| Amygdala basolateral nucleus pyramidal neuron |
Basolateral amygdala principal neuron with input from medial prefrontal cortex
|
other |
Ex vivo dissection of optogenetically activated mPFC and hippocampal inputs to neurons in the basolateral amygdala: implications for fear and emotional memory.
(NeuroElectro data)
(PubMed)
|
14.46
± 1.16
(65)
|
--
|
Data Table |
| Amygdala basolateral nucleus pyramidal neuron |
Basolateral amygdala principal neurons with input from ventral hippocampus
|
other |
Ex vivo dissection of optogenetically activated mPFC and hippocampal inputs to neurons in the basolateral amygdala: implications for fear and emotional memory.
(NeuroElectro data)
(PubMed)
|
15.07
± 1.07
(45)
|
--
|
Data Table |
| BNST (ALG) |
|
other |
A transcriptomic analysis of type I-III neurons in the bed nucleus of the stria terminalis.
(NeuroElectro data)
(PubMed)
|
-0.236
|
-0.236 (None)
|
Data Table |
| BNST (ALG) |
|
other |
A transcriptomic analysis of type I-III neurons in the bed nucleus of the stria terminalis.
(NeuroElectro data)
(PubMed)
|
0.414
|
0.414 (None)
|
Data Table |
| Dorsal root ganglion cell |
|
other |
Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury.
(NeuroElectro data)
(PubMed)
|
170.8
± 11.8
|
170.8 (None)
|
Data Table |
| Dorsal root ganglion cell |
|
other |
The P2Y2 receptor sensitizes mouse bladder sensory neurons and facilitates purinergic currents.
(NeuroElectro data)
(PubMed)
|
19.3
± 1.5
|
19.3 (None)
|
Data Table |
| Dorsal root ganglion cell |
|
other |
Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury.
(NeuroElectro data)
(PubMed)
|
105.3
± 6.69
|
105.3 (None)
|
Data Table |
| Dorsal root ganglion cell |
|
other |
Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury.
(NeuroElectro data)
(PubMed)
|
-51.8
± 3.25
|
-51.8 (None)
|
Data Table |
| Dorsal root ganglion cell |
|
other |
Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury.
(NeuroElectro data)
(PubMed)
|
-86.2
± 8.13
|
-86.2 (None)
|
Data Table |
| Dorsal root ganglion cell |
Lumbosacral dorsal root ganglion
|
other |
Cyclophosphamide-induced bladder inflammation sensitizes and enhances P2X receptor function in rat bladder sensory neurons.
(NeuroElectro data)
(PubMed)
|
24.5
± 1.5
|
24.5 (None)
|
Data Table |
| Dorsal root ganglion cell |
|
other |
Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury.
(NeuroElectro data)
(PubMed)
|
-63.7
± 5.7
|
-63.7 (None)
|
Data Table |
| Dorsal root ganglion cell |
thoracolumbar dorsal root ganglion
|
other |
Cyclophosphamide-induced bladder inflammation sensitizes and enhances P2X receptor function in rat bladder sensory neurons.
(NeuroElectro data)
(PubMed)
|
6.2
± 1.2
|
6.2 (None)
|
Data Table |
| Dorsal root ganglion cell |
|
other |
Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury.
(NeuroElectro data)
(PubMed)
|
-69.3
± 5.25
|
-69.3 (None)
|
Data Table |
| Dorsal root ganglion cell |
Lumbosacral dorsal root ganglion
|
other |
Cyclophosphamide-induced bladder inflammation sensitizes and enhances P2X receptor function in rat bladder sensory neurons.
(NeuroElectro data)
(PubMed)
|
15.3
± 1.4
|
15.3 (None)
|
Data Table |
| Dorsal root ganglion cell |
|
other |
Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury.
(NeuroElectro data)
(PubMed)
|
220.2
± 12.82
|
220.2 (None)
|
Data Table |
| Dorsal root ganglion cell |
thoracolumbar dorsal root ganglion
|
other |
Cyclophosphamide-induced bladder inflammation sensitizes and enhances P2X receptor function in rat bladder sensory neurons.
(NeuroElectro data)
(PubMed)
|
5.4
± 1.1
|
5.4 (None)
|
Data Table |
| Dorsal root ganglion cell |
|
other |
The P2Y2 receptor sensitizes mouse bladder sensory neurons and facilitates purinergic currents.
(NeuroElectro data)
(PubMed)
|
20.3
± 2.6
|
20.3 (None)
|
Data Table |
| Dorsal root ganglion cell |
|
other |
Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury.
(NeuroElectro data)
(PubMed)
|
189.5
± 10.23
|
189.5 (None)
|
Data Table |
| Dorsal root ganglion cell |
|
other |
The P2Y2 receptor sensitizes mouse bladder sensory neurons and facilitates purinergic currents.
(NeuroElectro data)
(PubMed)
|
13.3
± 1.7
|
13.3 (None)
|
Data Table |
| Dorsal root ganglion cell |
|
other |
Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury.
(NeuroElectro data)
(PubMed)
|
192.3
± 13.69
|
192.3 (None)
|
Data Table |
| Dorsal root ganglion cell |
|
other |
Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury.
(NeuroElectro data)
(PubMed)
|
205.0
± 15.52
|
205.0 (None)
|
Data Table |
| Globus pallidus, external segment neuron |
Globus Pallidus burst firing external segment neuron
|
other |
Electrophysiological characteristics of globus pallidus neurons.
(NeuroElectro data)
(PubMed)
|
0.5
± 0.1
(14)
|
0.5 (None)
|
Data Table |
| Globus pallidus, external segment neuron |
Globus Pallidus high frequency firing external segment neuron
|
other |
Electrophysiological characteristics of globus pallidus neurons.
