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rheobase

Common definition: Minimum current injected somatically required to fire AP

Electrophysiological values of rheobase across neuron types from literature:

    Normalization criteria:
  • Values corrected for differences in reported units, but are otherwise unchanged. Refer to individual articles for specific definitions and calculation methodologies.

Neuron electrophysiology data values (Table form)

Neuron Type Neuron Description Ephys Prop Article Extracted Value Standardized Value Content Source
Amygdala basolateral nucleus pyramidal neuron rheobase A Selective Role for Lmo4 in Cue-Reward Learning. (NeuroElectro data) (PubMed) 172.0 ± 11.0 (13) 172.0 (pA) Data Table
Amygdala basolateral nucleus pyramidal neuron Late spiking basolateral pyramidal-like amygdala neurons rheobase Dopamine modulates excitability of basolateral amygdala neurons in vitro. (NeuroElectro data) (PubMed) 232.0 ± 21.0 (32) 232.0 (pA) Data Table
Amygdala basolateral nucleus pyramidal neuron Regular spiking basolateral pyramidal-like amygdala neurons rheobase Dopamine modulates excitability of basolateral amygdala neurons in vitro. (NeuroElectro data) (PubMed) 190.0 ± 17.0 (31) 190.0 (pA) Data Table
Amygdala basolateral nucleus pyramidal neuron Strongly adapting spiking basolateral pyramidal-like amygdala neuron rheobase Dopamine modulates excitability of basolateral amygdala neurons in vitro. (NeuroElectro data) (PubMed) 212.0 ± 18.0 (44) 212.0 (pA) Data Table
Amygdala basolateral nucleus pyramidal neuron rheobase Increased Basolateral Amygdala Pyramidal Cell Excitability May Contribute to the Anxiogenic Phenotype Induced by Chronic Early-Life Stress. (NeuroElectro data) (PubMed) 210.9 ± 17.12 (16) 210.9 (pA) Data Table
Amygdala basolateral nucleus pyramidal neuron rheobase Increased anxiety-like behavior and enhanced synaptic efficacy in the amygdala of GluR5 knockout mice. (NeuroElectro data) (PubMed) 94.3 ± 6.8 (31) 94.3 (pA) Data Table
Basalis nucleus cholinergic neuron rheobase Selective optogenetic stimulation of cholinergic axons in neocortex. (NeuroElectro data) (PubMed) 33.0 ± 4.6 33.0 (pA) Data Table
Basalis nucleus cholinergic neuron Basalis nucleus magnocellular cholinergic neuron rheobase Physiological properties of cholinergic and non-cholinergic magnocellular neurons in acute slices from adult mouse nucleus basalis. (NeuroElectro data) (PubMed) 25.6 (9) 25.6 (pA) Data Table
BNST (ALG) anterolateral sector BNST central amygdala-projecting regular spiking ChR2-expressing responsive cell rheobase Optogenetic study of the projections from the bed nucleus of the stria terminalis to the central amygdala. (NeuroElectro data) (PubMed) 15.3 ± 2.4 (15) 15.3 (pA) Data Table
BNST (ALG) Bed nucleus of the stria terminalus anterolateral sector cell rheobase CGRP inhibits neurons of the bed nucleus of the stria terminalis: implications for the regulation of fear and anxiety. (NeuroElectro data) (PubMed) 40.8 ± 6.1 (26) 40.8 (pA) Data Table
BNST (ALG) anterolateral sector BNST central amygdala-projecting non-ChR2-expressing nonresponsive cell rheobase Optogenetic study of the projections from the bed nucleus of the stria terminalis to the central amygdala. (NeuroElectro data) (PubMed) 18.7 ± 2.2 (15) 18.7 (pA) Data Table
BNST small pyramidal neuron jcBNST bed nucleus stria terminalis type 2 cell rheobase Excitability of jcBNST neurons is reduced in alcohol-dependent animals during protracted alcohol withdrawal. (NeuroElectro data) (PubMed) 30.9 ± 4.1 (18) 30.9 (pA) Data Table
BNST small pyramidal neuron jcBNST bed nucleus stria terminalis type 3 cell rheobase Excitability of jcBNST neurons is reduced in alcohol-dependent animals during protracted alcohol withdrawal. (NeuroElectro data) (PubMed) 119.8 ± 9.0 (31) 119.8 (pA) Data Table
BNST small pyramidal neuron jcBNST bed nucleus stria terminalis type 1 cell rheobase Excitability of jcBNST neurons is reduced in alcohol-dependent animals during protracted alcohol withdrawal. (NeuroElectro data) (PubMed) 56.7 ± 7.1 (20) 56.7 (pA) Data Table
