In vitro and in vivo measures of evoked excitatory and inhibitory conductance dynamics in sensory cortices.
about
Inhibition Controls Asynchronous States of Neuronal NetworksThe role of nitric oxide in pre-synaptic plasticity and homeostasisInhibitory synaptic plasticity: spike timing-dependence and putative network function.Mixed neurotransmission in the hippocampal mossy fibersPush-Pull Receptive Field Organization and Synaptic Depression: Mechanisms for Reliably Encoding Naturalistic Stimuli in V1.Estimation of the synaptic input firing rates and characterization of the stimulation effects in an auditory neuron.Imbalance of excitation and inhibition at threshold level in the auditory cortex.Developmental maturation of excitation and inhibition balance in principal neurons across four layers of somatosensory cortexLong-lasting context dependence constrains neural encoding models in rodent auditory cortex.Stimulus onset quenches neural variability: a widespread cortical phenomenonSix principles of visual cortical dynamics.Breaking the Excitation-Inhibition Balance Makes the Cortical Network's Space-Time Dynamics Distinguish Simple Visual Scenes.Intense synaptic activity enhances temporal resolution in spinal motoneurons.Network-state modulation of power-law frequency-scaling in visual cortical neurons.Maturation of GABAergic inhibition promotes strengthening of temporally coherent inputs among convergent pathwaysThe Touch and Zap method for in vivo whole-cell patch recording of intrinsic and visual responses of cortical neurons and glial cellsInhibitory "noise".Imperfect space clamp permits electrotonic interactions between inhibitory and excitatory synaptic conductances, distorting voltage clamp recordings.Short-term depression, temporal summation, and onset inhibition shape interval tuning in midbrain neurons.Preserved excitatory-inhibitory balance of cortical synaptic inputs following deprived eye stimulation after a saturating period of monocular deprivation in ratsPush-pull control of motor output.D-Serine and Glycine Differentially Control Neurotransmission during Visual Cortex Critical Period.Dynamic Balance of Excitation and Inhibition in Human and Monkey Neocortex.Synaptic Conductances during Interictal Discharges in Pyramidal Neurons of Rat Entorhinal Cortex.Neuronal Nicotinic Receptors Are Crucial for Tuning of E/I Balance in Prelimbic Cortex and for Decision-Making ProcessesAnimation of natural scene by virtual eye-movements evokes high precision and low noise in V1 neurons.Cumulative latency advance underlies fast visual processing in desynchronized brain state.Rapid homeostasis by disinhibition during whisker map plasticity.Modulation of Synaptic Plasticity in the Cortex Needs to Understand All the Players.Firing clamp: a novel method for single-trial estimation of excitatory and inhibitory synaptic neuronal conductancesEstimation of Synaptic Conductances in Presence of Nonlinear Effects Caused by Subthreshold Ionic Currents.Efficient codes and balanced networks.Parameter extraction and classification of three cortical neuron types reveals two distinct adaptation mechanisms.Dissecting estimation of conductances in subthreshold regimes.Whisker row deprivation affects the flow of sensory information through rat barrel cortex.The domain of neuronal firing on a plane of input current and conductance.Spatiotemporal interplay between multisensory excitation and recruited inhibition in the lamprey optic tectum.Alterations in Properties of Glutamatergic Transmission in the Temporal Cortex and Hippocampus Following Pilocarpine-Induced Acute Seizures in Wistar Rats.A Mammalian Retinal Ganglion Cell Implements a Neuronal Computation That Maximizes the SNR of Its Postsynaptic Currents.Impaired GABAergic transmission disrupts normal homeostatic plasticity in rat cortical networks.
