| scholarly article | Q13442814 |
| P50 | author | Hey-Kyoung Lee | Q37841582 |
| P2093 | author name string | Emily Petrus | |
| Jessica L. Whitt | |||
| P2860 | cites work | Ca2+ permeability of KA-AMPA--gated glutamate receptor channels depends on subunit composition | Q24313118 |
| The period of susceptibility to the physiological effects of unilateral eye closure in kittens | Q24538859 | ||
| Obligatory role of NR2A for metaplasticity in visual cortex | Q24670490 | ||
| AMPA receptor regulation during synaptic plasticity in hippocampus and neocortex | Q26864960 | ||
| A role for calcium-permeable AMPA receptors in synaptic plasticity and learning | Q27319948 | ||
| Homeostatic plasticity in the developing nervous system | Q28239907 | ||
| Activity-dependent scaling of quantal amplitude in neocortical neurons | Q28264163 | ||
| RNA editing in brain controls a determinant of ion flow in glutamate-gated channels | Q28279138 | ||
| Characterization of multiple phosphorylation sites on the AMPA receptor GluR1 subunit | Q28282250 | ||
| Glutamate receptor ion channels: structure, regulation, and function | Q28290774 | ||
| Retinoic acid-gated sequence-specific translational control by RARalpha | Q28566452 | ||
| PKA phosphorylation of AMPA receptor subunits controls synaptic trafficking underlying plasticity | Q28574179 | ||
| Synaptic signaling by all-trans retinoic acid in homeostatic synaptic plasticity | Q28583711 | ||
| The self-tuning neuron: synaptic scaling of excitatory synapses | Q29616059 | ||
| Synaptic scaling mediated by glial TNF-alpha | Q29616816 | ||
| Homeostatic strengthening of inhibitory synapses is mediated by the accumulation of GABA(A) receptors | Q30425997 | ||
| Perspectives on: information and coding in mammalian sensory physiology: inhibitory synaptic mechanisms underlying functional diversity in auditory cortex | Q30470029 | ||
| Narp regulates homeostatic scaling of excitatory synapses on parvalbumin-expressing interneurons | Q30496836 | ||
| Hearing loss raises excitability in the auditory cortex. | Q30501065 | ||
| Thalamocortical inputs show post-critical-period plasticity. | Q30596754 | ||
| BDNF regulates the maturation of inhibition and the critical period of plasticity in mouse visual cortex | Q48104754 | ||
| Homeostatic regulation of eye-specific responses in visual cortex during ocular dominance plasticity | Q48130648 | ||
| Sleep and synaptic homeostasis: a hypothesis | Q48135356 | ||
| Efficacy of thalamocortical and intracortical synaptic connections: quanta, innervation, and reliability | Q48167972 | ||
| Rapid, experience-dependent expression of synaptic NMDA receptors in visual cortex in vivo | Q48235995 | ||
| Molecular mechanism for loss of visual cortical responsiveness following brief monocular deprivation. | Q48241543 | ||
| Regulation of morphological postsynaptic silent synapses in developing hippocampal neurons | Q48242593 | ||
| Reduction in number of immunostained GABAergic neurones in deprived-eye dominance columns of monkey area 17. | Q48353707 | ||
| BDNF has opposite effects on the quantal amplitude of pyramidal neuron and interneuron excitatory synapses | Q48377879 | ||
| Nonlinear dendritic processing determines angular tuning of barrel cortex neurons in vivo | Q48391197 | ||
| Potentiation of cortical inhibition by visual deprivation. | Q48438986 | ||
| In vivo two-photon imaging reveals a role of arc in enhancing orientation specificity in visual cortex. | Q48461077 | ||
| Differential dependence on GluR2 expression of three characteristic features of AMPA receptors. | Q48567940 | ||
| Transient incorporation of native GluR2-lacking AMPA receptors during hippocampal long-term potentiation. | Q48596002 | ||
| Enhanced LTP in mice deficient in the AMPA receptor GluR2. | Q48875091 | ||
| Excitatory synaptic inputs to spiny stellate cells in cat visual cortex. | Q48962194 | ||
| Ca2+ signaling requirements for long-term depression in the hippocampus. | Q49047357 | ||
| Distribution of neurones expressing inwardly rectifying and Ca(2+)-permeable AMPA receptors in rat hippocampal slices. | Q49056564 | ||
| Extent of recovery from the effects of visual deprivation in kittens | Q51245926 | ||
| Comparison of the effects of unilateral and bilateral eye closure on cortical unit responses in kittens | Q51245933 | ||
