3
Yap, A.S.4
Ali, R.G.5
-
29
-
-
4143118903
-
Rap1 regulates E-cadherinmediated cell-cell adhesion
-
Price LS, Hajdo-Milasinovic A, Zhao J, Zwartkruis FJ, Collard JG, Bos JL. Rap1 regulates E-cadherinmediated cell-cell adhesion. J Biol Chem 2004; 279:35127-32; http://dx.doi.org/10.1074/jbc.M404917200
-
(2004)
J Biol Chem
, vol.279
, pp. 35127-35132
-
-
Price, L.S.1
Hajdo-Milasinovic, A.2
Zhao, J.3
Zwartkruis, F.J.4
Collard, J.G.5
Bos, J.L.6
-
30
-
-
0033126052
-
Cdc42 controls secretory and endocytic transport to the basolateral plasma membrane of MDCK cells
-
Kroschewski R, Hall A, Mellman I. Cdc42 controls secretory and endocytic transport to the basolateral plasma membrane of MDCK cells. Nat Cell Biol 1999; 1:8-13
-
(1999)
Nat Cell Biol
, vol.1
, pp. 8-13
-
-
Kroschewski, R.1
Hall, A.2
Mellman, I.3
-
31
-
-
0033543551
-
Cdc42 and Rac1 regulate the interaction of IQGAP1 with beta-catenin
-
Fukata M, Kuroda S, Nakagawa M, Kawajiri A, Itoh N, Shoji I, et al. Cdc42 and Rac1 regulate the interaction of IQGAP1 with beta-catenin. J Biol Chem 1999; 274:26044-50; http://dx.doi.org/10.1074/jbc.274.37.26044
-
(1999)
J Biol Chem
, vol.274
, pp. 26044-26050
-
-
Fukata, M.1
Kuroda, S.2
Nakagawa, M.3
Kawajiri, A.4
Itoh, N.5
Shoji, I.6
-
32
-
-
0032493903
-
Role of IQGAP1, a target of the small GTPases Cdc42 and Rac1, in regulation of E-cadherin- mediated cell-cell adhesion
-
Kuroda S, Fukata M, Nakagawa M, Fujii K, Nakamura T, Ookubo T, et al. Role of IQGAP1, a target of the small GTPases Cdc42 and Rac1, in regulation of E-cadherin- mediated cell-cell adhesion. Science 1998; 281:832-5; http://dx.doi.org/10.1126/science.281.5378.832
-
(1998)
Science
, vol.281
, pp. 832-835
-
-
Kuroda, S.1
Fukata, M.2
Nakagawa, M.3
Fujii, K.4
Nakamura, T.5
Ookubo, T.6
-
33
-
-
3342986329
-
Endocytosis of E-cadherin regulated by Rac and Cdc42 small G proteins through IQGAP1 and actin filaments
-
Izumi G, Sakisaka T, Baba T, Tanaka S, Morimoto K, Takai Y. Endocytosis of E-cadherin regulated by Rac and Cdc42 small G proteins through IQGAP1 and actin filaments. J Cell Biol 2004; 166:237-48; http://dx.doi.org/10.1083/jcb.200401078
-
(2004)
J Cell Biol
, vol.166
, pp. 237-248
-
-
Izumi, G.1
Sakisaka, T.2
Baba, T.3
Tanaka, S.4
Morimoto, K.5
Takai, Y.6
-
34
-
-
21244496868
-
Regulation of E-cadherin endocytosis by nectin through afadin, Rap1, and p120ctn
-
Hoshino T, Sakisaka T, Baba T, Yamada T, Kimura T, Takai Y. Regulation of E-cadherin endocytosis by nectin through afadin, Rap1, and p120ctn. J Biol Chem 2005; 280:24095-103; http://dx.doi.org/10.1074/jbc.M414447200
-
(2005)
J Biol Chem
, vol.280
, pp. 24095-24103
-
-
Hoshino, T.1
Sakisaka, T.2
Baba, T.3
Yamada, T.4
Kimura, T.5
Takai, Y.6
-
35
-
-
77955956961
-
Rab GTPases-dependent endocytic pathways regulate neuronal migration and maturation through N-cadherin trafficking
-
Kawauchi T, Sekine K, Shikanai M, Chihama K, Tomita K, Kubo K, et al. Rab GTPases-dependent endocytic pathways regulate neuronal migration and maturation through N-cadherin trafficking. Neuron 2010; 67:588-602; http://dx.doi.org/10.1016/j.neuron.2010.07.007
-
(2010)
Neuron
, vol.67
, pp. 588-602
-
-
Kawauchi, T.1
Sekine, K.2
Shikanai, M.3
Chihama, K.4
Tomita, K.5
Kubo, K.6
-
36
-
-
27844507514
-
E-cadherin endocytosis regulates the activity of Rap1: A traffic light GTPase at the crossroads between cadherin and integrin function
-
Balzac F, Avolio M, Degani S, Kaverina I, Torti M, Silengo L, et al. E-cadherin endocytosis regulates the activity of Rap1: a traffic light GTPase at the crossroads between cadherin and integrin function. J Cell Sci 2005; 118:4765-83; http://dx.doi.org/10.1242/jcs.02584
-
(2005)
J Cell Sci
, vol.118
, pp. 4765-4783
-
-
Balzac, F.1
Avolio, M.2
Degani, S.3
Kaverina, I.4
Torti, M.5
Silengo, L.6
-
37
-
-
15244357959
-
Neuronal migration and the role of reelin during early development of the cerebral cortex
-
Y. Neuronal migration and the role of reelin during early development of the cerebral cortex. Mol Neurobiol 2004; 30:225-51; http://dx.doi.org/10.1385/MN:30:3:225
-
(2004)
