scholarly article | Q13442814 |
P50 | author | Laurens Witter | Q54056803 |
P2093 | author name string | Wade G Regehr | |
Stephanie Rudolph | |||
R Todd Pressler | |||
Safiya I Lahlaf | |||
P2860 | cites work | Shared synaptic pathophysiology in syndromic and nonsyndromic rodent models of autism | Q50305068 |
Cre recombinase expression in cerebellar Purkinje cells. | Q50507930 | ||
Effects of recurrent collateral inhibition on Purkinje cell activity in the immature rat cerebellar cortex--an in vivo electrophysiological study. | Q52222290 | ||
An integrator circuit in cerebellar cortex | Q62788893 | ||
Serotonin-driven long-range inhibitory connections in the cerebellar cortex | Q73469666 | ||
A theory of cerebellar cortex | Q24539174 | ||
Interneurons of the hippocampus | Q29618946 | ||
The cerebellum, sensitive periods, and autism. | Q30405247 | ||
Dynamics of fast and slow inhibition from cerebellar golgi cells allow flexible control of synaptic integration | Q30457456 | ||
Traveling waves in developing cerebellar cortex mediated by asymmetrical Purkinje cell connectivity | Q30495784 | ||
Cerebellar plasticity and motor learning deficits in a copy-number variation mouse model of autism | Q30601827 | ||
The inhibitory microcircuit of the substantia nigra provides feedback gain control of the basal ganglia output | Q33795340 | ||
Cerebellar globular cells receive monoaminergic excitation and monosynaptic inhibition from Purkinje cells | Q34123814 | ||
Identification of synapses formed in the cerebellar cortex by purkinje axon collaterals: an electron microscope study | Q34237689 | ||
Millisecond timescale synchrony among hippocampal neurons | Q34451713 | ||
Control of mental activities by internal models in the cerebellum | Q34758532 | ||
Submillisecond firing synchrony between different subtypes of cortical interneurons connected chemically but not electrically | Q34793501 | ||
Considerations when using cre-driver rodent lines for studying ventral tegmental area circuitry. | Q35003346 | ||
A novel inhibitory nucleo-cortical circuit controls cerebellar Golgi cell activity | Q35708656 | ||
Cerebellar Premotor Output Neurons Collateralize to Innervate the Cerebellar Cortex | Q35957545 | ||
Purkinje cell axon collaterals terminate on Cat-301+ neurons in Macaca monkey cerebellum. | Q36496384 | ||
Excitatory Cerebellar Nucleocortical Circuit Provides Internal Amplification during Associative Conditioning | Q36547769 | ||
Autistic-like behaviour and cerebellar dysfunction in Purkinje cell Tsc1 mutant mice | Q36737172 | ||
Gain control by layer six in cortical circuits of vision | Q36797150 | ||
Diversity of transgenic mouse models for selective targeting of midbrain dopamine neurons. | Q37284584 | ||
Cerebellar ataxias | Q37472805 | ||
Cerebellar cortical organization: a one-map hypothesis | Q37582771 | ||
Spatiotemporal firing patterns in the cerebellum. | Q37872197 | ||
Purkinje neuron synchrony elicits time-locked spiking in the cerebellar nuclei | Q40721196 | ||
A quantitative analysis of the distribution of Purkinje cell axonal collaterals in different zones of the cat's cerebellum: an intracellular HRP study | Q44656893 | ||
Interplay between local GABAergic interneurons and relay neurons generates gamma oscillations in the rat olfactory bulb. | Q44885113 | ||
Highly restricted expression of Cre recombinase in cerebellar Purkinje cells | Q45049220 | ||
The distribution of recurrent purkinje collateral synapses in the mouse cerebellar cortex: An electron microscopic study | Q45120428 | ||
Purkinje cell axon collateral distributions reflect the chemical compartmentation of the rat cerebellar cortex | Q45339117 | ||
Paired-pulse facilitation at recurrent Purkinje neuron synapses is independent of calbindin and parvalbumin during high-frequency activation. | Q46219303 | ||
High-frequency organization and synchrony of activity in the purkinje cell layer of the cerebellum | Q46543574 | ||
Dynamic modulation of mossy fiber system throughput by inferior olive synchrony: a multielectrode study of cerebellar cortex activated by motor cortex | Q47890012 | ||
