scholarly article | Q13442814 |
P50 | author | Mathilde Bigot | Q88955663 |
Alberto Bacci | Q57071309 | ||
P2093 | author name string | Michele Giugliano | |
Angela Michela De Stasi | |||
Joana Lourenço | |||
Charlotte Deleuze | |||
Srdjan Ostojic | |||
Antonio Pazienti | |||
Andrea Aguirre | |||
P2860 | cites work | Parvalbumin-Interneuron Output Synapses Show Spike-Timing-Dependent Plasticity that Contributes to Auditory Map Remodeling | Q90760792 |
Superficial Layers Suppress the Deep Layers to Fine-tune Cortical Coding | Q91080213 | ||
Layer 2/3 Pyramidal Neurons Control the Gain of Cortical Output | Q91404951 | ||
Inhibitory connectivity defines the realm of excitatory plasticity | Q91495376 | ||
Preserving the balance: diverse forms of long-term GABAergic synaptic plasticity | Q92150126 | ||
Strong preference for autaptic self-connectivity of neocortical PV interneurons facilitates their tuning to γ-oscillations | Q93099224 | ||
Surround suppression and sparse coding in visual and barrel cortices | Q21129467 | ||
Division and subtraction by distinct cortical inhibitory networks in vivo | Q22337240 | ||
Petilla terminology: nomenclature of features of GABAergic interneurons of the cerebral cortex | Q24620160 | ||
Driving fast-spiking cells induces gamma rhythm and controls sensory responses | Q24627041 | ||
Neurophysiological and Computational Principles of Cortical Rhythms in Cognition | Q24630528 | ||
Anatomical, physiological and molecular properties of Martinotti cells in the somatosensory cortex of the juvenile rat | Q24676857 | ||
High frequency oscillations in the intact brain | Q26863338 | ||
Interneuron cell types are fit to function | Q27021885 | ||
Normalization as a canonical neural computation | Q28253709 | ||
Endocannabinoid signaling in rat somatosensory cortex: laminar differences and involvement of specific interneuron types | Q28262858 | ||
Disynaptic inhibition between neocortical pyramidal cells mediated by Martinotti cells | Q28290614 | ||
Synaptic recruitment of gephyrin regulates surface GABAA receptor dynamics for the expression of inhibitory LTP. | Q28574897 | ||
Parvalbumin neurons and gamma rhythms enhance cortical circuit performance | Q29619163 | ||
Synaptic mechanisms of synchronized gamma oscillations in inhibitory interneuron networks | Q29619466 | ||
GABAergic synapses: their plasticity and role in sensory cortex | Q30440282 | ||
Excitatory neuronal connectivity in the barrel cortex. | Q30465727 | ||
Neural syntax: cell assemblies, synapsembles, and readers. | Q30497706 | ||
Pyramidal neurons in prefrontal cortex receive subtype-specific forms of excitation and inhibition. | Q30573725 | ||
Desynchronization of neocortical networks by asynchronous release of GABA at autaptic and synaptic contacts from fast-spiking interneurons. | Q33712158 | ||
Mechanisms of gamma oscillations | Q33726937 | ||
Non-associative potentiation of perisomatic inhibition alters the temporal coding of neocortical layer 5 pyramidal neurons | Q33863615 | ||
Equalizing excitation-inhibition ratios across visual cortical neurons | Q33983822 | ||
Lateral competition for cortical space by layer-specific horizontal circuits | Q34013633 | ||
Ultrafast optogenetic control. | Q34093362 | ||
Fast synaptic inhibition promotes synchronized gamma oscillations in hippocampal interneuron networks | Q34192262 | ||
Interneuron dysfunction in psychiatric disorders | Q34247716 | ||
Channelrhodopsin-2-assisted circuit mapping of long-range callosal projections | Q34619326 | ||
Assortment of GABAergic plasticity in the cortical interneuron melting pot. | Q35113843 | ||
The long-term potential of LTP | Q35574551 | ||
Membrane Potential Dynamics of Spontaneous and Visually Evoked Gamma Activity in V1 of Awake Mice. | Q35927100 | ||
Excitatory-inhibitory balance and critical period plasticity in developing visual cortex | Q35974463 | ||
Supralinear increase of recurrent inhibition during sparse activity in the somatosensory cortex. | Q36457589 | ||
Perisomatic GABA release and thalamocortical integration onto neocortical excitatory cells are regulated by neuromodulators. | Q36948049 | ||
