Channel noise is essential for perithreshold oscillations in entorhinal stellate neurons.
about
Intrinsic electrophysiological properties of entorhinal cortex stellate cells and their contribution to grid cell firing fieldsNeuronal network analyses: premises, promises and uncertaintiesRestoring the encoding properties of a stochastic neuron model by an exogenous noiseThe past, present, and future of real-time control in cellular electrophysiology.Action potential timing precision in dorsal cochlear nucleus pyramidal cells.Stochastically gating ion channels enable patterned spike firing through activity-dependent modulation of spike probabilityRhythms of the brain: an examination of mixed mode oscillation approaches to the analysis of neurophysiological data.Stochastic simulations on the reliability of action potential propagation in thin axons.Dynamic clamp: alteration of response properties and creation of virtual realities in neurophysiology.The mechanism of abrupt transition between theta and hyper-excitable spiking activity in medial entorhinal cortex layer II stellate cells.Nonlinear properties of medial entorhinal cortex neurons reveal frequency selectivity during multi-sinusoidal stimulation.A review of the neural mechanisms of action and clinical efficiency of riluzole in treating amyotrophic lateral sclerosis: what have we learned in the last decade?Control of local intracellular calcium concentration with dynamic-clamp controlled 2-photon uncagingSimple, fast and accurate implementation of the diffusion approximation algorithm for stochastic ion channels with multiple states.Identification of molecular pathologies sufficient to cause neuropathic excitability in primary somatosensory afferents using dynamical systems theory.Time constants of h current in layer ii stellate cells differ along the dorsal to ventral axis of medial entorhinal cortex.Membrane potential-dependent integration of synaptic inputs in entorhinal stellate neurons.Somatic versus dendritic resonance: differential filtering of inputs through non-uniform distributions of active conductances.Mechanism and function of mixed-mode oscillations in vibrissa motoneuronsImpacts of clustering on noise-induced spiking regularity in the excitatory neuronal networks of subnetworks.Noise Enhances Action Potential Generation in Mouse Sensory Neurons via Stochastic ResonanceSynaptic input statistics tune the variability and reproducibility of neuronal responses.Contribution of near-threshold currents to intrinsic oscillatory activity in rat medial entorhinal cortex layer II stellate cells.The rhythmic consequences of ion channel stochasticity.Control of neuronal persistent activity by voltage-dependent dendritic propertiesPyramidal neurons switch from integrators in vitro to resonators under in vivo-like conditionsDevelopment of theta rhythmicity in entorhinal stellate cells of the juvenile rat.Noise in the nervous system.Stochastic and deterministic dynamics of intrinsically irregular firing in cortical inhibitory interneuronsEpileptogenic networks and drug-resistant epilepsy: Present and future perspectives of epilepsy research-Utility for the epileptologist and the epilepsy surgeon.Phase-response curves and synchronized neural networks.Intrinsic membrane properties of central vestibular neurons in rodents.How to build a grid cell.Knock-out of HCN1 subunit flattens dorsal-ventral frequency gradient of medial entorhinal neurons in adult mice.Conductance-based neuron models and the slow dynamics of excitability.Oxytocin depolarizes fast-spiking hilar interneurons and induces GABA release onto mossy cells of the rat dentate gyrusSubthreshold membrane-potential resonances shape spike-train patterns in the entorhinal cortex.The ISI distribution of the stochastic Hodgkin-Huxley neuronExact stochastic simulation of a calcium microdomain reveals the impact of Ca²⁺ fluctuations on IP₃R gating.Spike Pattern Structure Influences Synaptic Efficacy Variability under STDP and Synaptic Homeostasis. II: Spike Shuffling Methods on LIF Networks.
