Subunit-selective N-terminal domain associations organize the formation of AMPA receptor heteromers
about
Structure, Dynamics, and Allosteric Potential of Ionotropic Glutamate Receptor N-Terminal DomainsFunctional insights from glutamate receptor ion channel structuresEmerging models of glutamate receptor ion channel structure and functionRedefining the classification of AMPA-selective ionotropic glutamate receptorsCrystal structure of the glutamate receptor GluA1 N-terminal domainDynamics and allosteric potential of the AMPA receptor N-terminal domainStructure and Assembly Mechanism for Heteromeric Kainate ReceptorsComparative Dynamics of NMDA- and AMPA-Glutamate Receptor N-Terminal DomainsAnions Mediate Ligand Binding in Adineta vaga Glutamate Receptor Ion ChannelsStructural basis for integration of GluD receptors within synaptic organizer complexesDomain architecture of a calcium-permeable AMPA receptor in a ligand-free conformation.Glutamate receptor desensitization is mediated by changes in quaternary structure of the ligand binding domain.Structure and organization of heteromeric AMPA-type glutamate receptorsMolecular dissection of the interaction between the AMPA receptor and cornichon homolog-3.Accounting for photophysical processes and specific signal intensity changes in fluorescence-detected sedimentation velocityExercise modifies α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor expression in striatopallidal neurons in the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-lesioned mouse.Analysis of high affinity self-association by fluorescence optical sedimentation velocity analytical ultracentrifugation of labeled proteins: opportunities and limitations.Building and breaking interfaces: how a receptor takes shapeThe intellectual disability protein RAB39B selectively regulates GluA2 trafficking to determine synaptic AMPAR composition.Interaction of the M4 segment with other transmembrane segments is required for surface expression of mammalian α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptors.Loss of α1,6-Fucosyltransferase Decreases Hippocampal Long Term Potentiation: IMPLICATIONS FOR CORE FUCOSYLATION IN THE REGULATION OF AMPA RECEPTOR HETEROMERIZATION AND CELLULAR SIGNALING.Analysis of high-affinity assembly for AMPA receptor amino-terminal domains.Cooperative Dynamics of Intact AMPA and NMDA Glutamate Receptors: Similarities and Subfamily-Specific Differences.Differences in AMPA and kainate receptor interactomes facilitate identification of AMPA receptor auxiliary subunit GSG1LThe Transmembrane Domain Mediates Tetramerization of α-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid (AMPA) ReceptorsMonochromatic multicomponent fluorescence sedimentation velocity for the study of high-affinity protein interactions.GluA1 signal peptide determines the spatial assembly of heteromeric AMPA receptors.Motor Learning Requires Purkinje Cell Synaptic Potentiation through Activation of AMPA-Receptor Subunit GluA3.Synaptic neurotransmitter-gated receptorsThe multifaceted subunit interfaces of ionotropic glutamate receptors.Assembly of AMPA receptors: mechanisms and regulation.How to build the fastest receptor on earth.Use of fluorescence-detected sedimentation velocity to study high-affinity protein interactions.Sedimentation of Reversibly Interacting Macromolecules with Changes in Fluorescence Quantum Yield.Mapping the interaction sites between AMPA receptors and TARPs reveals a role for the receptor N-terminal domain in channel gating.The N-terminal domain modulates α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor desensitization.Aggregation Limits Surface Expression of Homomeric GluA3 Receptors.A eukaryotic specific transmembrane segment is required for tetramerization in AMPA receptorsA point mutation in the ion conduction pore of AMPA receptor GRIA3 causes dramatically perturbed sleep patterns as well as intellectual disabilityPreferential assembly of heteromeric kainate and AMPA receptor amino terminal domains.
