| scholarly article | Q13442814 |
| P2093 | author name string | Gina G Turrigiano | |
| Mary E Lambo | |||
| P2860 | cites work | LTP and LTD | Q22337342 |
| The period of susceptibility to the physiological effects of unilateral eye closure in kittens | Q24538859 | ||
| Homeostatic plasticity in the developing nervous system | Q28239907 | ||
| Activity-dependent scaling of quantal amplitude in neocortical neurons | Q28264163 | ||
| AMPA receptor trafficking and synaptic plasticity | Q29547876 | ||
| Synaptic scaling mediated by glial TNF-alpha | Q29616816 | ||
| Critical period for inhibitory plasticity in rodent binocular V1 | Q33765420 | ||
| Synaptic plasticity: taming the beast | Q33929019 | ||
| Critical periods for experience-dependent synaptic scaling in visual cortex | Q34134898 | ||
| Mechanism for a sliding synaptic modification threshold | Q34300620 | ||
| Variability, compensation and homeostasis in neuron and network function | Q34540735 | ||
| PICK1 loss of function occludes homeostatic synaptic scaling. | Q34763389 | ||
| Single-cell optogenetic excitation drives homeostatic synaptic depression | Q35034377 | ||
| Deprivation-induced synaptic depression by distinct mechanisms in different layers of mouse visual cortex | Q35611594 | ||
| Regional and temporal specificity of intrinsic plasticity mechanisms in rodent primary visual cortex | Q35738515 | ||
| Anatomical correlates of functional plasticity in mouse visual cortex. | Q36755106 | ||
| 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 | ||
| Strength through diversity | Q37035341 | ||
| Multiple modes of network homeostasis in visual cortical layer 2/3. | Q37127176 | ||
| Thalamic activity that drives visual cortical plasticity | Q37160105 | ||
| Bidirectional synaptic mechanisms of ocular dominance plasticity in visual cortex | Q37172585 | ||
| Essential role for a long-term depression mechanism in ocular dominance plasticity | Q37200975 | ||
| LTP requires a reserve pool of glutamate receptors independent of subunit type | Q37721822 | ||
| Tumor necrosis factor-alpha mediates one component of competitive, experience-dependent plasticity in developing visual cortex | Q41011574 | ||
| Disruption of experience-dependent synaptic modifications in striate cortex by infusion of an NMDA receptor antagonist | Q41173487 | ||
| Synaptic scaling requires the GluR2 subunit of the AMPA receptor. | Q41821575 | ||
| Tumor necrosis factor-α signaling maintains the ability of cortical synapses to express synaptic scaling | Q42702787 | ||
| Optical imaging of the intrinsic signal as a measure of cortical plasticity in the mouse | Q42942891 | ||
| Clathrin adaptor AP2 and NSF interact with overlapping sites of GluR2 and play distinct roles in AMPA receptor trafficking and hippocampal LTD. | Q44222198 | ||
| Requirement of AMPA receptor GluR2 phosphorylation for cerebellar long-term depression. | Q44477424 | ||
| NMDA receptor-dependent ocular dominance plasticity in adult visual cortex | Q44485260 | ||
| 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 | ||
| Postsynaptic expression of homeostatic plasticity at neocortical synapses. | Q46384452 | ||
| Voltage- and space-clamp errors associated with the measurement of electrotonically remote synaptic events | Q46598947 | ||
| Activity-dependent changes in the intrinsic properties of cultured neurons | Q47925605 | ||
| 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 | ||
| Plasticity in the intrinsic excitability of cortical pyramidal neurons | Q48134554 | ||
| Blockade of intracortical inhibition in kitten striate cortex: effects on receptive field properties and associated loss of ocular dominance plasticity | Q48145389 | ||
| Effect of prior visual experience on cortical recovery from the effects of unilateral eyelid suture in kittens | Q48230502 | ||
| Observations on monocular deprivation in mice | Q48231017 | ||
| Injection of MK-801 affects ocular dominance shifts more than visual activity | Q48302124 | ||
| Potentiation of cortical inhibition by visual deprivation. | Q48438986 | ||
| Targeted in vivo mutations of the AMPA receptor subunit GluR2 and its interacting protein PICK1 eliminate cerebellar long-term depression. | Q48615352 | ||
| Enhanced LTP in mice deficient in the AMPA receptor GluR2. | Q48875091 | ||
| Chronic recordings from single sites of kitten striate cortex during experience-dependent modifications of receptive-field properties. | Q51751516 | ||
| Small modulation of ongoing cortical dynamics by sensory input during natural vision | Q59068871 | ||
| Inhibitory interactions contributing to the ocular dominance of monocularly dominated cells in the normal cat striate cortex | Q71474903 | ||
| Use-dependent AMPA receptor block in mice lacking GluR2 suggests postsynaptic site for LTP expression | Q77299424 | ||
| Activity-dependent modulation of synaptic AMPA receptor accumulation | Q77694459 | ||
| P433 | issue | 20 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 8810-8819 | |
| P577 | publication date | 2013-05-01 | |
| P1433 | published in | Journal of Neuroscience | Q1709864 |
| P1476 | title | Synaptic and intrinsic homeostatic mechanisms cooperate to increase L2/3 pyramidal neuron excitability during a late phase of critical period plasticity | |
| P478 | volume | 33 |
