Diversity in NMDA receptor composition: many regulators, many consequences.
about
Dysfunction of NMDA receptors in Alzheimer's diseaseNMDA Receptor Function During Senescence: Implication on Cognitive PerformanceOn the Role of Glutamate in Presynaptic Development: Possible Contributions of Presynaptic NMDA ReceptorsNicotinic modulation of glutamate receptor function at nerve terminal level: a fine-tuning of synaptic signalsSerine racemase: a key player in apoptosis and necrosisEarly mechanisms of pathobiology are revealed by transcriptional temporal dynamics in hippocampal CA1 neurons of prion infected miceDynamic Regulation of N-Methyl-d-aspartate (NMDA) and α-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid (AMPA) Receptors by Posttranslational ModificationsANKS1B Gene Product AIDA-1 Controls Hippocampal Synaptic Transmission by Regulating GluN2B Subunit LocalizationSynaptic proteins and receptors defects in autism spectrum disordersMechanisms of Functional Hypoconnectivity in the Medial Prefrontal Cortex of Mecp2 Null Mice.Hypoxia-induced changes in protein s-nitrosylation in female mouse brainstem.Severe learning deficits of IRSp53 mutant mice are caused by altered NMDA receptor dependent signal transduction.Optocontrol of glutamate receptor activity by single side-chain photoisomerization.DYRK1A-mediated phosphorylation of GluN2A at Ser(1048) regulates the surface expression and channel activity of GluN1/GluN2A receptors.The neurobiology of alcohol consumption and alcoholism: an integrative historyER to synapse trafficking of NMDA receptorsRegion-specific role for GluN2B-containing NMDA receptors in injury to Purkinje cells and CA1 neurons following global cerebral ischemia.Selective synaptic targeting of the excitatory and inhibitory presynaptic organizers FGF22 and FGF7.Identity of the NMDA receptor coagonist is synapse specific and developmentally regulated in the hippocampus.Developmental expression of N-methyl-D-aspartate (NMDA) receptor subunits in human white and gray matter: potential mechanism of increased vulnerability in the immature brainAstrocytes increase the activity of synaptic GluN2B NMDA receptorsTwo N-glycosylation Sites in the GluN1 Subunit Are Essential for Releasing N-methyl-d-aspartate (NMDA) Receptors from the Endoplasmic Reticulum.NMDA Receptor Plasticity in the Hypothalamic Paraventricular Nucleus Contributes to the Elevated Blood Pressure Produced by Angiotensin II.Sensory inputs control the integration of neurogliaform interneurons into cortical circuitsCell-Specific Regulation of N-Methyl-D-Aspartate Receptor Maturation by Mecp2 in Cortical Circuits.Roles of Presynaptic NMDA Receptors in Neurotransmission and PlasticityHypothermia reduces calcium entry via the N-methyl-D-aspartate and ryanodine receptors in cultured hippocampal neuronsEndogenous 24S-hydroxycholesterol modulates NMDAR-mediated function in hippocampal slices.Activated CaMKII couples GluN2B and casein kinase 2 to control synaptic NMDA receptors.The indirect pathway of the nucleus accumbens shell amplifies neuropathic painPSD-95 stabilizes NMDA receptors by inducing the degradation of STEP61.The decline in synaptic GluN2B and rise in inhibitory neurotransmission determine the end of a critical periodNMDA reduces Tau phosphorylation in rat hippocampal slices by targeting NR2A receptors, GSK3β, and PKC activities.GluN3A: an NMDA receptor subunit with exquisite properties and functions.Potentiation of GluN2C/D NMDA receptor subtypes in the amygdala facilitates the retention of fear and extinction learning in mice.The role of ionotropic glutamate receptors in childhood neurodevelopmental disorders: autism spectrum disorders and fragile x syndrome.Cortical synaptic NMDA receptor deficits in α7 nicotinic acetylcholine receptor gene deletion models: implications for neuropsychiatric diseases.NMDA receptors are selectively partitioned into complexes and supercomplexes during synapse maturation.GluN1 and GluN2A NMDA Receptor Subunits Increase in the Hippocampus during Memory Consolidation in the Rat.Single-neuron NMDA receptor phenotype influences neuronal rewiring and reintegration following traumatic injury.
