Interaction of the AMPA receptor subunit GluR2/3 with PDZ domains regulates hippocampal long-term depression.
about
A kinase-regulated mechanism controls CFTR channel gating by disrupting bivalent PDZ domain interactionsDifferential roles for NSF and GRIP/ABP in AMPA receptor cycling.cAMP-dependent protein kinase phosphorylation of the acid-sensing ion channel-1 regulates its binding to the protein interacting with C-kinase-1Rapid and differential regulation of AMPA and kainate receptors at hippocampal mossy fibre synapses by PICK1 and GRIPThe Emergence of NMDA Receptor Metabotropic Function: Insights from ImagingAmyloid-β-Induced Dysregulation of AMPA Receptor TraffickingA Computational Model for the AMPA Receptor Phosphorylation Master Switch Regulating Cerebellar Long-Term Depression.C-terminal domain of ICA69 interacts with PICK1 and acts on trafficking of PICK1-PKCα complex and cerebellar plasticityClustering and synaptic targeting of PICK1 requires direct interaction between the PDZ domain and lipid membranesThe PDZ domain protein PICK1 and the sodium channel BNaC1 interact and localize at mechanosensory terminals of dorsal root ganglion neurons and dendrites of central neuronsSynaptic plasticity: multiple forms, functions, and mechanismsPICK1-mediated glutamate receptor subunit 2 (GluR2) trafficking contributes to cell death in oxygen/glucose-deprived hippocampal neuronsBidirectional regulation of synaptic transmission by BRAG1/IQSEC2 and its requirement in long-term depressionRegulation of synaptic structure and function by palmitoylated AMPA receptor binding proteinPICK1 inhibition of the Arp2/3 complex controls dendritic spine size and synaptic plasticityInhibition of Arp2/3-mediated actin polymerization by PICK1 regulates neuronal morphology and AMPA receptor endocytosisAMPAR removal underlies Abeta-induced synaptic depression and dendritic spine lossPACSIN1 regulates the dynamics of AMPA receptor traffickingPICK1 deficiency causes male infertility in mice by disrupting acrosome formationReversible plasticity of fear memory-encoding amygdala synaptic circuits even after fear memory consolidation.Gain-of-function glutamate receptor interacting protein 1 variants alter GluA2 recycling and surface distribution in patients with autism.Corequirement of PICK1 binding and PKC phosphorylation for stable surface expression of the metabotropic glutamate receptor mGluR7Early alterations of AMPA receptors mediate synaptic potentiation induced by neonatal seizuresPICK1 is implicated in organelle motility in an Arp2/3 complex-independent mannerIdentification of a small-molecule inhibitor of the PICK1 PDZ domain that inhibits hippocampal LTP and LTD.Specific roles of AMPA receptor subunit GluR1 (GluA1) phosphorylation sites in regulating synaptic plasticity in the CA1 region of hippocampusLTD expression is independent of glutamate receptor subtype.Gephyrin interacts with the glutamate receptor interacting protein 1 isoforms at GABAergic synapsesPICK1 regulates incorporation of calcium-permeable AMPA receptors during cortical synaptic strengthening.Plk2 attachment to NSF induces homeostatic removal of GluA2 during chronic overexcitation.Selective inhibition of calcineurin-NFAT signaling by blocking protein-protein interaction with small organic molecules.Developmental regulation of protein interacting with C kinase 1 (PICK1) function in hippocampal synaptic plasticity and learning.PICK1 regulates the trafficking of ASIC1a and acidotoxicity in a BAR domain lipid binding-dependent manner.M1 muscarinic allosteric modulators slow prion neurodegeneration and restore memory lossProtein phosphatases 1 and 2A are both required for long-term depression and associated dephosphorylation of cAMP response element binding protein in hippocampal area CA1 in vivo.Activity-dependent synaptic plasticity in retinal ganglion cells.Probing the role of AMPAR endocytosis and long-term depression in behavioural sensitization: relevance to treatment of brain disorders, including drug addiction.PICK1 loss of function occludes homeostatic synaptic scaling.GluA2-lacking, calcium-permeable AMPA receptors--inducers of plasticity?Glutamate receptor trafficking in synaptic plasticity.
