High frequency burst firing of granule cells ensures transmission at the parallel fiber to purkinje cell synapse at the cost of temporal coding. - Wikidata - wikimedia - TriplyDB

High frequency burst firing of granule cells ensures transmission at the parallel fiber to purkinje cell synapse at the cost of temporal coding.

High frequency burst firing of granule cells ensures transmission at the parallel fiber to purkinje cell synapse at the cost of temporal coding.

http://www.wikidata.org/entity/Q40868728

about

Modulation, Plasticity and Pathophysiology of the Parallel Fiber-Purkinje Cell Synapse.T-type channel blockade impairs long-term potentiation at the parallel fiber-Purkinje cell synapse and cerebellar learning.Modeled changes of cerebellar activity in mutant mice are predictive of their learning impairments.Network structure within the cerebellar input layer enables lossless sparse encoding.A Model of In vitro Plasticity at the Parallel Fiber-Molecular Layer Interneuron Synapses.Reevaluation of the beam and radial hypotheses of parallel fiber action in the cerebellar cortex.Motor Learning and the Cerebellum.Synaptic representation of locomotion in single cerebellar granule cells Serial processing of kinematic signals by cerebellar circuitry during voluntary whisking.Mechanisms of Spontaneous Climbing Fiber Discharge-Evoked Pauses and Output Modulation of Cerebellar Purkinje Cell in Mice.Synaptic Activation of a Detailed Purkinje Cell Model Predicts Voltage-Dependent Control of Burst-Pause Responses in Active Dendrites.Model cerebellar granule cells can faithfully transmit modulated firing rate signals.Frequency-dependent mobilization of heterogeneous pools of synaptic vesicles shapes presynaptic plasticity.Dendritic SK channels convert NMDA-R-dependent LTD to burst timing-dependent plasticity.Biphasic modulation of parallel fibre synaptic transmission by co-activation of presynaptic GABAA and GABAB receptors in mice.Cerebellar granule cells acquire a widespread predictive feedback signal during motor learning.Synaptic Multivesicular Release in the Cerebellar Cortex: Its Mechanism and Role in Neural Encoding and Processing.Activity-dependent plasticity of presynaptic GABAB receptors at parallel fiber synapses.Sequential Pattern Formation in the Cerebellar Granular Layer.Computational Principles of Supervised Learning in the Cerebellum

P2860

Q28069538-72AEACD9-5742-4734-A69D-34FC77B8DE17 Q30559608-82FFD109-A992-49ED-AE91-AA0C7E51E2B7 Q30827480-39368879-4C49-468D-B188-3AD8E38B0623 Q34104462-16662345-06ED-4D7E-8F1E-A5E63BE67E0A Q36400695-D58403DB-B77F-4D24-B091-2756F4C80C55 Q37048092-275E96F1-ACDC-4609-93C0-C7902CA09BE7 Q38404758-2B971906-0371-4364-BF1A-3A3226DA9B9B Q41109410-DDB6E973-ACAE-416D-9A7F-3D165D768D05 Q41331372-A605C5CD-4016-4FA6-885A-EFE9A3B23818 Q41526935-E321B069-80ED-441D-A544-61FB94EBC39C Q41683987-BBFD4B6A-682F-40AA-8F69-E612DB0D9B8C Q42283095-C02D2779-F947-4E35-9A4B-DDF2785B9332 Q42380467-89026BA3-D415-4C9E-BEEA-AB6FEC495CF9 Q45807526-A1973531-59CE-4D93-A52A-3B21BB0A7CF0 Q48058656-063FC06A-8B07-4A69-BF9F-CA3EB33CC447 Q48102364-2BD29E14-22A6-4870-8A57-ABBD248A7276 Q48179270-031701AB-983B-4835-966C-A01F97F73873 Q48185698-67FF8FB3-2EEA-4016-A9DE-04A33557A00A Q48561315-9F07AD5E-12F9-4192-8C05-D09E9D602785 Q57176826-49C7CFAC-7CD0-4672-AEC0-6A3A9D1F4291

P2860

High frequency burst firing of granule cells ensures transmission at the parallel fiber to purkinje cell synapse at the cost of temporal coding.

http://www.wikidata.org/entity/Q40868728

description

2013 nî lūn-bûn

@nan

2013年の論文

@ja

2013年論文

@yue

2013年論文

@zh-hant

2013年論文

@zh-hk

2013年論文

@zh-mo

2013年論文

@zh-tw

2013年论文

@wuu

2013年论文

@zh

2013年论文

@zh-cn

name

High frequency burst firing of ...... t the cost of temporal coding.

