review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Yukiko Gōda | Q41786686 |
P2093 | author name string | Karine Pozo | |
P2860 | cites work | Long-term relationships between synaptic tenacity, synaptic remodeling, and network activity | Q21145818 |
Tripartite synapses: astrocytes process and control synaptic information | Q22337308 | ||
LTP and LTD | Q22337342 | ||
Dysbindin-1 is a synaptic and microtubular protein that binds brain snapin | Q24303507 | ||
Dendritic excitability and synaptic plasticity | Q37129354 | ||
The age of plasticity: developmental regulation of synaptic plasticity in neocortical microcircuits | Q37131136 | ||
Regulation of AMPA receptors and synaptic plasticity. | Q37142761 | ||
Glutamate receptor dynamics in dendritic microdomains | Q37171173 | ||
Communication between the synapse and the nucleus in neuronal development, plasticity, and disease | Q37212202 | ||
New concepts in synaptic biology derived from single-molecule imaging | Q37242978 | ||
Development regulates a switch between post- and presynaptic strengthening in response to activity deprivation | Q37249959 | ||
Bidirectional modulation of synaptic functions by Eph/ephrin signaling. | Q37333581 | ||
Synapse-specific homeostatic mechanisms in the hippocampus | Q37346572 | ||
N-cadherin, spine dynamics, and synaptic function | Q37395791 | ||
Synapse development and plasticity: roles of ephrin/Eph receptor signaling | Q37508423 | ||
Dendritic signalling and homeostatic adaptation | Q37565864 | ||
Neuron-glia communication via EphA4/ephrin-A3 modulates LTP through glial glutamate transport | Q37579588 | ||
Reverse engineering the mouse brain | Q37614968 | ||
Increased expression of the immediate-early gene arc/arg3.1 reduces AMPA receptor-mediated synaptic transmission | Q37632803 | ||
TrkB signalling pathways in LTP and learning | Q37635759 | ||
Ongoing interplay between the neural network and neurogenesis in the adult hippocampus | Q37676451 | ||
Subunit-selective palmitoylation regulates the intracellular trafficking of AMPA receptor | Q39840808 | ||
Heterosynaptic depression: a postsynaptic correlate of long-term potentiation | Q40080472 | ||
Tumor necrosis factor-alpha mediates one component of competitive, experience-dependent plasticity in developing visual cortex | Q41011574 | ||
A presynaptic homeostatic signaling system composed of the Eph receptor, ephexin, Cdc42, and CaV2.1 calcium channels. | Q41334731 | ||
Calmodulin-kinases: modulators of neuronal development and plasticity | Q24315924 | ||
The amyotrophic lateral sclerosis 8 protein VAPB is cleaved, secreted, and acts as a ligand for Eph receptors | Q24321690 | ||
AMPA receptor incorporation into synapses during LTP: the role of lateral movement and exocytosis | Q24569654 | ||
Genetic variation in the 6p22.3 gene DTNBP1, the human ortholog of the mouse dysbindin gene, is associated with schizophrenia | Q24612644 | ||
The schizophrenia susceptibility gene dysbindin controls synaptic homeostasis | Q24632783 | ||
Activity-dependent regulation of synaptic AMPA receptor composition and abundance by beta3 integrins | Q24647047 | ||
Mobile DHHC palmitoylating enzyme mediates activity-sensitive synaptic targeting of PSD-95 | Q24647301 | ||
The spread of Ras activity triggered by activation of a single dendritic spine | Q24652704 | ||
Role of β-Catenin in Synaptic Vesicle Localization and Presynaptic Assembly | Q24657327 | ||
Arc/Arg3.1 interacts with the endocytic machinery to regulate AMPA receptor trafficking | Q24681745 | ||
BDNF mobilizes synaptic vesicles and enhances synapse formation by disrupting cadherin-beta-catenin interactions | Q24683170 | ||
Integrins: bidirectional, allosteric signaling machines | Q27860700 | ||
Differential regulation of AMPA receptor and GABA receptor trafficking by tumor necrosis factor-alpha | Q28241574 | ||
Homeostatic plasticity and NMDA receptor trafficking | Q28248120 | ||
LTP and adaptation to inactivity: overlapping mechanisms and implications for metaplasticity | Q28261513 | ||
Activity-dependent scaling of quantal amplitude in neocortical neurons | Q28264163 | ||
Brain plasticity and ion channels | Q28270997 | ||
Synaptotagmin-IV modulates synaptic function and long-term potentiation by regulating BDNF release | Q28505296 | ||
Dysbindin, a novel coiled-coil-containing protein that interacts with the dystrobrevins in muscle and brain | Q28505394 | ||
Control of synaptic strength by glial TNFalpha | Q28570361 | ||
Critical role of CDK5 and Polo-like kinase 2 in homeostatic synaptic plasticity during elevated activity | Q28572104 | ||
Subunit-specific rules governing AMPA receptor trafficking to synapses in hippocampal pyramidal neurons | Q28579011 | ||
Depolarization drives beta-Catenin into neuronal spines promoting changes in synaptic structure and function | Q28579954 | ||
A role for the cadherin family of cell adhesion molecules in hippocampal long-term potentiation | Q28582416 | ||
Direct interaction of Dysbindin with the AP-3 complex via its mu subunit | Q28582852 | ||
Synaptic signaling by all-trans retinoic acid in homeostatic synaptic plasticity | Q28583711 | ||
Elongation factor 2 and fragile X mental retardation protein control the dynamic translation of Arc/Arg3.1 essential for mGluR-LTD | Q28585633 | ||
Trans-synaptic Eph receptor-ephrin signaling in hippocampal mossy fiber LTP | Q28585975 | ||
DTNBP1, a schizophrenia susceptibility gene, affects kinetics of transmitter release | Q28586199 | ||
Integrin requirement for hippocampal synaptic plasticity and spatial memory | Q28592878 | ||