P2860
Q21129468-ED86BA92-2C0F-47C7-B993-D5ABE8308554Q28750718-3701381D-2FFA-4456-85F0-0098F1DB94B7Q30411147-485F1D1A-C3FE-4F86-9463-657078865772Q30413052-9AFFF5F3-3E71-41D7-88F9-7078454A17C8Q30494304-7A2F5AD8-711D-46BE-B3FC-A51A8DDA9D70Q30858460-3A947930-17D8-4CBD-954F-02654CBCF96BQ31151084-2A0E3462-22EE-44D1-AADF-F338614EF0ADQ33283724-4961540F-4B1D-43EB-88E0-6DD93AA0BE27Q33725038-673D7D53-082B-49E8-AA9F-5A2A3824BC4DQ33747853-CA5E3460-72CC-4491-BC7B-26485CB3853EQ34063178-5ACC39AC-6F50-4C62-B97B-3B46B1CE75C6Q34104378-0FD3C217-FC20-4200-B1F4-63AE5598D2A4Q34116964-68EDBCFF-CD3F-41F7-9023-2F4601FD9213Q34281626-9995C209-4EFB-4D20-86EC-782AC22CADD2Q34288745-27855287-4AA3-41C7-8F61-68178A485860Q34343799-2E1DBD70-C08E-4022-9F7A-0CE3DE919A26Q34536585-FD12C7CD-A016-4045-A1C9-6C0CD4F53504Q35041086-E6289B3F-7AFB-403D-B1A3-8A88304C31BEQ35294436-530D77F1-D49C-405B-89FD-C9B9BDFA3C3BQ35824157-C6EC97BC-8333-4638-8903-5BCB3342FFBEQ36104046-7AFB8100-0BDF-496B-8F38-64CEE5390B4CQ36527660-F730553F-F319-4B4F-A304-0AAD89360F1DQ36534135-8E7387CC-FEB8-4909-A310-F05DAAA71399Q36587195-C3326A82-ACCF-42D4-AF00-21CB5958DFBDQ36893128-28D7A807-519C-44BC-996A-77927CDE4F76Q37018505-F9C6C670-B54E-4F31-ABD9-166EB0F79FE4Q37018534-7B4C717F-7A69-40E2-AAB5-BE49495CB2C9Q37102165-4CE974E3-43F9-4277-92BD-7A17E323E55CQ37270334-7B1EC0B6-D633-4A04-AD11-51444DF72EE7Q37725964-DCD3550F-9BAD-4871-891B-B6310ACEF38DQ37770179-97CF9A83-E273-430F-9879-6CF693086599Q37844464-E37F2B7B-BDBF-48C3-85C8-0A61F0A14874Q38173648-E0604E51-DEFC-498F-A1F2-645AEF1D809BQ39972160-F5D0264C-B317-405D-80D7-18FD46859C64Q41158116-ACD6369A-7C93-4FA9-BF59-9EC16BD50D07Q41815106-DC85CE9B-7255-4767-9C32-0F219C6B3D32Q41869226-4A0F2BCB-3377-4D7D-8147-97F4E5F5010EQ41956429-0A201108-9C8E-45C3-9E5B-B207FFB8D777Q42036098-4EDA8AD1-E98B-4DDE-B04C-B194F0B6524AQ42107777-B89FE5D9-DAB3-4A63-87DB-42D523F8CB64
P2860
Channel noise is essential for perithreshold oscillations in entorhinal stellate neurons.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Channel noise is essential for perithreshold oscillations in entorhinal stellate neurons.
@ast
Channel noise is essential for perithreshold oscillations in entorhinal stellate neurons.
@en
type
label
Channel noise is essential for perithreshold oscillations in entorhinal stellate neurons.
@ast
Channel noise is essential for perithreshold oscillations in entorhinal stellate neurons.
@en
prefLabel
Channel noise is essential for perithreshold oscillations in entorhinal stellate neurons.
@ast
Channel noise is essential for perithreshold oscillations in entorhinal stellate neurons.
@en
P1476
Channel noise is essential for perithreshold oscillations in entorhinal stellate neurons
@en
P2093
Alan D Dorval
John A White
P304
10025-10028
P356
10.1523/JNEUROSCI.3557-05.2005
P407
P577
2005-10-01T00:00:00Z