| scholarly article | Q13442814 |
| P2093 | author name string | Michela Fagiolini | |
| Takao K Hensch | |||
| Kunihiko Obata | |||
| Youichi Iwai | |||
| P2860 | cites work | Mice lacking the 65 kDa isoform of glutamic acid decarboxylase (GAD65) maintain normal levels of GAD67 and GABA in their brains but are susceptible to seizures | Q28116644 |
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| Hippocampal GABA(A) channel conductance increased by diazepam | Q39454324 | ||
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| Selective modulation of tonic and phasic inhibitions in dentate gyrus granule cells | Q40644380 | ||
| CRE-mediated gene transcription in neocortical neuronal plasticity during the developmental critical period | Q41608432 | ||
| Activity deprivation reduces miniature IPSC amplitude by decreasing the number of postsynaptic GABA(A) receptors clustered at neocortical synapses. | Q42670226 | ||
| Developmental changes in the expression of GABA(A) receptor subunits (alpha(1), alpha(2), alpha(3)) in the cat visual cortex and the effects of dark rearing | Q43569914 | ||
| Dynamics of glycine receptor insertion in the neuronal plasma membrane. | Q43662808 | ||
| Enforcement of temporal fidelity in pyramidal cells by somatic feed-forward inhibition | Q43703062 | ||
| Cell type- and input-specific differences in the number and subtypes of synaptic GABA(A) receptors in the hippocampus. | Q43940149 | ||
| Formation of dendritic spines with GABAergic synapses induced by whisker stimulation in adult mice. | Q43968745 | ||
| PSA-NCAM immunoreactivity in chandelier cell axon terminals of the human temporal cortex | Q43988647 | ||
| Receptors with different affinities mediate phasic and tonic GABA(A) conductances in hippocampal neurons. | Q43990181 | ||
| Dark rearing alters the development of GABAergic transmission in visual cortex. | Q44132598 | ||
| Experience-dependent plasticity of binocular responses in the primary visual cortex of the mouse. | Q45142156 | ||
| Two isoforms of glutamate decarboxylase: why? | Q45345778 | ||
| BDNF regulates the maturation of inhibition and the critical period of plasticity in mouse visual cortex | Q48104754 | ||
| Functional postnatal development of the rat primary visual cortex and the role of visual experience: dark rearing and monocular deprivation | Q48161637 | ||
| Dark-reared cats: responsitivity of cortical cells influenced pharmacologically by an inhibitory antagonist | Q48234273 | ||
| Proteolysis of neuronal cell adhesion molecule by the tissue plasminogen activator-plasmin system after kainate injection in the mouse hippocampus | Q48252796 | ||
| Increased number of synaptic GABA(A) receptors underlies potentiation at hippocampal inhibitory synapses. | Q48392164 | ||
| Reactivation of ocular dominance plasticity in the adult visual cortex | Q48450295 | ||
| The effects of dark-rearing on the electrophysiology of the rat visual cortex | Q48528556 | ||
| Sequestration of gamma-aminobutyric acidA receptors on clathrin-coated vesicles during chronic benzodiazepine administration in vivo | Q48615264 | ||
| Very brief visual experience eliminates plasticity in the cat visual cortex. | Q48777157 | ||
| The effect of dark rearing on the time course of the critical period in cat visual cortex. | Q48793729 | ||
| Prolonged sensitivity to monocular deprivation in dark-reared cats: effects of age and visual exposure. | Q48797994 | ||
| Transplant of Schwann cells allows normal development of the visual cortex of dark-reared rats. | Q48806996 | ||
| Effects of early visual experience and diurnal rhythms on BDNF mRNA and protein levels in the visual system, hippocampus, and cerebellum. | Q48873661 | ||
| Inhibitory threshold for critical-period activation in primary visual cortex. | Q51411145 | ||
| Chronic benzodiazepine treatment decreases postsynaptic GABA sensitivity | Q51848031 | ||
| Age-dependent long-term potentiation of inhibitory synaptic transmission in rat visual cortex. | Q52213101 | ||
| Gamma-aminobutyric acid and somatostatin immunoreactivity in the visual cortex of normal and dark-reared rats | Q71798656 | ||
| Tonic inhibition originates from synapses close to the soma | Q71859467 | ||
| Inhibition and plasticity | Q73567664 | ||
| Salient features of synaptic organisation in the cerebral cortex | Q74746755 | ||
| Layer differences in the effect of monocular vision in light- and dark-reared kittens | Q77850977 | ||