Perisomatic inhibition. | Q36962678 | ||
Parvalbumin-expressing interneurons linearly transform cortical responses to visual stimuli | Q37094389 | ||
GABAergic Interneurons in the Neocortex: From Cellular Properties to Circuits | Q37167275 | ||
Plasticity of recurrent l2/3 inhibition and gamma oscillations by whisker experience | Q37219903 | ||
Instantaneous modulation of gamma oscillation frequency by balancing excitation with inhibition | Q37242918 | ||
Dcx reexpression reduces subcortical band heterotopia and seizure threshold in an animal model of neuronal migration disorder | Q37275380 | ||
Cannabinoid-dependent potentiation of inhibition at eye opening in mouse V1. | Q37592168 | ||
Neuronal arithmetic | Q37763510 | ||
Long-term plasticity at inhibitory synapses | Q37844877 | ||
How inhibition shapes cortical activity | Q37948199 | ||
Synaptic computation and sensory processing in neocortical layer 2/3. | Q38098738 | ||
The neuronal identity bias behind neocortical GABAergic plasticity | Q38575956 | ||
Cortical gamma band synchronization through somatostatin interneurons | Q38798548 | ||
Principles of connectivity among morphologically defined cell types in adult neocortex | Q39574879 | ||
State-dependent bidirectional modification of somatic inhibition in neocortical pyramidal cells | Q40871862 | ||
Activation of specific interneurons improves V1 feature selectivity and visual perception | Q42105175 | ||
Synaptic depression enables neuronal gain control | Q42189114 | ||
Input normalization by global feedforward inhibition expands cortical dynamic range | Q43250902 | ||
Bidirectional plasticity of intrinsic excitability controls sensory inputs efficiency in layer 5 barrel cortex neurons in vivo. | Q43422619 | ||
Enforcement of temporal fidelity in pyramidal cells by somatic feed-forward inhibition | Q43703062 | ||
The excitatory neuronal network of the C2 barrel column in mouse primary somatosensory cortex | Q43847036 | ||
What determines the frequency of fast network oscillations with irregular neural discharges? I. Synaptic dynamics and excitation-inhibition balance | Q44336749 | ||
Multiplicative Gain Changes Are Induced by Excitation or Inhibition Alone | Q44645638 | ||
A synaptic memory trace for cortical receptive field plasticity | Q46773093 | ||
Sparsely synchronized neuronal oscillations | Q47830682 | ||
Input-Specific NMDAR-Dependent Potentiation of Dendritic GABAergic Inhibition | Q47853823 | ||
How spike generation mechanisms determine the neuronal response to fluctuating inputs. | Q47873660 | ||
Fast global oscillations in networks of integrate-and-fire neurons with low firing rates | Q47903215 | ||
Balanced inhibition underlies tuning and sharpens spike timing in auditory cortex | Q48129345 | ||
Orientation selectivity of synaptic potentials in neurons of cat primary visual cortex. | Q48347441 | ||
In vivo, low-resistance, whole-cell recordings from neurons in the anaesthetized and awake mammalian brain. | Q48535946 | ||
Regulation of neuronal input transformations by tunable dendritic inhibition. | Q48712532 | ||
In vivo optogenetic stimulation of neocortical excitatory neurons drives brain-state-dependent inhibition. | Q48881004 | ||
Inhibitory plasticity balances excitation and inhibition in sensory pathways and memory networks. | Q50983546 | ||
Effects of synaptic noise and filtering on the frequency response of spiking neurons. | Q52066201 | ||
GABAB receptor-mediated responses in GABAergic projection neurones of rat nucleus reticularis thalami in vitro | Q71517424 | ||
Instantaneous correlation of excitation and inhibition during ongoing and sensory-evoked activities | Q80981258 | ||
Balanced excitation and inhibition determine spike timing during frequency adaptation | Q82239904 | ||
P433 | issue | 3 | |
P304 | page(s) | 630-641.e5 | |
P577 | publication date | 2020-01-01 | |
P1433 | published in | Cell Reports | Q5058165 |
P1476 | title | Modulation of Coordinated Activity across Cortical Layers by Plasticity of Inhibitory Synapses | |
P478 | volume | 30 |
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