| A physiological basis for a theory of synapse modification. | Q52255807 | ||
| AMPA receptors with high Ca2+ permeability mediate synaptic transmission in the avian auditory pathway. | Q52352936 | ||
| Subunit composition at the single-cell level explains functional properties of a glutamate-gated channel | Q58051235 | ||
| The location and function of NMDA receptors in cat and kitten visual cortex | Q69371644 | ||
| Gamma-aminobutyric acid and somatostatin immunoreactivity in the visual cortex of normal and dark-reared rats | Q71798656 | ||
| Activity-dependent modulation of synaptic AMPA receptor accumulation | Q77694459 | ||
| Visual experience and deprivation bidirectionally modify the composition and function of NMDA receptors in visual cortex | Q31965180 | ||
| Ca(2+) permeable AMPA receptor induced long-term potentiation requires PI3/MAP kinases but not Ca/CaM-dependent kinase II. | Q33405238 | ||
| Phosphorylation of AMPA receptors is required for sensory deprivation-induced homeostatic synaptic plasticity | Q33869734 | ||
| A specific requirement of Arc/Arg3.1 for visual experience-induced homeostatic synaptic plasticity in mouse primary visual cortex. | Q33895981 | ||
| Sleep, learning, and dreams: off-line memory reprocessing | Q34100281 | ||
| Critical periods for experience-dependent synaptic scaling in visual cortex | Q34134898 | ||
| Emergence of cortical inhibition by coordinated sensory-driven plasticity at distinct synaptic loci | Q34176851 | ||
| Theory for the development of neuron selectivity: orientation specificity and binocular interaction in visual cortex | Q34277494 | ||
| Visual responses in adult cat visual cortex depend on N-methyl-D-aspartate receptors | Q34288439 | ||
| Mechanism for a sliding synaptic modification threshold | Q34300620 | ||
| Evidence for silent synapses: implications for the expression of LTP. | Q34303011 | ||
| Activation of postsynaptically silent synapses during pairing-induced LTP in CA1 region of hippocampal slice | Q34311517 | ||
| Visual deprivation suppresses L5 pyramidal neuron excitability by preventing the induction of intrinsic plasticity | Q34346145 | ||
| Arc-dependent synapse-specific homeostatic plasticity | Q34490539 | ||
| Monocular deprivation induces homosynaptic long-term depression in visual cortex | Q34491544 | ||
| Cross-modal plasticity: where and how? | Q34664973 | ||
| Brain area specific regulation of synaptic AMPA receptors by phosphorylation | Q35475743 | ||
| Developmental switch in the polarity of experience-dependent synaptic changes in layer 6 of mouse visual cortex | Q35544020 | ||
| Homeostatic plasticity mechanisms are required for juvenile, but not adult, ocular dominance plasticity | Q35709366 | ||
| Sensory deprivation without competition yields modest alterations of short-term synaptic dynamics. | Q35828682 | ||
| Cross-modal regulation of synaptic AMPA receptors in primary sensory cortices by visual experience | Q35866951 | ||
| β2-Adrenergic receptor supports prolonged theta tetanus-induced LTP | Q35994868 | ||
| A synaptic basis for memory storage in the cerebral cortex | Q35997034 | ||
| A precritical period for plasticity in visual cortex | Q36049244 | ||
| Sensory modality-specific homeostatic plasticity in the developing optic tectum | Q36152010 | ||
| Distinct sensory requirements for unimodal and cross-modal homeostatic synaptic plasticity | Q36239722 | ||
| Map plasticity in somatosensory cortex | Q36307093 | ||
| Dark exposure extends the integration window for spike-timing-dependent plasticity | Q36393338 | ||
| Serotonin mediates cross-modal reorganization of cortical circuits. | Q36415009 | ||
| NMDA receptors inhibit synapse unsilencing during brain development | Q36535421 | ||
| Bidirectional, experience-dependent regulation of N-methyl-D-aspartate receptor subunit composition in the rat visual cortex during postnatal development | Q36561463 | ||
| Ca2+-permeable AMPA receptors in synaptic plasticity and neuronal death | Q36726811 | ||
| Gain control by layer six in cortical circuits of vision | Q36797150 | ||
| The role of the GluR2 subunit in AMPA receptor function and synaptic plasticity. | Q36854587 | ||
| Retinoic acid regulates RARalpha-mediated control of translation in dendritic RNA granules during homeostatic synaptic plasticity | Q36949110 | ||
| Recovery from monocular deprivation using binocular deprivation | Q36956884 | ||