| P433 | issue | 17 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 6695-6702 | |
| P577 | publication date | 2003-07-01 | |
| P1433 | published in | Journal of Neuroscience | Q1709864 |
| P1476 | title | Rapid critical period induction by tonic inhibition in visual cortex | |
| P478 | volume | 23 |
| Q58608053 | 5-HTR and 5-HTR but not 5-HTR antagonism impairs the cross-modal reactivation of deprived visual cortex in adulthood |
| Q57039792 | A Brain without Brakes: Reduced Inhibition Is Associated with Enhanced but Dysregulated Plasticity in the Aged Rat Auditory Cortex |
| Q104509580 | A sex-dependent delayed maturation of visual plasticity induced by adverse experiences in early childhood |
| Q30551945 | A theory of the transition to critical period plasticity: inhibition selectively suppresses spontaneous activity |
| Q26864916 | Adult cortical plasticity following injury: Recapitulation of critical period mechanisms? |
| Q30458690 | Age-dependent effect of hearing loss on cortical inhibitory synapse function |
| Q37993504 | Amblyopia: background to the special issue on stroke recovery |
| Q36357233 | Bidirectional regulation of Munc13-3 protein expression by age and dark rearing during the critical period in mouse visual cortex |
| Q50687396 | Binocular input coincidence mediates critical period plasticity in the mouse primary visual cortex. |
| Q26998400 | Boosting visual cortex function and plasticity with acetylcholine to enhance visual perception |
| Q42282448 | Chondroitin Sulfate Is Required for Onset and Offset of Critical Period Plasticity in Visual Cortex |
| Q26269924 | Common circuit defect of excitatory-inhibitory balance in mouse models of autism |
| Q47802651 | Conditional deletion of Mecp2 in parvalbumin-expressing GABAergic cells results in the absence of critical period plasticity |
| Q26822660 | Cortical GABAergic interneurons in cross-modal plasticity following early blindness |
| Q34491857 | Cortical parvalbumin and somatostatin GABA neurons express distinct endogenous modulators of nicotinic acetylcholine receptors. |
| Q64071815 | Critical Period Regulation by Thyroid Hormones: Potential Mechanisms and Sex-Specific Aspects |
| Q28278565 | Critical period mechanisms in developing visual cortex |
| Q29617443 | Critical period plasticity in local cortical circuits |
| Q30493163 | Critical period plasticity matches binocular orientation preference in the visual cortex |
| Q34597626 | Critical period window for spectral tuning defined in the primary auditory cortex (A1) in the rat. |
| Q89111654 | Critical periods in amblyopia |
| Q37578453 | Deprivation-induced strengthening of presynaptic and postsynaptic inhibitory transmission in layer 4 of visual cortex during the critical period |
| Q38030191 | Development and plasticity of the primary visual cortex |
| Q46385324 | Development of human visual cortex: a balance between excitatory and inhibitory plasticity mechanisms |
| Q41529865 | Developmental changes in GABAergic mechanisms in human visual cortex across the lifespan |
| Q36621181 | Developmental plasticity of inhibitory circuitry. |
| Q50014916 | Direct intertectal inputs are an integral component of the bilateral sensorimotor circuit for behavior in Xenopus tadpoles. |
| Q36727667 | Early pharmacological treatment of autism: a rationale for developmental treatment |
| Q90354592 | Emerging Roles of Synapse Organizers in the Regulation of Critical Periods |
| Q36250798 | Enhancement of visual cortex plasticity by dark exposure |
| Q37228084 | Environmental enrichment rescues binocular matching of orientation preference in mice that have a precocious critical period |
| Q42186781 | Equalization of ocular dominance columns induced by an activity-dependent learning rule and the maturation of inhibition |
| Q57785339 | Excitatory and inhibitory synapse reorganization immediately after critical sensory experience in a vocal learner |
| Q35974463 | Excitatory-inhibitory balance and critical period plasticity in developing visual cortex |
| Q34689737 | Experience-dependent changes in excitatory and inhibitory receptor subunit expression in visual cortex. |
| Q34410802 | Experience-dependent specialization of receptive field surround for selective coding of natural scenes. |
| Q33361568 | Fast homeostatic plasticity of inhibition via activity-dependent vesicular filling |
