Topographic guidance labels in a sensory projection to the forebrain
about
Eph and ephrin signaling in the formation of topographic mapsMechanisms underlying development of visual maps and receptive fieldsFunctional requirement for class I MHC in CNS development and plasticityRoles of Eph receptors and ephrins in segmental patterningA stochastic model for retinocollicular map developmentRearrangement of retinogeniculate projection patterns after eye-specific segregation in miceTen_m3 regulates eye-specific patterning in the mammalian visual pathway and is required for binocular visionGraded expression of EphA3 in the retina and ephrin-A2 in the superior colliculus during initial development of coarse topography in the wallaby retinocollicular projectionMultiple signaling interactions of Abl and Arg kinases with the EphB2 receptorEPHA2 is associated with age-related cortical cataract in mice and humansNormal eye-specific patterning of retinal inputs to murine subcortical visual nuclei in the absence of brain-derived neurotrophic factorMistargeting hippocampal axons by expression of a truncated Eph receptorEphrin-A5 induces collapse of growth cones by activating Rho and Rho kinaseEphrin-As and neural activity are required for eye-specific patterning during retinogeniculate mappingA distal enhancer and an ultraconserved exon are derived from a novel retroposonSelective disruption of one Cartesian axis of cortical maps and receptive fields by deficiency in ephrin-As and structured activity.Ephrin-as guide the formation of functional maps in the visual cortex.A multi-component model of the developing retinocollicular pathway incorporating axonal and synaptic growth.Retinal input instructs alignment of visual topographic maps.Retinal waves: implications for synaptic learning rules during development.A burst-based "Hebbian" learning rule at retinogeniculate synapses links retinal waves to activity-dependent refinement.Burst-time-dependent plasticity robustly guides ON/OFF segregation in the lateral geniculate nucleus.A mutant with bilateral whisker to barrel inputs unveils somatosensory mapping rules in the cerebral cortex.EphrinA5 protein distribution in the developing mouse brain.Electrical activity and gene expression in the development of vertebrate neural circuits.Sperry versus Hebb: topographic mapping in Isl2/EphA3 mutant miceA relative signalling model for the formation of a topographic neural map.Eph receptors and ephrin ligands: embryogenesis to tumorigenesis.Modeling activity and target-dependent developmental cell death of mouse retinal ganglion cells ex vivo.Cadherin-6 mediates axon-target matching in a non-image-forming visual circuit.Development of the retina and optic pathway.Ephrin-As mediate targeting of eye-specific projections to the lateral geniculate nucleus.Connecting the retina to the brain.Association of EPHA2 polymorphisms and age-related cortical cataract in a Han Chinese populationConnecting the eye to the brain: the molecular basis of ganglion cell axon guidance.A dimerized HMX1 inhibits EPHA6/epha4b in mouse and zebrafish retinasCompetition is a driving force in topographic mappingCell surface nucleolin on developing muscle is a potential ligand for the axonal receptor protein tyrosine phosphatase-sigmaFibroblast growth factor 22 contributes to the development of retinal nerve terminals in the dorsal lateral geniculate nucleus.New model of retinocollicular mapping predicts the mechanisms of axonal competition and explains the role of reverse molecular signaling during development.
