FGF22 and its close relatives are presynaptic organizing molecules in the mammalian brain.
about
Development of axon-target specificity of ponto-cerebellar afferentsCopy number loss of (src homology 2 domain containing)-transforming protein 2 (SHC2) gene: discordant loss in monozygotic twins and frequent loss in patients with multiple system atrophyNOGO-A induction and localization during chick brain development indicate a role disparate from neurite outgrowth inhibitionA TrkB/EphrinA interaction controls retinal axon branching and synaptogenesisTo build a synapse: signaling pathways in neuromuscular junction assemblyReceptor specificity of the fibroblast growth factor family. The complete mammalian FGF familyUnderstanding Synaptogenesis and Functional Connectome in C. elegans by Imaging TechnologyNeuron-Glia Interactions in Neural Plasticity: Contributions of Neural Extracellular Matrix and Perineuronal NetsCollagen-derived matricryptins promote inhibitory nerve terminal formation in the developing neocortex.Fgfr1 inactivation in the mouse telencephalon results in impaired maturation of interneurons expressing parvalbuminExposure to organophosphates reduces the expression of neurotrophic factors in neonatal rat brain regions: similarities and differences in the effects of chlorpyrifos and diazinon on the fibroblast growth factor superfamilyGene expression changes in the motor cortex mediating motor skill learningWnt regulates axon behavior through changes in microtubule growth directionality: a new role for adenomatous polyposis coli.Lrp4 is a retrograde signal for presynaptic differentiation at neuromuscular synapsesFLRT proteins are endogenous latrophilin ligands and regulate excitatory synapse developmentSignaling across the synapse: a role for Wnt and Dishevelled in presynaptic assembly and neurotransmitter releaseA differential developmental pattern of spinal interneuron apoptosis during synaptogenesis: insights from genetic analyses of the protocadherin-gamma gene clusterActivity-dependent adaptations in inhibitory axons2004: Signaling Breakthroughs of the YearEpidemiological survey of idiopathic scoliosis and sequence alignment analysis of multiple candidate genes.FGF acts as a co-transmitter through adenosine A(2A) receptor to regulate synaptic plasticityProfiling, Bioinformatic, and Functional Data on the Developing Olfactory/GnRH System Reveal Cellular and Molecular Pathways Essential for This Process and Potentially Relevant for the Kallmann Syndrome.Genetics and cell biology of building specific synaptic connectivity.An epigenetic biomarker panel for glioblastoma multiforme personalized medicine through DNA methylation analysis of human embryonic stem cell-like signature.Quantitative assessment of fibroblast growth factor receptor 1 expression in neurons and glia.Global gene expression profiling of somatic motor neuron populations with different vulnerability identify molecules and pathways of degeneration and protectionMutations in Wnt2 alter presynaptic motor neuron morphology and presynaptic protein localization at the Drosophila neuromuscular junctionAcetylcholine negatively regulates development of the neuromuscular junction through distinct cellular mechanisms.Palifermin for the protection and regeneration of epithelial tissues following injury: new findings in basic research and pre-clinical models.Collagen XIX is expressed by interneurons and contributes to the formation of hippocampal synapses.Cbln1 and the δ2 glutamate receptor--an orphan ligand and an orphan receptor find their partners.The aged