| review article | Q7318358 |
| scholarly article | Q13442814 |
| P50 | author | Paolo Mazzarello | Q17308040 |
| Egidio D'Angelo | Q56909257 | ||
| Elisa Galliano | Q49724379 | ||
| P2860 | cites work | Development of a tonic form of synaptic inhibition in rat cerebellar granule cells resulting from persistent activation of GABAA receptors | Q24530653 |
| A theory of cerebellar cortex | Q24539174 | ||
| Neocortical networks entrain neuronal circuits in cerebellar cortex | Q24632734 | ||
| GOLGI CELL INHIBITION IN THE CEREBELLAR CORTEX | Q28201535 | ||
| Segregation of different GABAA receptors to synaptic and extrasynaptic membranes of cerebellar granule cells | Q28261770 | ||
| Quantitative morphology and synaptology of cerebellar glomeruli in the rat | Q28293044 | ||
| Rat alpha6beta2delta GABAA receptors exhibit two distinct and separable agonist affinities | Q28574478 | ||
| Variations on an inhibitory theme: phasic and tonic activation of GABA(A) receptors | Q29616809 | ||
| Dynamics of fast and slow inhibition from cerebellar golgi cells allow flexible control of synaptic integration | Q30457456 | ||
| The neural representation of time | Q30921291 | ||
| Theta-frequency bursting and resonance in cerebellar granule cells: experimental evidence and modeling of a slow k+-dependent mechanism. | Q31826709 | ||
| The detection and generation of sequences as a key to cerebellar function: experiments and theory. | Q33546166 | ||
| Is the cerebellum sensory for motor's sake, or motor for sensory's sake: the view from the whiskers of a rat? | Q34064772 | ||
| Quantitative histological analysis of the cerebellar cortex in the cat. II. Cell numbers and densities in the granular layer | Q34202019 | ||
| Participation of Golgi neuron processes in the cerebellar glomeruli: an electron microscope study | Q34241788 | ||
| Integration of quanta in cerebellar granule cells during sensory processing | Q34315693 | ||
| Coding in the granular layer of the cerebellum. | Q34323465 | ||
| The sensory neuron and the triumph of Camillo Golgi | Q34615744 | ||
| Whither withered Golgi? A retrospective evaluation of reticularist and synaptic constructs | Q34621739 | ||
| High-fidelity transmission of sensory information by single cerebellar mossy fibre boutons | Q34728425 | ||
| Unraveling the cerebellar cortex: cytology and cellular physiology of large-sized interneurons in the granular layer | Q35667795 | ||
| Kainate receptor-mediated synaptic currents in cerebellar Golgi cells are not shaped by diffusion of glutamate. | Q35807294 | ||
| Cerebellar activation during discrete and not continuous timed movements: an fMRI study. | Q35867435 | ||
| Specialized membrane junctions between neurons in the vertebrate cerebellar cortex | Q36194077 | ||
| Differentiation of cerebellar mossy fiber synapses in the rat: a quantitative electron microscope study | Q36619189 | ||
| Non-traditional large neurons in the granular layer of the cerebellar cortex. | Q36912353 | ||
| Synchronization in primate cerebellar granule cell layer local field potentials: basic anisotropy and dynamic changes during active expectancy | Q37283722 | ||
| Timing and plasticity in the cerebellum: focus on the granular layer | Q37314527 | ||
| Cerebellar cortical organization: a one-map hypothesis | Q37582771 | ||
| The entire trajectory of single climbing and mossy fibers in the cerebellar nuclei and cortex. | Q53812446 | ||
| Chapter 27 Is the cerebellum sensory for motor's sake, or motor for sensory's sake: the view from the whiskers of a rat? | Q54056274 | ||
| The detection and generation of sequences as a key to cerebellar function: Experiments and theory | Q54056885 | ||
| A theory of cerebellar function | Q54057287 | ||
| Identification of subunits contributing to synaptic and extrasynaptic NMDA receptors in Golgi cells of the rat cerebellum | Q57985769 | ||
| The Minute Anatomy of the Spinal Cord and Cerebellum Demonstrated by Golgi's Method | Q58767692 | ||
| Golgi cells of the cerebellum are inhibited by inferior olive activity | Q70755340 | ||
| Long-term adaptive changes in primate vestibuloocular reflex. III. Electrophysiological observations in flocculus of normal monkeys | Q71501344 | ||
| Discharges of Purkinje cells and mossy fibres in the cerebellar vermis of the monkey during saccadic eye movements and fixation | Q71505276 | ||
| Serotonin-driven long-range inhibitory connections in the cerebellar cortex | Q73469666 | ||
