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Article: 5-HT(3A) receptor-bearing white matter interstitial GABAergic interneurons are functionally integrated into cortical and subcortical networks.

Full Text (publisher's website) ; Article Metadata ; Article Data (extracted)
von Engelhardt J; Khrulev S; Eliava M; Wahlster S; Monyer H
J. Neurosci., 2011


Table 3.

Electrophysiological properties of EGFP-positive WMICs

Nonadapting with burst (1) Nonadapting (2) Adapting with burst (3) Adapting (4) Irregular (5)
Percentage (%) of all cells (n) 45 (18) 17.5 (7) 12.5 (5) 10 (4) 15 (6)
Input resistance (MΩ) 356 ± 220 602 ± 257* (vs 3) 224 ± 26 480 ±152 616 ± 223* (vs 3)
Membrane potential (mV) 69 ± 9 80 ± 8 69 ± 5 77 ± 12 81 ± 7
Threshold potential (mV) 41 ± 4 45 ± 5 41 ± 2 41 ± 1 42 ± 3
Sag (mV) 2.1 ± 2.2 1.5 ± 1 3.2 ± 2.2 0.7 ± 0.9 3 ± 3
Amplitude of 1st AP (mV) 79 ± 12 86 ± 8 84 ± 11 78 ± 15 79 ± 18
Amplitude of 2nd AP (mV) 77 ± 13 81 ± 6 80 ± 13 76 ± 15 76 ± 16
1st AP half width (ms) 0.54 ± 0.14 0.51 ± 0.09 0.5 ± 0.06 0.5 ± 0.03 0.52 ± 0.11
2nd AP half width (ms) 0.6 ± 0.15 0.6 ± 0.17 0.56 ± 0.07 0.51 ± 0.02 0.59 ± 0.14
Amplitude of 1st AHP (mV) 13 ± 6* (vs NAC) 20 ± 4 11 ± 4* (vs 2) 20 ± 4* (vs 3) 18 ± 4
Amplitude of 2nd AHP (mV) 15 ± 4*** (vs 2) 22 ± 2** (vs 3) 13 ± 2* (vs 4) 21 ± 4* (vs 1) 19 ± 2
Maximal frequency (Hz) 77.5 ± 35* 128 ± 51 75 ± 34 89 ± 20 39 ± 20** (vs 2)
Early adaptation (%) 70 ± 11*** (vs 2) 30 ± 7*** (vs 3) 77 ± 11*** (vs 4) 47 ± 5*** (vs 3)
Late adaptation (%) 6.8 ± 9.5*** (vs 3) 11 ± 4* (vs 3) 24 ± 5 24 ± 5** (vs 2)
  • *p < 0.05, **p < 0.01, ***p < 0.001.


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Inferred neuron-electrophysiology data values