| Persistence of experience-induced homeostatic synaptic plasticity through adulthood in superficial layers of mouse visual cortex | Q37012538 | ||
| Multiple modes of network homeostasis in visual cortical layer 2/3. | Q37127176 | ||
| Mechanisms of sleep-dependent consolidation of cortical plasticity | Q37151430 | ||
| Thalamic activity that drives visual cortical plasticity | Q37160105 | ||
| Essential role for a long-term depression mechanism in ocular dominance plasticity | Q37200975 | ||
| Visual deprivation decreases somatic GAD65 puncta number on layer 2/3 pyramidal neurons in mouse visual cortex | Q37202014 | ||
| Chronic inactivation of a neural circuit enhances LTP by inducing silent synapse formation | Q37244789 | ||
| Stabilization of Ca2+-permeable AMPA receptors at perisynaptic sites by GluR1-S845 phosphorylation | Q37446524 | ||
| Ca-permeable AMPA receptors in homeostatic synaptic plasticity | Q37986040 | ||
| Polyamine-dependent facilitation of postsynaptic AMPA receptors counteracts paired-pulse depression | Q39435627 | ||
| A short-term mechanism of plasticity for interneurones? | Q39445331 | ||
| Facilitation of currents through rat Ca2+-permeable AMPA receptor channels by activity-dependent relief from polyamine block | Q39445641 | ||
| Tumor necrosis factor-alpha mediates one component of competitive, experience-dependent plasticity in developing visual cortex | Q41011574 | ||
| Divalent ion permeability of AMPA receptor channels is dominated by the edited form of a single subunit | Q41649334 | ||
| Synaptic scaling requires the GluR2 subunit of the AMPA receptor. | Q41821575 | ||
| Synapse-specific adaptations to inactivity in hippocampal circuits achieve homeostatic gain control while dampening network reverberation | Q41894908 | ||
| Neuromodulators control the polarity of spike-timing-dependent synaptic plasticity | Q41966354 | ||
| Evidence for altered NMDA receptor function as a basis for metaplasticity in visual cortex. | Q42170187 | ||
| Pull-push neuromodulation of LTP and LTD enables bidirectional experience-induced synaptic scaling in visual cortex | Q42198555 | ||
| Dopamine receptor stimulation modulates AMPA receptor synaptic insertion in prefrontal cortex neurons. | Q42482481 | ||
| Activity deprivation reduces miniature IPSC amplitude by decreasing the number of postsynaptic GABA(A) receptors clustered at neocortical synapses. | Q42670226 | ||
| Mossy fiber-CA3 synapses mediate homeostatic plasticity in mature hippocampal neurons | Q42731976 | ||
| Neonatal sensory deprivation and the development of cortical function: unilateral and bilateral sensory deprivation result in different functional outcomes | Q43081648 | ||
| Recruitment of calcium-permeable AMPA receptors during synaptic potentiation is regulated by CaM-kinase I. | Q43143735 | ||
| D(1) dopamine receptor stimulation increases GluR1 phosphorylation in postnatal nucleus accumbens cultures | Q44028692 | ||
| Pathway-specific trafficking of native AMPARs by in vivo experience | Q44265431 | ||
| NMDA receptor-dependent ocular dominance plasticity in adult visual cortex | Q44485260 | ||
| Synaptic transmission and plasticity in the absence of AMPA glutamate receptor GluR2 and GluR3. | Q44505353 | ||
| Activity-dependent regulation of dendritic synthesis and trafficking of AMPA receptors | Q44760632 | ||
| A quantitative map of the circuit of cat primary visual cortex. | Q45084921 | ||
| Experience-dependent plasticity of binocular responses in the primary visual cortex of the mouse. | Q45142156 | ||
| How monocular deprivation shifts ocular dominance in visual cortex of young mice | Q45189815 | ||
| Selective reconfiguration of layer 4 visual cortical circuitry by visual deprivation | Q46229886 | ||
| Miniature neurotransmission stabilizes synaptic function via tonic suppression of local dendritic protein synthesis. | Q46267461 | ||
| Conservation of glutamate receptor 2-containing AMPA receptors during long-term potentiation | Q46269497 | ||
| Adaptation to synaptic inactivity in hippocampal neurons | Q46616710 | ||
| Extrasynaptic membrane trafficking regulated by GluR1 serine 845 phosphorylation primes AMPA receptors for long-term potentiation | Q46792274 | ||
| Molecular and electrophysiological evidence for net synaptic potentiation in wake and depression in sleep | Q46801717 | ||
