PI3K mediated electrotaxis of embryonic and adult neural progenitor cells in the presence of growth factors.
about
Electrical Stimulation Elicits Neural Stem Cells Activation: New Perspectives in CNS RepairCellular and molecular mechanisms of action of transcranial direct current stimulation: evidence from in vitro and in vivo modelsA small physiological electric field mediated responses of extravillous trophoblasts derived from HTR8/SVneo cells: involvement of activation of focal adhesion kinase signalingCalcium Ion Flow Permeates Cells through SOCs to Promote Cathode-Directed GalvanotaxisAdult subependymal neural precursors, but not differentiated cells, undergo rapid cathodal migration in the presence of direct current electric fieldsA role for PP1/NIPP1 in steering migration of human cancer cellsExploration of molecular pathways mediating electric field-directed Schwann cell migration by RNA-seq.Cellular microenvironment modulates the galvanotaxis of brain tumor initiating cellsEvaluation of EGFR and RTK signaling in the electrotaxis of lung adenocarcinoma cells under direct-current electric field stimulationDirected migration of embryonic stem cell-derived neural cells in an applied electric field.Biphasic monopolar electrical stimulation induces rapid and directed galvanotaxis in adult subependymal neural precursorsGuided migration of neural stem cells derived from human embryonic stem cells by an electric fieldDirectional migration and transcriptional analysis of oligodendrocyte precursors subjected to stimulation of electrical signal.Cell therapy for spinal cord injury informed by electromagnetic waves.ARP2/3 complex is required for directional migration of neural stem cell-derived oligodendrocyte precursors in electric fieldsUtilizing custom-designed galvanotaxis chambers to study directional migration of prostate cells.Vesicle biomechanics in a time-varying magnetic field.Specific Intensity Direct Current (DC) Electric Field Improves Neural Stem Cell Migration and Enhances Differentiation towards βIII-Tubulin+ NeuronsPhysiological controls of large-scale patterning in planarian regeneration: a molecular and computational perspective on growth and form.Electrophoresis of cellular membrane components creates the directional cue guiding keratocyte galvanotaxisElectric Signals Regulate the Directional Migration of Oligodendrocyte Progenitor Cells (OPCs) via β1 Integrin.In vitro and in vivo neuronal electrotaxis: a potential mechanism for restoration?Influence of electrotaxis on cell behaviour.The Role of Direct Current Electric Field-Guided Stem Cell Migration in Neural Regeneration.Environmental Factors That Influence Stem Cell Migration: An "Electric Field".Kindlin-1 Regulates Keratinocyte Electrotaxis.Functionalized α-Helical Peptide Hydrogels for Neural Tissue Engineering.Electrical Guidance of Human Stem Cells in the Rat Brain.A galvanotaxis assay for analysis of neural precursor cell migration kinetics in an externally applied direct current electric field.A novel method for inducing nerve growth via modulation of host resting potential: gap junction-mediated and serotonergic signaling mechanisms.Electric field-controlled directed migration of neural progenitor cells in 2D and 3D environments.Therapeutic Application of Electric Fields in the Injured Nervous System.Electrotaxis of cardiac progenitor cells, cardiac fibroblasts, and induced pluripotent stem cell-derived cardiac progenitor cells requires serum and is directed via PI3'K pathways.Requirement of Pax6 for the integration of guidance cues in cell migration.Potential protective effect of biphasic electrical stimulation against growth factor-deprived apoptosis on olfactory bulb neural progenitor cells through the brain-derived neurotrophic factor-phosphatidylinositol 3'-kinase/Akt pathway.Excitable Signal Transduction Networks in Directed Cell Migration.Transspinal direct current stimulation modulates migration and proliferation of adult newly born spinal cells in mice.Growth and positioning of adipose-derived stem cells in microfluidic devices.Effects of electric fields on human mesenchymal stem cell behaviour and morphology using a novel multichannel device.Potential Application of Electrical Stimulation in Stem Cell-Based Treatment against Hearing Loss.