P2860
Q26747623-26CEB6DD-9C51-4CCC-B893-6156034C4B89Q26863770-EF0A1FD7-864D-4232-AF30-5A709986B828Q26865106-75FBADE6-50DF-4689-BDC9-8FAC47F7846FQ26995478-6DD31D85-98A1-4175-AD7D-8E291CF02948Q27318762-B4B3974F-FCE5-4856-A52C-70A562E9B292Q30410000-97CCE8BC-37DE-4B6B-9734-84FE470A56F1Q30414730-367694B1-B7AC-427F-9AD5-C4226BFC5679Q30470779-21D26C3B-7D1C-45C7-B5B1-87A79DF13240Q30478939-07467D30-6C16-466D-A8A9-2DAB59DE5C83Q30493353-A5A0EA66-CCDF-477F-81FE-B32D94E32906Q30495546-BAB2DE8D-6CFC-474E-8FFA-117F15B03DFCQ30842533-B5233FF5-A2D9-4C7B-92BF-C01A1F07AD51Q33369844-6F88414B-7852-4B75-9593-C4801E82D8FEQ33506609-5E756576-285F-4F0D-81A2-B2D275C06C24Q33598580-2BE127AD-4FC4-4B9A-9781-9BDF93A7A1A6Q33685535-5F08F196-F3EE-4ABF-9E07-23F841793D07Q33789224-7BEE4C0C-B138-4598-A784-8BC1FF04683FQ33894855-3964137D-3171-4ABA-B85B-18C1FCFBC1B7Q34383437-715F19A5-9AC7-4ED6-9A00-60006F62C413Q35069940-89723AED-8B4D-4BE8-9DE6-1A801271831CQ35909135-29F4CB95-3B25-4188-8E51-8F7107EBB957Q35966180-F471C92B-980E-47F9-9D77-C94805A69562Q36691008-04D30EBF-0270-4F51-8E9A-9385F4E75B89Q37334931-2E985FE7-E701-470E-9225-FC795941FB05Q37339345-D793101D-1A13-4FF9-BF72-E2ED3F40E564Q37415559-AC62171F-BCF1-47EF-932D-17589726F3B0Q37474980-A3EE8E81-3EE1-4FFF-B179-BE6B0E6A0BD1Q37543674-B4E5CD8B-32AF-4883-94FF-2AAE6749BA9CQ37617476-BCAA1F16-708E-4D87-B756-5C7B74A484A2Q37681423-3F6B2BD6-CCD8-4D34-8957-5B56BDC10691Q38633077-3321B7C6-104F-4314-9375-979E483ED09AQ38746879-C480F00C-50A3-461E-A52C-A3BA11FA7EB3Q39677048-B9C0A45B-E108-43A8-9FB5-3105CE0BA764Q40472535-13EA0055-AA74-43D6-A753-46313D235516Q40635797-84F1AA37-D306-4951-B8CA-C402C885D775Q40638153-E2068A2F-8402-444B-BDC7-D666CAE77819Q41111484-C1CE93E1-BD8C-4FF6-B6CD-B15DF8B3389CQ41611208-055BE42C-D167-4234-83FE-7B0F3C677B6EQ42322806-0BF0E044-E0B2-4082-A619-5DBD97624C27Q42577271-DB873DB2-AC1F-48D1-97F0-758640BF7597
P2860
In vitro and in vivo measures of evoked excitatory and inhibitory conductance dynamics in sensory cortices.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
In vitro and in vivo measures ...... dynamics in sensory cortices.
@en
In vitro and in vivo measures ...... dynamics in sensory cortices.
@nl
type
label
In vitro and in vivo measures ...... dynamics in sensory cortices.
@en
In vitro and in vivo measures ...... dynamics in sensory cortices.
@nl
prefLabel
In vitro and in vivo measures ...... dynamics in sensory cortices.
@en
In vitro and in vivo measures ...... dynamics in sensory cortices.
@nl
P2093
P1476
In vitro and in vivo measures ...... dynamics in sensory cortices.
@en
P2093
P304
P356
10.1016/J.JNEUMETH.2007.11.008
P577
2007-11-22T00:00:00Z