(NeuroElectro data)
(PubMed)
|
0.65
± 0.1
(24)
|
0.65 (None)
|
Data Table |
| Globus pallidus, external segment neuron |
Globus Pallidus slow frequency firing external segment neuron
|
other |
Electrophysiological characteristics of globus pallidus neurons.
(NeuroElectro data)
(PubMed)
|
0.75
± 0.1
(38)
|
0.75 (None)
|
Data Table |
| Hippocampus CA1 basket cell |
Hippocampus CA1 stratum oriens fast-spiking parvalbumin-positive chandelier cell
|
other |
Differential expression of group I metabotropic glutamate receptors in functionally distinct hippocampal interneurons.
(NeuroElectro data)
(PubMed)
|
1.05
± 0.04
(27)
|
1.05 (None)
|
Data Table |
| Hippocampus CA1 oriens lacunosum moleculare neuron |
Hippocampus CA1 and CA2 non-fast spiking stramum oriens neuron
|
other |
Morphological and electrophysiological properties of pyramidal-like neurons in the stratum oriens of Cornu ammonis 1 and Cornu ammonis 2 area of Proechimys.
(NeuroElectro data)
(PubMed)
|
51.0
± 15.5
(15)
|
--
|
Data Table |
| Hippocampus CA1 oriens lacunosum moleculare neuron |
Hippocampus CA1 stratum oriens regular firing calbindin-positive interneuron
|
other |
Differential expression of group I metabotropic glutamate receptors in functionally distinct hippocampal interneurons.
(NeuroElectro data)
(PubMed)
|
1.22
± 0.09
(32)
|
1.22 (None)
|
Data Table |
| Hippocampus CA1 oriens lacunosum moleculare neuron |
Hippocampus CA1 and CA2 non-fast spiking stramum oriens neuron
|
other |
Morphological and electrophysiological properties of pyramidal-like neurons in the stratum oriens of Cornu ammonis 1 and Cornu ammonis 2 area of Proechimys.
(NeuroElectro data)
(PubMed)
|
105.5
± 40.5
(15)
|
--
|
Data Table |
| Hippocampus CA1 oriens lacunosum moleculare neuron |
Hippocampus CA1 oriens–alveus large regular-firing somatostatin-positive interneuron
|
other |
Differential expression of group I metabotropic glutamate receptors in functionally distinct hippocampal interneurons.
(NeuroElectro data)
(PubMed)
|
1.16
± 0.07
(53)
|
1.16 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
|
other |
Action potential threshold of hippocampal pyramidal cells in vivo is increased by recent spiking activity.
(NeuroElectro data)
(PubMed)
|
-60.1
± 3.2
(22)
|
-60.1 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Ventral hippocampus CA1 pyramidal cell
|
other |
Dorsoventral Differences in Intrinsic Properties in Developing CA1 Pyramidal Cells.
(NeuroElectro data)
(PubMed)
|
-91.3
± 0.5
(40)
|
-91.3 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
|
other |
Paradoxical sleep deprivation impairs spatial learning and affects membrane excitability and mitochondrial protein in the hippocampus.
(NeuroElectro data)
(PubMed)
|
92.3
± 34.5
|
92.3 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
|
other |
BACE1 deficiency causes altered neuronal activity and neurodegeneration.
(NeuroElectro data)
(PubMed)
|
-54.6
± 2.7
(11)
|
--
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Ventral Hippocampus CA1 pyramidal cell
|
other |
Watermaze learning enhances excitability of CA1 pyramidal neurons.
(NeuroElectro data)
(PubMed)
|
1.27
± 0.02
(40)
|
1.27 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Dorsal hippocampus CA1 pyramidal cell
|
other |
Dorsoventral Differences in Intrinsic Properties in Developing CA1 Pyramidal Cells.
(NeuroElectro data)
(PubMed)
|
20.0
± 1.0
(46)
|
20.0 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Dorsal Hippocampus CA1 pyramidal cell
|
other |
Watermaze learning enhances excitability of CA1 pyramidal neurons.
(NeuroElectro data)
(PubMed)
|
6.8
± 0.4
(40)
|
6.8 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
|
other |
Normal electrical properties of hippocampal neurons modelling early Huntington disease pathogenesis.
(NeuroElectro data)
(PubMed)
|
16.85
(15)
|
16.85 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
|
other |
Frequency dependence of CA3 spike phase response arising from h-current properties.
(NeuroElectro data)
(PubMed)
|
1.15
± 0.01
(19)
|
1.15 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Hippocampus CA1 non-fast spiking stratum oriens pyramidal-like cell
|
other |
Morphological and electrophysiological properties of pyramidal-like neurons in the stratum oriens of Cornu ammonis 1 and Cornu ammonis 2 area of Proechimys.
(NeuroElectro data)
(PubMed)
|
77.5
± 6.9
(8)
|
77.5 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Dorsal Hippocampus CA1 pyramidal cell
|
other |
Watermaze learning enhances excitability of CA1 pyramidal neurons.
(NeuroElectro data)
(PubMed)
|
1.11
± 0.01
(40)
|
1.11 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Hippocampus CA1 and subiculum regular spiking pyramidal neurons
|
other |
Hippocampal pyramidal neurons comprise two distinct cell types that are countermodulated by metabotropic receptors.
(NeuroElectro data)
(PubMed)
|
2.61
± 0.53
(268)
|
2.61 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Ventral hippocampus CA1 pyramidal cell
|
other |
Dorsoventral Differences in Intrinsic Properties in Developing CA1 Pyramidal Cells.
(NeuroElectro data)
(PubMed)
|
28.0
± 1.0
(40)
|
28.0 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
|
other |
Normal electrical properties of hippocampal neurons modelling early Huntington disease pathogenesis.
(NeuroElectro data)
(PubMed)
|
6.15
(7)
|
6.15 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
|
other |
M1 and M4 receptors modulate hippocampal pyramidal neurons.