Receptor trafficking and synaptic plasticity | Q29041960 | ||
The cell biology of synaptic plasticity: AMPA receptor trafficking | Q29615771 | ||
The self-tuning neuron: synaptic scaling of excitatory synapses | Q29616059 | ||
Synaptic scaling mediated by glial TNF-alpha | Q29616816 | ||
Modified sensory processing in the barrel cortex of the adult mouse after chronic whisker stimulation | Q48361060 | ||
BDNF has opposite effects on the quantal amplitude of pyramidal neuron and interneuron excitatory synapses | Q48377879 | ||
Differential involvement of beta3 integrin in pre- and postsynaptic forms of adaptation to chronic activity deprivation | Q48407259 | ||
Multiple forms of synaptic plasticity triggered by selective suppression of activity in individual neurons. | Q48435334 | ||
Potentiation of cortical inhibition by visual deprivation. | Q48438986 | ||
Physiological activity depresses synaptic function through an effect on vesicle priming. | Q48496625 | ||
Activity-dependent regulation of inhibitory synaptic transmission in hippocampal neurons. | Q48595994 | ||
Transient incorporation of native GluR2-lacking AMPA receptors during hippocampal long-term potentiation. | Q48596002 | ||
B-ephrin reverse signaling is required for NMDA-independent long-term potentiation of mossy fibers in the hippocampus. | Q48600842 | ||
The interplay between homeostatic synaptic plasticity and functional dendritic compartments. | Q48607868 | ||
Asymmetric relationships between homosynaptic long-term potentiation and heterosynaptic long-term depression. | Q48724494 | ||
Role of intercellular interactions in heterosynaptic long-term depression. | Q49013325 | ||
Two opposing plasticity mechanisms pulling a single synapse. | Q51620837 | ||
Synaptic activity at calcium-permeable AMPA receptors induces a switch in receptor subtype | Q57985772 | ||
Activity-dependent modulation of synaptic AMPA receptor accumulation | Q77694459 | ||
Diffusional trapping of GluR1 AMPA receptors by input-specific synaptic activity | Q36012397 | ||
Synaptic contact dynamics controlled by cadherin and catenins | Q36091990 | ||
Role of retinoid signalling in the adult brain | Q36121406 | ||
Mapping behaviorally relevant neural circuits with immediate-early gene expression. | Q36252617 | ||
Is the dysbindin gene (DTNBP1) a susceptibility gene for schizophrenia? | Q36258629 | ||
Homeostatic regulation of AMPA receptor expression at single hippocampal synapses | Q36393047 | ||
Homeostatic regulation of glutamate release in response to depolarization | Q36444338 | ||
Homeostatic control of neural activity: from phenomenology to molecular design | Q36507590 | ||
The distribution and targeting of neuronal voltage-gated ion channels | Q36514764 | ||
RNA trafficking and local protein synthesis in dendrites: an overview. | Q36528261 | ||
Arc/Arg3.1: linking gene expression to synaptic plasticity and memory | Q36646566 | ||
BDNF: a key regulator for protein synthesis-dependent LTP and long-term memory? | Q36663584 | ||
Activity-induced protocadherin arcadlin regulates dendritic spine number by triggering N-cadherin endocytosis via TAO2beta and p38 MAP kinases | Q36713956 | ||
Sensing and expressing homeostatic synaptic plasticity. | Q36724238 | ||
Synaptic trafficking of glutamate receptors by MAGUK scaffolding proteins | Q36888399 | ||
Dendritic mRNA: transport, translation and function | Q36937891 | ||
Retinoic acid regulates RARalpha-mediated control of translation in dendritic RNA granules during homeostatic synaptic plasticity | Q36949110 | ||
Differential activity-dependent, homeostatic plasticity of two neocortical inhibitory circuits | Q36956872 | ||
Rapid translation of Arc/Arg3.1 selectively mediates mGluR-dependent LTD through persistent increases in AMPAR endocytosis rate | Q36966248 | ||
Persistence of experience-induced homeostatic synaptic plasticity through adulthood in superficial layers of mouse visual cortex | Q37012538 | ||
Role of the brain-derived neurotrophic factor at glutamatergic synapses. | Q37024497 | ||
Extracellular proteolysis by matrix metalloproteinase-9 drives dendritic spine enlargement and long-term potentiation coordinately | Q37039631 | ||
Synaptic scaling requires the GluR2 subunit of the AMPA receptor. | Q41821575 | ||
Arc/Arg3.1 mediates homeostatic synaptic scaling of AMPA receptors | Q41825065 | ||
Synapse-specific adaptations to inactivity in hippocampal circuits achieve homeostatic gain control while dampening network reverberation | Q41894908 | ||
Activity-induced Polo-like kinase 2 is required for homeostatic plasticity of hippocampal neurons during epileptiform activity | Q42029858 | ||
Local dendritic activity sets release probability at hippocampal synapses. | Q42440177 | ||
Computational subunits in thin dendrites of pyramidal cells | Q42462006 | ||
Activity-regulated N-cadherin endocytosis | Q42513714 | ||
Activity deprivation reduces miniature IPSC amplitude by decreasing the number of postsynaptic GABA(A) receptors clustered at neocortical synapses. | Q42670226 | ||
Mechanisms underlying the rapid induction and sustained expression of synaptic homeostasis. | Q43140542 | ||
Integrins mediate functional pre- and postsynaptic maturation at a hippocampal synapse | Q43611053 | ||
Dynamic visualization of local protein synthesis in hippocampal neurons | Q43631820 | ||
Synaptic strength regulated by palmitate cycling on PSD-95. | Q43960568 | ||
Formation of dendritic spines with GABAergic synapses induced by whisker stimulation in adult mice. | Q43968745 | ||