P2860
Q26766185-E3671EC4-A89F-4697-8280-CF7B9710383DQ26770902-2EFEEE37-3BB8-454F-B3FB-CC749BA99316Q26773295-647C6AFB-DF42-4E46-A8E4-582C6486246BQ26861923-6CFC9F9F-4250-4CE1-AD09-CF33FF7E2AFDQ27025560-DD1F07C8-DE2E-4723-BD4A-8D711450A6D7Q27340506-44073B2A-4B49-46C4-BD67-D470D6779466Q28080971-61AF9A73-4602-4737-8491-1693FC2F3052Q28511930-E086FDC3-5A03-4055-99A6-FAE390420596Q30009298-595C519A-E6CE-4FDD-AE6F-09696FB9A76BQ30357548-190B0DDC-F902-433B-BFD8-A7A5D26BC9F8Q30361769-40B23C75-D244-4224-BB83-C2A1EDC5CC1CQ33361898-8A4BA8DA-A5A5-4201-9A83-00A652CF87E2Q33719620-FBD63425-E614-40E3-89EB-5D9479C0857BQ34359769-11505E32-AAAA-49AF-9FF7-5FC8D00BCCFEQ34378869-5C54DB28-EF36-4EF3-8898-9DDFD4E65087Q34579616-B0FD1A38-C791-4BC8-B81F-E7B9AAC55179Q34714442-42B9F8DB-38DE-40B9-89C5-0C570CA164D0Q34961652-B0FD7209-58C6-4871-85DB-C06131A6DC4AQ34985616-0EFE83BC-28C0-4EA8-97E1-53042B41988CQ35003575-755FB564-8514-423D-A354-9E917ED2E686Q35456908-E3DA9B18-2E89-4D43-9AB3-EB3F8BDD5257Q35883792-C851705B-0A02-480C-91EB-9AAB09D6A8FEQ36064129-7C9B5C68-ED5A-4E22-A12C-DC74481DB968Q36218769-9ED77CED-A7A8-4ADE-B049-4346E7546293Q36348972-BAEB3C53-2C04-477F-BFC8-E99B80941015Q36473751-B058546C-ED30-4DE8-8D83-2D0CE380C580Q36507169-31AFF621-C9B5-4D0B-BEDF-3A40486D9FE5Q36729728-705ABCA8-7378-49CF-9272-EA20061D6B5BQ36736218-1A3F7150-AB74-4137-ABF0-051EF985360CQ36958717-667130D3-5EFE-494B-A819-E389F838475CQ37181823-BABCB814-FBAB-4718-A1BC-CF75A301FD1BQ37291446-7FA3A775-D76E-49E2-B95B-A336949AA71CQ37375713-72D203A3-78F4-4AC3-A57B-E3E222E4134FQ37412890-D434CAFC-70EF-46A1-A68E-675AA6646BAAQ37491564-2529E3FA-755A-405E-B07E-0D18822D09CFQ37559828-7B2D23FE-6F9B-4F7B-971A-CACD76B3A88CQ37561567-9BDED824-9468-4004-912A-B9D3DA71C05DQ37580996-833AE375-0584-4631-BBBD-B5B8F5F5CAADQ37584035-4D90DC82-180F-475B-9051-63E5A9FC20D8Q37650184-565FEF25-FEA6-436C-BE6B-0858A821089B
P2860
Diversity in NMDA receptor composition: many regulators, many consequences.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Diversity in NMDA receptor composition: many regulators, many consequences.
@ast
Diversity in NMDA receptor composition: many regulators, many consequences.
@en
type
label
Diversity in NMDA receptor composition: many regulators, many consequences.
@ast
Diversity in NMDA receptor composition: many regulators, many consequences.
@en
prefLabel
Diversity in NMDA receptor composition: many regulators, many consequences.
@ast
Diversity in NMDA receptor composition: many regulators, many consequences.
@en
P2860
P356
P1433
P1476
Diversity in NMDA receptor composition: many regulators, many consequences.
@en
P2093
Roger A Nicoll
P2860
P356
10.1177/1073858411435129
P577
2012-02-17T00:00:00Z