| Precise spike timing of tactile-evoked cerebellar Golgi cell responses: a reflection of combined mossy fiber and parallel fiber activation? | Q74173915 | ||
| Functions of interneurons in mouse cerebellum | Q80595012 | ||
| Central effects of centripetal impulses in axons of spinal ventral roots | Q82199335 | ||
| The cerebellar microcircuit as an adaptive filter: experimental and computational evidence | Q37649491 | ||
| A realistic large-scale model of the cerebellum granular layer predicts circuit spatio-temporal filtering properties | Q40764389 | ||
| Distinct deactivation and desensitization kinetics of recombinant GABAA receptors | Q41243348 | ||
| High-Pass Filtering and Dynamic Gain Regulation Enhance Vertical Bursts Transmission along the Mossy Fiber Pathway of Cerebellum | Q41274259 | ||
| Synaptic and cellular properties of the feedforward inhibitory circuit within the input layer of the cerebellar cortex. | Q41894246 | ||
| Computational reconstruction of pacemaking and intrinsic electroresponsiveness in cerebellar Golgi cells | Q41919038 | ||
| Fast-reset of pacemaking and theta-frequency resonance patterns in cerebellar golgi cells: simulations of their impact in vivo | Q42238278 | ||
| The critical role of Golgi cells in regulating spatio-temporal integration and plasticity at the cerebellum input stage | Q42263852 | ||
| GABA spillover from single inhibitory axons suppresses low-frequency excitatory transmission at the cerebellar glomerulus. | Q42496747 | ||
| Precise spatial relationships between mossy fibers and climbing fibers in rat cerebellar cortical zones. | Q42603620 | ||
| Adaptive regulation of neuronal excitability by a voltage-independent potassium conductance | Q43601149 | ||
| Morphological identification of Renshaw cells | Q43640483 | ||
| IPSC kinetics at identified GABAergic and mixed GABAergic and glycinergic synapses onto cerebellar Golgi cells. | Q43697233 | ||
| Cerebellar cortex: computation by extrasynaptic inhibition? | Q43996528 | ||
| Multiple modes of GABAergic inhibition of rat cerebellar granule cells | Q44317053 | ||
| mGluR2 postsynaptically senses granule cell inputs at Golgi cell synapses | Q44568735 | ||
| Oscillatory activity in the cerebellar hemispheres of unrestrained rats. | Q45975096 | ||
| Tonic activation of GABAB receptors reduces release probability at inhibitory connections in the cerebellar glomerulus | Q46064983 | ||
| Electrical coupling mediates tunable low-frequency oscillations and resonance in the cerebellar Golgi cell network. | Q46161343 | ||
| Congruence of mossy fiber and climbing fiber tactile projections in the lateral hemispheres of the rat cerebellum | Q46303381 | ||
| Golgi cell dendrites are restricted by Purkinje cell stripe boundaries in the adult mouse cerebellar cortex. | Q46527940 | ||
| Target-dependent use of co-released inhibitory transmitters at central synapses. | Q46598639 | ||
| Ionic mechanisms of autorhythmic firing in rat cerebellar Golgi cells | Q47852103 | ||
| Submillisecond kinetics and low efficacy of parallel fibre-Golgi cell synaptic currents in the rat cerebellum | Q47858733 | ||
| Synchronization of golgi and granule cell firing in a detailed network model of the cerebellar granule cell layer | Q47907023 | ||
| Cerebellar Golgi cells in the rat: receptive fields and timing of responses to facial stimulation | Q48130617 | ||
| The discharges of cerebellar Golgi cells during locomotion in the cat. | Q48187615 | ||
| Parallel fibers synchronize spontaneous activity in cerebellar Golgi cells. | Q48202498 | ||
| Single-channel properties of synaptic and extrasynaptic GABAA receptors suggest differential targeting of receptor subtypes | Q48246193 | ||
| The spatial organization of long-term synaptic plasticity at the input stage of cerebellum. | Q48279777 | ||
| The distribution of climbing and mossy fiber collateral branches from the copula pyramidis and the paramedian lobule: congruence of climbing fiber cortical zones and the pattern of zebrin banding within the rat cerebellum. | Q48281836 | ||
| Shunting inhibition modulates neuronal gain during synaptic excitation. | Q48313474 | ||
| Net without nodes and vice versa, the paradoxical Golgi-Cajal story: a reconciliation? | Q48316761 | ||
| Movement-related inputs to intermediate cerebellum of the monkey | Q48360197 | ||
| Heterogeneity of glycinergic and gabaergic interneurons in the granule cell layer of mouse cerebellum | Q48372558 | ||
