Arc regulates spine morphology and maintains network stability in vivo.
about
Arf4 determines dentate gyrus-mediated pattern separation by regulating dendritic spine developmentRole of Immediate-Early Genes in Synaptic Plasticity and Neuronal Ensembles Underlying the Memory TraceNew Insights on Retrieval-Induced and Ongoing Memory Consolidation: Lessons from ArcA critical evaluation of the activity-regulated cytoskeleton-associated protein (Arc/Arg3.1)'s putative role in regulating dendritic plasticity, cognitive processes, and mood in animal models of depressionMolecular and cellular changes in the lumbar spinal cord following thoracic injury: regulation by treadmill locomotor trainingAdult Deletion of SRF Increases Epileptogenesis and Decreases Activity-Induced Gene Expression.Inverse synaptic tagging of inactive synapses via dynamic interaction of Arc/Arg3.1 with CaMKIIβCYFIP1 coordinates mRNA translation and cytoskeleton remodeling to ensure proper dendritic spine formationExpression of immediate-early genes in the inferior colliculus and auditory cortex in salicylate-induced tinnitus in ratPermanent genetic access to transiently active neurons via TRAP: targeted recombination in active populations.The reduced cochlear output and the failure to adapt the central auditory response causes tinnitus in noise exposed rats.Arc/Arg3.1 mRNA expression reveals a subcellular trace of prior sound exposure in adult primary auditory cortex.RNA sequencing of synaptic and cytoplasmic Upf1-bound transcripts supports contribution of nonsense-mediated decay to epileptogenesis.Arc regulates experience-dependent persistent firing patterns in frontal cortex.Reward Network Immediate Early Gene Expression in Mood DisordersDynamic Arc SUMOylation and Selective Interaction with F-Actin-Binding Protein Drebrin A in LTP Consolidation In Vivo.A role for dendritic mGluR5-mediated local translation of Arc/Arg3.1 in MEF2-dependent synapse eliminationGSK3α and GSK3β Phosphorylate Arc and Regulate its Degradation.When are new hippocampal neurons, born in the adult brain, integrated into the network that processes spatial information?Relative input strength rapidly regulates dendritic structure of chick auditory brainstem neurons.Cranial irradiation alters dendritic spine density and morphology in the hippocampusCellular source-specific effects of apolipoprotein (apo) E4 on dendrite arborization and dendritic spine development.Human synaptic plasticity gene expression profile and dendritic spine density changes in HIV-infected human CNS cells: role in HIV-associated neurocognitive disorders (HAND).Enhancement of dynamin polymerization and GTPase activity by Arc/Arg3.1.Arc in synaptic plasticity: from gene to behavior.Structural basis of arc binding to synaptic proteins: implications for cognitive disease.Therapeutic strategies in fragile X syndrome: dysregulated mGluR signaling and beyond.Satb1 ablation alters temporal expression of immediate early genes and reduces dendritic spine density during postnatal brain development.Mutation of MeCP2 alters transcriptional regulation of select immediate-early genesBalancing Arc synthesis, mRNA decay, and proteasomal degradation: maximal protein expression triggered by rapid eye movement sleep-like bursts of muscarinic cholinergic receptor stimulation.A novel form of synaptic plasticity in field CA3 of hippocampus requires GPER1 activation and BDNF releaseDARPP-32 interaction with adducin may mediate rapid environmental effects on striatal neuronsmGlu5 Receptors and Relapse to Cocaine-Seeking: The Role of Receptor Trafficking in Postrelapse Extinction Learning Deficits.Specific cytoarchitectureal changes in hippocampal subareas in daDREAM mice.Levetiracetam mitigates doxorubicin-induced DNA and synaptic damage in neuronsArc in the nucleus regulates PML-dependent GluA1 transcription and homeostatic plasticityEarly developmental bisphenol-A exposure sex-independently impairs spatial memory by remodeling hippocampal dendritic architecture and synaptic transmission in rats.Neonatal isolation augments social dominance by altering actin dynamics in the medial prefrontal cortex.Learning improvement after PI3K activation correlates with de novo formation of functional small spinesPostsynaptic GABAB receptor activity regulates excitatory neuronal architecture and spatial memory.