(NeuroElectro data)
(PubMed)
|
131.0
± 18.0
(12)
|
131.0 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Ventral Hippocampus CA1 pyramidal cell
|
other |
Watermaze learning enhances excitability of CA1 pyramidal neurons.
(NeuroElectro data)
(PubMed)
|
8.1
± 0.5
(40)
|
8.1 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Hippocampus CA1 and subiculum bursting pyramidal neurons
|
other |
Hippocampal pyramidal neurons comprise two distinct cell types that are countermodulated by metabotropic receptors.
(NeuroElectro data)
(PubMed)
|
4.39
± 0.49
(268)
|
4.39 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Dorsal hippocampus CA1 pyramidal cell
|
other |
Dorsoventral Differences in Intrinsic Properties in Developing CA1 Pyramidal Cells.
(NeuroElectro data)
(PubMed)
|
190.0
± 13.0
(46)
|
190.0 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Hippocampus CA1 non-fast spiking pyramidal neuron
|
other |
Morphological and electrophysiological properties of pyramidal-like neurons in the stratum oriens of Cornu ammonis 1 and Cornu ammonis 2 area of Proechimys.
(NeuroElectro data)
(PubMed)
|
82.3
± 12.2
(7)
|
82.3 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Ventral hippocampus CA1 pyramidal cell
|
other |
Dorsoventral Differences in Intrinsic Properties in Developing CA1 Pyramidal Cells.
(NeuroElectro data)
(PubMed)
|
197.0
± 15.0
(40)
|
197.0 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
|
other |
M1 and M4 receptors modulate hippocampal pyramidal neurons.
(NeuroElectro data)
(PubMed)
|
-2.8
± 0.1
(12)
|
-2.8 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Hippocampus CA1 non-fast spiking stratum oriens pyramidal-like cell
|
other |
Morphological and electrophysiological properties of pyramidal-like neurons in the stratum oriens of Cornu ammonis 1 and Cornu ammonis 2 area of Proechimys.
(NeuroElectro data)
(PubMed)
|
37.9
± 5.5
(8)
|
37.9 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
|
other |
Augmented Inhibition from Cannabinoid-Sensitive Interneurons Diminishes CA1 Output after Traumatic Brain Injury.
(NeuroElectro data)
(PubMed)
|
-66.2
± 1.3
(13)
|
--
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Hippocampus CA1 non-fast spiking pyramidal neuron
|
other |
Morphological and electrophysiological properties of pyramidal-like neurons in the stratum oriens of Cornu ammonis 1 and Cornu ammonis 2 area of Proechimys.
(NeuroElectro data)
(PubMed)
|
33.1
± 5.6
(7)
|
33.1 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
Dorsal hippocampus CA1 pyramidal cell
|
other |
Dorsoventral Differences in Intrinsic Properties in Developing CA1 Pyramidal Cells.
(NeuroElectro data)
(PubMed)
|
-88.9
± 0.5
(46)
|
-88.9 (None)
|
Data Table |
| Hippocampus CA1 pyramidal cell |
|
other |
Frequency dependence of CA3 spike phase response arising from h-current properties.
(NeuroElectro data)
(PubMed)
|
2.49
± 0.17
(19)
|
--
|
Data Table |
| Hippocampus CA2 pyramidal neuron |
Hippocampus CA2 non-fast spiking pyramidal-like neuron
|
other |
Morphological and electrophysiological properties of pyramidal-like neurons in the stratum oriens of Cornu ammonis 1 and Cornu ammonis 2 area of Proechimys.
(NeuroElectro data)
(PubMed)
|
82.0
± 10.5
(7)
|
82.0 (None)
|
Data Table |
| Hippocampus CA2 pyramidal neuron |
Hippocampus CA2 non-fasting spiking pyramidal neuron
|
other |
Morphological and electrophysiological properties of pyramidal-like neurons in the stratum oriens of Cornu ammonis 1 and Cornu ammonis 2 area of Proechimys.
(NeuroElectro data)
(PubMed)
|
68.9
± 22.5
(11)
|
68.9 (None)
|
Data Table |
| Hippocampus CA2 pyramidal neuron |
Hippocampus CA2 non-fast spiking pyramidal-like neuron
|
other |
Morphological and electrophysiological properties of pyramidal-like neurons in the stratum oriens of Cornu ammonis 1 and Cornu ammonis 2 area of Proechimys.
(NeuroElectro data)
(PubMed)
|
21.9
± 4.6
(7)
|
21.9 (None)
|
Data Table |
| Hippocampus CA2 pyramidal neuron |
Hippocampus CA2 non-fasting spiking pyramidal neuron
|
other |
Morphological and electrophysiological properties of pyramidal-like neurons in the stratum oriens of Cornu ammonis 1 and Cornu ammonis 2 area of Proechimys.
(NeuroElectro data)
(PubMed)
|
32.8
± 8.8
(11)
|
32.8 (None)
|
Data Table |
| Hippocampus CA3 pyramidal cell |
|
other |
Frequency dependence of CA3 spike phase response arising from h-current properties.
(NeuroElectro data)
(PubMed)
|
1.19
± 0.09
(15)
|
--
|
Data Table |
| Hippocampus CA3 pyramidal cell |
|
other |
Frequency dependence of CA3 spike phase response arising from h-current properties.
(NeuroElectro data)
(PubMed)
|
1.06
± 0.01
(15)
|
1.06 (None)
|
Data Table |
| Hippocampus CA3 pyramidal cell |
|
other |
M1 and M4 receptors modulate hippocampal pyramidal neurons.
(NeuroElectro data)
(PubMed)
|
175.0
± 41.0
(12)
|
175.0 (None)
|
Data Table |
| Hippocampus CA3 pyramidal cell |
|
other |
M1 and M4 receptors modulate hippocampal pyramidal neurons.
