| scholarly article | Q13442814 |
| P50 | author | Rafael Yuste | Q11160749 |
| Adam Packer | Q42804022 | ||
| Elodie Fino | Q58760950 | ||
| P2860 | cites work | NEURONAL CIRCUITS OF THE NEOCORTEX | Q22337027 |
| The neocortical microcircuit as a tabula rasa | Q24557471 | ||
| Petilla terminology: nomenclature of features of GABAergic interneurons of the cerebral cortex | Q24620160 | ||
| The columnar and laminar organization of inhibitory connections to neocortical excitatory cells | Q24620274 | ||
| Network anatomy and in vivo physiology of visual cortical neurons | Q24633731 | ||
| Massive autaptic self-innervation of GABAergic neurons in cat visual cortex | Q27648923 | ||
| Disynaptic inhibition between neocortical pyramidal cells mediated by Martinotti cells | Q28290614 | ||
| Interneurons of the neocortical inhibitory system | Q29547509 | ||
| Intracortical circuits of pyramidal neurons reflect their long-range axonal targets | Q30489566 | ||
| Highly selective receptive fields in mouse visual cortex | Q30498204 | ||
| RuBi-Glutamate: Two-Photon and Visible-Light Photoactivation of Neurons and Dendritic spines | Q33464333 | ||
| Immunochemical characterization of inhibitory mouse cortical neurons: three chemically distinct classes of inhibitory cells | Q33584088 | ||
| Brief bursts self-inhibit and correlate the pyramidal network. | Q33691614 | ||
| Electrical and chemical synapses among parvalbumin fast-spiking GABAergic interneurons in adult mouse neocortex | Q34156364 | ||
| Response features of parvalbumin-expressing interneurons suggest precise roles for subtypes of inhibition in visual cortex | Q34169395 | ||
| A cortical attractor network with Martinotti cells driven by facilitating synapses | Q34241574 | ||
| Submillisecond firing synchrony between different subtypes of cortical interneurons connected chemically but not electrically | Q34793501 | ||
| Dense inhibitory connectivity in neocortex | Q34913463 | ||
| Dense, unspecific connectivity of neocortical parvalbumin-positive interneurons: a canonical microcircuit for inhibition? | Q35228939 | ||
| Inhibitory interneurons in a cortical column form hot zones of inhibition in layers 2 and 5A. | Q35288568 | ||
| Short-term plasticity of unitary inhibitory-to-inhibitory synapses depends on the presynaptic interneuron subtype | Q35794766 | ||
| Broadly tuned response properties of diverse inhibitory neuron subtypes in mouse visual cortex | Q35892842 | ||
| Clustered dynamics of inhibitory synapses and dendritic spines in the adult neocortex. | Q35923505 | ||
| Electrical synapses define networks of neocortical GABAergic neurons | Q36146217 | ||
| Supralinear increase of recurrent inhibition during sparse activity in the somatosensory cortex. | Q36457589 | ||
| A type of basket cell in superficial layers of the cat visual cortex. A Golgi-electron microscope study | Q36648383 | ||
| Robust but delayed thalamocortical activation of dendritic-targeting inhibitory interneurons | Q36883150 | ||
| Selective, state-dependent activation of somatostatin-expressing inhibitory interneurons in mouse neocortex | Q36978617 | ||
| Gating multiple signals through detailed balance of excitation and inhibition in spiking networks | Q37218778 | ||
| Functional maps of neocortical local circuitry | Q37316570 | ||
| Axo-dendritic overlap and laminar projection can explain interneuron connectivity to pyramidal cells. | Q37669858 | ||
| Spike-timing dependent plasticity in inhibitory circuits | Q37855555 | ||
| How inhibition shapes cortical activity | Q37948199 | ||
| Quantitative classification of somatostatin-positive neocortical interneurons identifies three interneuron subtypes. | Q42150518 | ||
| Input normalization by global feedforward inhibition expands cortical dynamic range | Q43250902 | ||
| Frequency-dependent disynaptic inhibition in the pyramidal network: a ubiquitous pathway in the developing rat neocortex | Q43273424 | ||
| Cortical inhibitory cell types differentially form intralaminar and interlaminar subnetworks with excitatory neurons. | Q43285311 | ||
| Stereotyped position of local synaptic targets in neocortex | Q43696141 | ||
| Enforcement of temporal fidelity in pyramidal cells by somatic feed-forward inhibition | Q43703062 | ||
