The N-terminal leucine-rich regions in Slit are sufficient to repel olfactory bulb axons and subventricular zone neurons
about
sameAs
Structure and functional relevance of the Slit2 homodimerization domainBinding site for Robo receptors revealed by dissection of the leucine-rich repeat region of SlitThe emerging role of Slit-Robo pathway in gastric and other gastro intestinal cancersModulation of inflammation by slit protein in vivo in experimental crescentic glomerulonephritisSall3 is required for the terminal maturation of olfactory glomerular interneuronsGlobularity and language-readiness: generating new predictions by expanding the set of genes of interestHow to innervate a simple gut: familiar themes and unique aspects in the formation of the insect enteric nervous system.Slit2/Robo4 signaling modulates HIV-1 gp120-induced lymphatic hyperpermeability.Inadequate lung development and bronchial hyperplasia in mice with a targeted deletion in the Dutt1/Robo1 gene.A novel role for Slit2/Robo1 axis in modulating HIV-1 replication in T cellsSlit2, a branching-arborization factor for sensory axons in the Mammalian CNSMolecular control of neuronal migration.A genetic model for a central (septum transversum) congenital diaphragmatic hernia in mice lacking Slit3.Neuronal migration and molecular conservation with leukocyte chemotaxisDual function of Slit2 in repulsion and enhanced migration of trunk, but not vagal, neural crest cellsSlit-2/Robo-1 modulates the CXCL12/CXCR4-induced chemotaxis of T cells.Traumatic Brain Injury Causes Aberrant Migration of Adult-Born Neurons in the HippocampusThe SALM family of adhesion-like molecules forms heteromeric and homomeric complexes.Potential Role of Axonal Chemorepellent Slit2 in Modulating Adventitial Inflammation in a Rat Carotid Artery Balloon Injury Model.Slit-2 induces a tumor-suppressive effect by regulating beta-catenin in breast cancer cells.Dlx-dependent and -independent regulation of olfactory bulb interneuron differentiation.Neocortical neurogenesis and neuronal migrationIn vivo functional analysis of Drosophila Robo1 immunoglobulin-like domains.N-cadherin acts in concert with Slit1-Robo2 signaling in regulating aggregation of placode-derived cranial sensory neurons.Dopamine systems in the forebrain.Slit2/Robo4 Signaling: Potential Role of a VEGF-Antagonist Pathway to Regulate Luteal PermeabilityA roundabout way to cancer.Genomic analysis-integrated whole-exome sequencing of neuroblastomas identifies genetic mutations in axon guidance pathway.Slit Binding via the Ig1 Domain Is Essential for Midline Repulsion by Drosophila Robo1 but Dispensable for Receptor Expression, Localization, and Regulation in Vivo.Ephrins guide migrating cortical interneurons in the basal telencephalon.Old friends, new story: The role of Slit2C signaling through PlexinA1.Roundabout 2 regulates migration of sensory neurons by signaling in trans.In vivo Functional Analysis of Drosophila Robo1 Fibronectin Type III Repeats.Midline axon guidance in the Drosophila embryonic central nervous system.Osteoclast-secreted SLIT3 coordinates bone resorption and formation.
P2860
Q24317365-A9DAB476-69C0-4994-A87B-C0E10B3F7CB3Q24561363-84CC348C-72CC-486C-95E4-3897C0A80C3DQ26775454-1E4BCB18-A00E-4BEC-9CA3-6B53092B95FBQ28584356-53CBC6A5-F9F0-4FA8-942A-E2F51942328DQ28586318-5089D89A-0630-4EED-8F9A-CF8E192D21B2Q28651479-E6A2174D-F44A-48C9-BF0F-BAD0BA1D4F02Q30500289-E3C5F375-0BCC-4A15-88E1-D175B270E9BCQ31044936-B9876C29-F5DD-4AAF-9D01-5BA39D668A42Q33952898-529EE26C-6E98-4258-926D-D1E02B6BA735Q34009882-52182953-3F10-4952-9878-9FCB7C2B669EQ34662675-33F5B8E1-203A-46C5-929C-7D5DE2AD63BFQ34811414-1F7CB35E-5C30-45B4-A33F-E42255B87869Q34982454-DAE87048-41B6-417C-88DB-318009D49371Q35016216-F3303AB9-00F7-464F-8498-1F230A07C953Q36323212-1CD8E8EE-D4ED-4128-9614-97DE658AFCB0Q36526659-00C43DDF-C6DA-4D5E-B550-DAFCB033F30DQ36602260-BFA3D65D-1A79-46B2-8020-FE5C5695602DQ36704129-2155889B-95DA-4474-BE38-36B3BF5A1E27Q36885396-A1B4BFF3-974D-426D-BC71-443CB963AEBAQ36897655-19567EF4-ECD8-4805-B811-A062225AD18AQ37042421-57862D3A-9EF2-468E-88DA-4A39DB8C4749Q37158047-0F12792B-0174-4466-AA49-1D197563C29DQ37189411-1492737F-5D46-4210-83F8-5A1BDE7FCDB2Q37429765-E4E02EC5-AA88-472A-ADB0-98F0E82D3E04Q37592096-88C46745-F7B8-4933-A66F-FF90ACEEEE54Q37616257-902785FC-F61B-4B70-B8A2-FE2B31072A75Q38010295-54F15E77-5FBC-486B-9298-0B5EBF3EF9D1Q41345228-023C9B14-574E-402A-A600-E62ACD975DF4Q41959385-A53F807C-728D-49D8-AC71-85FD3BD19188Q42407382-27FA31F1-15B4-46AB-8113-657375025526Q42409266-B7218357-F8D7-4165-85A6-B9EDC77BB2A6Q42925760-749436CC-2242-4D11-A897-CD6A8BB76040Q47317650-330E91AB-6765-4BC9-B4E6-277CEB7774AAQ49642667-55CA4260-FD94-43BB-A8CC-F1241BC6F248Q51765760-A642CEFE-A083-440C-9617-9C5290C18C6A
P2860
The N-terminal leucine-rich regions in Slit are sufficient to repel olfactory bulb axons and subventricular zone neurons
description
2001 nî lūn-bûn
@nan
2001 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի մարտին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
The N-terminal leucine-rich re ...... nd subventricular zone neurons
@ast
The N-terminal leucine-rich re ...... nd subventricular zone neurons
@en
The N-terminal leucine-rich re ...... nd subventricular zone neurons
@nl
type
label
The N-terminal leucine-rich re ...... nd subventricular zone neurons
@ast
The N-terminal leucine-rich re ...... nd subventricular zone neurons
@en
The N-terminal leucine-rich re ...... nd subventricular zone neurons
@nl
prefLabel
The N-terminal leucine-rich re ...... nd subventricular zone neurons
@ast
The N-terminal leucine-rich re ...... nd subventricular zone neurons
@en
The N-terminal leucine-rich re ...... nd subventricular zone neurons
@nl
P2093
P3181
P1476
The N-terminal leucine-rich re ...... nd subventricular zone neurons
@en
P2093
P304
P3181
P407
P577
2001-03-01T00:00:00Z