(NeuroElectro data)
(PubMed)
|
0.4
± 0.4
(12)
|
0.4 (None)
|
Data Table |
| Hypothalamus oxytocin neuroendocrine magnocellular cell |
|
other |
Differential GABAA receptor clustering determines GABA synapse plasticity in rat oxytocin neurons around parturition and the onset of lactation.
(NeuroElectro data)
(PubMed)
|
3.8
± 0.1
|
3.8 (None)
|
Data Table |
| Hypothalamus oxytocin neuroendocrine magnocellular cell |
|
other |
Differential GABAA receptor clustering determines GABA synapse plasticity in rat oxytocin neurons around parturition and the onset of lactation.
(NeuroElectro data)
(PubMed)
|
-5.6
± 0.8
|
-5.6 (None)
|
Data Table |
| Medial entorhinal cortex layer II stellate cell |
Stellate-like “Sag” neurons in layer II of medial entorhinal cortex
|
other |
Differential contribution of kainate receptors to excitatory postsynaptic currents in superficial layer neurons of the rat medial entorhinal cortex.
(NeuroElectro data)
(PubMed)
|
50.1
± 4.4
(5)
|
50.1 (None)
|
Data Table |
| Medial entorhinal cortex layer III pyramidal cell |
Pyramidal like "Sag" neurons in layer III of mEC
|
other |
Differential contribution of kainate receptors to excitatory postsynaptic currents in superficial layer neurons of the rat medial entorhinal cortex.
(NeuroElectro data)
(PubMed)
|
109.2
± 13.6
(5)
|
109.2 (None)
|
Data Table |
| Medial Nucleus of Trapezoid Body neuron |
|
other |
Kv1.1-containing channels are critical for temporal precision during spike initiation.
(NeuroElectro data)
(PubMed)
|
21.1
± 1.3
|
-21.1 (None)
|
Data Table |
| Medial vestibular nucleus neuron |
Medial vestibular nucleus Motilin-sensitive neuron
|
other |
Heterotrimeric guanosine triphosphate-binding protein-coupled modulatory actions of motilin on K+ channels and postsynaptic γ-aminobutyric acid receptors in mouse medial vestibular nuclear neurons.
(NeuroElectro data)
(PubMed)
|
40.5
± 2.2
(7)
|
--
|
Data Table |
| Medial vestibular nucleus neuron |
Medial vestibular nucleus GABAergic VGAT-expressing cell
|
other |
Heterotrimeric guanosine triphosphate-binding protein-coupled modulatory actions of motilin on K+ channels and postsynaptic γ-aminobutyric acid receptors in mouse medial vestibular nuclear neurons.
(NeuroElectro data)
(PubMed)
|
40.6
± 1.7
(7)
|
40.6 (None)
|
Data Table |
| Medial vestibular nucleus neuron |
Medial vestibular nucleus non-GABAergic neurons expressing Thy1
|
other |
Firing properties of GABAergic versus non-GABAergic vestibular nucleus neurons conferred by a differential balance of potassium currents.
(NeuroElectro data)
(PubMed)
|
0.96
± 0.8
(39)
|
0.96 (None)
|
Data Table |
| Medial vestibular nucleus neuron |
Medial vestibular nucleus motilin-sensitive neuron
|
other |
Heterotrimeric guanosine triphosphate-binding protein-coupled modulatory actions of motilin on K+ channels and postsynaptic γ-aminobutyric acid receptors in mouse medial vestibular nuclear neurons.
(NeuroElectro data)
(PubMed)
|
39.3
± 2.3
(8)
|
39.3 (None)
|
Data Table |
| Medial vestibular nucleus neuron |
Medial vestibular nucleus GABAergic neurons
|
other |
Firing properties of GABAergic versus non-GABAergic vestibular nucleus neurons conferred by a differential balance of potassium currents.
(NeuroElectro data)
(PubMed)
|
0.47
± 0.7
(35)
|
0.47 (None)
|
Data Table |
| Medial vestibular nucleus neuron |
Medial vestibular nucleus Motilin-sensitive neuron
|
other |
Heterotrimeric guanosine triphosphate-binding protein-coupled modulatory actions of motilin on K+ channels and postsynaptic γ-aminobutyric acid receptors in mouse medial vestibular nuclear neurons.
(NeuroElectro data)
(PubMed)
|
40.9
± 2.1
(7)
|
--
|
Data Table |
| Neocortex basket cell |
sensorimotor cortex fast spiking cell
|
other |
Molecular and physiological diversity of cortical nonpyramidal cells.
(NeuroElectro data)
(PubMed)
|
6.4
± 4.6
(34)
|
6.4 (None)
|
Data Table |
| Neocortex basket cell |
Somatosensory cortex layer 5 parvalbumin expressing basket cell
|
other |
Impaired excitability of somatostatin- and parvalbumin-expressing cortical interneurons in a mouse model of Dravet syndrome.
(NeuroElectro data)
(PubMed)
|
0.9
± 0.03
(19)
|
0.9 (None)
|
Data Table |
| Neocortex basket cell |
sensorimotor cortex fast spiking cell
|
other |
Molecular and physiological diversity of cortical nonpyramidal cells.
(NeuroElectro data)
(PubMed)
|
3.7
± 5.9
(34)
|
3.7 (None)
|
Data Table |
| Neocortex Martinotti cell |
Somatosensory cortex layer 5 somatostatin expressing Martinotti cell
|
other |
Impaired excitability of somatostatin- and parvalbumin-expressing cortical interneurons in a mouse model of Dravet syndrome.
(NeuroElectro data)
(PubMed)
|
1.01
± 0.03
(21)
|
1.01 (None)
|
Data Table |
| Neocortex pyramidal cell layer 2-3 |
Visual Cortex Layers II/III/V Pyramidal Neurons
|
other |
Activation of alpha1-adrenoceptors increases firing frequency through protein kinase C in pyramidal neurons of rat visual cortex.