| A disinhibitory microcircuit for associative fear learning in the auditory cortex. | Q44450801 | ||
| Excitatory cortical neurons form fine-scale functional networks | Q45281385 | ||
| Dendritic encoding of sensory stimuli controlled by deep cortical interneurons | Q46158212 | ||
| Fine-scale specificity of cortical networks depends on inhibitory cell type and connectivity | Q46750396 | ||
| GABAergic neurons are less selective to stimulus orientation than excitatory neurons in layer II/III of visual cortex, as revealed by in vivo functional Ca2+ imaging in transgenic mice. | Q48266856 | ||
| Two dynamically distinct inhibitory networks in layer 4 of the neocortex | Q48276407 | ||
| Attractor dynamics of network UP states in the neocortex | Q48309598 | ||
| Geometry and structural plasticity of synaptic connectivity. | Q48624056 | ||
| Differential connectivity and response dynamics of excitatory and inhibitory neurons in visual cortex. | Q49038328 | ||
| Inhibitory plasticity balances excitation and inhibition in sensory pathways and memory networks. | Q50983546 | ||
| Two networks of electrically coupled inhibitory neurons in neocortex | Q57860911 | ||
| Neural Activity in Barrel Cortex Underlying Vibrissa-Based Object Localization in Mice | Q67241689 | ||
| Salient features of synaptic organisation in the cerebral cortex | Q74746755 | ||
| P433 | issue | 3 | |
| P304 | page(s) | 228-237 | |
| P577 | publication date | 2012-08-24 | |
| P1433 | published in | The Neuroscientist | Q7753449 |
| P1476 | title | The logic of inhibitory connectivity in the neocortex | |
| P478 | volume | 19 |
| Q39953996 | A gradual depth-dependent change in connectivity features of supragranular pyramidal cells in rat barrel cortex. |
| Q91991332 | Cell Type-Specific Gene Expression of Alpha 5 Subunit-Containing Gamma-Aminobutyric Acid Subtype A Receptors in Human and Mouse Frontal Cortex |
| Q30398925 | Complementary control of sensory adaptation by two types of cortical interneurons |
| Q93092523 | Direct reprogramming into interneurons: potential for brain repair |
| Q27346704 | Duration of culture and sonic hedgehog signaling differentially specify PV versus SST cortical interneuron fates from embryonic stem cells |
| Q47423671 | Emerging Mechanisms Underlying Dynamics of GABAergic Synapses. |
| Q61919264 | Excitable neuronal assemblies with adaptation as a building block of brain circuits for velocity-controlled signal propagation |
| Q38650856 | Feedback Inhibition Shapes Emergent Computational Properties of Cortical Microcircuit Motifs |
| Q34483929 | From the neuron doctrine to neural networks |
| Q35122932 | Functional network overlap as revealed by fMRI using sICA and its potential relationships with functional heterogeneity, balanced excitation and inhibition, and sparseness of neuron activity |
| Q47884865 | GABAergic mechanisms involved in the prepulse inhibition of auditory evoked cortical responses in humans |
| Q30440282 | GABAergic synapses: their plasticity and role in sensory cortex |
| Q64862834 | Generic dynamic causal modelling: An illustrative application to Parkinson's disease |
| Q38218394 | Hearing in noisy environments: noise invariance and contrast gain control. |
| Q36497216 | Highly specific structural plasticity of inhibitory circuits in the adult neocortex |
| Q30373386 | Implications of cortical balanced excitation and inhibition, functional heterogeneity, and sparseness of neuronal activity in fMRI. |
| Q30381848 | Inhibition in the Human Auditory Cortex. |
| Q26747549 | Inhibitory Circuits in Cortical Layer 5 |
| Q57284846 | Input-specific maturation of NMDAR-mediated transmission onto parvalbumin-expressing interneurons in layers 2/3 of the visual cortex |
| Q39064328 | Instructing Perisomatic Inhibition by Direct Lineage Reprogramming of Neocortical Projection Neurons |
| Q58805996 | Irrelevance by inhibition: Learning, computation, and implications for schizophrenia |
| Q31126585 | Large-scale functional network overlap is a general property of brain functional organization: Reconciling inconsistent fMRI findings from general-linear-model-based analyses |
| Q57022670 | Lateral inhibition by Martinotti interneurons is facilitated by cholinergic inputs in human and mouse neocortex |
