Assembly of a new growth cone after axotomy: the precursor to axon regeneration.
about
Regulation of Microtubule Dynamics in Axon Regeneration: Insights from C. elegansLaser Nano-Neurosurgery from Gentle Manipulation to Nano-Incision of Neuronal Cells and Scaffolds: An Advanced Neurotechnology ToolInhibition of kinesin-5 improves regeneration of injured axons by a novel microtubule-based mechanismHDAC signaling in neuronal development and axon regenerationMicrotubule deacetylation sets the stage for successful axon regenerationThe DLK signalling pathway--a double-edged sword in neural development and regenerationAxon Regeneration Is Regulated by Ets-C/EBP Transcription Complexes Generated by Activation of the cAMP/Ca2+ Signaling PathwaysAxonal regeneration. Systemic administration of epothilone B promotes axon regeneration after spinal cord injuryMitochondrial fission is an acute and adaptive response in injured motor neuronsThe intricate relationship between microtubules and their associated motor proteins during axon growth and maintenance.High-resolution live imaging reveals axon-glia interactions during peripheral nerve injury and repair in zebrafish.Facilitation of axon regeneration by enhancing mitochondrial transport and rescuing energy deficitsAutophagy induction stabilizes microtubules and promotes axon regeneration after spinal cord injury.Optogenetic control of organelle transport and positioningNeurite outgrowth is driven by actin polymerization even in the presence of actin polymerization inhibitors.Periodic actin structures in neuronal axons are required to maintain microtubulesExtrinsic Repair of Injured Dendrites as a Paradigm for Regeneration by Fusion in Caenorhabditis elegans.Neuron-specific expression of p48 Ebp1 during murine brain development and its contribution to CNS axon regeneration.Syndecan promotes axon regeneration by stabilizing growth cone migration.The microtubule minus-end-binding protein patronin/PTRN-1 is required for axon regeneration in C. elegansAn in vitro assay to study induction of the regenerative state in sensory neurons.Diffuse axonal injury in brain trauma: insights from alterations in neurofilaments.Cell signaling experiments driven by optical manipulationTargeting axonal protein synthesis in neuroregeneration and degeneration.CaMKK-CaMK1a, a new post-traumatic signalling pathway induced in mouse somatosensory neuronsAn ex vivo laser-induced spinal cord injury model to assess mechanisms of axonal degeneration in real-time.MAP kinase cascades regulating axon regeneration in C. elegansRat embryonic hippocampus and induced pluripotent stem cell derived cultured neurons recover from laser-induced subaxotomy.Tubulin-tyrosine Ligase (TTL)-mediated Increase in Tyrosinated α-Tubulin in Injured Axons Is Required for Retrograde Injury Signaling and Axon RegenerationThe Genetics of Axon Guidance and Axon Regeneration in Caenorhabditis elegansActivating Injury-Responsive Genes with Hypoxia Enhances Axon Regeneration through Neuronal HIF-1α.Kinesin-13 and tubulin posttranslational modifications regulate microtubule growth in axon regenerationMild and repetitive very mild axonal stretch injury triggers cystoskeletal mislocalization and growth cone collapse.Rapid Mechanically Controlled Rewiring of Neuronal Circuits.The reactions and role of NG2 glia in spinal cord injury.Signaling Over Distances.Molecular and Cellular Mechanisms of Axonal Regeneration After Spinal Cord Injury.Promoting axon regeneration in the adult CNS by modulation of the melanopsin/GPCR signaling.Spatial mismatch between the Na+ flux and spike initiation in axon initial segment.DLK initiates a transcriptional program that couples apoptotic and regenerative responses to axonal injury.