(NeuroElectro data)
(PubMed)
|
77.1
± 13.8
(20)
|
77.1 (None)
|
Data Table |
| Neocortex pyramidal cell layer 2-3 |
Visual Cortex Layers II/III/V Pyramidal Neurons
|
other |
Activation of alpha1-adrenoceptors increases firing frequency through protein kinase C in pyramidal neurons of rat visual cortex.
(NeuroElectro data)
(PubMed)
|
51.0
± 9.9
(23)
|
51.0 (None)
|
Data Table |
| Neocortex pyramidal cell layer 2-3 |
Visual Cortex Layers II/III/V Pyramidal Neurons
|
other |
Activation of alpha1-adrenoceptors increases firing frequency through protein kinase C in pyramidal neurons of rat visual cortex.
(NeuroElectro data)
(PubMed)
|
46.1
± 16.1
(9)
|
46.1 (None)
|
Data Table |
| Neocortex pyramidal cell layer 2-3 |
|
other |
Insulin facilitates repetitive spike firing in rat insular cortex via phosphoinositide 3-kinase but not mitogen activated protein kinase cascade.
(NeuroElectro data)
(PubMed)
|
1.5
± 0.1
(19)
|
--
|
Data Table |
| Neocortex pyramidal cell layer 5-6 |
Somatosensory cortex layer 5 pyramidal cell
|
other |
Impaired excitability of somatostatin- and parvalbumin-expressing cortical interneurons in a mouse model of Dravet syndrome.
(NeuroElectro data)
(PubMed)
|
0.92
± 0.04
(35)
|
0.92 (None)
|
Data Table |
| Neocortex pyramidal cell layer 5-6 |
Layer 5 somatosensory barrel cortex pyramidal neurons
|
other |
Effect of common anesthetics on dendritic properties in layer 5 neocortical pyramidal neurons.
(NeuroElectro data)
(PubMed)
|
24.53
± 4.67
(43)
|
24.53 (None)
|
Data Table |
| Neocortex pyramidal cell layer 5-6 |
Visual cortex layer 5 regular spiking pyramidal cell
|
other |
Differential regulation of synaptic transmission by adrenergic agonists via protein kinase A and protein kinase C in layer V pyramidal neurons of rat cerebral cortex.
(NeuroElectro data)
(PubMed)
|
91.3
± 1.0
(85)
|
91.3 (None)
|
Data Table |
| Neocortex pyramidal cell layer 5-6 |
sensorimotor cortex pyramidal cell
|
other |
Molecular and physiological diversity of cortical nonpyramidal cells.
(NeuroElectro data)
(PubMed)
|
34.1
± 10.9
(29)
|
34.1 (None)
|
Data Table |
| Neocortex pyramidal cell layer 5-6 |
Visual cortex layer 5 bursting pyramidal cell
|
other |
Differential regulation of synaptic transmission by adrenergic agonists via protein kinase A and protein kinase C in layer V pyramidal neurons of rat cerebral cortex.
(NeuroElectro data)
(PubMed)
|
97.4
± 0.7
(51)
|
97.4 (None)
|
Data Table |
| Neocortex pyramidal cell layer 5-6 |
somatosensory barrel cortex layer 5b pyramidal cell
|
other |
Sub- and suprathreshold receptive field properties of pyramidal neurones in layers 5A and 5B of rat somatosensory barrel cortex.
(NeuroElectro data)
(PubMed)
|
20.6
± 1.0
(11)
|
--
|
Data Table |
| Neocortex pyramidal cell layer 5-6 |
somatosensory barrel cortex layer 5a pyramidal cell
|
other |
Sub- and suprathreshold receptive field properties of pyramidal neurones in layers 5A and 5B of rat somatosensory barrel cortex.
(NeuroElectro data)
(PubMed)
|
21.0
± 1.4
(16)
|
--
|
Data Table |
| Neocortex pyramidal cell layer 5-6 |
sensorimotor cortex pyramidal cell
|
other |
Molecular and physiological diversity of cortical nonpyramidal cells.
(NeuroElectro data)
(PubMed)
|
75.6
± 27.7
(29)
|
75.6 (None)
|
Data Table |
| Neocortex uncharacterized cell |
sensorimotor cortex irregular spiking cell
|
other |
Molecular and physiological diversity of cortical nonpyramidal cells.
(NeuroElectro data)
(PubMed)
|
26.0
± 11.0
(10)
|
26.0 (None)
|
Data Table |
| Neocortex uncharacterized cell |
sensorimotor cortex regular spiking non-pyramidal cell
|
other |
Molecular and physiological diversity of cortical nonpyramidal cells.
(NeuroElectro data)
(PubMed)
|
13.1
± 11.1
(48)
|
13.1 (None)
|
Data Table |
| Neocortex uncharacterized cell |
sensorimotor cortex regular spiking non-pyramidal cell
|
other |
Molecular and physiological diversity of cortical nonpyramidal cells.
(NeuroElectro data)
(PubMed)
|
21.4
± 30.6
(48)
|
21.4 (None)
|
Data Table |
| Neocortex uncharacterized cell |
sensorimotor cortex irregular spiking cell
|
other |
Molecular and physiological diversity of cortical nonpyramidal cells.
(NeuroElectro data)
(PubMed)
|
23.0
± 25.0
(10)
|
23.0 (None)
|
Data Table |
| Neostriatum medium spiny neuron |
Striatum Spiny Neuron
|
other |
Substantia nigra dopamine regulates synaptic plasticity and membrane potential fluctuations in the rat neostriatum, in vivo.
(NeuroElectro data)
(PubMed)
|
-65.9
± 7.7
(33)
|
-65.9 (None)
|
Data Table |
| Nucleus accumbens medium spiny neuron |
nucleus accumbens core medium spiny neuron
|
other |
Presynaptic homeostatic plasticity rescues long-term depression after chronic Delta 9-tetrahydrocannabinol exposure.