Neuron Type Neuron Description Ephys Prop Extracted Value Standardized Value Content Source
Other corpus callosum white matter interstitial non-adapting bursting interneuron projecting to lower subcortical layers AHP duration (mV) 15.0 ± 4.0 (18) 15.0 (ms) Data Table
Other Corpus callosum white matter interstitial non-adapting interneurons projecting to lower subcortical layers AHP duration (mV) 22.0 ± 2.0 (7) 22.0 (ms) Data Table
Other Corpus callosum white matter interstitial adapting bursting interneurons projecting to lower subcortical layers AHP duration (mV) 13.0 ± 2.0 (5) 13.0 (ms) Data Table
Other Corpus callosum white matter interstitial adapting interneurons projecting to lower subcortical layers AHP duration (mV) 21.0 ± 4.0 (4) 21.0 (ms) Data Table
Other Corpus callosum white matter interstitial irregular bursting nterneurons projecting to lower subcortical layers AHP duration (mV) 19.0 ± 2.0 (6) 19.0 (ms) Data Table
Other corpus callosum white matter interstitial non-adapting bursting interneuron projecting to lower subcortical layers firing frequency (Hz) 77.5 ± 35.0 (18) 77.5 (Hz) Data Table
Other Corpus callosum white matter interstitial non-adapting interneurons projecting to lower subcortical layers firing frequency (Hz) 128.0 ± 51.0 (7) 128.0 (Hz) Data Table
Other Corpus callosum white matter interstitial adapting bursting interneurons projecting to lower subcortical layers firing frequency (Hz) 75.0 ± 34.0 (5) 75.0 (Hz) Data Table
Other Corpus callosum white matter interstitial adapting interneurons projecting to lower subcortical layers firing frequency (Hz) 89.0 ± 20.0 (4) 89.0 (Hz) Data Table
Other Corpus callosum white matter interstitial irregular bursting nterneurons projecting to lower subcortical layers firing frequency (Hz) 39.0 ± 20.0 (6) 39.0 (Hz) Data Table
Other corpus callosum white matter interstitial non-adapting bursting interneuron projecting to lower subcortical layers adaptation percent (1 – first/last ISI) 70.0 ± 11.0 (18) 70.0 (ratio) Data Table
Other Corpus callosum white matter interstitial non-adapting interneurons projecting to lower subcortical layers adaptation percent (1 – first/last ISI) 30.0 ± 7.0 (7) 30.0 (ratio) Data Table
Other Corpus callosum white matter interstitial adapting bursting interneurons projecting to lower subcortical layers adaptation percent (1 – first/last ISI) 77.0 ± 11.0 (5) 77.0 (ratio) Data Table
Other Corpus callosum white matter interstitial adapting interneurons projecting to lower subcortical layers adaptation percent (1 – first/last ISI) 47.0 ± 5.0 (4) 47.0 (ratio) Data Table
Other corpus callosum white matter interstitial non-adapting bursting interneuron projecting to lower subcortical layers input resistance (MΩ) 356.0 ± 220.0 (18) 356.0 (MΩ) Data Table
Other Corpus callosum white matter interstitial non-adapting interneurons projecting to lower subcortical layers input resistance (MΩ) 602.0 ± 257.0 (7) 602.0 (MΩ) Data Table
Other Corpus callosum white matter interstitial adapting bursting interneurons projecting to lower subcortical layers input resistance (MΩ) 224.0 ± 26.0 (5) 224.0 (MΩ) Data Table
Other Corpus callosum white matter interstitial adapting interneurons projecting to lower subcortical layers input resistance (MΩ) 480.0 ± 152.0 (4) 480.0 (MΩ) Data Table
Other Corpus callosum white matter interstitial irregular bursting nterneurons projecting to lower subcortical layers input resistance (MΩ) 616.0 ± 223.0 (6) 616.0 (MΩ) Data Table
Other corpus callosum white matter interstitial non-adapting bursting interneuron projecting to lower subcortical layers resting membrane potential (mV) 69.0 ± 9.0 (18) -69.0 (mV) Data Table
Other Corpus callosum white matter interstitial non-adapting interneurons projecting to lower subcortical layers resting membrane potential (mV) 80.0 ± 8.0 (7) -80.0 (mV) Data Table
Other Corpus callosum white matter interstitial adapting bursting interneurons projecting to lower subcortical layers resting membrane potential (mV) 69.0 ± 5.0 (5) -69.0 (mV) Data Table
Other Corpus callosum white matter interstitial adapting interneurons projecting to lower subcortical layers resting membrane potential (mV) 77.0 ± 12.0 (4) -77.0 (mV) Data Table
Other Corpus callosum white matter interstitial irregular bursting nterneurons projecting to lower subcortical layers resting membrane potential (mV) 81.0 ± 7.0 (6) -81.0 (mV) Data Table
Other corpus callosum white matter interstitial non-adapting bursting interneuron projecting to lower subcortical layers spike threshold (mV) 41.0 ± 4.0 (18) -41.0 (mV) Data Table
Other Corpus callosum white matter interstitial non-adapting interneurons projecting to lower subcortical layers spike threshold (mV) 45.0 ± 5.0 (7) -45.0 (mV) Data Table
Other Corpus callosum white matter interstitial adapting bursting interneurons projecting to lower subcortical layers spike threshold (mV) 41.0 ± 2.0 (5) -41.0 (mV) Data Table
Other Corpus callosum white matter interstitial adapting interneurons projecting to lower subcortical layers spike threshold (mV) 41.0 ± 1.0 (4) -41.0 (mV) Data Table
Other Corpus callosum white matter interstitial irregular bursting nterneurons projecting to lower subcortical layers spike threshold (mV) 42.0 ± 3.0 (6) -42.0 (mV) Data Table