Cellular mechanisms regulating activity-dependent release of native brain-derived neurotrophic factor from hippocampal neurons. | Q44228549 | ||
alpha- and betaCaMKII. Inverse regulation by neuronal activity and opposing effects on synaptic strength | Q44258612 | ||
Activity-dependent regulation of dendritic synthesis and trafficking of AMPA receptors | Q44760632 | ||
Plastic elimination of functional glutamate release sites by depolarization. | Q44889380 | ||
Regulation of dendritic protein synthesis by miniature synaptic events. | Q44952134 | ||
Different forms of homeostatic plasticity are engaged with distinct temporal profiles | Q44984996 | ||
Genetic analysis of glutamate receptors in Drosophila reveals a retrograde signal regulating presynaptic transmitter release. | Q45978235 | ||
Brain extracellular matrix affects AMPA receptor lateral mobility and short-term synaptic plasticity. | Q45988828 | ||
Comparison of hippocampal dendritic spines in culture and in brain. | Q45993656 | ||
Postsynaptic PKA controls quantal size and reveals a retrograde signal that regulates presynaptic transmitter release in Drosophila. | Q46152434 | ||
An essential role for retinoid receptors RARbeta and RXRgamma in long-term potentiation and depression | Q46249486 | ||
Miniature neurotransmission stabilizes synaptic function via tonic suppression of local dendritic protein synthesis. | Q46267461 | ||
Postsynaptic expression of homeostatic plasticity at neocortical synapses. | Q46384452 | ||
Presynaptic regulation of quantal size by the vesicular glutamate transporter VGLUT1. | Q46575284 | ||
Synapse-specific regulation of AMPA receptor subunit composition by activity. | Q46586676 | ||
Adaptation to synaptic inactivity in hippocampal neurons | Q46616710 | ||
Homeostatic scaling of vesicular glutamate and GABA transporter expression in rat neocortical circuits. | Q46633771 | ||
Differential regulation of AMPA receptor subunit trafficking by palmitoylation of two distinct sites. | Q46675513 | ||
Biosynthesis and processing of endogenous BDNF: CNS neurons store and secrete BDNF, not pro-BDNF. | Q46801720 | ||
Retinocollicular synapse maturation and plasticity are regulated by correlated retinal waves. | Q46825777 | ||
Synapse-specific control of synaptic efficacy at the terminals of a single neuron | Q46853657 | ||
Integrins control dendritic spine plasticity in hippocampal neurons through NMDA receptor and Ca2+/calmodulin-dependent protein kinase II-mediated actin reorganization. | Q46935402 | ||
Postsynaptic decoding of neural activity: eEF2 as a biochemical sensor coupling miniature synaptic transmission to local protein synthesis | Q46950342 | ||
Network stability through homeostatic scaling of excitatory and inhibitory synapses following inactivity in CA3 of rat organotypic hippocampal slice cultures | Q46962414 | ||
Regulation of AMPA receptor trafficking by N-cadherin | Q46974181 | ||
Inactivity produces increases in neurotransmitter release and synapse size | Q47198414 | ||
Homeostatic regulation of eye-specific responses in visual cortex during ocular dominance plasticity | Q48130648 | ||
Development of rat CA1 neurones in acute versus organotypic slices: role of experience in synaptic morphology and activity. | Q48246019 | ||
Conservation of total synaptic weight through balanced synaptic depression and potentiation | Q48346111 | ||
The extracellular matrix: not just pretty fibrils | Q29617251 | ||
AMPA Receptor Trafficking at Excitatory Synapses | Q29617540 | ||
The postsynaptic architecture of excitatory synapses: a more quantitative view | Q29617941 | ||
Cloned glutamate receptors | Q29619950 | ||
Neuronal diversity and temporal dynamics: the unity of hippocampal circuit operations | Q29620030 | ||
Activity-dependent scaling of GABAergic synapse strength is regulated by brain-derived neurotrophic factor | Q30436721 | ||
Regulation of AMPA receptor extrasynaptic insertion by 4.1N, phosphorylation and palmitoylation | Q30488873 | ||
Homeostatic plasticity studied using in vivo hippocampal activity-blockade: synaptic scaling, intrinsic plasticity and age-dependence | Q33293516 | ||
Homeostatic plasticity in hippocampal slice cultures involves changes in voltage-gated Na+ channel expression | Q33593146 | ||
Homeostatic plasticity in neuronal networks: the more things change, the more they stay the same | Q33633054 | ||
Can molecules explain long-term potentiation? | Q33686284 | ||
Chronic blockade of glutamate receptors enhances presynaptic release and downregulates the interaction between synaptophysin-synaptobrevin-vesicle-associated membrane protein 2. | Q34087744 | ||
GABAergic mechanisms in epilepsy | Q34087973 | ||
Critical periods for experience-dependent synaptic scaling in visual cortex | Q34134898 | ||
Maintaining the stability of neural function: a homeostatic hypothesis | Q34142206 | ||
Auxiliary subunits assist AMPA-type glutamate receptors | Q34499250 | ||
Temporal regulation of the expression locus of homeostatic plasticity. | Q34535800 | ||
Variability, compensation and homeostasis in neuron and network function | Q34540735 | ||
Arc/Arg3.1 is essential for the consolidation of synaptic plasticity and memories. | Q34579673 | ||
Extracellular interactions between GluR2 and N-cadherin in spine regulation | Q34625629 | ||
Synaptic plasticity, memory and the hippocampus: a neural network approach to causality. | Q34727978 | ||
Rapid synaptic scaling induced by changes in postsynaptic firing | Q34764655 | ||