(NeuroElectro data)
(PubMed)
|
150.8
(8)
|
150.8 (None)
|
Data Table |
| Oculomotor nucleus motor neuron |
|
other |
Temporal sequence of changes in electrophysiological properties of oculomotor motoneurons during postnatal development.
(NeuroElectro data)
(PubMed)
|
14.7
± 2.1
(27)
|
--
|
Data Table |
| Oculomotor nucleus motor neuron |
|
other |
Temporal sequence of changes in electrophysiological properties of oculomotor motoneurons during postnatal development.
(NeuroElectro data)
(PubMed)
|
10.7
± 1.6
(26)
|
--
|
Data Table |
| Oculomotor nucleus motor neuron |
|
other |
Temporal sequence of changes in electrophysiological properties of oculomotor motoneurons during postnatal development.
(NeuroElectro data)
(PubMed)
|
11.7
± 1.7
(24)
|
--
|
Data Table |
| Oculomotor nucleus motor neuron |
|
other |
Temporal sequence of changes in electrophysiological properties of oculomotor motoneurons during postnatal development.
(NeuroElectro data)
(PubMed)
|
19.7
± 2.2
(28)
|
--
|
Data Table |
| Oculomotor nucleus motor neuron |
|
other |
Temporal sequence of changes in electrophysiological properties of oculomotor motoneurons during postnatal development.
(NeuroElectro data)
(PubMed)
|
13.9
± 2.2
(29)
|
--
|
Data Table |
| Other |
Dentate Gyrus Cell
|
other |
Neuronal differentiation in the adult hippocampus recapitulates embryonic development.
(NeuroElectro data)
(PubMed)
|
0.72
± 0.05
(39)
|
0.72 (None)
|
Data Table |
| Other |
lateral habenular nucleus aspiny spindle-shaped vertical fusiform cell
|
other |
Morphological and electrophysiological characteristics of neurons within identified subnuclei of the lateral habenula in rat brain slices.
(NeuroElectro data)
(PubMed)
|
88.0
(9)
|
88.0 (None)
|
Data Table |
| Other |
CA3 projecting hippocampus Granule Cell
|
other |
Two electrophysiologically distinct types of granule cells in epileptic human hippocampus.
(NeuroElectro data)
(PubMed)
|
64.0
± 8.0
|
64.0 (None)
|
Data Table |
| Other |
Dentate Gyrus Cell
|
other |
Neuronal differentiation in the adult hippocampus recapitulates embryonic development.
(NeuroElectro data)
(PubMed)
|
1.5
± 0.2
(24)
|
1.5 (None)
|
Data Table |
| Other |
Medial entorhinal cortex layer 2/3 cell with Intermediate Sag
|
other |
Differential contribution of kainate receptors to excitatory postsynaptic currents in superficial layer neurons of the rat medial entorhinal cortex.
(NeuroElectro data)
(PubMed)
|
55.1
± 5.0
(5)
|
55.1 (None)
|
Data Table |
| Other |
lateral habenular nucleus tonic regular-spiking cell
|
other |
Morphological and electrophysiological characteristics of neurons within identified subnuclei of the lateral habenula in rat brain slices.
(NeuroElectro data)
(PubMed)
|
74.0
(32)
|
74.0 (None)
|
Data Table |
| Other |
Dentate Gyrus Cell
|
other |
Neuronal differentiation in the adult hippocampus recapitulates embryonic development.
(NeuroElectro data)
(PubMed)
|
3.4
± 0.3
(23)
|
3.4 (None)
|
Data Table |
| Other |
lateral habenular nucleus bursting cell
|
other |
Morphological and electrophysiological characteristics of neurons within identified subnuclei of the lateral habenula in rat brain slices.
(NeuroElectro data)
(PubMed)
|
100.0
(3)
|
100.0 (None)
|
Data Table |
| Other |
presubiculum regular spiking pyramidal cells in layers II/III
|
other |
Cellular neuroanatomy of rat presubiculum.
(NeuroElectro data)
(PubMed)
|
0.18
(24)
|
0.18 (None)
|
Data Table |
| Other |
Unlabelled Neurons
|
other |
Neuronal differentiation in the adult hippocampus recapitulates embryonic development.
(NeuroElectro data)
(PubMed)
|
3.8
± 0.2
(98)
|
3.8 (None)
|
Data Table |
| Other |
lateral habenular nucleus silent cell
|
other |
Morphological and electrophysiological characteristics of neurons within identified subnuclei of the lateral habenula in rat brain slices.
(NeuroElectro data)
(PubMed)
|
97.0
(31)
|
97.0 (None)
|
Data Table |
| Other |
Hippocampus CA1 oriens–alveus interneuron
|
other |
Differential expression of group I metabotropic glutamate receptors in functionally distinct hippocampal interneurons.
(NeuroElectro data)
(PubMed)
|
1.19
± 0.12
(29)
|
1.19 (None)
|
Data Table |
| Other |
presubiculum intrinsically bursting cells in layers IV
|
other |
Cellular neuroanatomy of rat presubiculum.
(NeuroElectro data)
(PubMed)
|
0.88
(6)
|
0.88 (None)
|
Data Table |
| Other |
Dentate Gyrus Cell
|
other |
Neuronal differentiation in the adult hippocampus recapitulates embryonic development.
(NeuroElectro data)
(PubMed)
|
-0.17
± 0.03
(36)
|
0.17 (None)
|
Data Table |
| Other |
|
other |
Electrophysiological properties of dural afferents in the absence and presence of inflammatory mediators.
(NeuroElectro data)
(PubMed)
|
124.5
± 17.4
|
124.5 (None)
|
Data Table |
| Other |
lateral habenular nucleus large round-ovoid polymorphic cell
|
other |
Morphological and electrophysiological characteristics of neurons within identified subnuclei of the lateral habenula in rat brain slices.
