| Reference |
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22955
Kohno T, Honda T, Kubo K, Nakano Y, Tsuchiya A, Murakami T, Banno H, Nakajima K, Hattori M.
Importance of Reelin C-terminal region in the development and maintenance of the postnatal cerebral cortex and its regulation by specific proteolysis.
J Neurosci
2015
35(11):4776-87
PubMed ID: 25788693
DOI: 10.1523/JNEUROSCI.4119-14.2015
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22954
Sekine K, Kawauchi T, Kubo K, Honda T, Herz J, Hattori M, Kinashi T, Nakajima K.
Reelin controls neuronal positioning by promoting cell-matrix adhesion via inside-out activation of integrin α5β1.
Neuron
2012
76(2):353-69
PubMed ID: 23083738
DOI: 10.1016/j.neuron.2012.07.020
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22953
Kubo K, Honda T, Tomita K, Sekine K, Ishii K, Uto A, Kobayashi K, Tabata H, Nakajima K.
Ectopic Reelin induces neuronal aggregation with a normal birthdate-dependent "inside-out" alignment in the developing neocortex.
J Neurosci
2010
30(33):10953-66
PubMed ID: 20720102
DOI: 10.1523/JNEUROSCI.0486-10.2010
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22952
Nakano Y, Kohno T, Hibi T, Kohno S, Baba A, Mikoshiba K, Nakajima K, Hattori M.
The extremely conserved C-terminal region of Reelin is not necessary for secretion but is required for efficient activation of downstream signaling.
J Biol Chem
2007
282(28):20544-52
PubMed ID: 17504759
DOI: 10.1074/jbc.M702300200
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22951
Soda T, Nakashima R, Watanabe D, Nakajima K, Pastan I, Nakanishi S.
Segregation and coactivation of developing neocortical layer 1 neurons.
J Neurosci
2003
23(15):6272-9
PubMed ID: 12867512
DOI: 10.1523/JNEUROSCI.23-15-06272.2003
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22950
Kubo K, Mikoshiba K, Nakajima K.
Secreted Reelin molecules form homodimers.
Neurosci Res
2002
43(4):381-8
PubMed ID: 12135781
DOI: 10.1016/s0168-0102(02)00068-8
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22949
Tabata H, Nakajima K.
Efficient in utero gene transfer system to the developing mouse brain using electroporation: visualization of neuronal migration in the developing cortex.
Neuroscience
2001
103(4):865-72
PubMed ID: 11301197
DOI: 10.1016/s0306-4522(01)00016-1
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22947
Yip JW, Yip YP, Nakajima K, Capriotti C.
Reelin controls position of autonomic neurons in the spinal cord.
Proc Natl Acad Sci USA
2000
97(15):8612-6
PubMed ID: 10880573
DOI: 10.1073/pnas.150040497
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22948
Utsunomiya-Tate N, Kubo K, Tate S, Kainosho M, Katayama E, Nakajima K, Mikoshiba K.
Reelin molecules assemble together to form a large protein complex, which is inhibited by the function-blocking CR-50 antibody.
Proc Natl Acad Sci USA
2000
97(17):9729-34
PubMed ID: 10920200
DOI: 10.1073/pnas.160272497
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22945
Fatemi SH, Emamian ES, Kist D, Sidwell RW, Nakajima K, Akhter P, Shier A, Sheikh S, Bailey K.
Defective corticogenesis and reduction in Reelin immunoreactivity in cortex and hippocampus of prenatally infected neonatal mice.
Mol Psychiatry
1999
4(2):145-54
PubMed ID: 10208446
DOI: 10.1038/sj.mp.4000520
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22946
Alvarez-Dolado M, Ruiz M, Del Río JA, Alcántara S, Burgaya F, Sheldon M, Nakajima K, Bernal J, Howell BW, Curran T, Soriano E, Muñoz A.
Thyroid hormone regulates reelin and dab1 expression during brain development.
J Neurosci
1999
19(16):6979-93
PubMed ID: 10436054
DOI: 10.1523/JNEUROSCI.19-16-06979.1999
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22944
Rice DS, Sheldon M, D'Arcangelo G, Nakajima K, Goldowitz D, Curran T.
Disabled-1 acts downstream of Reelin in a signaling pathway that controls laminar organization in the mammalian brain.
Development
1998
125(18):3719-29
PubMed ID: 9716537
DOI: 10.1242/dev.125.18.3719
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22938
D'Arcangelo G, Nakajima K, Miyata T, Ogawa M, Mikoshiba K, Curran T.
Reelin is a secreted glycoprotein recognized by the CR-50 monoclonal antibody.
J Neurosci.
1997
17(1):23-31
PubMed ID: 8987733
DOI: 10.1523/JNEUROSCI.17-01-00023.1997
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22939
Del Río JA, Heimrich B, Borrell V, Förster E, Drakew A, Alcántara S, Nakajima K, Miyata T, Ogawa M, Mikoshiba K, Derer P, Frotscher M, Soriano E.
A role for Cajal-Retzius cells and reelin in the development of hippocampal connections.
Nature
1997
385(6611):70-4
PubMed ID: 8985248
DOI: 10.1038/385070a0
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22940
Miyata T, Nakajima K, Mikoshiba K, Ogawa M.
Regulation of Purkinje cell alignment by reelin as revealed with CR-50 antibody.
J Neurosci
1997
17(10):3599-609
PubMed ID: 9133383
DOI: 10.1523/JNEUROSCI.17-10-03599.1997
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22941
Disruption of hippocampal development in vivo by CR-50 mAb against reelin.
Proc Natl Acad Sci USA
1997
94(15):8196-201
PubMed ID: 9223338
DOI: 10.1073/pnas.94.15.8196
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22942
Yoneshima H, Nagata E, Matsumoto M, Yamada M, Nakajima K, Miyata T, Ogawa M, Mikoshiba K.
A novel neurological mutant mouse, yotari, which exhibits reeler-like phenotype but expresses CR-50 antigen/reelin.
Neurosci Res
1997
29(3):217-23
PubMed ID: 9436647
DOI: 10.1016/s0168-0102(97)00088-6
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22943
de Bergeyck V, Nakajima K, Lambert de Rouvroit C, Naerhuyzen B, Goffinet AM, Miyata T, Ogawa M, Mikoshiba K.
A truncated Reelin protein is produced but not secreted in the 'Orleans' reeler mutation (Reln[rl-Orl]).
Mol Brain Res
1997
50(1-2):85-90
PubMed ID: 9406921
DOI: 10.1016/s0169-328x(97)00166-6
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22937
Miyata T, Nakajima K, Aruga J, Takahashi S, Ikenaka K, Mikoshiba K, Ogawa M.
Distribution of a reeler gene-related antigen in the developing cerebellum: an immunohistochemical study with an allogeneic antibody CR-50 on normal and reeler mice.
J Comp Neurol.
1996
372(2):215-228
PubMed ID: 8863127
DOI: 10.1002/(SICI)1096-9861(19960819)372:2<215::AID-CNE5>3.0.CO;2-6
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22936
Ogawa M, Miyata T, Nakajima K, Yagyu K, Seike M, Ikenaka K, Yamamoto H, Mikoshiba K.
The reeler gene-associated antigen on Cajal-Retzius neurons is a crucial molecule for laminar organization of cortical neurons.
Neuron
1995
14(5):899-912
PubMed ID: 7748558
DOI: 10.1016/0896-6273(95)90329-1
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