about
Vinexin: a novel vinculin-binding protein with multiple SH3 domains enhances actin cytoskeletal organizationCellullar insights into cerebral cortical development: focusing on the locomotion mode of neuronal migrationExtra-cell cycle regulatory functions of cyclin-dependent kinases (CDK) and CDK inhibitor proteins contribute to brain development and neurological disordersInvolvement of a Rac activator,P-Rex1, in neurotrophin-derived signaling and neuronal migrationExpression of vinexin alpha in the dorsal half of the eye and in the cardiac outflow tract and atrioventricular canal.The diabetes-susceptible gene SLC30A8/ZnT8 regulates hepatic insulin clearanceDrosophila Strip serves as a platform for early endosome organization during axon elongationSilencing p27 reverses post-mitotic state of supporting cells in neonatal mouse cochleae.In utero gene therapy rescues microcephaly caused by Pqbp1-hypofunction in neural stem progenitor cellsThe COUP-TFII/Neuropilin-2 is a molecular switch steering diencephalon-derived GABAergic neurons in the developing mouse brain.Reelin controls neuronal positioning by promoting cell-matrix adhesion via inside-out activation of integrin α5β1Editorial: In vivo Cell Biology of Cerebral Cortical Development and Its Related Neurological DisordersMolecular pathways regulating cytoskeletal organization and morphological changes in migrating neurons.ADP Ribosylation Factor 6 Regulates Neuronal Migration in the Developing Cerebral Cortex through FIP3/Arfophilin-1-dependent Endosomal Trafficking of N-cadherin.Cell adhesion and its endocytic regulation in cell migration during neural development and cancer metastasis.Cdk5 regulates multiple cellular events in neural development, function and disease.N-cadherin regulates radial glial fiber-dependent migration of cortical locomoting neurons.Morphological and Molecular Basis of Cytoplasmic Dilation and Swelling in Cortical Migrating Neurons.Regulation of cell adhesion and migration in cortical neurons: Not only Rho but also Rab family small GTPases.Role of dual leucine zipper-bearing kinase (DLK/MUK/ZPK) in axonal growth.Rac is involved in the interkinetic nuclear migration of cortical progenitor cells.Tubulin isotype specificity in neuronal migration: Tuba8 can't fill in for Tuba1a.Cdk5 and its substrates, Dcx and p27kip1, regulate cytoplasmic dilation formation and nuclear elongation in migrating neurons.MAP1B phosphorylation is differentially regulated by Cdk5/p35, Cdk5/p25, and JNK.The outermost region of the developing cortical plate is crucial for both the switch of the radial migration mode and the Dab1-dependent "inside-out" lamination in the neocortex.[In-vivo cell biology reveals the several aspects of cerebral cortical development].[Beyond the cell cycle regulation: novel functions of cell cycle-related proteins in brain development].[In vivo cell biology of cortical neuronal migration and morphological changes].Rab GTPases-dependent endocytic pathways regulate neuronal migration and maturation through N-cadherin trafficking.Caveolin-1 Promotes Early Neuronal Maturation via Caveolae-Independent Trafficking of N-Cadherin and L1Cdk5 phosphorylates and stabilizes p27kip1 contributing to actin organization and cortical neuronal migration
P50
Q22008649-6078853D-14CA-4881-A7E5-8B478E330120Q26779317-67F066EF-4A46-494B-AC56-AD132CA2A9DAQ26864155-7B84D694-BA2D-45C0-B94C-2FC733F8616FQ28568401-715F99F2-6970-4DC4-942D-4973A20D5432Q30168040-D3D40BC6-A4D4-4CAA-BBE9-2BACEC1DEFD0Q30547080-927FB6A4-22A8-461F-B707-560D80D75D25Q34342210-594EC3E7-E961-435A-BEE5-E88D4DCA15ECQ35001387-6D861D55-35A9-47DF-A53D-EBE60D93E037Q35228912-D77CC0B1-D110-491B-BD0A-96BBD2E93FA2Q36056767-855EC97F-2266-4410-8395-63AC6DD600CAQ36342370-75516FF4-F76F-4A5C-A8ED-254C7D1D7EBCQ37022805-CD7E4826-2F56-4F45-A93D-13A651ACFA32Q37030402-2E755AD4-A66C-4B09-89E4-DC43AAF01607Q37213016-C8B44F55-1682-4BAF-B719-5748A34F9693Q38011157-5ADBE3FD-8EE0-4B57-95DF-A6D8D8F9651FQ38213140-BAC7A1A7-82F3-4ADF-B7CF-48CAABA7ACABQ38636135-A2CB8908-76A8-4073-AAF5-9EBD419EE999Q41161528-0EBB4842-761D-4669-8944-3BDEA9421BECQ42760726-30A90E4F-13E9-4F07-862A-02F9FB0B8103Q43266319-2809B0A0-5817-4336-8D1F-991518F322B5Q48005918-6E70F94B-D60C-45F9-BC98-CC3FAACF5982Q48158676-794C5124-4CB5-49ED-8478-8AF544BCF290Q48567501-F286BFC7-A5DC-4116-9175-C30206CB0DF6Q48920782-201FAC7F-4BBC-4FBD-8B7A-ADF1BDD10574Q49137934-61E046E3-7226-4337-8099-15C0B3B853A0Q51945016-F3473AE4-45E0-4FCE-A173-D2FCDFCF386FQ52902605-7930355F-948F-410A-AFB9-1A7E4C5444CFQ54578813-59E4DE4F-D2D5-4819-B1BB-54BD0083E102Q54653698-8E089C20-F143-42FB-9723-3674E99930C2Q57147424-4BF38187-5778-41D9-91AA-E1A0AA059D35Q81601109-2ADF2F11-43E5-40EC-8C27-835F6E7C2E65
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Takeshi Kawauchi
@ast
Takeshi Kawauchi
@en
Takeshi Kawauchi
@es
Takeshi Kawauchi
@nl
Takeshi Kawauchi
@sl
type
label
Takeshi Kawauchi
@ast
Takeshi Kawauchi
@en
Takeshi Kawauchi
@es
Takeshi Kawauchi
@nl
Takeshi Kawauchi
@sl
prefLabel
Takeshi Kawauchi
@ast
Takeshi Kawauchi
@en
Takeshi Kawauchi
@es
Takeshi Kawauchi
@nl
Takeshi Kawauchi
@sl
P1053
L-4770-2013
P106
P1153
7004586406
P21
P31
P3829
P496
0000-0002-8650-4474