(NeuroElectro data)
(PubMed)
|
86.0
(7)
|
86.0 (None)
|
Data Table |
| Other |
presubiculum regular spiking pyramidal cells in layer V/VI
|
other |
Cellular neuroanatomy of rat presubiculum.
(NeuroElectro data)
(PubMed)
|
0.32
(17)
|
0.32 (None)
|
Data Table |
| Other |
Dentate Gyrus Cell
|
other |
Neuronal differentiation in the adult hippocampus recapitulates embryonic development.
(NeuroElectro data)
(PubMed)
|
-1.04
± 0.3
(24)
|
1.04 (None)
|
Data Table |
| Other |
lateral habenular nucleus thick spiny bipolar vertical cell
|
other |
Morphological and electrophysiological characteristics of neurons within identified subnuclei of the lateral habenula in rat brain slices.
(NeuroElectro data)
(PubMed)
|
100.0
(7)
|
100.0 (None)
|
Data Table |
| Other |
presubiculum regular spiking pyramidal cells in layer V/VI
|
other |
Cellular neuroanatomy of rat presubiculum.
(NeuroElectro data)
(PubMed)
|
0.19
(11)
|
0.19 (None)
|
Data Table |
| Other |
Dentate Gyrus Cell
|
other |
Neuronal differentiation in the adult hippocampus recapitulates embryonic development.
(NeuroElectro data)
(PubMed)
|
-4.2
± 0.5
(23)
|
4.2 (None)
|
Data Table |
| Other |
|
other |
Electrophysiological properties of dural afferents in the absence and presence of inflammatory mediators.
(NeuroElectro data)
(PubMed)
|
-66.1
± 4.0
|
-66.1 (None)
|
Data Table |
| Other |
Dentate Gyrus Cell
|
other |
Neuronal differentiation in the adult hippocampus recapitulates embryonic development.
(NeuroElectro data)
(PubMed)
|
65.0
± 8.0
(42)
|
65.0 (None)
|
Data Table |
| Other |
Medial amygdala posteroventral division GFP positive GABAergic neurons
|
other |
Functional properties and projections of neurons in the medial amygdala.
(NeuroElectro data)
(PubMed)
|
0.2
± 0.02
(75)
|
0.2 (None)
|
Data Table |
| Other |
Unlabelled Neurons
|
other |
Neuronal differentiation in the adult hippocampus recapitulates embryonic development.
(NeuroElectro data)
(PubMed)
|
-5.4
± 0.3
(98)
|
5.4 (None)
|
Data Table |
| Other |
|
other |
Early electrophysiological abnormalities in lumbar motoneurons in a transgenic mouse model of amyotrophic lateral sclerosis.
(NeuroElectro data)
(PubMed)
|
71.4
± 1.9
|
71.4 (None)
|
Data Table |
| Other |
|
other |
Electrophysiological properties of dural afferents in the absence and presence of inflammatory mediators.
(NeuroElectro data)
(PubMed)
|
95.0
± 13.0
|
95.0 (None)
|
Data Table |
| Other |
Dentate Gyrus Cell
|
other |
Neuronal differentiation in the adult hippocampus recapitulates embryonic development.
(NeuroElectro data)
(PubMed)
|
54.0
± 8.0
(24)
|
54.0 (None)
|
Data Table |
| Other |
Medial amygdala posteroventral division GFP negative non-GABAergic neurons
|
other |
Functional properties and projections of neurons in the medial amygdala.
(NeuroElectro data)
(PubMed)
|
0.1
± 0.01
(79)
|
0.1 (None)
|
Data Table |
| Other |
|
other |
Early electrophysiological abnormalities in lumbar motoneurons in a transgenic mouse model of amyotrophic lateral sclerosis.
(NeuroElectro data)
(PubMed)
|
1.1
± 0.04
|
1.1 (None)
|
Data Table |
| Other |
lateral habenular nucleus aspiny spherical cell
|
other |
Morphological and electrophysiological characteristics of neurons within identified subnuclei of the lateral habenula in rat brain slices.
(NeuroElectro data)
(PubMed)
|
94.0
(31)
|
94.0 (None)
|
Data Table |
| Other |
Dentate Gyrus Cell
|
other |
Neuronal differentiation in the adult hippocampus recapitulates embryonic development.
(NeuroElectro data)
(PubMed)
|
110.0
± 19.0
(24)
|
110.0 (None)
|
Data Table |
| Other |
|
other |
Early electrophysiological abnormalities in lumbar motoneurons in a transgenic mouse model of amyotrophic lateral sclerosis.
(NeuroElectro data)
(PubMed)
|
2.4
± 0.3
|
2.4 (None)
|
Data Table |
| Other |
lateral habenular nucleus aspiny spindle-shaped horizontal fusiform cell
|
other |
Morphological and electrophysiological characteristics of neurons within identified subnuclei of the lateral habenula in rat brain slices.
(NeuroElectro data)
(PubMed)
|
94.0
(17)
|
94.0 (None)
|
Data Table |
| Other |
Unlabelled Neurons
|
other |
Neuronal differentiation in the adult hippocampus recapitulates embryonic development.
(NeuroElectro data)
(PubMed)
|
111.0
± 6.0
(126)
|
111.0 (None)
|
Data Table |
| Other |
Primary Auditory Cortex Layers 2/3 Pyramidal Neurons
|
other |
Hearing loss raises excitability in the auditory cortex.
(NeuroElectro data)
(PubMed)
|
22.0
± 1.5
(11)
|
22.0 (None)
|
Data Table |
| Other |
|
other |
Early electrophysiological abnormalities in lumbar motoneurons in a transgenic mouse model of amyotrophic lateral sclerosis.
(NeuroElectro data)
(PubMed)
|
64.0
± 6.0
|
64.0 (None)
|
Data Table |
| Other |
CA3 projecting hippocampus Granule Cell
|
other |
Two electrophysiologically distinct types of granule cells in epileptic human hippocampus.