| Properties of somatosensory synaptic integration in cerebellar granule cells in vivo. | Q48375515 | ||
| Cerebellar Golgi cells in the rat receive multimodal convergent peripheral inputs via the lateral funiculus of the spinal cord | Q48444390 | ||
| Spillover-mediated transmission at inhibitory synapses promoted by high affinity alpha6 subunit GABA(A) receptors and glomerular geometry | Q48472769 | ||
| Different responses of rat cerebellar Purkinje cells and Golgi cells evoked by widespread convergent sensory inputs | Q48533222 | ||
| Peripheral stimuli excite coronal beams of Golgi cells in rat cerebellar cortex. | Q48541604 | ||
| Local field potential oscillations in primate cerebellar cortex during voluntary movement | Q48548699 | ||
| Temporal characteristics of tactile stimuli influence the response profile of cerebellar Golgi cells | Q48767916 | ||
| Distribution of mossy fibre rosettes in the cerebellum of cat and mice: evidence for a parasagittal organization at the single fibre level | Q48831245 | ||
| Morphological and neurochemical differentiation of large granular layer interneurons in the adult rat cerebellum | Q48866588 | ||
| Climbing fibre-dependent changes in Golgi cell responses to peripheral stimulation | Q48947762 | ||
| Characterization in vivo of bilaterally branching pontocerebellar mossy fibre to Golgi cell inputs in the rat cerebellum. | Q50609602 | ||
| Functional organization of the vestibular afferents to the cerebellar cortex of frog and cat | Q51162038 | ||
| Observations on the intracortical relations of the climbing fibers of the cerebellum; a Golgi study. | Q51340135 | ||
| Electrotonic coupling synchronizes interneuron activity in the cerebellar cortex. | Q51386270 | ||
| P433 | issue | Pt 19 | |
| P407 | language of work or name | English | Q1860 |
| P1104 | number of pages | 17 | |
| P304 | page(s) | 3639-3655 | |
| P577 | publication date | 2010-10-01 | |
| P1433 | published in | Journal of Physiology | Q7743612 |
| P1476 | title | Discovery and rediscoveries of Golgi cells | |
| P478 | volume | 588 |
| Q37559612 | Acute ethanol exposure inhibits silencing of cerebellar Golgi cell firing induced by granule cell axon input. |
| Q38120223 | An adaptive filter model of cerebellar zone C3 as a basis for safe limb control? |
| Q36747026 | Anatomical investigation of potential contacts between climbing fibers and cerebellar Golgi cells in the mouse |
| Q47906127 | Computational Theory Underlying Acute Vestibulo-ocular Reflex Motor Learning with Cerebellar Long-Term Depression and Long-Term Potentiation. |
| Q91583387 | Diverse Neuron Properties and Complex Network Dynamics in the Cerebellar Cortical Inhibitory Circuit |
| Q36470595 | Effects of long-term treatment on brain volume in patients with obstructive sleep apnea syndrome |
| Q36474834 | Excitation of rat cerebellar Golgi cells by ethanol: further characterization of the mechanism. |
| Q47305655 | Gap Junction Modulation of Low-Frequency Oscillations in the Cerebellar Granule Cell Layer |
| Q35904301 | Golgi and Ranvier: from the black reaction to a theory of referred pain. |
| Q49109453 | Golgi cell activity during eyeblink conditioning in decerebrate ferrets. |
| Q35676078 | Identification of an inhibitory circuit that regulates cerebellar Golgi cell activity |
| Q37601683 | Integration and regulation of glomerular inhibition in the cerebellar granular layer circuit |
| Q42283095 | Model cerebellar granule cells can faithfully transmit modulated firing rate signals |
| Q83228757 | Neurexophilin4 is a selectively expressed α-neurexin ligand that modulates specific cerebellar synapses and motor functions |
| Q41070163 | Robustness effect of gap junctions between Golgi cells on cerebellar cortex oscillations |
| Q37883158 | Sensory integration, sensory processing, and sensory modulation disorders: putative functional neuroanatomic underpinnings |
| Q42463975 | Stimulation of the subthalamic nucleus engages the cerebellum for motor function in parkinsonian rats |
| Q26995006 | The cerebellar Golgi cell and spatiotemporal organization of granular layer activity |
| Q37800523 | The cerebellar network: From structure to function and dynamics |
| Q30471584 | The unipolar brush cell: a remarkable neuron finally receiving deserved attention |
| Q64956959 | Why Study the History of Neuroscience? |
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