Synaptic mechanisms for plasticity in neocortex | Q34767350 | ||
Neuroinflammation and synaptic plasticity: theoretical basis for a novel, immune-centred, therapeutic approach to neurological disorders. | Q34794518 | ||
Homeostatic shutdown of long-term potentiation in the adult hippocampus | Q34984286 | ||
Electrophysiology in the age of light | Q35008002 | ||
BDNF regulates the intrinsic excitability of cortical neurons | Q35039394 | ||
Dendrites: bug or feature? | Q35172828 | ||
REORGANIZATION OF FUNCTION IN THE NERVOUS SYSTEM--USE AND DISUSE. | Q35437641 | ||
Compartmentalized synthesis and degradation of proteins in neurons. | Q35558440 | ||
The other side of the engram: experience-driven changes in neuronal intrinsic excitability | Q35574540 | ||
Synaptic gain control and homeostasis. | Q35589893 | ||
Regulation of CNS synapses by neuronal MHC class I. | Q35800404 | ||
Cross-modal regulation of synaptic AMPA receptors in primary sensory cortices by visual experience | Q35866951 | ||
beta-Catenin regulates excitatory postsynaptic strength at hippocampal synapses | Q35941353 | ||
Defined types of cortical interneurone structure space and spike timing in the hippocampus | Q35946394 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | synaptic plasticity | Q1551556 |
P304 | page(s) | 337-351 | |
P577 | publication date | 2010-05-01 | |
P1433 | published in | Neuron | Q3338676 |
P1476 | title | Unraveling mechanisms of homeostatic synaptic plasticity | |
P478 | volume | 66 |
Q35879418 | 5-Hydroxytryptamine 5HT2C receptors form a protein complex with N-methyl-D-aspartate GluN2A subunits and activate phosphorylation of Src protein to modulate motoneuronal depolarization |
Q55318115 | A Glutamate Homeostat Controls the Presynaptic Inhibition of Neurotransmitter Release. |
Q33683546 | A Model of Fast Hebbian Spike Latency Normalization |
Q41201206 | A Presynaptic Glutamate Receptor Subunit Confers Robustness to Neurotransmission and Homeostatic Potentiation |
Q92563853 | A Screen for Synaptic Growth Mutants Reveals Mechanisms That Stabilize Synaptic Strength |
Q28941201 | A critical and cell-autonomous role for MeCP2 in synaptic scaling up |
Q28073361 | A decade of the anaphase-promoting complex in the nervous system |
Q42005628 | A molecular mechanism underlying gustatory memory trace for an association in the insular cortex |
Q41902191 | A pre-docking source for the power-law behavior of spontaneous quantal release: application to the analysis of LTP. |
Q35218861 | A single-cross, RNA interference-based genetic tool for examining the long-term maintenance of homeostatic plasticity |
Q38098163 | AMPA receptor trafficking and the mechanisms underlying synaptic plasticity and cognitive aging |
Q35986591 | AMPA receptor trafficking in homeostatic synaptic plasticity: functional molecules and signaling cascades. |
Q58478968 | APCCdh1 mediates EphA4-dependent downregulation of AMPA receptors in homeostatic plasticity |
Q47644510 | Acquisition of conditioned fear is followed by region-specific changes in RNA editing of glutamate receptors |
Q90008953 | Activity Dependent and Independent Determinants of Synaptic Size Diversity |
Q89091501 | Activity-Induced Regulation of Synaptic Strength through the Chromatin Reader L3mbtl1 |
Q28661510 | Activity-dependent adaptations in inhibitory axons |
Q35845730 | Activity-dependent synaptic GRIP1 accumulation drives synaptic scaling up in response to action potential blockade |
Q96116480 | Activity-dependent tuning of intrinsic excitability in mouse and human neurogliaform cells |
Q41431751 | Activity-mediated AMPA receptor remodeling, driven by alternative splicing in the ligand-binding domain |
Q36559284 | Activity-regulated RNA editing in select neuronal subfields in hippocampus. |
Q36731631 | Adar is essential for optimal presynaptic function |
Q37384924 | Age, plasticity, and homeostasis in childhood brain disorders |
Q38954270 | Alterations in Prefrontal Cortical Circuitry and Cognitive Dysfunction in Schizophrenia. |
Q30459380 | Axial organization of a brain region that sequences a learned pattern of behavior |
Q34181026 | Axon physiology |
Q35205303 | BMP signaling and microtubule organization regulate synaptic strength |
Q30371601 | Behavioral, Neurophysiological, and Synaptic Impairment in a Transgenic Neuregulin1 (NRG1-IV) Murine Schizophrenia Model. |
Q35931031 | C-terminal Src Kinase Gates Homeostatic Synaptic Plasticity and Regulates Fasciclin II Expression at the Drosophila Neuromuscular Junction |
Q28507701 | Calcineurin mediates synaptic scaling via synaptic trafficking of Ca2+-permeable AMPA receptors |
Q35851372 | Calcium-independent inhibitory G-protein signaling induces persistent presynaptic muting of hippocampal synapses |
Q48911821 | Carbon nanotube scaffolds tune synaptic strength in cultured neural circuits: novel frontiers in nanomaterial-tissue interactions. |
Q27002483 | Cell biology in neuroscience: the interplay between Hebbian and homeostatic synaptic plasticity |
Q34845122 | Charles Bonnet syndrome: evidence for a generative model in the cortex? |
Q89568573 | Cholinergic Homeostatic Synaptic Plasticity Drives the Progression of Aβ-Induced Changes in Neural Activity |
Q36770913 | Chronic electrical stimulation homeostatically decreases spontaneous activity, but paradoxically increases evoked network activity |
Q37244789 | Chronic inactivation of a neural circuit enhances LTP by inducing silent synapse formation |
Q27347234 | Circadian dynamics in measures of cortical excitation and inhibition balance. |
