Contrasting effects of the persistent Na+ current on neuronal excitability and spike timing.
about
Acoustic neuromodulation from a basic science prospectiveGenetic background modulates impaired excitability of inhibitory neurons in a mouse model of Dravet syndromePacemaking Property of RVLM Presympathetic NeuronsPersistent Sodium Current and Its Role in EpilepsySpontaneous events outline the realm of possible sensory responses in neocortical populations.Neuronal firing sensitivity to morphologic and active membrane parameters.A selective interplay between aberrant EPSPKA and INaP reduces spike timing precision in dentate granule cells of epileptic rats.Dynamic clamp: alteration of response properties and creation of virtual realities in neurophysiology.Blockade of persistent sodium currents contributes to the riluzole-induced inhibition of spontaneous activity and oscillations in injured DRG neurons.Effective stimuli for constructing reliable neuron models.A theory of rate coding control by intrinsic plasticity effects.Kinetic properties and functional dynamics of sodium channels during repetitive spiking in a slow pacemaker neuronExcitability of jcBNST neurons is reduced in alcohol-dependent animals during protracted alcohol withdrawal.Subthreshold membrane currents confer distinct tuning properties that enable neurons to encode the integral or derivative of their input.Differential effects of static and dynamic inputs on neuronal excitabilityUsing computer simulations to determine the limitations of dynamic clamp stimuli applied at the soma in mimicking distributed conductance sourcesDifferent mechanisms generate maintained activity in ON and OFF retinal ganglion cells.Human Na(v)1.8: enhanced persistent and ramp currents contribute to distinct firing properties of human DRG neurons.Sodium-activated potassium channels are functionally coupled to persistent sodium currents.Calcium-activated SK channels influence voltage-gated ion channels to determine the precision of firing in globus pallidus neurons.Differential effects of conductances on the phase resetting curve of a bursting neuronal oscillator.Transient sodium current at subthreshold voltages: activation by EPSP waveformsControl of neuronal persistent activity by voltage-dependent dendritic propertiesAction potential initiation and propagation: upstream influences on neurotransmissionSynaptic Conductances during Interictal Discharges in Pyramidal Neurons of Rat Entorhinal Cortex.Neuronal arithmeticIntrinsic membrane properties of central vestibular neurons in rodents.Cav 1.3 channels play a crucial role in the formation of paroxysmal depolarization shifts in cultured hippocampal neurons.Hyperexcitability of Mesencephalic Trigeminal Neurons and Reorganization of Ion Channel Expression in a Rett Syndrome Model.Study on dynamic characteristics' change of hippocampal neuron reduced models caused by the Alzheimer's disease.Asynchronous presynaptic glutamate release enhances neuronal excitability during the post-spike refractory period.Balanced plasticity and stability of the electrical properties of a molluscan modulatory interneuron after classical conditioning: a computational study.Impaired neuronal operation through aberrant intrinsic plasticity in epilepsy.Long-term temporal imprecision of information coding in the anterior cingulate cortex of mice with peripheral inflammation or nerve injury.The effect of neural noise on spike time precision in a detailed CA3 neuron model.Activity-dependent alternative splicing increases persistent sodium current and promotes seizureCompetition between Persistent Na+ and Muscarine-Sensitive K+ Currents Shapes Perithreshold Resonance and Spike Tuning in CA1 Pyramidal Neurons.BK potassium channels facilitate high-frequency firing and cause early spike frequency adaptation in rat CA1 hippocampal pyramidal cells.Real-time Electrophysiology: Using Closed-loop Protocols to Probe Neuronal Dynamics and Beyond.Vestibular integrator neurons have quadratic functions due to voltage dependent conductances.