| Stimulus for rapid ocular dominance plasticity in visual cortex | Q46947170 | ||
| Emotion enhances learning via norepinephrine regulation of AMPA-receptor trafficking | Q46960872 | ||
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | synaptic plasticity | Q1551556 |
| P304 | page(s) | 45-54 | |
| P577 | publication date | 2014-03-01 | |
| P1433 | published in | Neuropharmacology | Q15332439 |
| P1476 | title | Experience-dependent homeostatic synaptic plasticity in neocortex | |
| P478 | volume | 78 |
| Q52317632 | Adult-Onset Hearing Impairment Induces Layer-Specific Cortical Reorganization: Evidence of Crossmodal Plasticity and Central Gain Enhancement. |
| Q42130091 | Are the mechanisms driving somatosensory reorganization cortical or subcortical? |
| Q33740069 | BACE1 is necessary for experience-dependent homeostatic synaptic plasticity in visual cortex |
| Q36501656 | Canalization of genetic and pharmacological perturbations in developing primary neuronal activity patterns |
| Q34006563 | Changes in input strength and number are driven by distinct mechanisms at the retinogeniculate synapse. |
| Q30418450 | Cochlear injury and adaptive plasticity of the auditory cortex. |
| Q92928453 | Compensatory Plasticity in the Lateral Extrastriate Visual Cortex Preserves Audiovisual Temporal Processing following Adult-Onset Hearing Loss |
| Q36076053 | Congenital Anophthalmia and Binocular Neonatal Enucleation Differently Affect the Proteome of Primary and Secondary Visual Cortices in Mice. |
| Q36307544 | Converging models of schizophrenia--Network alterations of prefrontal cortex underlying cognitive impairments |
| Q30419400 | Crossmodal induction of thalamocortical potentiation leads to enhanced information processing in the auditory cortex |
| Q47139983 | Homeostatic plasticity and synaptic scaling in the adult mouse auditory cortex |
| Q57158862 | Homeostatic synaptic plasticity as a metaplasticity mechanism - a molecular and cellular perspective |
| Q60952150 | How Senses Work Together: Cross-Modal Interactions between Primary Sensory Cortices |
| Q37584846 | How voltage-gated calcium channels gate forms of homeostatic synaptic plasticity |
| Q90344749 | Input-Specific Metaplasticity in the Visual Cortex Requires Homer1a-Mediated mGluR5 Signaling |
| Q35437246 | Intermittent reductions in respiratory neural activity elicit spinal TNF-α-independent, atypical PKC-dependent inactivity-induced phrenic motor facilitation |
| Q89991437 | Lamina-specific AMPA receptor dynamics following visual deprivation in vivo |
| Q92069559 | Mechanisms of Homeostatic Synaptic Plasticity in vivo |
| Q38848659 | Mechanisms of homeostatic plasticity in the excitatory synapse. |
| Q33785739 | NMDA Receptors Regulate the Structural Plasticity of Spines and Axonal Boutons in Hippocampal Interneurons. |
| Q39014196 | Neurophysiology and Regulation of the Balance Between Excitation and Inhibition in Neocortical Circuits |
| Q34974212 | Phasic and Tonic Inhibition are Maintained Respectively by CaMKII and PKA in the Rat Visual Cortex |
| Q92699009 | Putting the "Sensory" Into Sensorimotor Control: The Role of Sensorimotor Integration in Goal-Directed Hand Movements After Stroke |
| Q28821994 | Quinolinic acid injection in mouse medial prefrontal cortex affects reversal learning abilities, cortical connectivity and hippocampal synaptic plasticity |
| Q37493204 | Rapid recovery from the effects of early monocular deprivation is enabled by temporary inactivation of the retinas. |
| Q57792615 | Retinoic acid receptor RARα-dependent synaptic signaling mediates homeostatic synaptic plasticity at the inhibitory synapses of mouse visual cortex |
| Q48000923 | Social Isolation During the Critical Period Reduces Synaptic and Intrinsic Excitability of a Subtype of Pyramidal Cell in Mouse Prefrontal Cortex |
| Q37080046 | Spontaneous Release Regulates Synaptic Scaling in the Embryonic Spinal Network In Vivo |
| Q39286189 | Stability through variability: Homeostatic plasticity and psychological resilience |
| Q33698992 | Timing-dependent LTP and LTD in mouse primary visual cortex following different visual deprivation models |
| Q35707866 | Vision loss shifts the balance of feedforward and intracortical circuits in opposite directions in mouse primary auditory and visual cortices. |
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