| Q64090114 | Leveraging heterogeneity for neural computation with fading memory in layer 2/3 cortical microcircuits |
| Q35685966 | Linear summation of outputs in a balanced network model of motor cortex |
| Q55512469 | Long-latency suppression of auditory and somatosensory change-related cortical responses. |
| Q93061372 | Low Prefrontal GABA Levels Are Associated With Poor Cognitive Functions in Professional Boxers |
| Q47164660 | Mechanisms of memory storage in a model perirhinal network |
| Q38110536 | Motor directional tuning across brain areas: directional resonance and the role of inhibition for directional accuracy. |
| Q33629435 | Myelination of parvalbumin interneurons: a parsimonious locus of pathophysiological convergence in schizophrenia |
| Q39503082 | Neocortical somatostatin neurons reversibly silence excitatory transmission via GABAb receptors |
| Q34043995 | Neurogliaform cells dynamically regulate somatosensory integration via synapse-specific modulation |
| Q30584304 | Opposing effects of acute versus chronic blockade of frontal cortex somatostatin-positive inhibitory neurons on behavioral emotionality in mice |
| Q30442792 | Parvalbumin-expressing inhibitory interneurons in auditory cortex are well-tuned for frequency |
| Q37450101 | Parvalbumin-expressing interneurons linearly control olfactory bulb output |
| Q48354560 | Plasticity during motherhood: changes in excitatory and inhibitory layer 2/3 neurons in auditory cortex. |
| Q90526844 | Portraits of communication in neuronal networks |
| Q45998757 | Primary visual cortex shows laminar-specific and balanced circuit organization of excitatory and inhibitory synaptic connectivity. |
| Q47169827 | Progress and challenges for understanding the function of cortical microcircuits in auditory processing. |
| Q36064419 | Prox1 Regulates the Subtype-Specific Development of Caudal Ganglionic Eminence-Derived GABAergic Cortical Interneurons. |
| Q93128792 | Regulation of gamma-frequency oscillation by feedforward inhibition: A computational modeling study |
| Q35763428 | Self-organization in Balanced State Networks by STDP and Homeostatic Plasticity |
| Q42005403 | Single Canonical Model of Reflexive Memory and Spatial Attention |
| Q26738420 | Somatostatin and Somatostatin-Containing Neurons in Shaping Neuronal Activity and Plasticity |
| Q41670366 | Spontaneous emergence of fast attractor dynamics in a model of developing primary visual cortex. |
| Q34006545 | Strychnine-sensitive glycine receptors on pyramidal neurons in layers II/III of the mouse prefrontal cortex are tonically activated |
| Q91959868 | Synaptic functions and their disruption in schizophrenia: From clinical evidence to synaptic optogenetics in an animal model |
| Q64777103 | Thalamocortical dynamics underlying spontaneous transitions in beta power in Parkinsonism |
| Q26741113 | The Current Status of Somatostatin-Interneurons in Inhibitory Control of Brain Function and Plasticity |
| Q96576824 | The human motor cortex microcircuit: insights for neurodegenerative disease |
| Q35940342 | Training Excitatory-Inhibitory Recurrent Neural Networks for Cognitive Tasks: A Simple and Flexible Framework |
| Q91880338 | Transcription factors Sp8 and Sp9 regulate the development of caudal ganglionic eminence-derived cortical interneurons |
| Q39475621 | Transcriptome and in Vitro Differentiation Profile of Human Embryonic Stem Cell Derived NKX2.1-Positive Neural Progenitors |
| Q89963995 | Unveiling the Synaptic Function and Structure Using Paired Recordings From Synaptically Coupled Neurons |
| Q34434045 | Using multi-compartment ensemble modeling as an investigative tool of spatially distributed biophysical balances: application to hippocampal oriens-lacunosum/moleculare (O-LM) cells |
| Q30441061 | Ventral tegmental area activation promotes firing precision and strength through circuit inhibition in the primary auditory cortex. |
| Q49541169 | Versatility and Flexibility of Cortical Circuits. |
| Q37614612 | When Elderly Outperform Young Adults-Integration in Vision Revealed by the Visual Mismatch Negativity. |
| Q34216839 | Why are cortical GABA neurons relevant to internal focus in depression? A cross-level model linking cellular, biochemical and neural network findings |
Search more.