P2860
Q26747004-A9A22D96-008C-4DC3-AA4D-DEE77B378A60Q27308208-41243FE6-8809-4C1F-A0EA-638714A62F07Q28075596-F1C93342-A434-4489-9184-5EC22E4CBC3FQ29396058-18821B7B-7F79-487D-A134-19E34A10F61AQ30481494-680C0348-D6D8-417B-862F-8D0E1F8307A5Q33315557-3D32DB7B-3676-46E9-BACD-C99DEC8629DDQ33721716-16EC0CB3-75BB-4F93-9C94-CC334B5BB9BCQ33725038-9B8CFD11-6854-44F6-8AB0-3F715EE853F8Q33889459-2F08D743-FB55-4EA0-9CEA-B5B36CBC3C4DQ34005249-DE81F703-9292-4ECF-9D19-A45EB3526633Q34139905-BD3F9850-27EE-45B2-A378-29779A537647Q34155647-5B2CFC67-F631-4F06-B452-1242DBF3F85DQ34395469-6BF4A0AB-27A7-464F-947A-7A7FB042362DQ34882734-6962CE8E-60D3-4653-9B13-19E5813ADDB8Q34959464-18CA02CD-0446-4400-9529-1712F857ACFDQ34980056-AAB21844-C286-49A0-834C-31D5CF90EDC9Q35104604-081B73A0-8F33-4EEE-AE9B-646D83A3747FQ35609134-9BE9D91F-8FC1-4A6E-BC3F-01917E805804Q35871140-9A349CB5-368E-4151-9EFB-43B588CB1404Q35898418-081681A1-B29F-45AB-8E74-C97A427C26CEQ35927752-A39B6497-243D-4AD8-9075-19C990412F44Q36286375-928693CE-F4CF-4F83-AE5D-0164FE7F17AFQ36893128-55557622-ADB5-4C27-A47E-0C099A9190B5Q37160148-4A3E6DE7-DD2F-4AC0-BB54-AF1168D26FAEQ37334931-C6A93A95-468F-4296-B4E6-EA4F0B5122A0Q37763510-E86BF6E3-3F0C-4FDB-B847-07CC04DD4F0CQ37844464-853B8EE5-61B6-4DB2-A5EF-FBD01A227DDAQ38907067-F613B413-5056-499F-8939-CD116CDFBC09Q39349418-0E19D041-FF43-4044-AA1F-7D4E4CE287E1Q39902132-A2917360-3362-421A-B890-933A9EB8C8CDQ40216542-1156E80A-CAA2-4994-A8D8-DACBB4D3622AQ40608998-F1D26C70-8622-4627-9096-7869830E6F9EQ41590398-F38925BB-0A3B-4759-A427-341D7FB9525AQ41904244-3CCEEF58-3233-4952-87AB-BF328C469316Q42223467-0EAEAF1B-7AEA-4F28-8438-4909C8BB7C62Q42243377-B3AB0776-89B6-4A4B-B939-80469AD3D491Q42317773-1846F0A0-B47B-4844-A6F3-8C083012C46FQ42508404-9620C32E-3694-419F-B020-12D322AA3380Q42731965-1B65FF70-BBAB-4311-AD25-2599BD5FDE34Q43810197-1865FC86-303D-4F11-9BAC-6445D7C6B29F
P2860
Contrasting effects of the persistent Na+ current on neuronal excitability and spike timing.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Contrasting effects of the per ...... excitability and spike timing.
@en
Contrasting effects of the per ...... excitability and spike timing.
@nl
type
label
Contrasting effects of the per ...... excitability and spike timing.
@en
Contrasting effects of the per ...... excitability and spike timing.
@nl
prefLabel
Contrasting effects of the per ...... excitability and spike timing.
@en
Contrasting effects of the per ...... excitability and spike timing.
@nl
P2093
P1433
P1476
Contrasting effects of the per ...... excitability and spike timing.
@en
P2093
Johan F Storm
Koen Vervaeke
Lyle J Graham
P304
P356
10.1016/J.NEURON.2005.12.022
P407
P577
2006-01-01T00:00:00Z