Ankyrin-G directly binds to kinesin-1 to transport voltage-gated Na+ channels into axons.
about
Mechanisms of sodium channel clustering and its influence on axonal impulse conductionRedistribution of Kv1 and Kv7 enhances neuronal excitability during structural axon initial segment plasticity.Protein interactome mining defines melatonin MT1 receptors as integral component of presynaptic protein complexes of neuronsThe sorting receptor Rer1 controls Purkinje cell function via voltage gated sodium channels.prickle modulates microtubule polarity and axonal transport to ameliorate seizures in flies.Physiological and pathological functions of mechanosensitive ion channels.Role of the axonal initial segment in psychiatric disorders: function, dysfunction, and interventionSubcellular transcriptome alterations in a cell culture model of spinal muscular atrophy point to widespread defects in axonal growth and presynaptic differentiation.A hierarchy of ankyrin-spectrin complexes clusters sodium channels at nodes of RanvierAcceleration of conduction velocity linked to clustering of nodal components precedes myelination.Preferential targeting of Nav1.6 voltage-gated Na+ Channels to the axon initial segment during developmentDeletion of a kinesin I motor unmasks a mechanism of homeostatic branching control by neurotrophin-3.An Ankyrin-G N-terminal Gate and Protein Kinase CK2 Dually Regulate Binding of Voltage-gated Sodium and KCNQ2/3 Potassium ChannelsFibroblast Growth Factor Homologous Factors: New Roles in Neuronal Health and Disease.Neuronal Ndrg4 Is Essential for Nodes of Ranvier Organization in Zebrafish.Conditional deletion of L1CAM in human neurons impairs both axonal and dendritic arborization and action potential generation.Structural determinants of adhesion by Protocadherin-19 and implications for its role in epilepsy.Ankyrin G Membrane Partners Drive the Establishment and Maintenance of the Axon Initial SegmentThe node of Ranvier in CNS pathologyAdaptor Protein 2 (AP-2) complex is essential for functional axogenesis in hippocampal neurons.The Segregated Expression of Voltage-Gated Potassium and Sodium Channels in Neuronal Membranes: Functional Implications and Regulatory Mechanisms.Melatonin receptors: molecular pharmacology and signaling in the context of system bias.Early and Late Loss of the Cytoskeletal Scaffolding Protein, Ankyrin G Reveals Its Role in Maturation and Maintenance of Nodes of Ranvier in Myelinated Axons.Hippocampal to basal forebrain transport of Mn2+ is impaired by deletion of KLC1, a subunit of the conventional kinesin microtubule-based motor.Sodium Channel Trafficking.Polarity of varicosity initiation in central neuron mechanosensation.CK2 accumulation at the axon initial segment depends on sodium channel Nav1.Ankyrin G Expression Regulates Apical Delivery of the Epithelial Sodium Channel (ENaC).Balanced Activity between Kv3 and Nav Channels Determines Fast-Spiking in Mammalian Central NeuronsMultiple myosin motors interact with sodium/potassium-ATPase alpha 1 subunits
P2860
Q26777940-D126BFA4-938C-484D-88E8-AFBC818AAAF8Q27318598-937A9A9E-9049-42FF-ADCD-17E6DB472DAEQ28118188-AF5DE9BC-ABB2-42FA-ACBD-F68750CA81A4Q30836081-64D7A85A-A067-4823-8859-77B577CFBFCBQ34002617-54870A29-FEE0-4914-9074-B72645BC5097Q34051637-3914C93F-0F47-4D0D-A428-483026EC9561Q34071914-C5813BDF-8FEA-4F0D-8630-AC049C9BA49BQ34363918-12AD4A61-5718-4B0A-93BD-2F66CABBFDE4Q34738298-E9862C2F-A8B6-41D9-BC60-FEC34C336E76Q35031427-2F76DA01-7F8C-4BC9-89B6-D0477EBD89A5Q35432154-837687ED-41A6-471F-8B37-C02D639AA2DBQ35664198-0301FCC2-169A-4217-ACCB-7156F064209EQ35860502-6F625119-42CA-476F-8AB1-9F4230DF4201Q36012592-BB7A1C02-ED1D-4BD5-9BDB-B8A2605B0553Q36208019-621B31A7-9098-42F1-99A1-FBA9606B2D06Q36767451-91E5DB38-D966-4318-A56E-B7187A9F7B15Q37423470-DC2D51CD-1EB7-4DA4-81AB-2017A15EF315Q37607164-8F40FD5D-390F-421D-A194-0BA527F37A53Q38218918-E1A27559-6D15-4BD4-AB57-A5790A34E4A8Q38990045-62343B9C-7E28-48A7-B50E-1B1CBC3921D4Q39292465-4952E4FA-EEEB-4842-B0F7-31E54AE26299Q39434518-CB85BED9-25C7-4351-996E-C3A513CCD36AQ42010808-B0AAA019-5926-4B3F-807F-9B64FC85A023Q42500676-40197F98-FA48-4FDA-86DB-41B37F8F0BD3Q47757936-25937673-DBC0-47A0-956F-E97F036FBB7AQ47825654-19F57312-48D8-4CC0-A1BE-06B9B1C9B8EDQ48612471-3A81DF48-8E07-4B28-93CC-1E48343D6339Q51299194-15FD114D-F047-438A-B14E-114AC0D5C681Q58597510-025E91D8-4BE6-4EEA-9CC1-6A127DF7F60AQ58797511-AE3A83FF-7041-4B94-9A07-8D4E2847D8F4
P2860
Ankyrin-G directly binds to kinesin-1 to transport voltage-gated Na+ channels into axons.
description
2014 nî lūn-bûn
@nan
2014 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Ankyrin-G directly binds to kinesin-1 to transport voltage-gated Na+ channels into axons.
@ast
Ankyrin-G directly binds to kinesin-1 to transport voltage-gated Na+ channels into axons.
@en
type
label
Ankyrin-G directly binds to kinesin-1 to transport voltage-gated Na+ channels into axons.
@ast
Ankyrin-G directly binds to kinesin-1 to transport voltage-gated Na+ channels into axons.
@en
prefLabel
Ankyrin-G directly binds to kinesin-1 to transport voltage-gated Na+ channels into axons.
@ast
Ankyrin-G directly binds to kinesin-1 to transport voltage-gated Na+ channels into axons.
@en
P2093
P2860
P1433
P1476
Ankyrin-G directly binds to kinesin-1 to transport voltage-gated Na+ channels into axons
@en
P2093
Joshua Barry
Keerthi Thirtamara Rajamani
Peter J Mohler
Yuanzheng Gu
P2860
P304
P356
10.1016/J.DEVCEL.2013.11.023
P407
P577
2014-01-09T00:00:00Z