| Q34969673 | A disinhibitory microcircuit initiates critical-period plasticity in the visual cortex |
| Q34526188 | Activity-dependent PI(3,5)P2 synthesis controls AMPA receptor trafficking during synaptic depression. |
| Q26864916 | Adult cortical plasticity following injury: Recapitulation of critical period mechanisms? |
| Q92201706 | Aging alters signaling properties in the mouse spinal dorsal horn |
| Q38737428 | All for One But Not One for All: Excitatory Synaptic Scaling and Intrinsic Excitability Are Coregulated by CaMKIV, Whereas Inhibitory Synaptic Scaling Is Under Independent Control. |
| Q33983852 | All-optical electrophysiology in mammalian neurons using engineered microbial rhodopsins |
| Q33925069 | An Intrinsic Transcriptional Program Underlying Synaptic Scaling during Activity Suppression |
| Q47629890 | Binocular deprivation induces both age-dependent and age-independent forms of plasticity in parvalbumin inhibitory neuron visual response properties. |
| Q33781532 | Cellular mechanisms for response heterogeneity among L2/3 pyramidal cells in whisker somatosensory cortex |
| Q26991645 | Central gain control in tinnitus and hyperacusis |
| Q90354599 | Classification of Visual Cortex Plasticity Phenotypes following Treatment for Amblyopia |
| Q38745172 | Connectomics of synaptic microcircuits: lessons from the outer retina. |
| Q90636928 | Cortical Circuit Dynamics Are Homeostatically Tuned to Criticality In Vivo |
| Q35154667 | Daily isoflurane exposure increases barbiturate insensitivity in medullary respiratory and cortical neurons via expression of ε-subunit containing GABA ARs. |
| Q38692754 | Delivery of chemical cargo to endogenous proteins on live cells |
| Q30100953 | Development of glutamatergic proteins in human visual cortex across the lifespan. |
| Q97066870 | Exciting Complexity: The Role of Motor Circuit Elements in ALS Pathophysiology |
| Q48335469 | Experience-dependent central vision deficits: Neurobiology and visual acuity. |
| Q48215269 | Exploring the Role of CaMKIV in Homeostatic Plasticity. |
| Q37275351 | Firing rate homeostasis in visual cortex of freely behaving rodents |
| Q55032756 | Homeostatic plasticity in neural development. |
| Q26798824 | Homeostatic role of heterosynaptic plasticity: models and experiments |
| Q38158726 | Homeostatic signaling and the stabilization of neural function |
| Q26823872 | How the mechanisms of long-term synaptic potentiation and depression serve experience-dependent plasticity in primary visual cortex |
| Q58561087 | Improved methods for marking active neuron populations |
| Q48146108 | Layer-specific Developmental Changes in Excitation and Inhibition in Rat Primary Visual Cortex. |
| Q38848659 | Mechanisms of homeostatic plasticity in the excitatory synapse. |
| Q40974047 | Monocular deprivation induces dendritic spine elimination in the developing mouse visual cortex |
| Q39091194 | Multiple shared mechanisms for homeostatic plasticity in rodent somatosensory and visual cortex. |
| Q36339112 | NCAM Regulates Inhibition and Excitability in Layer 2/3 Pyramidal Cells of Anterior Cingulate Cortex |
| Q39546084 | Neuronal Firing Rate Homeostasis Is Inhibited by Sleep and Promoted by Wake. |
| Q35990194 | Oscillation-Driven Spike-Timing Dependent Plasticity Allows Multiple Overlapping Pattern Recognition in Inhibitory Interneuron Networks |
| Q38908062 | Plasticity in respiratory motor neurons in response to reduced synaptic inputs: A form of homeostatic plasticity in respiratory control? |
| Q38595350 | Plasticity-related genes in brain development and amygdala-dependent learning. |
| Q64883381 | Rapid Disinhibition by Adjustment of PV Intrinsic Excitability during Whisker Map Plasticity in Mouse S1. |
| Q37543674 | Rapid homeostasis by disinhibition during whisker map plasticity. |
| Q55222868 | Rem2 stabilizes intrinsic excitability and spontaneous firing in visual circuits. |
| Q58571285 | Roles for sleep in memory: insights from the fly |
| Q50444230 | Sensory Deprivation Triggers Synaptic and Intrinsic Plasticity in the Hippocampus. |
| Q57470846 | Sensory experience inversely regulates feedforward and feedback excitation-inhibition ratio in rodent visual cortex |
| Q35697486 | Subnetwork-Specific Homeostatic Plasticity in Mouse Visual Cortex In Vivo. |
| Q42692551 | Synaptic and intrinsic homeostasis cooperate to optimize single neuron response properties and tune integrator circuits |
| Q42098033 | Synaptic up-scaling preserves motor circuit output after chronic, natural inactivity. |
| Q41111510 | Synergistic plasticity of intrinsic conductance and electrical coupling restores synchrony in an intact motor network. |
| Q39091228 | The dialectic of Hebb and homeostasis. |
| Q44502136 | The role of GluA1 in ocular dominance plasticity in the mouse visual cortex. |
| Q47305070 | The underdog pathway gets a boost |
| Q37699493 | Transcriptional and epigenetic regulation of Hebbian and non-Hebbian plasticity |
| Q37580094 | Upregulation of μ3A Drives Homeostatic Plasticity by Rerouting AMPAR into the Recycling Endosomal Pathway |
| Q36952627 | Visual Deprivation During the Critical Period Enhances Layer 2/3 GABAergic Inhibition in Mouse V1. |
| Q37041639 | mGlu1 receptor mediates homeostatic control of intrinsic excitability through Ih in cerebellar Purkinje cells. |
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