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Article: Developmental synaptic changes increase the range of integrative capabilities of an identified excitatory neocortical connection.

Full Text (publisher's website) ; Article Metadata ; Article Data (extracted)
Angulo MC; Staiger JF; Rossier J; Audinat E
J. Neurosci., 1999

Inferred neuron-electrophysiology data values

Neuron Type Neuron Description Ephys Prop Extracted Value Standardized Value Content Source
Neocortex pyramidal cell layer 5-6 Motor cortex layer 5 glutamatergic excitatory pyramidal neurons synapsing onto motor cortex layer 5 fast-spiking interneurons adaptation percent (1 – first/last ISI) 12.0 ± 13.0 (20) 12.0 (ratio) Data Table
Neocortex pyramidal cell layer 5-6 Motor cortex layer 5 glutamatergic excitatory pyramidal neurons synapsing onto motor cortex layer 5 fast-spiking interneurons adaptation percent (1 – first/last ISI) 15.0 ± 15.0 (36) 15.0 (ratio) Data Table
Neocortex pyramidal cell layer 5-6 Motor cortex layer 5 glutamatergic excitatory pyramidal neurons synapsing onto motor cortex layer 5 fast-spiking interneurons AHP amplitude -21.0 ± 3.0 (36) 21.0 (mV) Data Table
Neocortex pyramidal cell layer 5-6 Motor cortex layer 5 glutamatergic excitatory pyramidal neurons synapsing onto motor cortex layer 5 fast-spiking interneurons AHP amplitude -25.0 ± 3.3 (20) 25.0 (mV) Data Table
Neocortex pyramidal cell layer 5-6 Motor cortex layer 5 glutamatergic excitatory pyramidal neurons synapsing onto motor cortex layer 5 fast-spiking interneurons input resistance 0.16 ± 0.06 (36) 160.0 (MΩ) Data Table
Neocortex pyramidal cell layer 5-6 Motor cortex layer 5 glutamatergic excitatory pyramidal neurons synapsing onto motor cortex layer 5 fast-spiking interneurons input resistance 0.14 ± 0.04 (20) 140.0 (MΩ) Data Table
Neocortex pyramidal cell layer 5-6 Motor cortex layer 5 glutamatergic excitatory pyramidal neurons synapsing onto motor cortex layer 5 fast-spiking interneurons resting membrane potential -76.0 ± 3.1 (20) -76.0 (mV) Data Table
Neocortex pyramidal cell layer 5-6 Motor cortex layer 5 glutamatergic excitatory pyramidal neurons synapsing onto motor cortex layer 5 fast-spiking interneurons resting membrane potential -73.0 ± 8.0 (34) -73.0 (mV) Data Table
Neocortex pyramidal cell layer 5-6 Motor cortex layer 5 glutamatergic excitatory pyramidal neurons synapsing onto motor cortex layer 5 fast-spiking interneurons spike amplitude (A) 78.0 ± 8.0 (36) -- Data Table
Neocortex pyramidal cell layer 5-6 Motor cortex layer 5 glutamatergic excitatory pyramidal neurons synapsing onto motor cortex layer 5 fast-spiking interneurons spike amplitude (A) 81.0 ± 5.0 (20) -- Data Table
Neocortex pyramidal cell layer 5-6 Motor cortex layer 5 glutamatergic excitatory pyramidal neurons synapsing onto motor cortex layer 5 fast-spiking interneurons spike half-width 0.4 ± 0.1 (36) 0.4 (ms) Data Table
Neocortex pyramidal cell layer 5-6 Motor cortex layer 5 glutamatergic excitatory pyramidal neurons synapsing onto motor cortex layer 5 fast-spiking interneurons spike half-width 0.31 ± 0.06 (20) 0.31 (ms) Data Table

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Metadata values

Experimental condition Value
RecTemp 30.0
AnimalAge 14.0 - 20.0
Strain Wistar
PrepType in vitro
ElectrodeType Patch-clamp
Species Rats
JxnPotential Corrected
ExternalSolution 5.0
InternalSolution 5.0
internal_0_pH 7.3
internal_0_Mg 3.0
internal_0_K 144.0
internal_0_EGTA 0.2
internal_0_HEPES 10.0
internal_0_Cl 6.0
external_0_Mg 1.0
external_0_Na 148.25
external_0_K 2.5
external_0_Cl 129.5
external_0_Ca 2.0
external_0_glucose 20.0

Data table listing

Data Table Article Title Authors Journal Year Table needs expert? Ephys table mentions Curated by Times validated
3306 Developmental synaptic changes increase the range of integrative capabilities of an identified excitatory neocortical connection. Angulo MC; Staiger JF; Rossier J; Audinat E J. Neurosci. 1999 True 6 Shreejoy Tripathy, Dmitry Tebaykin, Nathalie Binnion, James liu, Patrick Savage, 4
3307 Developmental synaptic changes increase the range of integrative capabilities of an identified excitatory neocortical connection. Angulo MC; Staiger JF; Rossier J; Audinat E J. Neurosci. 1999 False 0 None