| Q38211328 | GABA receptors in brain development, function, and injury |
| Q30440282 | GABAergic synapses: their plasticity and role in sensory cortex |
| Q36756849 | Gene expression patterns in visual cortex during the critical period: synaptic stabilization and reversal by visual deprivation |
| Q30489018 | Influences of un-modulated acoustic inputs on functional maturation and critical-period plasticity of the primary auditory cortex |
| Q37083308 | Inhibitory plasticity underlies visual deprivation-induced loss of receptive field refinement in the adult superior colliculus |
| Q34734313 | Input-specific critical periods for experience-dependent plasticity in layer 2/3 pyramidal neurons |
| Q36055182 | Interneuron epigenomes during the critical period of cortical plasticity: Implications for schizophrenia. |
| Q47994756 | Layer- and cell-type-specific tonic GABAergic inhibition of pyramidal neurons in the rat visual cortex |
| Q39255179 | Long-term down-regulation of GABA decreases orientation selectivity without affecting direction selectivity in mouse primary visual cortex. |
| Q37340625 | Long-term inhibitory plasticity in visual cortical layer 4 switches sign at the opening of the critical period. |
| Q48439112 | Major effects of sensory experiences on the neocortical inhibitory circuits. |
| Q33598580 | Maturation of GABAergic inhibition promotes strengthening of temporally coherent inputs among convergent pathways |
| Q21558410 | Mouse vision as a gateway for understanding how experience shapes neural circuits |
| Q38629190 | Multiple Roles for Nogo Receptor 1 in Visual System Plasticity |
| Q92898399 | Neuregulin and ErbB expression is regulated by development and sensory experience in mouse visual cortex |
| Q30408825 | Neurochemical changes within human early blind occipital cortex |
| Q98184971 | Ocular Dominance Plasticity: molecular mechanisms revisited |
| Q42277026 | Otx2 binding to perineuronal nets persistently regulates plasticity in the mature visual cortex |
| Q38746058 | Ovarian Hormones Organize the Maturation of Inhibitory Neurotransmission in the Frontal Cortex at Puberty Onset in Female Mice. |
| Q43182326 | Possible role of cooperative action of NMDA receptor and GABA function in developmental plasticity |
| Q48147001 | Regional Specificity of GABAergic Regulation of Cross-Modal Plasticity in Mouse Visual Cortex after Unilateral Enucleation. |
| Q27321496 | Rescue of inhibitory synapse strength following developmental hearing loss |
| Q46478231 | Reversible blockade of experience-dependent plasticity by calcineurin in mouse visual cortex. |
| Q48940974 | Role of α4-containing GABAA receptors in limiting synaptic plasticity and spatial learning of female mice during the pubertal period. |
| Q30404712 | Sensory integration in mouse insular cortex reflects GABA circuit maturation |
| Q34102169 | Structural dynamics of synapses in vivo correlate with functional changes during experience-dependent plasticity in visual cortex. |
| Q35974467 | Structural plasticity in the developing visual system |
| Q30541221 | Sublinear binocular integration preserves orientation selectivity in mouse visual cortex |
| Q39431443 | The Impact of Ecological Niche on Adaptive Flexibility of Sensory Circuitry |
| Q90024759 | The Impact of Perineuronal Net Digestion Using Chondroitinase ABC on the Intrinsic Physiology of Cortical Neurons |
| Q33344846 | The missing piece in the 'use it or lose it' puzzle: is inhibition regulated by activity or does it act on its own accord? |
| Q48188124 | Transient synaptic silencing of developing striate cortex has persistent effects on visual function and plasticity |
| Q46039819 | Transplantation of GABAergic interneurons for cell-based therapy. |
| Q33909561 | Treatment of amblyopia in the adult: insights from a new rodent model of visual perceptual learning |
| Q30404772 | Valproate-induced neurodevelopmental deficits in Xenopus laevis tadpoles. |
| Q42111346 | Visual acuity development and plasticity in the absence of sensory experience. |
| Q37202014 | Visual deprivation decreases somatic GAD65 puncta number on layer 2/3 pyramidal neurons in mouse visual cortex |
| Q54978145 | iPlasticity: induced juvenile-like plasticity in the adult brain as a mechanism of antidepressants. |
| Q37138725 | α4βδ GABAA receptors and tonic inhibitory current during adolescence: effects on mood and synaptic plasticity |
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