Neuregulin-1 type III determines the ensheathment fate of axons
about
Myocilin mediates myelination in the peripheral nervous system through ErbB2/3 signalingGpr126 is essential for peripheral nerve development and myelination in mammalsMechanisms of neuregulin actionApproaches to Peripheral Nerve Repair: Generations of Biomaterial Conduits Yielding to Replacing Autologous Nerve Grafts in Craniomaxillofacial SurgeryA New Outlook on Mental Illnesses: Glial Involvement Beyond the GlueA neuronal function of the tumor suppressor protein merlinSocial Experience-Dependent Myelination: An Implication for Psychiatric DisordersPromoting myelin repair and return of function in multiple sclerosisNeuregulin 1 Type II-ErbB Signaling Promotes Cell Divisions Generating Neurons from Neural Progenitor Cells in the Developing Zebrafish BrainThe polarity protein Scribble regulates myelination and remyelination in the central nervous systemNeuregulin 1 improves cognitive deficits and neuropathology in an Alzheimer's disease model.Molecular control of the neural crest and peripheral nervous system developmentNew insights on Schwann cell developmentMolecular regulators of nerve conduction - Lessons from inherited neuropathies and rodent genetic modelsRole of Schwann cells in the regeneration of penile and peripheral nervesA G protein-coupled receptor is essential for Schwann cells to initiate myelinationNeuregulin-1 signalling and antipsychotic treatment: potential therapeutic targets in a schizophrenia candidate signalling pathwayIgG-Containing Isoforms of Neuregulin-1 Are Dispensable for Cardiac Trabeculation in ZebrafishGenetic interaction between MTMR2 and FIG4 phospholipid phosphatases involved in Charcot-Marie-Tooth neuropathiesAdam22 is a major neuronal receptor for Lgi4-mediated Schwann cell signalingSh3tc2 deficiency affects neuregulin-1/ErbB signalingThe neuregulin-1 receptor erbB4 controls glutamatergic synapse maturation and plasticity.The actin-severing protein cofilin is downstream of neuregulin signaling and is essential for Schwann cell myelinationNectin-like proteins mediate axon Schwann cell interactions along the internode and are essential for myelinationType III neuregulin-1 is required for normal sensorimotor gating, memory-related behaviors, and corticostriatal circuit componentsThe claw paw mutation reveals a role for Lgi4 in peripheral nerve developmentDeletion of the mouse RegIIIbeta (Reg2) gene disrupts ciliary neurotrophic factor signaling and delays myelination of mouse cranial motor neuronsLgi4 promotes the proliferation and differentiation of glial lineage cells throughout the developing peripheral nervous systemDlg1-PTEN interaction regulates myelin thickness to prevent damaging peripheral nerve overmyelinationHyccin, the molecule mutated in the leukodystrophy hypomyelination and congenital cataract (HCC), is a neuronal proteinPresynaptic type III neuregulin1-ErbB signaling targets {alpha}7 nicotinic acetylcholine receptors to axonsBeta1 integrin activates Rac1 in Schwann cells to generate radial lamellae during axonal sorting and myelinationYAP and TAZ control peripheral myelination and the expression of laminin receptors in Schwann cellsPotential primary roles of glial cells in the mechanisms of psychiatric disorders.Myelin under construction -- teamwork required.Age-related neuronal loss in the cochlea is not delayed by synaptic modulation.Increased expression of receptor phosphotyrosine phosphatase-β/ζ is associated with molecular, cellular, behavioral and cognitive schizophrenia phenotypes.Disrupted activity in the hippocampal-accumbens circuit of type III neuregulin 1 mutant miceNonneuronal cells regulate synapse formation in the vestibular sensory epithelium via erbB-dependent BDNF expression.FAK is required for axonal sorting by Schwann cells.