Q47988686 | Circadian rhythmicity of synapses in mouse somatosensory cortex. |
Q35709305 | Compensatory plasticity restores locomotion after chronic removal of descending projections |
Q41282687 | Cooperative stochastic binding and unbinding explain synaptic size dynamics and statistics. |
Q90636928 | Cortical Circuit Dynamics Are Homeostatically Tuned to Criticality In Vivo |
Q26822851 | Cortical parvalbumin interneurons and cognitive dysfunction in schizophrenia |
Q91666358 | Cul3 and insomniac are required for rapid ubiquitination of postsynaptic targets and retrograde homeostatic signaling |
Q48931039 | Degeneration of cortical function in the Royal College of Surgeons rat. |
Q35894234 | Dendritic position is a major determinant of presynaptic strength. |
Q33552302 | Developmental nicotine exposure alters AMPA neurotransmission in the hypoglossal motor nucleus and pre-Botzinger complex of neonatal rats |
Q36363025 | Developmental nicotine exposure enhances inhibitory synaptic transmission in motor neurons and interneurons critical for normal breathing |
Q36768200 | Developmental regulation and activity-dependent maintenance of GABAergic presynaptic inhibition onto rod bipolar cell axonal terminals |
Q39989069 | Differential control of presynaptic efficacy by postsynaptic N-cadherin and β-catenin |
Q41962449 | Differential targeting of dynamin-1 and dynamin-3 to nerve terminals during chronic suppression of neuronal activity |
Q90553036 | Dp71-Dystrophin Deficiency Alters Prefrontal Cortex Excitation-Inhibition Balance and Executive Functions |
Q41605533 | Dynamic Neural Fields with Intrinsic Plasticity |
Q49310385 | Dysbindin links presynaptic proteasome function to homeostatic recruitment of low release probability vesicles. |
Q36105453 | Editorial: Homeostatic and retrograde signaling mechanisms modulating presynaptic function and plasticity |
Q34118141 | Effects of non-pharmacological or pharmacological interventions on cognition and brain plasticity of aging individuals. |
Q38322135 | Electrical activity can impose time of day on the circadian transcriptome of pacemaker neurons |
Q26750576 | Emerging Link between Alzheimer's Disease and Homeostatic Synaptic Plasticity |
Q37330995 | Emerging links between homeostatic synaptic plasticity and neurological disease |
Q34107387 | Endocytic adaptor epidermal growth factor receptor substrate 15 (Eps15) is involved in the trafficking of ubiquitinated α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptors |
Q34189736 | Entorhinal denervation induces homeostatic synaptic scaling of excitatory postsynapses of dentate granule cells in mouse organotypic slice cultures |
Q38005129 | Erasing synapses in sleep: is it time to be SHY? |
Q47753078 | Erythropoietin Induces Homeostatic Plasticity at Hippocampal Synapses. |
Q35829516 | Evolution of Network Synchronization during Early Epileptogenesis Parallels Synaptic Circuit Alterations |
Q61919264 | Excitable neuronal assemblies with adaptation as a building block of brain circuits for velocity-controlled signal propagation |
Q26796321 | Excitatory/Inhibitory Balance and Circuit Homeostasis in Autism Spectrum Disorders |
Q41250723 | Experience-Dependent Induction of Hippocampal ΔFosB Controls Learning |
Q45970083 | Extensive remodeling of the presynaptic cytomatrix upon homeostatic adaptation to network activity silencing. |
Q39292701 | Extracellular alpha-synuclein oligomers modulate synaptic transmission and impair LTP via NMDA-receptor activation. |
Q37275351 | Firing rate homeostasis in visual cortex of freely behaving rodents |
Q38569746 | From the genetic architecture to synaptic plasticity in autism spectrum disorder |
Q90727535 | Functional Recovery of a Locomotor Network after Injury: Plasticity beyond the Central Nervous System |
Q36254126 | Functional adaptation of cortical interneurons to attenuated activity is subtype-specific |
Q47140291 | Fundamental Elements in Autism: From Neurogenesis and Neurite Growth to Synaptic Plasticity. |
Q37244339 | GKAP orchestrates activity-dependent postsynaptic protein remodeling and homeostatic scaling. |
Q34975533 | GluA2-lacking, calcium-permeable AMPA receptors--inducers of plasticity? |
Q39933875 | GluA4 subunit of AMPA receptors mediates the early synaptic response to altered network activity in the developing hippocampus. |
Q53081442 | Glutamate receptor δ2 is essential for input pathway-dependent regulation of synaptic AMPAR contents in cerebellar Purkinje cells. |
Q39548986 | Glutathione is a physiologic reservoir of neuronal glutamate |
Q90296315 | HIV gp120-induced neuroinflammation potentiates NMDA receptors to overcome basal suppression of inhibitory synapses by p38 MAPK |
Q43184110 | Heat shock response and homeostatic plasticity |
Q91635058 | Hebbian and Homeostatic Synaptic Plasticity-Do Alterations of One Reflect Enhancement of the Other? |
Q48678215 | Hebbian neuroplasticity versus meta-neuroplasticity and the relevance for neurosurgical innovation. |
Q39643564 | Homeostatic Activity-Dependent Tuning of Recurrent Networks for Robust Propagation of Activity |
Q49134847 | Homeostatic NMDA receptor down-regulation via brain derived neurotrophic factor and nitric oxide-dependent signalling in cortical but not in hippocampal neurons. |
Q47577142 | Homeostatic Plasticity Shapes Cell-Type-Specific Wiring in the Retina |
Q90297644 | Homeostatic control of Drosophila neuromuscular junction function |
Q26829672 | Homeostatic plasticity at the Drosophila neuromuscular junction |
Q55032756 | Homeostatic plasticity in neural development. |