P2860
Q24311225-99FD540C-09BF-4DE0-A8F6-E4560841E0B3Q24531371-906AC227-6AFB-4BEA-9B0C-536CBD68639EQ24550782-85DFB271-D4CA-4EEF-9D07-EC37D9C80D5CQ24608270-457C3997-30D7-43F6-B8A3-60D695DD09C5Q26741815-EF9DEC65-23B9-4F41-8EDD-118A5095C4D6Q26748723-71992A95-C029-4067-ABC1-E4623346CE75Q27316965-E62ACCAB-649B-43F4-9039-DBA5984A82E7Q27336569-071F5F34-791C-437B-B2F7-2A54A83C9466Q27648706-FE8858D3-CBE9-4702-9808-C3BC4AE84220Q28209966-05C3A75E-C38A-4DBD-AB90-60EC69759E83Q28242702-AA457272-E66C-4FE6-93B3-8567777DAD6BQ28569160-CC3D80DC-86C1-4212-B9D2-8F0E4F50FFFCQ28571020-0D277E16-5D7E-43AB-ABDC-A5D542B81509Q28577160-24F9AD9F-2BD8-451C-8032-64FEA0370F10Q28579179-06ABEE1C-A65B-4BC4-BDF2-3985B7844E44Q28584330-C678417C-9B9D-456C-AF2D-3B861BE0B2F8Q29614850-F96A5BCB-F991-4226-BEC8-C935DB20399AQ30008880-35EB277C-5455-437F-842C-83821D74BF3BQ30439936-5129F21A-86C1-47FF-B02B-EACA8A4D2849Q30474061-B46CFEB7-FC8F-40B5-A8CE-FA0C6A2B31A0Q30474084-C11FB161-B84D-4B1E-A8F9-40E8EFE09738Q30484745-69B94B16-1D04-49D3-8720-DCF750787519Q30487499-EFBBB306-F9BD-48AC-8ACC-D61D511CAB76Q30652993-6BFE6B50-5007-4987-B95B-DD9DA3D6EAA1Q33591507-A94E6F3A-FC63-484C-9B97-AA497DC38966Q33593591-A7F18610-8C51-44F0-B350-DC0277CB15AAQ33860471-DE28B8CE-3299-41A7-90C7-29290E8F0DA7Q33936889-CEA5A0CC-4DCD-4D2C-8FA3-84221C60B216Q33962354-19D67676-976D-47A6-911A-A085E3B60563Q34164020-D4A61B4B-16D7-459D-9415-8660B5B4E009Q34335785-472694D4-3B3A-4249-9BA6-216F81BAA03AQ34411061-3E4111C0-EC14-4B57-BA89-3451E6D4E7EFQ34477846-D5606D10-2884-48C5-9EC8-C8B1D1B06C08Q34547610-0105BEDE-BDD4-4F83-8C89-EE850CF7145AQ34612927-A1A74CF6-2E53-4B47-B155-8E71E147C1F3Q34711631-A8409E26-A46D-4787-8E4C-EA77F9EB4F76Q34722019-2E86F019-1B84-4548-95A8-DFE5E4B59586Q34763389-79F4E6CA-C8FE-463C-A0FB-7EAD94BE1F04Q34975533-826DCB15-6B1B-4E06-B386-8F9499363293Q34983720-7FB22D63-7438-4E50-832B-3E0DEB9732C4
P2860
Interaction of the AMPA receptor subunit GluR2/3 with PDZ domains regulates hippocampal long-term depression.
description
2001 nî lūn-bûn
@nan
2001 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Interaction of the AMPA recept ...... pocampal long-term depression.
@ast
Interaction of the AMPA recept ...... pocampal long-term depression.
@en
type
label
Interaction of the AMPA recept ...... pocampal long-term depression.
@ast
Interaction of the AMPA recept ...... pocampal long-term depression.
@en
prefLabel
Interaction of the AMPA recept ...... pocampal long-term depression.
@ast
Interaction of the AMPA recept ...... pocampal long-term depression.
@en
P2093
P2860
P356
P1476
Interaction of the AMPA recept ...... ppocampal long-term depression
@en
P2093
P2860
P304
11725-11730
P356
10.1073/PNAS.211132798
P407
P577
2001-09-01T00:00:00Z