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PTEN inhibition and axon regeneration and neural repairThe neurology of mTORReport on the National Eye Institute Audacious Goals Initiative: Regenerating the Optic NerveEffects of PTEN and Nogo Codeletion on Corticospinal Axon Sprouting and Regeneration in Mice.Regulation of axon regeneration by the RNA repair and splicing pathway.Tubulin-tyrosine Ligase (TTL)-mediated Increase in Tyrosinated α-Tubulin in Injured Axons Is Required for Retrograde Injury Signaling and Axon RegenerationExpressing Constitutively Active Rheb in Adult Neurons after a Complete Spinal Cord Injury Enhances Axonal Regeneration beyond a Chondroitinase-Treated Glial Scar.MicroRNA-26a supports mammalian axon regeneration in vivo by suppressing GSK3β expressionActivating Injury-Responsive Genes with Hypoxia Enhances Axon Regeneration through Neuronal HIF-1α.Tyrosine-mutated AAV2-mediated shRNA silencing of PTEN promotes axon regeneration of adult optic nervePten and EphB4 regulate the establishment of perisomatic inhibition in mouse visual cortex.Evidence for an Age-Dependent Decline in Axon Regeneration in the Adult Mammalian Central Nervous System.The back and forth of axonal injury and repair after stroke.Boosting CNS axon regeneration by harnessing antagonistic effects of GSK3 activity.Molecular, cellular and functional events in axonal sprouting after stroke.Models of axon regeneration in Drosophila.The age factor in axonal repair after spinal cord injury: A focus on neuron-intrinsic mechanisms.ApoE2, ApoE3, and ApoE4 Differentially Stimulate APP Transcription and Aβ Secretion.Roles of palmitoylation in axon growth, degeneration and regeneration.Transcriptional regulation of APP by apoE: To boldly go where no isoform has gone before: ApoE, APP transcription and AD: Hypothesised mechanisms and existing knowledge gaps.Activation of 5-HT7 receptor stimulates neurite elongation through mTOR, Cdc42 and actin filaments dynamics.Restoration of Visual Function by Enhancing Conduction in Regenerated AxonsBoosting Central Nervous System Axon Regeneration by Circumventing Limitations of Natural Cytokine Signaling.Contrasting developmental axon regrowth and neurite sprouting of Drosophila mushroom body neurons reveals shared and unique molecular mechanisms.Maresin 1 Promotes Inflammatory Resolution, Neuroprotection, and Functional Neurological Recovery After Spinal Cord Injury.In Vivo Imaging of CNS Injury and Disease.The Mammalian-Specific Protein Armcx1 Regulates Mitochondrial Transport during Axon Regeneration.A BRCA1-Dependent DNA Damage Response in the Regenerating Adult Peripheral Nerve Milieu.Hepatocyte growth factor promotes long-term survival and axonal regeneration of retinal ganglion cells after optic nerve injury: comparison with CNTF and BDNF.Cell-type specific expression of constitutively-active Rheb promotes regeneration of bulbospinal respiratory axons following cervical SCI.PTEN knockdown with the Y444F mutant AAV2 vector promotes axonal regeneration in the adult optic nerve.Intrinsic mechanisms of neuronal axon regeneration.Axonal regeneration in zebrafish spinal cord.The protocadherin alpha cluster is required for axon extension and myelination in the developing central nervous system.
P2860
Q26775781-8935CA49-B58A-4065-BD42-FD51C415CF1AQ26824286-A9F2678C-4BC5-4723-86F9-EF38C972C5D9Q28073773-100EB15E-87BC-4130-9651-37446B81B75EQ35515573-EC38E6DD-6D47-4882-97D1-08AF14AFFA01Q35655713-74E93325-9759-4A66-A87D-87C783AD6C04Q35860868-C27C59DD-7507-4A4E-B914-12E0263AC4EEQ35916422-029E395B-8B32-467E-B36C-1A91EBB9A273Q36022340-D4616F5C-1CC7-4A75-968B-C3C999202E31Q36304932-9E075C99-F86D-4A2B-BD5F-539173910FFCQ36316471-9A137512-BBCD-4B83-B886-BEB6BE3F1E5EQ37257205-BCECB1BE-E7D5-4A6A-B8C4-C0D5DE41096AQ37309719-9A7362AB-048A-48A4-AC3C-025529C54A18Q38264488-AB1FBC2F-8E83-4B63-B567-F2A15E14FA83Q38718341-719AE6A0-C4CB-47C7-A3B9-6F19303E56A9Q38732238-D1C96D52-F993-48A7-AEF0-CE50A6970BD7Q38782131-EE11F2DC-3CCD-4916-90FF-278ABB0BD7ECQ39000464-39B51B9C-579A-4238-89DA-EBB05B2F3434Q39006798-DE741222-0351-400E-9616-471DC0C63497Q39114931-9ED1973A-2B1B-4085-BCC5-AA97744A9B65Q39450295-6D764575-9CC5-4A07-802D-8736BD051E19Q41150716-32398A40-E411-4049-AA61-45E0D8CBE92CQ41405823-A227E76D-4050-4754-B14E-AE7E33982A95Q41653963-290139E5-2996-4985-B9FC-166935A02C86Q42366775-94F50069-E7A6-4F5A-8035-8C6C66472098Q45983433-AD8C1ACD-B22C-44DC-A936-E1B3F5C393CDQ46495043-1E4E9E46-7316-4F46-B18E-A86BF72E9B2DQ47119694-B901B868-6806-4EEF-B41B-9B6E45505D07Q47702504-752B99FD-3F0C-40EF-BD0D-33B986D35265Q48679593-38B40612-225C-45FD-8F20-2CC5527F6828Q49905283-C608DF45-9FE4-45D7-9E18-6FC55E4C86A0Q49939627-BE8CACB8-1F6C-49E9-A2B3-60D9656F513CQ52581957-F4E42823-6A13-4F66-8F3D-36C89B03576AQ55026890-34837685-8614-4969-A667-5A038BD79FC1Q55082367-C5F8C31E-9FA3-4C63-AF83-0D544C2C4DA2
P2860
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
Signaling regulations of neuronal regenerative ability.
@en
type
label
Signaling regulations of neuronal regenerative ability.
@en
prefLabel
Signaling regulations of neuronal regenerative ability.
@en
P2860
P1476
Signaling regulations of neuronal regenerative ability.
@en
P2093
P2860
P304
P356
10.1016/J.CONB.2014.03.007
P577
2014-04-12T00:00:00Z