Q48550236 | Homeostatic plasticity induced by brief activity deprivation enhances long-term potentiation in the mature rat hippocampus. |
Q35619343 | Homeostatic regulation of AMPA receptor trafficking and degradation by light-controlled single-synaptic activation |
Q47227298 | Homeostatic regulation of gephyrin scaffolds and synaptic strength at mature hippocampal GABAergic postsynapses |
Q92635075 | Homeostatic scaling of active zone scaffolds maintains global synaptic strength |
Q26828913 | Homeostatic synaptic plasticity: from single synapses to neural circuits |
Q28253074 | Homeostatic synaptic plasticity: local and global mechanisms for stabilizing neuronal function |
Q41858721 | Homeostatic synaptic scaling is regulated by protein SUMOylation. |
Q37584846 | How voltage-gated calcium channels gate forms of homeostatic synaptic plasticity |
Q36612395 | IL-1RAcPb signaling regulates adaptive mechanisms in neurons that promote their long-term survival following excitotoxic insults |
Q34769537 | Impaired activity-dependent plasticity of quantal amplitude at the neuromuscular junction of Rab3A deletion and Rab3A earlybird mutant mice |
Q26769948 | In Sickness and in Health: Perineuronal Nets and Synaptic Plasticity in Psychiatric Disorders |
Q36865722 | In vivo synaptic scaling is mediated by GluA2-lacking AMPA receptors in the embryonic spinal cord. |
Q37464994 | Inactivity-induced increase in nAChRs upregulates Shal K(+) channels to stabilize synaptic potentials |
Q93069431 | Inefficient neural system stabilization: a theory of spontaneous resolutions and recurrent relapses in psychosis |
Q35989820 | Influence of isotretinoin on hippocampal-based learning in human subjects |
Q37823450 | Inhibition of learning and memory by general anesthetics |
Q58361490 | Innervation by a GABAergic Neuron Depresses Spontaneous Release in Glutamatergic Neurons and Unveils the Clamping Phenotype of Synaptotagmin-1 |
Q38998162 | Integrins in synapse regulation |
Q35437246 | Intermittent reductions in respiratory neural activity elicit spinal TNF-α-independent, atypical PKC-dependent inactivity-induced phrenic motor facilitation |
Q38221636 | Is the din really harmless? Long-term effects of non-traumatic noise on the adult auditory system. |
Q48897734 | Learning rule of homeostatic synaptic scaling: presynaptic dependent or not. |
Q34613277 | Local presynaptic activity gates homeostatic changes in presynaptic function driven by dendritic BDNF synthesis |
Q37844877 | Long-term plasticity at inhibitory synapses |
Q27333562 | Long-term relationships between cholinergic tone, synchronous bursting and synaptic remodeling |
Q54244939 | Lung-injury depresses glutamatergic synaptic transmission in the nucleus tractus solitarii via discrete age-dependent mechanisms in neonatal rats. |
Q38167461 | MET receptor tyrosine kinase as an autism genetic risk factor |
Q48129686 | MSK1 regulates homeostatic and experience-dependent synaptic plasticity. |
Q64986819 | Maintenance of homeostatic plasticity at the Drosophila neuromuscular synapse requires continuous IP3-directed signaling. |
Q42520841 | Maintenance of long-term potentiation in hippocampal mossy fiber-CA3 pathway requires fine-tuned MMP-9 proteolytic activity |
Q30538200 | Mammalian target of rapamycin complex 1 activation negatively regulates Polo-like kinase 2-mediated homeostatic compensation following neonatal seizures. |
Q26827695 | Mechanisms of GABAergic homeostatic plasticity |
Q38848659 | Mechanisms of homeostatic plasticity in the excitatory synapse. |
Q36392115 | MicroRNA miR124 is required for the expression of homeostatic synaptic plasticity. |
Q38033846 | MicroRNAs shape the neuronal landscape |
Q90470751 | Mitf links neuronal activity and long-term homeostatic intrinsic plasticity |
Q64109783 | Mitochondrial Regulation of the Hippocampal Firing Rate Set Point and Seizure Susceptibility |
Q36106861 | Modeling of Age-Dependent Epileptogenesis by Differential Homeostatic Synaptic Scaling. |
Q26776200 | Models of Metaplasticity: A Review of Concepts |
Q41841224 | Modulation of synaptic vesicle exocytosis in muscle-dependent long-term depression at the amphibian neuromuscular junction |
Q37982711 | Molecular mechanisms underlying memory consolidation of taste information in the cortex |
Q34440710 | Morphine- and CaMKII-dependent enhancement of GIRK channel signaling in hippocampal neurons |
Q37699235 | Morphometry of hilar ectopic granule cells in the rat |
Q42731976 | Mossy fiber-CA3 synapses mediate homeostatic plasticity in mature hippocampal neurons |
Q37397878 | Motor skill training induces coordinated strengthening and weakening between neighboring synapses |
Q38671424 | Muscle disuse caused by botulinum toxin injection leads to increased central gain of the stretch reflex in the rat. |
Q42142389 | Nanoscale Structural Plasticity of the Active Zone Matrix Modulates Presynaptic Function. |
Q47918739 | Neural plasticity and its initiating conditions in tinnitus |
Q30467280 | Neural plasticity expressed in central auditory structures with and without tinnitus |
Q47441397 | Neuronal Population Activity in Spinal Motor Circuits: Greater Than the Sum of Its Parts |
Q34295237 | Neuronal SUMOylation: mechanisms, physiology, and roles in neuronal dysfunction |
Q38833652 | Neuronal activity controls transsynaptic geometry |
Q37873912 | Neurotransmitter phenotype plasticity: an unexpected mechanism in the toolbox of network activity homeostasis. |
Q37282538 | New approaches for studying synaptic development, function, and plasticity using Drosophila as a model system |