@en

type

label

High frequency burst firing of ...... t the cost of temporal coding.

@en

prefLabel

High frequency burst firing of ...... t the cost of temporal coding.

@en

P1433

Q40868728-1405430A-964D-4DCD-BCA9-96C8F3A83641

P1476

Q40868728-7A27509A-15C2-40A8-AA5A-C12C472C3CC8

P2093

Q40868728-1B8610D0-B50F-42F6-A228-2B93160AA9B7

Q40868728-278E959C-3151-4CDC-B4DF-68EE259CDCC2

Q40868728-57F8DECB-92AC-40F9-980D-F7811C3B09FD

Q40868728-F45178B0-FFD6-41F8-8898-D118C614F897

Q40868728-FB59FCD0-A059-408B-9A55-26747FE9045F

P2860

Q40868728-013D1431-7106-444B-BB2D-5651F91D1D50

Q40868728-02083DF4-B587-4ED6-B614-9ACD325D5524

Q40868728-0B475694-F964-42FE-9901-11C56F896ED2

Q40868728-0BE73155-87AF-4738-8455-F812045E7DD8

Q40868728-1200B562-1726-475D-83A7-BF707997D6AA

Q40868728-2ACABE2E-3BA7-42A5-839A-026A389A9F77

Q40868728-4B1D95DD-76B6-482E-AD53-16D74E83E737

Q40868728-56CDC425-DE66-4AF6-B3B8-95176C3FB6A0

Q40868728-5871DDB5-8BC3-449B-A454-925DE355CAE8

Q40868728-697BF67B-CA5F-4282-A1C9-0E8E2EB4ADD5

P304

Q40868728-415D9B9F-36AF-45EA-9F63-FB1F394A7235

P31

Q40868728-3422D82E-CEF6-45E4-B325-791EEAE6E506

P356

Q40868728-AD1A5146-C064-4162-AC13-B7B1BAD8B7AC

P478

Q40868728-206D2484-9E26-46C7-B5D6-FEF00F1B4866

P50

Q40868728-4814BD4B-F2CF-4C7F-B495-7F5BF71F2D72

P577

Q40868728-C9D36A7E-52AD-4C0B-8F3F-1D5C5E67B8DD

P5875

Q40868728-FAFF888D-7779-4292-8185-542C68FC0453

P698

Q40868728-E231A408-A5DA-4499-B56D-6CF874D5E81E

P921

Q40868728-8689EF09-D389-4E31-BDCC-FF5803D17149

P932

Q40868728-7EB0AD1C-0325-4C16-B659-7C43F5B114AD

P356

FNCIR.2013.00095

P1433

Frontiers in neural circuits

P1476

High frequency burst firing of ...... t the cost of temporal coding.

@en

P2093

Boeke J van Beugen

http://www.w3.org/2001/XMLSchema#string

Chris I De Zeeuw

http://www.w3.org/2001/XMLSchema#string

Freek Hoebeek

http://www.w3.org/2001/XMLSchema#string

Henk-Jan Boele

http://www.w3.org/2001/XMLSchema#string

Zhenyu Gao

http://www.w3.org/2001/XMLSchema#string

P2860

Development of a tonic form of synaptic inhibition in rat cerebellar granule cells resulting from persistent activation of GABAA receptors

Compartmental models of rat cerebellar Purkinje cells based on simultaneous somatic and dendritic patch-clamp recordings

Properties of unitary granule cell-->Purkinje cell synapses in adult rat cerebellar slices.

Integration of quanta in cerebellar granule cells during sensory processing.

Climbing fiber synaptic plasticity and modifications in Purkinje cell excitability.

Optical imaging of cerebellar functional architectures: parallel fiber beams, parasagittal bands and spreading acidification.

Timing and plasticity in the cerebellum: focus on the granular layer.

Presynaptic plasticity at cerebellar parallel fiber terminals.

Spatiotemporal firing patterns in the cerebellum.

Distributed synergistic plasticity and cerebellar learning.

P304

95

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.3389/FNCIR.2013.00095

http://www.w3.org/2001/XMLSchema#string

P478

7

http://www.w3.org/2001/XMLSchema#string

P50

Chris I De Zeeuw

P577

2013-05-21T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

237018204

http://www.w3.org/2001/XMLSchema#string

P698

23734102

http://www.w3.org/2001/XMLSchema#string

P921

P932

3659283

http://www.w3.org/2001/XMLSchema#string