Unified quantitative model of AMPA receptor trafficking at synapses.
about
Barriers in the brain: resolving dendritic spine morphology and compartmentalizationA Computational Model for the AMPA Receptor Phosphorylation Master Switch Regulating Cerebellar Long-Term Depression.Mapping the dynamics and nanoscale organization of synaptic adhesion proteins using monomeric streptavidinERK regulation of phosphodiesterase 4 enhances dopamine-stimulated AMPA receptor membrane insertionStable small quantum dots for synaptic receptor tracking on live neuronsMechanical coupling between transsynaptic N-cadherin adhesions and actin flow stabilizes dendritic spines.Two-tiered coupling between flowing actin and immobilized N-cadherin/catenin complexes in neuronal growth conesStochastic Induction of Long-Term Potentiation and Long-Term DepressionLateral mobility of presynaptic α7-containing nicotinic receptors and its relevance for glutamate release.Developmental switch in the kinase dependency of long-term potentiation depends on expression of GluA4 subunit-containing AMPA receptors.Neuronal vesicular trafficking and release in age-related cognitive impairment.Organization and dynamics of the actin cytoskeleton during dendritic spine morphological remodeling.Timely regulated sorting from early to late endosomes is required to maintain cerebellar long-term depression.Shape-induced asymmetric diffusion in dendritic spines allows efficient synaptic AMPA receptor trappingModerate AMPA receptor clustering on the nanoscale can efficiently potentiate synaptic current.α-Conotoxin M1 (CTx) blocks αδ binding sites of adult nicotinic receptors while ACh binding at αε sites elicits only small and short quantal synaptic currents.Intracellular Ca²⁺ and not the extracellular matrix determines surface dynamics of AMPA-type glutamate receptors on aspiny neurons.Assembly of synapses: biomimetic assays to control neurexin/neuroligin interactions at the neuronal surface.Self-assembly and plasticity of synaptic domains through a reaction-diffusion mechanism.Micropatterned substrates coated with neuronal adhesion molecules for high-content study of synapse formation.Stochastic lattice model of synaptic membrane protein domains.The Nanoworld of the Tripartite Synapse: Insights from Super-Resolution Microscopy.Distribution of randomly diffusing particles in inhomogeneous media.Proteostasis in complex dendrites.Electrodiffusion phenomena in neuroscience: a neglected companion.A Simple and Powerful Analysis of Lateral Subdiffusion Using Single Particle Tracking.Self-crowding of AMPA receptors in the excitatory postsynaptic density can effectuate anomalous receptor sub-diffusion.Quantum dot conjugated nanobodies for multiplex imaging of protein dynamics at synapses.AMPA receptor trafficking and its role in heterosynaptic plasticity.Pre-post synaptic alignment through neuroligin-1 tunes synaptic transmission efficiencyCompetition for synaptic building blocks shapes synaptic plasticityA unique intracellular tyrosine in neuroligin-1 regulates AMPA receptor recruitment during synapse differentiation and potentiation
P2860
Q26859184-C6349131-B657-4AFB-B759-3A5A7DEA8832Q27316965-9FFA4F9C-3984-4A8D-88EF-7BF7A48EBFA4Q27330372-238E675D-7F8E-46B1-84F9-0DD9707B38E0Q28388995-68E3D6F0-AF3F-4E60-856B-C923462F7440Q30600831-A12EEAB4-4D8F-4A6E-8F8D-D27FA1E6E9EEQ30621932-B76356AE-B45C-4EDB-B0B3-7156118E5EC2Q35699375-C7A9B558-3104-4CE6-AB70-9B8637ABC375Q37147896-8905D18E-29BF-4F00-B4C3-A18BD624A32BQ37251948-3854E089-CFB8-4EDF-8DAC-B9715963B6D4Q37659782-CD15A407-509B-47CC-9B22-E8169F5DDAA1Q38210236-41D7060E-3EDF-4EBB-8C99-0A2054479417Q38815063-275FC4DD-7C1D-49FE-A61E-16BD3C55FA00Q41594481-04FDD840-1219-45EB-858C-7780C210213FQ41853956-D827F024-6FE0-4E4C-AA8F-886689A96618Q42056037-EA708DC7-C582-49BB-A76E-6DCFD84E10BFQ42170267-C848312D-7C19-441F-8FC4-514A6F969E38Q42912418-76D86702-5871-49DD-9396-3FD492D446F4Q45006146-8C5E3BA3-4E7A-4E9F-92B0-E48D6D71ED76Q45117421-D2184AB7-B791-4969-AF7D-302F2F1B7127Q45897965-D417815D-C514-4CB2-B3FE-587149A538ADQ46031612-457CEF10-4AF8-4435-9463-7863D9F17A61Q47124943-8B633621-B15A-494C-9B93-E8D8ACDC97F5Q47560580-E60F4890-590D-4569-8F1B-6CEECA854A0FQ47897126-9C318FE0-2322-4074-9D50-A827F5BF6B47Q48106924-239D0EA0-6CFA-4C14-9D29-5C317521E7D1Q48513984-11645395-0967-4E0C-BC32-D82EFADA649CQ50000939-0D379F3E-B61F-4E69-A9F6-BC0BA569C093Q55485699-486234FE-6933-4C8C-95CC-DC700613675DQ55646919-0B0A5A00-DAF6-4DDA-9066-9C177E57E96AQ56532133-E3492294-8400-400B-A888-12AE9FA8A57EQ58365539-86EA9C0F-673F-4845-8686-55C695643921Q59126083-5A87B21E-81FE-4B6D-A6C5-90D278F3B9E7
P2860
Unified quantitative model of AMPA receptor trafficking at synapses.
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
Unified quantitative model of AMPA receptor trafficking at synapses.
@ast
Unified quantitative model of AMPA receptor trafficking at synapses.
@en
type
label
Unified quantitative model of AMPA receptor trafficking at synapses.
@ast
Unified quantitative model of AMPA receptor trafficking at synapses.
@en
prefLabel
Unified quantitative model of AMPA receptor trafficking at synapses.
@ast
Unified quantitative model of AMPA receptor trafficking at synapses.
@en
P2093
P2860
P356
P1476
Unified quantitative model of AMPA receptor trafficking at synapses.
@en
P2093
Daniel Choquet
Jean-Baptiste Sibarita
Katalin Czöndör
Magali Mondin
Martin Heine
Mikael Garcia
Olivier R Thoumine
Renato Frischknecht
P2860
P304
P356
10.1073/PNAS.1109818109
P407
P577
2012-02-13T00:00:00Z