Q26774569 | Nitric Oxide-Mediated Posttranslational Modifications: Impacts at the Synapse |
Q98184971 | Ocular Dominance Plasticity: molecular mechanisms revisited |
Q37692691 | Olig1 function is required to repress dlx1/2 and interneuron production in Mammalian brain |
Q44018823 | Ongoing intrinsic synchronous activity is required for the functional maturation of CA3-CA1 glutamatergic synapses. |
Q27329999 | Orofacial Neuropathic Pain Leads to a Hyporesponsive Barrel Cortex with Enhanced Structural Synaptic Plasticity |
Q46931246 | Overstimulation of glutamate signals leads to hippocampal transcriptional plasticity in hamsters. |
Q41894144 | PSD-95 and PSD-93 play critical but distinct roles in synaptic scaling up and down. |
Q47864592 | Parvalbumin fast-spiking interneurons are selectively altered by pediatric traumatic brain injury |
Q28484921 | Pathway analysis reveals common pro-survival mechanisms of metyrapone and carbenoxolone after traumatic brain injury |
Q36520132 | Peripheral nerve injury produces a sustained shift in the balance between glutamate release and uptake in the dorsal horn of the spinal cord |
Q38908062 | Plasticity in respiratory motor neurons in response to reduced synaptic inputs: A form of homeostatic plasticity in respiratory control? |
Q37855566 | Plasticity resembling spike-timing dependent synaptic plasticity: the evidence in human cortex |
Q41790551 | Plk2 Raps up Ras to subdue synapses |
Q35815729 | Postsynaptic VAMP/Synaptobrevin Facilitates Differential Vesicle Trafficking of GluA1 and GluA2 AMPA Receptor Subunits |
Q28393157 | Pre-symptomatic activation of antioxidant responses and alterations in glucose and pyruvate metabolism in Niemann-Pick Type C1-deficient murine brain |
Q61047815 | Prescription Opioid Fatalities: Examining Why the Healer Could be the Culprit |
Q35190094 | Presenilin 1 regulates homeostatic synaptic scaling through Akt signaling |
Q36954605 | Presynaptic inhibition upon CB1 or mGlu2/3 receptor activation requires ERK/MAPK phosphorylation of Munc18-1. |
Q37633674 | Presynaptically silent synapses: dormancy and awakening of presynaptic vesicle release. |
Q39761310 | Probing glycine receptor stoichiometry in superficial dorsal horn neurones using the spasmodic mouse. |
Q41453888 | Prolonged esophageal acid exposures induce synaptic downscaling of cortical membrane AMPA receptor subunits in rats |
Q94502420 | Pumilio Regulates Sleep Homeostasis in Response to Chronic Sleep Deprivation in Drosophila melanogaster |
Q38820173 | Pushing the threshold: How NMDAR antagonists induce homeostasis through protein synthesis to remedy depression. |
Q41825327 | REST/NRSF-mediated intrinsic homeostasis protects neuronal networks from hyperexcitability. |
Q52719093 | Rapid active zone remodeling during synaptic plasticity. |
Q48273237 | Rapid synaptic remodeling in the adult somatosensory cortex following peripheral nerve injury and its association with neuropathic pain. |
Q38128213 | Receptor trafficking and the regulation of synaptic plasticity by SUMO. |
Q28080650 | Reconciling homeostatic and use-dependent plasticity in the context of somatosensory deprivation |
Q36271540 | Reduction of increased calcineurin activity rescues impaired homeostatic synaptic plasticity in presenilin 1 M146V mutant. |
Q47112846 | Regulation of AMPA Receptor Trafficking by Protein Ubiquitination. |
Q36173005 | Relative Contributions of Specific Activity Histories and Spontaneous Processes to Size Remodeling of Glutamatergic Synapses |
Q24634051 | Removing brakes on adult brain plasticity: from molecular to behavioral interventions |
Q47774666 | Replicating receptive fields of simple and complex cells in primary visual cortex in a neuronal network model with temporal and population sparseness and reliability |
Q28508933 | Requirement for Plk2 in orchestrated ras and rap signaling, homeostatic structural plasticity, and memory |
Q35738555 | Resveratrol up-regulates AMPA receptor expression via AMP-activated protein kinase-mediated protein translation |
Q34307603 | Retrograde plasticity and differential competition of bipolar cell dendrites and axons in the developing retina |
Q29347165 | SNARE Protein Syntaxin-1 Colocalizes Closely with NMDA Receptor Subunit NR2B in Postsynaptic Spines in the Hippocampus. |
Q35763428 | Self-organization in Balanced State Networks by STDP and Homeostatic Plasticity |
Q36419342 | Short-term synaptic plasticity compensates for variability in number of motor neurons at a neuromuscular junction |
Q39105412 | Sleep and plasticity in the visual cortex: more than meets the eye. |
Q38199648 | Sleep and synaptic plasticity in the developing and adult brain |
Q41229475 | Sleep recalibrates homeostatic and associative synaptic plasticity in the human cortex. |
Q36091712 | Snapin is critical for presynaptic homeostatic plasticity |
Q37886398 | Specific sets of intrinsic and extrinsic factors drive excitatory and inhibitory circuit formation |
Q33954475 | Spontaneous Network Activity and Synaptic Development |
Q47998759 | Src homology 2 domain-containing phosphotyrosine phosphatase 2 (Shp2) controls surface GluA1 protein in synaptic homeostasis |
Q37847274 | Stabilising influence: integrins in regulation of synaptic plasticity |
Q89982514 | Structural Remodeling of Active Zones Is Associated with Synaptic Homeostasis |
Q27027863 | Structural homeostasis in the nervous system: a balancing act for wiring plasticity and stability |