P2860
Q24313038-186BEC53-5A24-410D-8C5C-28C1A3D7FBAFQ24622630-A91D8FB4-F41A-4A2D-8B7E-5A8F0281ED4CQ24650665-9B039053-3C05-47A4-A713-7476CDA95598Q26739200-28FDAFE0-8D42-4C80-92FD-0EADDFD83155Q26770756-EE4D383C-D6C8-42E7-9407-ED8C75783FA2Q26830181-DA820378-D294-445F-9D15-1433ABE59689Q26830238-ECF05BD6-E726-4C82-9AB8-BF54D39B0717Q26862803-C4EEB29F-A634-4225-8149-ABCA140D74F3Q27306719-AB059476-CCEB-4821-954F-19EF13700292Q27312603-C256E0E8-47B8-4CB0-ABD3-3A31790E8B81Q27316651-630CE2F3-C1C6-4A95-AD80-1092EBB5F55FQ28082003-B4958B1D-824D-4013-A7D3-650A37F8B7C7Q28083538-F2EBA6AA-6CC1-452A-A967-50F15DB0C917Q28084798-C7D79817-2A1B-47BA-8182-3698B79ED02EQ28085669-FA78D649-D263-4D24-B541-52789CF2A457Q28258127-8A2D6B67-A2E5-4872-9BCA-6DA1D34D9847Q28285114-8F251B25-F7A9-4924-B6E8-947458BED214Q28394350-B95A2A94-2C06-444C-90EE-D8E3EA39D1F5Q28477563-A4C3D546-A536-4BD3-9324-3B8F0B117F9CQ28506119-E0E6C36A-C626-4B98-A424-F1A56A209828Q28511191-D130BCCF-7B1F-44E3-8D7A-152A1FFED0E7Q28568657-17D63FFA-9632-455C-AB97-C771DE42AB7DQ28573322-E2ABCF9A-62E1-4446-B329-924E258EE48CQ28579946-CEAAE4FF-2DB7-4D3E-9A3A-C73CF52E8A98Q28585466-75493650-4099-480E-BAFD-4B45D4634B48Q28586685-0682FEC8-B2B1-4AD5-AE23-565A2E65D3F9Q28587307-0D73E7AB-810D-4450-90AF-BF6156978818Q28588175-F0FAC9CB-2C46-45A3-B187-B5CF01FB1EB8Q28591752-678FB6BD-4CCB-4D7E-BFB1-18A425CECAADQ28592315-FD44CD9F-FADC-4579-847C-B873303E88CCQ28593522-59A0AD00-E313-4695-8C6A-7CCD5AE20006Q28756758-38E3F2E8-ED96-460F-88B6-B5293A6244BEQ28828570-9F2FA6B0-69E3-4429-96DB-255055C29C91Q30410688-FF542D34-7996-4C7E-AA7C-45F249F51673Q30439770-08073765-810F-4442-B4C7-50763B0A7A93Q30460360-82F0245B-121D-410F-B2A1-0D69E245434BQ30468818-05F9A1CA-D1BC-4428-AE57-7F77124C9C01Q30474983-04A76BA7-EBC7-4339-849B-60D46883EF7EQ30476197-B0E9BBD0-CDE8-4EF1-8E1E-9314A93946B1Q30480416-02B3332E-D890-4C66-A35E-7CAFDE523B64
P2860
Neuregulin-1 type III determines the ensheathment fate of axons
description
2005 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2005
@ast
im September 2005 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2005/09/01)
@sk
vědecký článek publikovaný v roce 2005
@cs
wetenschappelijk artikel (gepubliceerd op 2005/09/01)
@nl
наукова стаття, опублікована у вересні 2005
@uk
مقالة علمية (نشرت في سبتمبر 2005)
@ar
name
Neuregulin-1 type III determines the ensheathment fate of axons
@ast
Neuregulin-1 type III determines the ensheathment fate of axons
@en
Neuregulin-1 type III determines the ensheathment fate of axons
@nl
type
label
Neuregulin-1 type III determines the ensheathment fate of axons
@ast
Neuregulin-1 type III determines the ensheathment fate of axons
@en
Neuregulin-1 type III determines the ensheathment fate of axons
@nl
prefLabel
Neuregulin-1 type III determines the ensheathment fate of axons
@ast
Neuregulin-1 type III determines the ensheathment fate of axons
@en
Neuregulin-1 type III determines the ensheathment fate of axons
@nl
P2093
P2860
P50
P3181
P1433
P1476
Neuregulin-1 type III determines the ensheathment fate of axons
@en
P2093
Ashley Petrylak
Carla Taveggia
Douglas L Falls
George Zanazzi
Hiroko Yano
Jack Rosenbluth
Jeffrey A Loeb
Peter Shrager
Raymond M Esper
Steven Einheber
P2860
P304
P3181
P356
10.1016/J.NEURON.2005.08.017
P407
P577
2005-09-01T00:00:00Z