Three mechanisms assemble central nervous system nodes of Ranvier.
about
Mechanisms of sodium channel clustering and its influence on axonal impulse conductionNeuro-glial interactions at the nodes of Ranvier: implication in health and diseasesNode of Ranvier disruption as a cause of neurological diseasesMyelin Loss and Axonal Ion Channel Adaptations Associated with Gray Matter Neuronal HyperexcitabilityCaspr and caspr2 are required for both radial and longitudinal organization of myelinated axons.Subcellular localization of K+ channels in mammalian brain neurons: remarkable precision in the midst of extraordinary complexity.Postnatal Loss of Neuronal and Glial Neurofascins Differentially Affects Node of Ranvier Maintenance and Myelinated Axon Function.Axonal Membranes and Their Domains: Assembly and Function of the Axon Initial Segment and Node of Ranvier.Glial ankyrins facilitate paranodal axoglial junction assemblyA hierarchy of ankyrin-spectrin complexes clusters sodium channels at nodes of RanvierCell-specific and developmental expression of lectican-cleaving proteases in mouse hippocampus and neocortex.Acceleration of conduction velocity linked to clustering of nodal components precedes myelination.Giant ankyrin-G: a critical innovation in vertebrate evolution of fast and integrated neuronal signalingPerlecan is recruited by dystroglycan to nodes of Ranvier and binds the clustering molecule gliomedin.Molecular disorganization of axons adjacent to human lacunar infarctsSialylation regulates brain structure and function.Ultrastructural anatomy of nodes of Ranvier in the peripheral nervous system as revealed by STED microscopy.Glial Contributions to Neural Function and DiseaseReassembly of Excitable Domains after CNS Axon Regeneration.Axonal spectrins: all-purpose fencesMembrane domain organization of myelinated axons requires βII spectrinContactin-1 regulates myelination and nodal/paranodal domain organization in the central nervous system.Long-term maintenance of Na+ channels at nodes of Ranvier depends on glial contact mediated by gliomedin and NrCAM.The node of Ranvier in CNS pathologyA unified cell biological perspective on axon-myelin injury.Autoimmune antigenic targets at the node of Ranvier in demyelinating disorders.Subcellular patterning: axonal domains with specialized structure and function.The Nodes of Ranvier: Molecular Assembly and Maintenance.Activity-dependent regulation of excitable axonal domains.Cytoskeletal control of axon domain assembly and function.Axonal domain disorganization in Caspr1 and Caspr2 mutant myelinated axons affects neuromuscular junction integrity, leading to muscle atrophy.Chronic peripheral nerve compression disrupts paranodal axoglial junctions.Functional and structural properties of ion channels at the nerve terminal depends on compact myelin.Cell Surface Protein-protein Binding on COS-7 Cells.Anosmin-1 over-expression regulates oligodendrocyte precursor cell proliferation, migration and myelin sheath thickness.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.The paranodal cytoskeleton clusters Na+ channels at nodes of Ranvier.Matthew Rasband: Zen and the art of axonal maintenance.Axon initial segment-associated microglia.Regulation and dysregulation of axon infrastructure by myelinating glia.
P2860
Q26777940-3A1DAEB4-6CBF-42D8-A7DE-38C116C37728Q26825224-95A5FBC9-4981-44C9-B435-352A25ED9D6FQ27009974-F376322A-C92A-49D7-AF45-7C00F14D931DQ29394451-D9C23DB1-3558-42AB-A1EF-5C8FC00CEED2Q30176395-3A155A05-40D0-4253-9577-EE09234911C7Q30393321-32BAB25E-2ABD-4DB5-897E-C930FFA03EC8Q30837291-F0023609-8C73-477E-BCD0-B65955CD13BAQ33650497-13D756D6-383A-4A7E-939C-954D752DADD9Q34662465-9F76A792-446C-49A7-BF76-81CE91819BBFQ34738298-044CA5E4-CC4C-484F-A752-24402AA6282BQ35007429-32EBE5A2-DC71-464A-B06B-69CC1311DDB3Q35031427-F6ED1CAA-85EC-4225-B894-F7E79B78E284Q35038044-9D876AA4-766A-4F3F-8AED-657072A636AEQ35042867-93AA50DA-411F-4390-A553-FD954FA277D1Q35119429-8AD5B4D9-F5D5-48FA-8330-0055C867B9CAQ35774811-432F9FA2-72B7-4787-B513-54D2D7AB0CFAQ36230823-B3BD0795-0438-4D3E-8524-A6620EF58633Q36539441-47D8B8F0-48F7-4074-B3B7-318796419ED0Q37219073-A7CBC010-1597-42D0-BF98-B394776E926EQ37297826-5AADBB0C-7423-4BB0-A335-8FE2CF4B538BQ37297845-CA9027DB-6476-4468-AFA2-6AE8C72748E8Q37519730-9DE4C788-1A0F-4922-88FE-30B183353C68Q37698145-F8CE5675-197C-47B3-8747-491BB77E6359Q38218918-8C962EED-07E7-4193-BCEE-AE7357F1E326Q38237032-68CB55C9-97ED-472E-97B3-B421CDC4A16AQ38333532-0CBA65D9-1F82-4DA9-92A3-8B0D534B34A6Q38364754-DE436C51-3374-4311-8384-E2BFF78F547CQ38583864-D469CBAB-D63F-4270-BF91-0E390E66CD53Q38606580-46806A1E-C773-46BC-B8CD-0D95DC121136Q38839918-2A0D1FBE-CD74-40F7-AE47-4AEDA6652132Q38859584-C9065FCE-E80C-4475-9633-67402A11D39EQ39554858-CD1C8801-7E11-4922-8995-2EE03B9D63C7Q39774892-4D1A86D0-132B-49DA-990E-B56FA5DFFB9FQ40757392-32477F3E-6A64-45DE-BE02-54163101F3ECQ41463008-DC09AB60-0D47-4B67-B8D9-76674CA272FAQ42010808-71F98360-7957-4951-8F4F-EDFF4F90753AQ42326242-F077412B-3614-4B07-8AF5-5D7B3FBF2F45Q42585975-6340FB9C-9B57-441F-96E7-D27B9DC76960Q43130019-12B6C26E-4141-4F49-AB4E-AA971047A252Q46614637-E73894A8-F93C-4D6E-9CA0-4F15411E5E4D
P2860
Three mechanisms assemble central nervous system nodes of Ranvier.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on May 2013
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Three mechanisms assemble central nervous system nodes of Ranvier.
@en
Three mechanisms assemble central nervous system nodes of Ranvier.
@nl
type
label
Three mechanisms assemble central nervous system nodes of Ranvier.
@en
Three mechanisms assemble central nervous system nodes of Ranvier.
@nl
prefLabel
Three mechanisms assemble central nervous system nodes of Ranvier.
@en
Three mechanisms assemble central nervous system nodes of Ranvier.
@nl
P2093
P2860
P50
P1433
P1476
Three mechanisms assemble central nervous system nodes of Ranvier.
@en
P2093
Constanze I Seidenbecher
Daniel R Zollinger
Dieter R Zimmermann
Keiichiro Susuki
María T Dours-Zimmermann
Toshitaka Oohashi
Yael Eshed-Eisenbach
Yanhong Liu
Yasuhiro Ogawa
P2860
P304
P356
10.1016/J.NEURON.2013.03.005
P407
P577
2013-05-01T00:00:00Z