Mol Neurobiol
, vol.30
, pp. 225-251
-
-
-
38
-
-
39949084146
-
A mechanism for inside-out lamination in the neocortex
-
Cooper JA. A mechanism for inside-out lamination in the neocortex. Trends Neurosci 2008; 31:113-9; http://dx.doi.org/10.1016/j.tins.2007.12.003
-
(2008)
Trends Neurosci
, vol.31
, pp. 113-119
-
-
Cooper, J.A.1
-
39
-
-
79959466300
-
Cell-type-specific consequences of reelin deficiency in the mouse neocortex, hippocampus, and amygdala
-
Boyle MP, Bernard A, Thompson CL, Ng L, Boe A, Mortrud M, et al. Cell-type-specific consequences of reelin deficiency in the mouse neocortex, hippocampus, and amygdala. J Comp Neurol 2011; 519:2061-89; http://dx.doi.org/10.1002/cne.22655
-
(2011)
J Comp Neurol
, vol.519
, pp. 2061-2089
-
-
Boyle, M.P.1
Bernard, A.2
Thompson, C.L.3
Ng, L.4
Boe, A.5
Mortrud, M.6
-
40
-
-
34247354614
-
-
Jossin Y, Gui L, Goffinet AM. Processing of Reelin by embryonic neurons is important for function in tissue but not in dissociated cultured neurons. J Neurosci 2007; 27:4243-52; http://dx.doi.org/10.1523/JNEUROSCI.0023-07.2007
-
(2007)
J Neurosci
, vol.27
, pp. 4243-4252
-
-
Jossin, Y.1
Gui, L.2
Goffinet, A.M.3
-
41
-
-
69449088849
-
Downregulation of functional Reelin receptors in projection neurons implies that primary Reelin action occurs at early/premigratory stages
-
Uchida T, Baba A, Perez-Martinez FJ, Hibi T, Miyata T, Luque JM, et al. Downregulation of functional Reelin receptors in projection neurons implies that primary Reelin action occurs at early/premigratory stages. J Neurosci 2009; 29:10653-62; http://dx.doi.org/10.1523/JNEUROSCI.0345-09.2009
-
(2009)
J Neurosci
, vol.29
, pp. 10653-10662
-
-
Uchida, T.1
Baba, A.2
Perez-Martinez, F.J.3
Hibi, T.4
Miyata, T.5
Luque, J.M.6
-
42
-
-
1642540032
-
The central fragment of Reelin, generated by proteolytic processing in vivo, is critical to its function during cortical plate development
-
Jossin Y, Ignatova N, Hiesberger T, Herz J, Lambert de Rouvroit C, Goffinet AM. The central fragment of Reelin, generated by proteolytic processing in vivo, is critical to its function during cortical plate development. J Neurosci 2004; 24:514-21; http://dx. doi.org/10.1523/JNEUROSCI.3408-03.2004
-
(2004)
J Neurosci
, vol.24
, pp. 514-521
-
-
Jossin, Y.1
Ignatova, N.2
Hiesberger, T.3
Herz, J.4
de Rouvroit, C.5
Goffinet, A.M.6
-
43
-
-
0037075201
-
Rescue of ataxia and preplate splitting by ectopic expression of Reelin in reeler mice
-
Magdaleno S, Keshvara L, Curran T. Rescue of ataxia and preplate splitting by ectopic expression of Reelin in reeler mice. Neuron 2002; 33:573-86; http://dx.doi.org/10.1016/S0896-6273(02)00582-2
-
(2002)
Neuron
, vol.33
, pp. 573-586
-
-
Magdaleno, S.1
Keshvara, L.2
Curran, T.3
-
44
-
-
20444500505
-
Disabled1 regulates the intracellular trafficking of reelin receptors
-
Morimura T, Hattori M, Ogawa M, Mikoshiba K. Disabled1 regulates the intracellular trafficking of reelin receptors. J Biol Chem 2005; 280:16901-8; http://dx.doi.org/10.1074/jbc.M409048200
-
(2005)
J Biol Chem
, vol.280
, pp. 16901-16908
-
-
Morimura, T.1
Hattori, M.2
Ogawa, M.3
Mikoshiba, K.4
-
45
-
-
4043068564
-
receptors are required for reelininduced proteasomal degradation of the neuronal adaptor protein Disabled-1
-
Bock HH, Jossin Y, May P, Bergner O, Herz J. Apolipoprotein E receptors are required for reelininduced proteasomal degradation of the neuronal adaptor protein Disabled-1. J Biol Chem 2004; 279:33471-9; http://dx.doi.org/10.1074/jbc.M401770200
-
(2004)
J Biol Chem
, vol.279
, pp. 33471-33479
-
-
Bock, H.H.1
Jossin, Y.2
May, P.3
Bergner, O.4
Herz, J.5
Apolipoprotein, E.6
-
46
-
-
77951559070
-
Cullin 5 regulates cortical layering by modulating the speed and duration of Dab1-dependent neuronal migration
-
Simó S, Jossin Y, Cooper JA. Cullin 5 regulates cortical layering by modulating the speed and duration of Dab1-dependent neuronal migration. J Neurosci 2010; 30:5668-76; http://dx.doi.org/10.1523/JNEUROSCI.0035-10.2010
-
(2010)
J Neurosci
, vol.30
, pp. 5668-5676
-
-
Simó, S.1
Jossin, Y.2
Cooper, J.A.3
|