P2860
Q24300583-33493227-C557-414A-86F8-03E843747F4AQ26771538-60E2C5C7-C11F-4986-B7C3-CA944F371D8CQ26784157-6D39DB6F-B79C-4892-974E-88E4A8375390Q26796248-AC060FB8-8042-47BF-A3F6-0CA7FC25F41BQ27323020-8E4A2898-5D51-4BC1-91B5-8FDAF213A8BAQ27345329-76F172AB-85CD-4039-9B44-3FEF3C246CAAQ28513918-97D92D36-49E8-41E0-88DA-42650BE7083EQ28910185-4EE4AB67-8685-404E-A1A0-0B586CB52ED4Q30439984-8178C8CD-901D-4656-A870-A1BCD7A45F4EQ30446227-FA050B8A-DD80-4E06-96A9-0569CE2B1F49Q30456169-13511AD3-E86C-42EE-AE5D-342B6E19D28BQ30467822-D5992EE6-5CCC-495A-8481-FB205C7E3108Q30836611-E6518E22-5C32-4143-8E38-A1D901E491E5Q33575196-F522E9C4-9C77-4FE3-8339-FA7CCBDD7C72Q33611438-B4CD8E52-FCF1-4CC9-8A0A-F159BD14F8B1Q33662216-97866298-CB0C-4827-A1D3-23CD285E19D8Q33756913-EEB32131-99D6-412C-95DC-97AA9E2BA450Q33804324-A89D748C-E042-4F71-9B2E-EE5B8888B78FQ33847095-27102285-D557-4635-A16F-EC815C33D970Q33875306-AF634CE8-3C76-489D-B8AA-A28061F21FE5Q34345288-400B82A8-287C-40D6-A1AD-0A9AC2E462F0Q34635216-701BB3FA-7081-4E76-9645-85862AE5436DQ34688788-45A1B955-51AB-4D94-A0CC-03CD722A3BCAQ35434630-C86B8C6D-2158-4F46-8329-0F2C41B64DFBQ35521723-45E2B90B-88F7-4732-A390-CC822A001E29Q35537420-AA7C478A-93F0-4BCA-A9D3-2AB02E772AEEQ35614072-FF6A06F6-6631-4781-9956-04CDC7685F93Q35665640-1713AE11-62EA-440D-A8EB-825D3D3C4FB4Q35911131-21BDF15E-33E3-48E6-92A7-12FB3FFBC4BEQ36052569-CB37D23F-ABF4-4762-B7E4-C665858D0A5CQ36102758-10E85E23-C72F-40BB-949F-FD078372EE41Q36361852-C5864DD6-4CEA-488F-9F2A-B51412D9C050Q36532096-05C6EC35-6812-4101-AD60-C8D665E90505Q36634156-B62FBB23-4867-45D6-8564-7E8CD5FBD9BEQ36890652-B9169763-23C5-461F-AD95-A6207FF41877Q36990250-23852787-C072-402C-AE1C-2E9311D42E69Q37220358-54115E8F-E1E5-4FE7-BBE6-B27666B91816Q37417763-3A4BEA05-FBA6-47CB-8349-BDB835277919Q37424748-6A2C9941-9186-459A-BAB4-E672CEF2A063Q37479485-47DD5B46-B51C-4AE5-AC92-EAE177D127C0
P2860
Arc regulates spine morphology and maintains network stability in vivo.
description
2010 nî lūn-bûn
@nan
2010 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Arc regulates spine morphology and maintains network stability in vivo.
@ast
Arc regulates spine morphology and maintains network stability in vivo.
@en
type
label
Arc regulates spine morphology and maintains network stability in vivo.
@ast
Arc regulates spine morphology and maintains network stability in vivo.
@en
prefLabel
Arc regulates spine morphology and maintains network stability in vivo.
@ast
Arc regulates spine morphology and maintains network stability in vivo.
@en
P2093
P2860
P356
P1476
Arc regulates spine morphology and maintains network stability in vivo
@en
P2093
Carol L Peebles
Jorge J Palop
Myo T Thwin
Steven Finkbeiner
P2860
P304
18173-18178
P356
10.1073/PNAS.1006546107
P407
P577
2010-10-04T00:00:00Z