P2860
Q26746785-0C1258C7-03CC-40AD-B212-366E3671E09BQ26751205-7C043D35-982E-481E-A6E9-32B22CC3F7DCQ26801125-FEA68D14-6705-40AB-AB78-E3AFC5A8AA36Q27013969-13F3647B-A368-4AB0-BF98-E8751AFC6D19Q27014695-58C45F0B-2875-4881-8431-A622898377FDQ27022343-4581A2C4-783C-4B2E-A0C9-A0853816E6D2Q27310148-95D193B2-2895-4E1A-B778-A69BEA259CC0Q27331607-057BB91E-77ED-4837-9CBF-94005112E01BQ27335694-341B6013-87DB-4055-9E64-50175BEB1EFAQ30558304-192DA54D-7545-4E9C-98ED-89586ADF0F6BQ30653382-64581736-683B-494F-B1D3-BDA4C330CD38Q30780429-51071EBE-43AC-4C5E-91FF-DF9EB2796562Q30819691-E624DD4F-6541-478E-904A-0D0AF68A0DDBQ30822029-8C5F6F1D-1736-4F1D-AFF0-7250AD317FCFQ30832445-F9BEC4F8-957A-49BA-9689-439F1E001CF3Q30834818-3FCAE81E-F077-49E9-B69E-7E365134A3DDQ30847876-C618151F-967F-4A4E-9215-BE23BE2B325EQ33649236-6375BA71-00C6-44BC-99B5-CD53628EC6ECQ34022245-E99C9691-8764-445B-821C-593DA1D8DBDFQ34605908-4F86C6B7-A2BB-4D83-B626-D640B301CC45Q34702291-24F3DFED-B2BA-4FF8-9DFF-EE6D363A3D4BQ34722271-2AD849AA-E2AC-46F5-A5B7-E8E0FDCB0D5AQ34734656-0DD455BF-7098-44BA-AB01-1B3F160D02D8Q35064944-72ED2874-0F6A-4ABA-A5B5-5D868CAF6009Q35170715-11071447-4F71-47A9-A8E6-83F8B98D1DB0Q35503370-2EB75E7E-0EFE-4F37-B395-BF0D5CE1363DQ35539233-FFED6680-0A1D-4D15-90D1-4E122B6FF701Q35686812-DBC2B7CB-9587-4C4C-9D0F-F7FD6342DD37Q35860868-9C55F1CA-188F-4F5E-9A0F-CA2132BBEBA1Q36257348-5C91EB7A-FCE5-4895-A360-D8B36EF490D2Q36304932-FB4755A4-8315-471B-88B6-D0B75B5B9952Q36335711-4DAC5A5E-2CED-4E0D-930A-6747E41F98EEQ36363064-F2617829-55C2-4960-840D-27CEECA40855Q36480290-11D3CAA1-96F3-43F8-8B19-BCDBCC41498EQ36520580-95B8C78A-9A3F-49A5-A236-F34C2ED2C6BDQ36539447-C93D2901-9A40-485A-AB1D-36665E7F0F2CQ36539451-42B13B56-F986-4E36-86F9-A004EBA69E10Q36607377-C6847593-24D4-4AAD-8A93-92FB632AD705Q36673116-25DD5796-409D-4044-934A-7E63D0C0D16BQ36673264-290AD676-AD1B-4A52-827C-3BCAEB58C2EB
P2860
Assembly of a new growth cone after axotomy: the precursor to axon regeneration.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Assembly of a new growth cone after axotomy: the precursor to axon regeneration.
@en
Assembly of a new growth cone after axotomy: the precursor to axon regeneration.
@nl
type
label
Assembly of a new growth cone after axotomy: the precursor to axon regeneration.
@en
Assembly of a new growth cone after axotomy: the precursor to axon regeneration.
@nl
prefLabel
Assembly of a new growth cone after axotomy: the precursor to axon regeneration.
@en
Assembly of a new growth cone after axotomy: the precursor to axon regeneration.
@nl
P2093
P2860
P356
P1476
Assembly of a new growth cone after axotomy: the precursor to axon regeneration.
@en
P2093
Frank Bradke
James W Fawcett
Micha E Spira
P2860
P2888
P304
P356
10.1038/NRN3176
P407
P577
2012-02-15T00:00:00Z
P5875
P6179
1042229414