Q43174617 | Sustained increase in α5GABAA receptor function impairs memory after anesthesia |
Q35082678 | SynGAP regulates protein synthesis and homeostatic synaptic plasticity in developing cortical networks |
Q95661093 | Synapse elimination activates a coordinated homeostatic presynaptic response in an autaptic circuit |
Q55114335 | Synapse-specific and compartmentalized expression of presynaptic homeostatic potentiation. |
Q35203314 | Synaptic autoregulation by metalloproteases and γ-secretase |
Q27005718 | Synaptic circuit remodelling by matrix metalloproteinases in health and disease |
Q28652310 | Synaptic clustering within dendrites: an emerging theory of memory formation |
Q35417476 | Synaptic microcircuit dysfunction in genetic models of neurodevelopmental disorders: focus on Mecp2 and Met. |
Q31133385 | Synaptic state matching: a dynamical architecture for predictive internal representation and feature detection |
Q28566070 | Synaptic strength is bidirectionally controlled by opposing activity-dependent regulation of Nedd4-1 and USP8 |
Q42098033 | Synaptic up-scaling preserves motor circuit output after chronic, natural inactivity. |
Q36855064 | Synaptopodin regulates denervation-induced homeostatic synaptic plasticity |
Q38813095 | Systematic evaluation of the impact of stimulation intensity on neuroplastic after-effects induced by transcranial direct current stimulation |
Q42513838 | Temporal coupling with cortex distinguishes spontaneous neuronal activities in identified basal ganglia-recipient and cerebellar-recipient zones of the motor thalamus. |
Q42065638 | Temporal dynamics of a homeostatic pathway controlling neural network activity |
Q61450670 | Temporospatial guidance of activity-dependent gene expression by microRNA: mechanisms and functional implications for neural plasticity |
Q28386297 | Ten years of Nature Reviews Neuroscience: insights from the highly cited |
Q36149640 | The Edge of Stability: Response Times and Delta Oscillations in Balanced Networks |
Q48185451 | The Effects of Cardiotrophin-1 on Early Synaptic Mitochondrial Dysfunction and Synaptic Pathology in APPswe/PS1dE9 Mice |
Q36548146 | The Homeostatic Interaction Between Anodal Transcranial Direct Current Stimulation and Motor Learning in Humans is Related to GABAA Activity |
Q47070217 | The Ly6 neurotoxin-like molecule target of wit regulates spontaneous neurotransmitter release at the developing neuromuscular junction in Drosophila. |
Q28572147 | The autism and schizophrenia associated gene CYFIP1 is critical for the maintenance of dendritic complexity and the stabilization of mature spines |
Q48159153 | The calcium sensor synaptotagmin 1 is expressed and regulated in hippocampal postsynaptic spines. |
Q42070353 | The cytochrome c gene proximal enhancer drives activity-dependent reporter gene expression in hippocampal neurons |
Q40007950 | The dependence of neuronal encoding efficiency on Hebbian plasticity and homeostatic regulation of neurotransmitter release |
Q39091228 | The dialectic of Hebb and homeostasis. |
Q37339213 | The hyperexcitability of dentate granule neurons in organotypic hippocampal slice cultures is due to reorganization of synaptic inputs in vitro |
Q38032482 | The pharmacology of neuroplasticity induced by non-invasive brain stimulation: building models for the clinical use of CNS active drugs |
Q84944578 | The presynaptic active zone protein RIM1α controls epileptogenesis following status epilepticus |
Q41693925 | The role of glutamate transporters in the pathophysiology of neuropsychiatric disorders |
Q100945888 | The soluble neurexin-1β ectodomain causes calcium influx and augments dendritic outgrowth and synaptic transmission |
Q52367971 | The tetrapartite synapse: a key concept in the pathophysiology of schizophrenia. |
Q34615806 | The theoretical model of theta burst form of repetitive transcranial magnetic stimulation |
Q27348339 | Tinnitus is associated with reduced sound level tolerance in adolescents with normal audiograms and otoacoustic emissions |
Q47650436 | Tinnitus: Prospects for Pharmacological Interventions With a Seesaw Model |
Q37699493 | Transcriptional and epigenetic regulation of Hebbian and non-Hebbian plasticity |
Q27349241 | Transferrin Receptor Controls AMPA Receptor Trafficking Efficiency and Synaptic Plasticity |
Q92173342 | Triiodothyronine modulates neuronal plasticity mechanisms to enhance functional outcome after stroke |
Q41881585 | Tumor necrosis factor (TNF)-receptor 1 and 2 mediate homeostatic synaptic plasticity of denervated mouse dentate granule cells |
Q30372474 | Underlying mechanisms of tinnitus: review and clinical implications |
Q48423991 | Unsupervised formation of vocalization-sensitive neurons: a cortical model based on short-term and homeostatic plasticity |
Q28572188 | Up-regulated cytoplasmic FMRP-interacting protein 1 in intractable temporal lobe epilepsy patients and a rat model |
Q37580094 | Upregulation of μ3A Drives Homeostatic Plasticity by Rerouting AMPAR into the Recycling Endosomal Pathway |
Q38017670 | Wherefore art thou, homeo(stasis)? Functional diversity in homeostatic synaptic plasticity |
Q41988582 | Why I am not shy: a reply to Tononi and Cirelli |
Q47993213 | miR-92a regulates expression of synaptic GluA1-containing AMPA receptors during homeostatic scaling. |
Q35708899 | β3 integrin interacts directly with GluA2 AMPA receptor subunit and regulates AMPA receptor expression in hippocampal neurons |
Q42147336 | β3 integrin is dispensable for conditioned fear and hebbian forms of plasticity in the hippocampus |
Search more.