Autonomous CaMKII mediates both LTP and LTD using a mechanism for differential substrate site selection
about
The Emergence of NMDA Receptor Metabotropic Function: Insights from ImagingNon-ionotropic signaling by the NMDA receptor: controversy and opportunityThe NMDA receptor complex: a multifunctional machine at the glutamatergic synapseCa(2+)- and CaMKII-mediated processes in early LTPDynamic Regulation of N-Methyl-d-aspartate (NMDA) and α-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid (AMPA) Receptors by Posttranslational ModificationsProtection of α-CaMKII from Dephosphorylation by GluN2B Subunit of NMDA Receptor Is Abolished by Mutation of Glu96 or His282 of α-CaMKIIThe CaMKII holoenzyme structure in activation-competent conformationsMultiple spatial and kinetic subpopulations of CaMKII in spines and dendrites as resolved by single-molecule tracking PALM.Nitric oxide induces Ca2+-independent activity of the Ca2+/calmodulin-dependent protein kinase II (CaMKII).Autonomous CaMKII requires further stimulation by Ca2+/calmodulin for enhancing synaptic strengthCaMKII isoforms differ in their specific requirements for regulation by nitric oxide.Effect of dopaminergic D1 receptors on plasticity is dependent of serotoninergic 5-HT1A receptors in L5-pyramidal neurons of the prefrontal cortex.Wip1 phosphatase modulates both long-term potentiation and long-term depression through the dephosphorylation of CaMKIISuberoylanilide hydroxamic acid, a histone deacetylase inhibitor, attenuates postoperative cognitive dysfunction in aging mice.Differential CaMKII regulation by voltage-gated calcium channels in the striatum.Live imaging of endogenous Ca²⁺/calmodulin-dependent protein kinase II in neurons reveals that ischemia-related aggregation does not require kinase activityCoordination of Protein Phosphorylation and Dephosphorylation in Synaptic PlasticityConformational signaling required for synaptic plasticity by the NMDA receptor complexNMDA Receptor-Dependent LTD Requires Transient Synaptic Incorporation of Ca²⁺-Permeable AMPARs Mediated by AKAP150-Anchored PKA and CalcineurinPhosphoproteomic Analysis Reveals a Novel Mechanism of CaMKIIα Regulation Inversely Induced by Cocaine Memory Extinction versus ReconsolidationMultiple CaMKII Binding Modes to the Actin Cytoskeleton Revealed by Single-Molecule Imaging.P2X-mediated AMPA receptor internalization and synaptic depression is controlled by two CaMKII phosphorylation sites on GluA1 in hippocampal neurons.The interplay between neuronal activity and actin dynamics mimic the setting of an LTD synaptic tagModulation of Synaptic Plasticity in the Cortex Needs to Understand All the Players.A Place at the Table: LTD as a Mediator of Memory Genesis.Local Somatodendritic Translation and Hyperphosphorylation of Tau Protein Triggered by AMPA and NMDA Receptor Stimulation.Calcium, Reactive Oxygen Species, and Synaptic Plasticity.Proteomic Analysis of Postsynaptic Protein Complexes Underlying Neuronal Plasticity.A Novel Human CAMK2A Mutation Disrupts Dendritic Morphology and Synaptic Transmission, and Causes ASD-Related Behaviors.A cluster of protein kinases and phosphatases modulated in fetal Down syndrome (trisomy 21) brain.Calmodulin kinases: essential regulators in health and disease.Autophosphorylation of alpha isoform of calcium/calmodulin-dependent kinase II regulates alcohol addiction-related behaviors.Phosphorylation of CaMKII in the rat dorsal raphe nucleus plays an important role in sleep-wake regulation.CaMKII-mediated displacement of AIDA-1 out of the postsynaptic density core.Reduction in Responding for Sucrose and Cocaine Reinforcement by Disruption of Memory Reconsolidation(1,2,3).Autonomous CaMKII Activity as a Drug Target for Histological and Functional Neuroprotection after Resuscitation from Cardiac Arrest.DAPK1 Mediates LTD by Making CaMKII/GluN2B Binding LTP Specific.A novel explanation for observed CaMKII dynamics in dendritic spines with added EGTA or BAPTA.Quantitative proteomics analysis of CaMKII phosphorylation and the CaMKII interactome in the mouse forebrain.CaMKII binding to GluN2B is important for massed spatial learning in the Morris water maze.