Multiple climbing fibers signal to molecular layer interneurons exclusively via glutamate spillover. | Q48160979 | ||
Effects of collateral inhibition in a model of the immature rat cerebellar cortex: multineuron correlations | Q48306045 | ||
Encoding of whisker input by cerebellar Purkinje cells | Q48333993 | ||
Cerebellar cortical molecular layer inhibition is organized in parasagittal zones. | Q48450767 | ||
Cerebellar depolarization-induced suppression of inhibition is mediated by endogenous cannabinoids. | Q48764465 | ||
The recurrent collaterals of Purkinje cell axons: a correlated study of the rat's cerebellar cortex with electron microscopy and the Golgi method | Q48874036 | ||
The pattern of distribution of the local axonal collaterals of Purkinje cells in the intermediate cortex of the anterior lobe and paramedian lobule of the cat cerebellum | Q48908281 | ||
The control of rate and timing of spikes in the deep cerebellar nuclei by inhibition. | Q49084329 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Purkinje cell | Q1570272 |
P304 | page(s) | 312-319 | |
P577 | publication date | 2016-06-23 | |
P1433 | published in | Neuron | Q3338676 |
P1476 | title | Purkinje Cell Collaterals Enable Output Signals from the Cerebellar Cortex to Feed Back to Purkinje Cells and Interneurons | |
P478 | volume | 91 |
Q48000102 | Axonal GABAA receptors depolarize presynaptic terminals and facilitate transmitter release in cerebellar Purkinje cells. |
Q102141628 | Bidirectional learning in upbound and downbound microzones of the cerebellum |
Q64067700 | Cerebellar Purkinje cells control eye movements with a rapid rate code that is invariant to spike irregularity |
Q99614549 | Cerebellar injury in term neonates with hypoxic-ischemic encephalopathy is underestimated |
Q99207818 | Climbing fiber synapses rapidly and transiently inhibit neighboring Purkinje cells via ephaptic coupling |
Q57176826 | Computational Principles of Supervised Learning in the Cerebellum |
Q47599816 | Concerted Interneuron Activity in the Cerebellar Molecular Layer During Rhythmic Oromotor Behaviors. |
Q92530068 | Consensus Paper: Experimental Neurostimulation of the Cerebellum |
Q57122237 | Consensus paper: Decoding the Contributions of the Cerebellum as a Time Machine. From Neurons to Clinical Applications |
Q91583387 | Diverse Neuron Properties and Complex Network Dynamics in the Cerebellar Cortical Inhibitory Circuit |
Q104111379 | Diversity and dynamism in the cerebellum |
Q57189470 | Ephaptic Coupling Promotes Synchronous Firing of Cerebellar Purkinje Cells |
Q92784162 | Essential tremor pathology: neurodegeneration and reorganization of neuronal connections |
Q50610929 | Extraction of Synaptic Input Properties in Vivo. |
Q99207136 | Firing rate-dependent phase responses of Purkinje cells support transient oscillations |
Q30844342 | Genetic silencing of olivocerebellar synapses causes dystonia-like behaviour in mice |
Q57298222 | Impact of parallel fiber to Purkinje cell long-term depression is unmasked in absence of inhibitory input |
Q88628734 | Insights into cerebellar development and connectivity |
Q61797127 | Molecular layer interneurons shape the spike activity of cerebellar Purkinje cells |
Q42255075 | Non-synaptic signaling from cerebellar climbing fibers modulates Golgi cell activity. |
Q39437479 | Organotypic cultures of cerebellar slices as a model to investigate demyelinating disorders |
Q39424249 | Purkinje Cells Directly Inhibit Granule Cells in Specialized Regions of the Cerebellar Cortex |
Q41331372 | Serial processing of kinematic signals by cerebellar circuitry during voluntary whisking. |
Q48007369 | Synaptic Specializations Support Frequency-Independent Purkinje Cell Output from the Cerebellar Cortex |
Q50586016 | Temporal integration and 1/f power scaling in a circuit model of cerebellar interneurons. |
Q41643120 | Transient Developmental Purkinje Cell Axonal Torpedoes in Healthy and Ataxic Mouse Cerebellum |
Q36194115 | Whole-Cell Properties of Cerebellar Nuclei Neurons In Vivo |
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