P2860
Q26779694-F4568239-ABA4-478A-B23D-678E514920A6Q26851192-C51AECD2-0ABE-436E-B363-B83DB2CD32A3Q27314643-2DAE1069-C732-43F4-9964-D720ED32B5E2Q27314912-58463DE6-A1E2-46B8-8378-6BB583C15766Q27323171-B40103E4-AB8A-4FDC-ADD0-A4929E36D961Q27334105-FF1068EF-0EF3-4C3F-B7C6-AFFA8D664420Q27334371-446647CD-B2E5-4723-82E6-FFF08DD66F46Q27346530-B21363A3-E126-4BC8-98FE-069BF3344AF1Q28535226-B8D1C615-7F05-4BF3-BA98-4D6817965EFEQ30601819-59EF451E-832C-45BD-BB91-FACB064531D2Q30645221-E3F22768-80DF-4F31-B9E2-83FD55B0C2C8Q30651121-DA421EFB-83FF-41C5-9C61-12DC35B4B1F4Q30668977-7323CACD-18F0-4BAF-8DEE-335D4F849F14Q33363830-B2A02326-C3F0-4939-ABBF-2424786D2248Q35504124-B63C209E-ADB5-4ACD-BDFF-DCEC4ECD445EQ35535680-C2EDA0E7-CC13-4F2E-AEBE-4854F86130E2Q35554775-CA1E7212-C415-4855-BFA5-E5DDB72F28C6Q35661910-28EBBE9E-8E30-4CF1-888C-BF77C726121BQ36974686-BEC6CA39-EFCC-41A3-939E-84C4098C93BDQ37033286-A0C249C2-11E7-47AF-A80C-3EA7A42E4CFFQ37465768-176EE5B5-7953-46E3-A535-E8B2899E530BQ38163472-7C954F8C-DDD9-4A5F-A4B4-14A25820CDE0Q38233518-C01609F7-76B2-49C5-ADE1-0DD6F032A067Q38815843-DA2A17DB-07E6-4851-98B0-FF0FEFA3FA48Q39355479-C623820C-21A0-4815-8297-399376D159CEQ39592318-11D256FD-770E-4BD8-98FE-523A90DE9B54Q40662666-8AAD2DE0-47A3-4B55-AA0E-5162C6C28983Q41019243-EC0930F8-E160-42A4-8D21-625F0E6E3C81Q41460330-73351DD8-E549-49F0-9DCE-D9650912E84AQ41756051-36C6ABCE-7D7B-465D-95BD-F2B63F99D282Q41879508-C4D6879A-0984-45CA-A1E6-9DF994B020E1Q42465712-4AE28333-4950-43EB-A92E-3C82A7799210Q44305049-AF29ACEA-8CC4-4AB5-BC2B-64DFC19FF84FQ45327915-D8DAB690-FFD9-4074-80FA-FC30E53FDD96Q47718897-47BF198A-CDD8-48AB-8463-47E4D84837D7Q47813317-AE43FD7A-F210-4708-A5CB-5CC653FC72E1Q48401636-BE19CA74-2712-4FF7-9D8B-7F2C73836E19Q51536815-EC428FE0-305D-4CB6-BC88-DFADA78CF92EQ53008584-99ED6F0F-5D56-4B4D-9518-E3BFDC814F1CQ55115942-B99BF049-4EF2-4F5B-87FE-EE707C1FEA5F
P2860
PI3K mediated electrotaxis of embryonic and adult neural progenitor cells in the presence of growth factors.
description
2010 nî lūn-bûn
@nan
2010 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
name
PI3K mediated electrotaxis of ...... he presence of growth factors.
@ast
PI3K mediated electrotaxis of ...... he presence of growth factors.
@en
type
label
PI3K mediated electrotaxis of ...... he presence of growth factors.
@ast
PI3K mediated electrotaxis of ...... he presence of growth factors.
@en
prefLabel
PI3K mediated electrotaxis of ...... he presence of growth factors.
@ast
PI3K mediated electrotaxis of ...... he presence of growth factors.
@en
P2093
P2860
P1476
PI3K mediated electrotaxis of ...... he presence of growth factors.
@en
P2093
Fred H Gage
Miguel Arocena
Xiaoting Meng
P2860
P304
P356
10.1016/J.EXPNEUROL.2010.11.002
P407
P577
2010-11-16T00:00:00Z