(NeuroElectro data)
(PubMed)
|
3.1
± 1.1
|
3.1 (None)
|
Data Table |
| Other |
|
other |
Early electrophysiological abnormalities in lumbar motoneurons in a transgenic mouse model of amyotrophic lateral sclerosis.
(NeuroElectro data)
(PubMed)
|
36.3
± 3.3
|
36.3 (None)
|
Data Table |
| Other |
lateral habenular nucleus tonic irregular-spiking
|
other |
Morphological and electrophysiological characteristics of neurons within identified subnuclei of the lateral habenula in rat brain slices.
(NeuroElectro data)
(PubMed)
|
100.0
(8)
|
100.0 (None)
|
Data Table |
| Spinal cord ventral horn motor neuron alpha |
spinal cord lumbar flexor motorneuron
|
other |
Identified ankle extensor and flexor motoneurons display different firing profiles in the neonatal rat.
(NeuroElectro data)
(PubMed)
|
31.8
± 3.4
|
31.8 (None)
|
Data Table |
| Spinal cord ventral horn motor neuron alpha |
Fast-like alpha motor neuron
|
other |
Sensorimotor function is modulated by the serotonin receptor 1d, a novel marker for gamma motor neurons.
(NeuroElectro data)
(PubMed)
|
32.9
± 3.22
(7)
|
--
|
Data Table |
| Spinal cord ventral horn motor neuron alpha |
spinal cord lumbar extensor motorneuron
|
other |
Identified ankle extensor and flexor motoneurons display different firing profiles in the neonatal rat.
(NeuroElectro data)
(PubMed)
|
36.1
± 9.9
|
36.1 (None)
|
Data Table |
| Spinal cord ventral horn motor neuron alpha |
Fast-like alpha motor neuron
|
other |
Sensorimotor function is modulated by the serotonin receptor 1d, a novel marker for gamma motor neurons.
(NeuroElectro data)
(PubMed)
|
17.24
± 1.32
(7)
|
--
|
Data Table |
| Spinal cord ventral horn motor neuron alpha |
spinal cord lumbar hind limb alpha motoneuron
|
other |
An in vitro protocol for recording from spinal motoneurons of adult rats.
(NeuroElectro data)
(PubMed)
|
17.2
± 7.0
(37)
|
17.2 (None)
|
Data Table |
| Spinal cord ventral horn motor neuron alpha |
Slow-like alpha motor neurons
|
other |
Sensorimotor function is modulated by the serotonin receptor 1d, a novel marker for gamma motor neurons.
(NeuroElectro data)
(PubMed)
|
60.61
± 5.17
(8)
|
--
|
Data Table |
| Spinal cord ventral horn motor neuron alpha |
spinal cord lumbar flexor motorneuron
|
other |
Identified ankle extensor and flexor motoneurons display different firing profiles in the neonatal rat.
(NeuroElectro data)
(PubMed)
|
0.46
± 0.04
|
0.46 (None)
|
Data Table |
| Spinal cord ventral horn motor neuron alpha |
Slow-like alpha motor neurons
|
other |
Sensorimotor function is modulated by the serotonin receptor 1d, a novel marker for gamma motor neurons.
(NeuroElectro data)
(PubMed)
|
30.24
± 3.32
(8)
|
--
|
Data Table |
| Spinal cord ventral horn motor neuron alpha |
spinal cord dorsolateral nucleus motoneuron
|
other |
An in vitro protocol for recording from spinal motoneurons of adult rats.
(NeuroElectro data)
(PubMed)
|
18.6
± 5.8
(64)
|
--
|
Data Table |
| Spinal cord ventral horn motor neuron alpha |
spinal cord lumbar extensor motorneuron
|
other |
Identified ankle extensor and flexor motoneurons display different firing profiles in the neonatal rat.
(NeuroElectro data)
(PubMed)
|
0.05
± 0.02
|
0.05 (None)
|
Data Table |
| Spinal cord ventral horn motor neuron gamma |
Gamma motor neurons
|
other |
Sensorimotor function is modulated by the serotonin receptor 1d, a novel marker for gamma motor neurons.
(NeuroElectro data)
(PubMed)
|
43.01
± 3.38
(8)
|
43.01 (None)
|
Data Table |
| Spinal cord ventral horn motor neuron gamma |
Gamma motor neurons
|
other |
Sensorimotor function is modulated by the serotonin receptor 1d, a novel marker for gamma motor neurons.
(NeuroElectro data)
(PubMed)
|
19.97
± 1.77
(8)
|
19.97 (None)
|
Data Table |
| Trigeminal nucleus intrinsic cell |
|
other |
Electrophysiological properties of dural afferents in the absence and presence of inflammatory mediators.
(NeuroElectro data)
(PubMed)
|
116.7
± 13.0
|
116.7 (None)
|
Data Table |
| Trigeminal nucleus intrinsic cell |
|
other |
Electrophysiological properties of dural afferents in the absence and presence of inflammatory mediators.
(NeuroElectro data)
(PubMed)
|
-56.1
± 8.0
|
-56.1 (None)
|
Data Table |
| Trigeminal nucleus intrinsic cell |
|
other |
Electrophysiological properties of dural afferents in the absence and presence of inflammatory mediators.
(NeuroElectro data)
(PubMed)
|
56.3
± 9.1
|
56.3 (None)
|
Data Table |
| Ventral tegmental area dopamine neuron |
|
other |
Molecular and cellular alterations in the Pitx3-deficient midbrain dopaminergic system.
(NeuroElectro data)
(PubMed)
|
36.1
± 4.2
(16)
|
36.1 (None)
|
Data Table |
| Ventral tegmental area dopamine neuron |
|
other |
Molecular and cellular alterations in the Pitx3-deficient midbrain dopaminergic system.
(NeuroElectro data)
(PubMed)
|
-16.8
± 0.84
(16)
|
-16.8 (None)
|
Data Table |