P2860
Q24629758-847FE3F0-CE3A-4D24-BF5A-528295129C74Q24658038-590567AC-67D9-4952-9E77-C5638F52099BQ24669537-A9228BE8-D3F6-4210-822B-08DE3BE1910FQ24676243-B109CDC3-7CE0-4C31-974C-24B0B9A9BA54Q24795420-62EB40B4-A32B-4258-A1C8-38FEA281B102Q27325453-0F63F177-F370-4510-A4EA-6886DD83BB83Q27334204-395492D2-AD70-4BCC-AAE8-92BB62B33058Q28140964-4BD83142-ACC6-4A21-9259-C8198F1CB894Q28211704-567E1D60-C80D-4995-BDEE-9BD06B53046BQ28475827-B96F6DF4-FE95-4082-B7FD-3050AC24670AQ28506449-A8D544B9-99B1-41AF-9308-CFD5FE026B2AQ28591071-B919F8EE-2CD7-4A68-A0C9-0CCD83A1FBDAQ28647593-1C5D1464-4C76-44D2-9870-DC1FC7C0BF3AQ28768597-862666CE-2471-4CD3-BC7C-E2AF05A4C8C5Q29616555-9AA3396A-5F09-47CC-9E7C-1B8B6201B9DEQ30482219-9D626DCE-95AB-441A-876F-E4B6473ED482Q30482284-E66F43C2-787C-49B5-8213-6B79AE08934FQ30491857-9428CEDD-7EC1-4AD2-B476-EE643813664CQ30492947-0409E8EB-0340-471B-9368-74CD18CC70DAQ33183806-D75E2B2A-F9D2-4F09-A29F-DC33D4D4E646Q33277100-D032E92A-FE54-4C5C-BC8B-9F9CF4062271Q33521298-12FB4022-1621-49A5-A7D3-7C7ACFB1F016Q33602979-397835E0-3FC1-4717-BA58-64DC2242C02FQ33672305-AD614737-DDD4-43E0-826B-0CCDCC205261Q33742550-465540E6-B63A-44BC-B5D7-644480E4049CQ33781681-53CCBDEC-E5D8-4345-8AED-625EC3923DBBQ33982342-EEC953B8-A07E-4C97-AD6A-3A8ECB48A751Q34103639-B9338436-0F37-407D-B374-81A8F7BD26F4Q34170541-F2338721-B8D1-481A-B2C9-0E47D1EC2BAFQ34210879-E116C64B-AA03-431B-A6C0-102532842586Q34284186-4F3AB60F-8E07-49EE-8DB5-50F2A85219F8Q34434701-CAC383A8-41A9-4196-82CC-F125805B3510Q34453720-537AF198-D429-4422-9032-4636EB535B25Q35047331-6D8F02E4-4DBB-4BC5-82BD-4992139EB6F3Q35114630-1B12FB23-8403-42C2-8477-1FF58E293825Q35191052-6D1525B2-40C5-436F-8708-706DAADEE772Q35571306-0B8E6932-3C55-4DAB-996E-CA1AA7CA8331Q35785556-D4BA7BEA-E78A-453D-9600-74CF992F3CBBQ35835662-CB1EDCE3-B843-4CF1-A0AC-8FF1543F8DD9Q36112108-8085FBCB-2C8E-470B-A3CC-958599ACC68F
P2860
Topographic guidance labels in a sensory projection to the forebrain
description
1998 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 1998
@ast
im Dezember 1998 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 1998/12/01)
@sk
vědecký článek publikovaný v roce 1998
@cs
wetenschappelijk artikel (gepubliceerd op 1998/12/01)
@nl
наукова стаття, опублікована в грудні 1998
@uk
مقالة علمية نشرت في ديسمبر 1998 حول موضوع: دماغ
@ar
name
Topographic guidance labels in a sensory projection to the forebrain
@ast
Topographic guidance labels in a sensory projection to the forebrain
@en
Topographic guidance labels in a sensory projection to the forebrain
@nl
type
label
Topographic guidance labels in a sensory projection to the forebrain
@ast
Topographic guidance labels in a sensory projection to the forebrain
@en
Topographic guidance labels in a sensory projection to the forebrain
@nl
prefLabel
Topographic guidance labels in a sensory projection to the forebrain
@ast
Topographic guidance labels in a sensory projection to the forebrain
@en
Topographic guidance labels in a sensory projection to the forebrain
@nl
P2093
P921
P1433
P1476
Topographic guidance labels in a sensory projection to the forebrain
@en
P2093
D. A. Feldheim
J. G. Flanagan
M. Barbacid
M. J. Hansen
P. Vanderhaeghen
P304
P356
10.1016/S0896-6273(00)80650-9
P407
P577
1998-12-01T00:00:00Z