P2860
Q26800669-DB2F133A-1810-4CA0-8FA5-1A13C291D322Q26994781-C2EA7179-8B2C-4C56-8C05-F4EE87CF529FQ26995713-520B1C6E-050E-47E3-A659-C9F167FCA649Q27026601-8E407475-444B-4178-9517-40E5D99AEDCAQ27666247-939A594A-5201-4B2B-8844-37DCEABEE389Q27666952-8D519BE9-8C8B-41B4-B04D-6679DD841DD4Q27671015-EF0479C0-9F58-4045-BAF3-344EB4A57C66Q27672766-5C3E21E8-C918-44C0-84E0-40595DE29826Q27676573-2D9D1E60-65B5-4D9A-A5A6-8B6479F0B037Q27719529-9153EAF2-04E5-46E7-9496-F4514F651CC2Q30411551-9C3104E5-5BF6-4A27-AC77-C35B66BF6A42Q30538804-A9510283-6679-444F-944D-2B70FBE05343Q30750616-9D8E2331-1D60-473F-A116-E639F6FEEABBQ34123830-6B7A3E9C-5FD2-442D-AC1A-21D52C978C74Q34193963-8F24E2DA-D39B-4836-A2EE-471A8888EE1EQ34362073-FCDBB38A-477F-49E3-8B95-3A94FD694C6DQ35073088-FF372B15-0882-487B-8EE9-63141BDE3588Q35235063-77FEFE2E-8765-49F7-9415-324404C814B0Q35247088-69E5449B-4797-4C35-A8D6-8D5AFB9C409FQ35562796-4043BCF0-53F7-4E08-A7C0-8599DBA06B92Q35837232-B4796B84-DF9B-486F-8B1A-FE8A20EB70FAQ35931870-98A8170D-480E-424F-B5AB-431356D09169Q36021526-A1E50593-1814-4E9E-809A-BD68D74F4E7DQ36108305-42A480B0-C4A4-40ED-9339-028215B6B512Q36744741-BB2A27F2-9604-46D9-AFE1-E79DF35A0F4CQ37175856-BADA8064-56A8-430C-96B7-60F8923188FDQ37281535-821441A0-40D5-44B5-AB5B-D5FEF8F4F496Q37604194-F59453DB-A565-4AB9-B7DC-F9D67E4F36B2Q37974718-E849E7E6-46C0-4603-9EC6-6881AFE06B21Q38218392-720BED0D-7E98-4EA9-8142-6992EA9366ADQ38306577-B827A263-FB55-4715-BFAF-CE641793014DQ38583363-B6B19A15-3651-40E7-B75D-19606DD1C5D3Q38644638-40E8BC33-D4FE-44E5-A559-A4DB3B2356A0Q38840409-0A905D34-8CBE-41F7-BB9C-DB2D24AB9F99Q39856314-6E2902D6-1F4C-4ABC-8487-F91E5FC44CB6Q39999426-BD7698E1-AEEE-4AE7-8F2C-E8F6EFE5E48AQ41210310-411D2B1E-ACB8-4102-B002-E905A87CE67DQ41961498-D1EA26D4-0E6F-40EF-942D-B26B71F74330Q42702345-B58AC7D2-F144-4C37-99DB-AF4E465FD500Q47100457-43FC7385-7174-408D-BE94-8D1589675E91
P2860
Subunit-selective N-terminal domain associations organize the formation of AMPA receptor heteromers
description
2011 nî lūn-bûn
@nan
2011 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի մարտին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Subunit-selective N-terminal d ...... on of AMPA receptor heteromers
@ast
Subunit-selective N-terminal d ...... on of AMPA receptor heteromers
@en
Subunit-selective N-terminal d ...... on of AMPA receptor heteromers
@nl
type
label
Subunit-selective N-terminal d ...... on of AMPA receptor heteromers
@ast
Subunit-selective N-terminal d ...... on of AMPA receptor heteromers
@en
Subunit-selective N-terminal d ...... on of AMPA receptor heteromers
@nl
prefLabel
Subunit-selective N-terminal d ...... on of AMPA receptor heteromers
@ast
Subunit-selective N-terminal d ...... on of AMPA receptor heteromers
@en
Subunit-selective N-terminal d ...... on of AMPA receptor heteromers
@nl
P2093
P2860
P50
P3181
P356
P1433
P1476
Subunit-selective N-terminal d ...... on of AMPA receptor heteromers
@en
P2093
Andrew C Penn
Ingo H Greger
Madhav Sukumaran
P2860
P304
P3181
P356
10.1038/EMBOJ.2011.16
P407
P577
2011-03-02T00:00:00Z