P2860
Q26741815-89A41093-0EC4-4089-8DB0-093D809FC68CQ26745925-5B79659E-D64E-45F2-8572-999BA80C7B3DQ26992363-831C8D44-6199-4991-988A-E4BD49884DAEQ27012535-AD9523B7-CB13-45CD-B500-9CB59BFF065AQ28080971-279B1393-8CE8-4EA4-88D8-308049162981Q28554007-B9FD899E-B338-48C3-AE90-CFC9DD3F779BQ30855420-4F3955D5-EDD6-4483-A31B-E1E60E4D861EQ33671699-99F08529-318F-4D65-BC20-F9C3701AE367Q33888523-92C53161-B3EA-466E-B8FE-666807A05830Q33913227-2D9998A7-D3BE-4C86-8266-1F1D91D37188Q35033482-7FF43323-0586-4CD3-B316-0D00B031BC66Q35182442-0E7D943D-C471-4DAC-B8A7-EA5D6737D3B5Q36012064-1A866F72-8993-4FC7-8DF4-D0CC4546199BQ36097888-89556DC3-331E-4FE3-B50C-D400ACF219E6Q36122543-0E167098-76EE-4817-8A4E-867368E165EFQ36259488-FB01ED5C-AB09-4685-BC08-50B86F5AC216Q36323396-25C395D8-6962-4FFC-B816-D1B3A3EBF3EEQ36331970-8F9A5FBA-1531-41AF-897B-E575C2EE0CE6Q37022458-2A4D3924-E5A3-41B5-B9B1-A2B30607987EQ37110576-0E14A5D9-5A76-47B0-94E7-200ACF1E9A26Q37141926-4CEE321C-448C-4728-B471-A2388A5DA2BAQ37254318-83BCC969-C724-472A-8F35-1614A7051DCFQ37271653-BDDC6384-1832-4143-A620-F2E10F021113Q37617476-CDDE9C2E-78DD-4789-9FA0-CA37D346BFA5Q38494230-31B3AC2E-2167-4D6F-900C-5A64AB8F250CQ38752742-522F622C-2B35-4DBE-9385-17990D75A8D8Q38800350-63FE2AFC-BE46-4F0C-80FB-3590EAFD5502Q38955489-A156AFBF-5155-4907-9CB9-F2A849411D52Q38994543-FF1B5D72-ABF3-43F9-B316-CB12E20AB5B5Q39032854-49B95240-337F-48E2-BAE9-292EDD3146A3Q39179475-53CF7FC7-61BE-4E9F-8D61-3860B977E34AQ40317467-3FAB8600-1103-4AA4-A69D-626E2A9D900FQ40333384-1EB5B0F0-4C8C-44B3-805F-82CF3661D100Q41036131-8A58CD87-450D-4B1E-9F73-074ADF4DADA9Q41190880-641D11B2-0C95-4958-957C-23D3F6153D5EQ41211166-C3EFACBB-34E0-42D8-9E5B-A678AC800B67Q41319807-66524113-FC31-473C-B177-B4163877C4A1Q41403267-579631D0-34D1-4BAE-8FD5-00CDD93034CAQ41480882-AEB6768D-97AE-48CB-8824-2E4565EB8C98Q41822161-F28FD420-89BE-454C-8AD1-43FAB66DC47C
P2860
Autonomous CaMKII mediates both LTP and LTD using a mechanism for differential substrate site selection
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 30 January 2014
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Autonomous CaMKII mediates bot ...... ntial substrate site selection
@en
Autonomous CaMKII mediates bot ...... tial substrate site selection.
@nl
type
label
Autonomous CaMKII mediates bot ...... ntial substrate site selection
@en
Autonomous CaMKII mediates bot ...... tial substrate site selection.
@nl
prefLabel
Autonomous CaMKII mediates bot ...... ntial substrate site selection
@en
Autonomous CaMKII mediates bot ...... tial substrate site selection.
@nl
P2093
P2860
P1433
P1476
Autonomous CaMKII mediates bot ...... ntial substrate site selection
@en
P2093
Heather O'Leary
Jennifer L Sanderson
K Ulrich Bayer
Ronald K Freund
Steven J Coultrap
P2860
P304
P356
10.1016/J.CELREP.2014.01.005
P577
2014-01-30T00:00:00Z