Other corpus callosum white matter interstitial non-adapting bursting interneuron projecting to lower subcortical layers cell surface area (mV) 2.1 ± 2.2 (18) 2.1 (m) Data Table
Other Corpus callosum white matter interstitial non-adapting interneurons projecting to lower subcortical layers cell surface area (mV) 1.5 ± 1.0 (7) 1.5 (m) Data Table
Other Corpus callosum white matter interstitial adapting bursting interneurons projecting to lower subcortical layers cell surface area (mV) 3.2 ± 2.2 (5) 3.2 (m) Data Table
Other Corpus callosum white matter interstitial adapting interneurons projecting to lower subcortical layers cell surface area (mV) 0.7 ± 0.9 (4) 0.7 (m) Data Table
Other Corpus callosum white matter interstitial irregular bursting nterneurons projecting to lower subcortical layers cell surface area (mV) 3.0 ± 3.0 (6) 3.0 (m) Data Table
Other corpus callosum white matter interstitial non-adapting bursting interneuron projecting to lower subcortical layers spike amplitude (mV) 79.0 ± 12.0 (18) 79.0 (mV) Data Table
Other Corpus callosum white matter interstitial non-adapting interneurons projecting to lower subcortical layers spike amplitude (mV) 86.0 ± 8.0 (7) 86.0 (mV) Data Table
Other Corpus callosum white matter interstitial adapting bursting interneurons projecting to lower subcortical layers spike amplitude (mV) 84.0 ± 11.0 (5) 84.0 (mV) Data Table
Other Corpus callosum white matter interstitial adapting interneurons projecting to lower subcortical layers spike amplitude (mV) 78.0 ± 15.0 (4) 78.0 (mV) Data Table
Other Corpus callosum white matter interstitial irregular bursting nterneurons projecting to lower subcortical layers spike amplitude (mV) 79.0 ± 18.0 (6) 79.0 (mV) Data Table
Other corpus callosum white matter interstitial non-adapting bursting interneuron projecting to lower subcortical layers spike amplitude (mV) 77.0 ± 13.0 (18) 77.0 (mV) Data Table
Other Corpus callosum white matter interstitial non-adapting interneurons projecting to lower subcortical layers spike amplitude (mV) 81.0 ± 6.0 (7) 81.0 (mV) Data Table
Other Corpus callosum white matter interstitial adapting bursting interneurons projecting to lower subcortical layers spike amplitude (mV) 80.0 ± 13.0 (5) 80.0 (mV) Data Table
Other Corpus callosum white matter interstitial adapting interneurons projecting to lower subcortical layers spike amplitude (mV) 76.0 ± 15.0 (4) 76.0 (mV) Data Table
Other Corpus callosum white matter interstitial irregular bursting nterneurons projecting to lower subcortical layers spike amplitude (mV) 76.0 ± 16.0 (6) 76.0 (mV) Data Table
Other corpus callosum white matter interstitial non-adapting bursting interneuron projecting to lower subcortical layers spike half-width (ms) 0.54 ± 0.14 (18) 0.54 (ms) Data Table
Other Corpus callosum white matter interstitial non-adapting interneurons projecting to lower subcortical layers spike half-width (ms) 0.51 ± 0.09 (7) 0.51 (ms) Data Table
Other Corpus callosum white matter interstitial adapting bursting interneurons projecting to lower subcortical layers spike half-width (ms) 0.5 ± 0.06 (5) 0.5 (ms) Data Table
Other Corpus callosum white matter interstitial adapting interneurons projecting to lower subcortical layers spike half-width (ms) 0.5 ± 0.03 (4) 0.5 (ms) Data Table
Other Corpus callosum white matter interstitial irregular bursting nterneurons projecting to lower subcortical layers spike half-width (ms) 0.52 ± 0.11 (6) 0.52 (ms) Data Table
Other corpus callosum white matter interstitial non-adapting bursting interneuron projecting to lower subcortical layers spike half-width (ms) 0.6 ± 0.15 (18) 0.6 (ms) Data Table
Other Corpus callosum white matter interstitial non-adapting interneurons projecting to lower subcortical layers spike half-width (ms) 0.6 ± 0.17 (7) 0.6 (ms) Data Table
Other Corpus callosum white matter interstitial adapting bursting interneurons projecting to lower subcortical layers spike half-width (ms) 0.56 ± 0.07 (5) 0.56 (ms) Data Table
Other Corpus callosum white matter interstitial adapting interneurons projecting to lower subcortical layers spike half-width (ms) 0.51 ± 0.02 (4) 0.51 (ms) Data Table
Other Corpus callosum white matter interstitial irregular bursting nterneurons projecting to lower subcortical layers spike half-width (ms) 0.59 ± 0.14 (6) 0.59 (ms) Data Table
Other corpus callosum white matter interstitial non-adapting bursting interneuron projecting to lower subcortical layers AHP amplitude (mV) 13.0 ± 6.0 (18) 13.0 (mV) Data Table
Other Corpus callosum white matter interstitial non-adapting interneurons projecting to lower subcortical layers AHP amplitude (mV) 20.0 ± 4.0 (7) 20.0 (mV) Data Table
Other Corpus callosum white matter interstitial adapting bursting interneurons projecting to lower subcortical layers AHP amplitude (mV) 11.0 ± 4.0 (5) 11.0 (mV) Data Table
Other Corpus callosum white matter interstitial adapting interneurons projecting to lower subcortical layers AHP amplitude (mV) 20.0 ± 4.0 (4) 20.0 (mV) Data Table
Other Corpus callosum white matter interstitial irregular bursting nterneurons projecting to lower subcortical layers AHP amplitude (mV) 18.0 ± 4.0 (6) 18.0 (mV) Data Table