about
Using Stem Cells to Grow Artificial Tissue for Peripheral Nerve RepairYAP and TAZ control peripheral myelination and the expression of laminin receptors in Schwann cellsThe "neuro" of neuroblastoma: Neuroblastoma as a neurodevelopmental disorder.Schwann cell autophagy, myelinophagy, initiates myelin clearance from injured nerves.Transcriptome Analysis of Chemically-Induced Sensory Neuron Ablation in Zebrafish.Temporal Analysis of Gene Expression in the Murine Schwann Cell Lineage and the Acutely Injured Postnatal Nerve.Boundary Caps Give Rise to Neurogenic Stem Cells and Terminal Glia in the Skin.Blocking Smad2 signalling with loganin attenuates SW10 cell cycle arrest induced by TNF-α.Glia in mammalian development and disease.The scales and tales of myelination: using zebrafish and mouse to study myelinating gliaThe Caenorhabditis elegans Excretory System: A Model for Tubulogenesis, Cell Fate Specification, and PlasticityZeb2 recruits HDAC-NuRD to inhibit Notch and controls Schwann cell differentiation and remyelinationEvidence for a Notch1-mediated transition during olfactory ensheathing cell development.A RET-ER81-NRG1 Signaling Pathway Drives the Development of Pacinian Corpuscles.YAP/TAZ initiate and maintain Schwann cell myelination.Active Nerve Regeneration with Failed Target Reinnervation Drives Persistent Neuropathic PainSchwann cell myelinationNerves Control Redox Levels in Mature Tissues Through Schwann Cells and Hedgehog Signaling.The Role of 3-O-Sulfogalactosylceramide, Sulfatide, in the Lateral Organization of Myelin Membrane.Devil Facial Tumor Disease.Taking a bite out of spinal cord injury: do dental stem cells have the teeth for it?Myelinating cocultures of rodent stem cell line-derived neurons and immortalized Schwann cells.Regeneration of pancreatic insulin-producing cells by in situ adaptive cell conversion.The repair Schwann cell and its function in regenerating nerves.Platelet-rich plasma, a source of autologous growth factors and biomimetic scaffold for peripheral nerve regeneration.Adhesion G-protein coupled receptors and extracellular matrix proteins: Roles in myelination and glial cell development.Schwann cells: a new player in the tumor microenvironment.Platelet-rich plasma, an adjuvant biological therapy to assist peripheral nerve repair.Molecular Mechanisms Involved in Schwann Cell PlasticityAnimal models for studying motor axon terminal paralysis and recovery.How Schwann cells facilitate cancer progression in nerves.Proteolipid protein modulates preservation of peripheral axons and premature death when myelin protein zero is lacking.CXCL12α/SDF-1 from perisynaptic Schwann cells promotes regeneration of injured motor axon terminals.After Nerve Injury, Lineage Tracing Shows That Myelin and Remak Schwann Cells Elongate Extensively and Branch to Form Repair Schwann Cells, Which Shorten Radically on RemyelinationThe Wound Microenvironment Reprograms Schwann Cells to Invasive Mesenchymal-like Cells to Drive Peripheral Nerve Regeneration.Heat shock protein that facilitates myelination of regenerating axons.ATP Released by Injured Neurons Activates Schwann Cells.Evidence that LDL receptor-related protein 1 acts as an early injury detection receptor and activates c-Jun in Schwann cells.An animal model of Miller Fisher syndrome: Mitochondrial hydrogen peroxide is produced by the autoimmune attack of nerve terminals and activates Schwann cells.Graded Elevation of c-Jun in Schwann Cells In Vivo: Gene Dosage Determines Effects on Development, Remyelination, Tumorigenesis, and Hypomyelination.
P2860
Q26747035-4A06453D-0DDA-47CF-BEEA-D534779AD2B2Q28828570-D2058674-970E-47D2-AC31-0B7F7FFB8E8EQ33643120-DD2ECD65-F408-49F5-BA9D-549B6939880FQ35826034-EDD3DC01-D712-4986-8C2E-419EBB82CB25Q35919647-EF1868E6-A196-4A6C-8478-B53A40818285Q35983889-320A0744-C23C-4680-8B05-579A0F2402DFQ36201582-6AFB2A48-E132-4FE0-AB11-FEDF50DA9593Q36364332-36062BF2-ED0C-4899-924B-3A8D93646719Q36462699-29C568B4-6653-4C30-A886-4212CCBD113EQ36818506-FE078989-3BEE-4E58-8D5F-6EAB2F42BBC8Q36875639-582382AB-053B-40BC-934E-386219985400Q37127454-8A433BCC-C892-4223-80A5-44791706E17AQ37153794-6FA56F7A-4F97-4761-8381-112719924364Q37310321-D0BA24AA-0D4A-4040-B623-0A993B344F09Q37619435-EB5DC234-9AC2-4DC4-ACF6-AE060BBDEBF9Q37622721-C7D1884B-FF55-4443-B014-84F1AC5C09A0Q38520894-8AA67BBB-D3C2-4E88-9515-E48CE11A2C40Q38581038-B141E476-F23F-48CE-860C-1B653480EBF1Q38626495-69145CFE-3E91-444B-AB0E-C777A4829DC9Q38666369-187CB7AE-F587-4DA3-86DC-B2B6BFBBA353Q38697049-6D94794F-D52F-4762-9199-ECDCA836E242Q38697364-10C487EF-FC5C-400B-8D5E-4523315E5714Q38856378-0ABCDF11-BB74-4EBB-803D-A75938D69760Q38909784-1591D455-0B66-477C-8571-F70C66BC4A1DQ39009135-CB3C8587-3385-4A9C-9D11-2682AA3D021FQ39012388-60819534-3C8A-4BF5-9A67-E86575C705D2Q39019260-6A9CE08A-B133-4B07-92AC-B4D59B4EE735Q39157166-58337D28-C05F-4149-B2DA-F2D0F0611ED7Q39162513-EA774384-A547-449B-BE27-0874B4B000DFQ39192234-60A49409-84AF-4AED-A4A9-81FBAF77E1D2Q39384853-05918FCF-2442-4A39-A368-A12B1291C5D7Q40515513-D9B5B096-5DD2-4D1C-8FE9-B55F847FC341Q41198302-64600D51-AF58-41F0-B5C8-794AB56A945DQ41686022-E346599D-C930-415A-A28F-B8B2F0B711FAQ42282398-4FC69ECE-FF41-4CB8-8D63-53BEC8AB86E5Q42318120-CA84495B-9CDD-4C91-888E-C34FAD7F0F93Q42770496-EC2156CC-6E56-48A6-8EE8-F5AD07A47B05Q46026443-5D213B1F-BA6A-4F96-830F-DE66CE1043A5Q46476952-5590BB8F-ADD8-4695-84DF-9D4EE66E8F06Q47120909-64C5144C-AF6F-4485-9A1E-990251AF8C9A
P2860
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
2015年论文
@zh
2015年论文
@zh-cn
name
Schwann Cells: Development and Role in Nerve Repair
@en
type
label
Schwann Cells: Development and Role in Nerve Repair
@en
prefLabel
Schwann Cells: Development and Role in Nerve Repair
@en
P2093
P2860
P1476
Schwann Cells: Development and Role in Nerve Repair
@en
P2093
Alison C Lloyd
Kristján R Jessen
Rhona Mirsky
P2860
P304
P356
10.1101/CSHPERSPECT.A020487
P577
2015-05-08T00:00:00Z