niche disrupts muscle stem cell quiescence.Fibroblast growth factor 22 is not essential for skin development and repair but plays a role in tumorigenesis.The Fibroblast Growth Factor signaling pathwaySynaptic organizing complexes.Analysis of 10 independent samples provides evidence for association between schizophrenia and a SNP flanking fibroblast growth factor receptor 2.Toward a novel endogenous anxiolytic factor, fibroblast growth factor 2.UNC-6/netrin and its receptor UNC-5 locally exclude presynaptic components from dendrites.Selective synaptic targeting of the excitatory and inhibitory presynaptic organizers FGF22 and FGF7.Emerging strategies to boost thymic function
P2860
Q21145776-EE721688-8876-4276-ABBB-AFB480904802Q21198881-72823AAB-B55E-4F4B-BBDB-EC9355E4EC95Q21284138-EFBA7FF9-C206-4596-8F52-449A7FA2CDD5Q24318622-C7ABDBDD-1872-47D2-9781-B16426DA8524Q24631081-A8ABFF40-5B74-4564-B40B-741C9D1A4D8DQ24676527-52D2F687-922C-405E-A5A4-5A1DC3C47C6DQ26738368-72ADEC92-9CCC-4FE1-AA7C-F563398E2845Q26765730-CBCFE315-E382-41F8-AE72-710F13CC4FD8Q27308949-0E2B6DDA-C9EE-4CAA-B731-E1C4E691AFE3Q27316919-294969FE-5348-4244-8C97-3E2CF3526561Q28395997-F1329F14-3E73-48FE-AA7B-7B8E896791A2Q28486882-8A5C1486-54F8-4BFF-8059-31A4E8986363Q28505701-C6127D91-F90B-4870-BD41-F8AB0F4FD7EFQ28507936-9FA283D2-EC80-4EF4-BC0E-3BA89C68C58AQ28510450-7A4C293C-8B9A-4B42-80B2-973D07EBEFE9Q28513362-B699620B-082E-4F35-B4AC-FCDC2BA2AF69Q28592299-82FB87DC-D58C-4F74-8343-C4F5AC24A3D4Q28661510-C84142F3-91B4-4C34-A919-98083C227BA8Q29998998-AA20E1A7-BD32-41D5-8397-E118D6EA42FCQ30410850-BDD16585-4717-443D-9B04-84A8A988F1E0Q30491749-FF188B91-EDFC-4A39-ADC4-46918B2CAB3DQ30560971-69B78D09-F805-46F5-BCD0-A16CDC3A5619Q33348860-A26F8D39-F287-4F4A-B0E5-7B761F09ED58Q33576451-FC1E69B9-47B7-427E-B3C7-1ABF881FA7FFQ33583690-E8412B0E-00B0-4E60-B53F-D7F5108E884BQ33687971-5DE1AEE8-9FB8-403B-8FD0-C87D5EEF9BA1Q33697633-EB68F26A-3897-4296-9B81-06E8143CD111Q33934965-FB08E8EA-2B77-4E2F-8789-469EEE192402Q33985578-F5732D43-CF2E-45D5-A137-EFC935EAE1E1Q34035023-B2B209E4-53BB-45F9-944E-1A9E2CE90250Q34119952-B3C612B9-5A35-4ADE-B15D-89D1B306D130Q34302715-FEE83664-864B-4575-AC03-8824E50E2290Q34318431-EFC7716C-3A85-4DA4-B31C-F92F960C7F92Q34467171-849902A4-B33E-45C8-9870-8A182DF4EB90Q34468861-0EBCC04C-9977-4E89-850E-55F128790A6DQ34469246-68E5A674-6E22-4760-B2C2-3CFD1C83ECD8Q34677818-A589DD24-185A-4E82-8AEF-F39DFED4D798Q34822844-A620379B-DCB6-4148-B72A-74CB46F5987DQ34961652-FF7EFAE1-B97F-4051-B236-80A8348CACD2Q35069523-18AADEB9-F43F-47A6-9BC4-6364534E58E6
P2860
FGF22 and its close relatives are presynaptic organizing molecules in the mammalian brain.
description
2004 nî lūn-bûn
@nan
2004 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
FGF22 and its close relatives ...... ecules in the mammalian brain.
@ast
FGF22 and its close relatives ...... ecules in the mammalian brain.
@en
FGF22 and its close relatives ...... ecules in the mammalian brain.
@nl
type
label
FGF22 and its close relatives ...... ecules in the mammalian brain.
@ast
FGF22 and its close relatives ...... ecules in the mammalian brain.
@en
FGF22 and its close relatives ...... ecules in the mammalian brain.
@nl
prefLabel
FGF22 and its close relatives ...... ecules in the mammalian brain.
@ast
FGF22 and its close relatives ...... ecules in the mammalian brain.
@en
FGF22 and its close relatives ...... ecules in the mammalian brain.
@nl
P1433
P1476
FGF22 and its close relatives ...... ecules in the mammalian brain.
@en
P2093
Joshua R Sanes
Michael W Linhoff
P304
P356
10.1016/J.CELL.2004.06.025
P407
P577
2004-07-01T00:00:00Z