Cerebellum granule cell rheobase Adaptive regulation of neuronal excitability by a voltage-independent potassium conductance. (NeuroElectro data) (PubMed) 25.3 ± 2.7 (25) 25.3 (pA) Data Table
Cerebellum granule cell rheobase Maturation of EPSCs and intrinsic membrane properties enhances precision at a cerebellar synapse. (NeuroElectro data) (PubMed) 38.1 ± 0.12 (31) 38.1 (pA) Data Table
Cerebellum granule cell rheobase Maturation of EPSCs and intrinsic membrane properties enhances precision at a cerebellar synapse. (NeuroElectro data) (PubMed) 19.11 ± 0.13 (18) 19.11 (pA) Data Table
Cerebellum Purkinje cell rheobase Physiological and morphological development of the rat cerebellar Purkinje cell. (NeuroElectro data) (PubMed) 0.03 (13) 30.0 (pA) Data Table
Cerebellum Purkinje cell cerebellar vermis lobule X complex bursting purkinje cell rheobase Lobule-specific membrane excitability of cerebellar Purkinje cells. (NeuroElectro data) (PubMed) 246.7 ± 46.6 (11) 246.7 (pA) Data Table
Cerebellum Purkinje cell rheobase Physiological and morphological development of the rat cerebellar Purkinje cell. (NeuroElectro data) (PubMed) 0.82 (15) 820.0 (pA) Data Table
Cerebellum Purkinje cell rheobase Physiological and morphological development of the rat cerebellar Purkinje cell. (NeuroElectro data) (PubMed) 0.8 (15) 800.0 (pA) Data Table
Cerebellum Purkinje cell rheobase Physiological and morphological development of the rat cerebellar Purkinje cell. (NeuroElectro data) (PubMed) 0.64 (16) 640.0 (pA) Data Table
Cerebellum Purkinje cell rheobase Physiological and morphological development of the rat cerebellar Purkinje cell. (NeuroElectro data) (PubMed) 0.89 (12) 890.0 (pA) Data Table
Cerebellum Purkinje cell rheobase Physiological and morphological development of the rat cerebellar Purkinje cell. (NeuroElectro data) (PubMed) 0.06 (13) 60.0 (pA) Data Table
Cerebellum Purkinje cell cerebellar vermis lobule X gap firing purkinje cell rheobase Lobule-specific membrane excitability of cerebellar Purkinje cells. (NeuroElectro data) (PubMed) 283.3 ± 34.4 (15) 283.3 (pA) Data Table
Cerebellum Purkinje cell rheobase Physiological and morphological development of the rat cerebellar Purkinje cell. (NeuroElectro data) (PubMed) 0.59 (15) 590.0 (pA) Data Table
Cerebellum Purkinje cell cerebellar vermis lobule III - V tonic firing purkinje cell rheobase Lobule-specific membrane excitability of cerebellar Purkinje cells. (NeuroElectro data) (PubMed) 112.6 ± 13.8 (25) 112.6 (pA) Data Table
Cerebellum Purkinje cell rheobase Physiological and morphological development of the rat cerebellar Purkinje cell. (NeuroElectro data) (PubMed) 0.37 (19) 370.0 (pA) Data Table
Cerebellum Purkinje cell cerebellar vermis lobule X tonic firing purkinje cell rheobase Lobule-specific membrane excitability of cerebellar Purkinje cells. (NeuroElectro data) (PubMed) 295.4 ± 28.4 (13) 295.4 (pA) Data Table
Cerebellum Purkinje cell rheobase Physiological and morphological development of the rat cerebellar Purkinje cell. (NeuroElectro data) (PubMed) 0.87 (15) 870.0 (pA) Data Table
Cerebellum Purkinje cell cerebellar vermis lobule III - V complex bursting purkinje cell rheobase Lobule-specific membrane excitability of cerebellar Purkinje cells. (NeuroElectro data) (PubMed) 116.3 ± 9.6 (12) 116.3 (pA) Data Table
Cerebellum Purkinje cell rheobase Physiological and morphological development of the rat cerebellar Purkinje cell. (NeuroElectro data) (PubMed) 0.27 (21) 270.0 (pA) Data Table
Cerebellum Purkinje cell rheobase Physiological and morphological development of the rat cerebellar Purkinje cell. (NeuroElectro data) (PubMed) 0.08 (17) 80.0 (pA) Data Table
Cerebellum Purkinje cell rheobase Submillisecond optical reporting of membrane potential in situ using a neuronal tracer dye. (NeuroElectro data) (PubMed) 1.3 ± 0.17 (10) 1300.0 (pA) Data Table
Cerebellum Purkinje cell cerebellar vermis lobule X initial bursting purkinje cell rheobase Lobule-specific membrane excitability of cerebellar Purkinje cells. (NeuroElectro data) (PubMed) 280.0 ± 32.6 (10) 280.0 (pA) Data Table
Cerebellum Purkinje cell rheobase Physiological and morphological development of the rat cerebellar Purkinje cell. (NeuroElectro data) (PubMed) 0.82 (11) 820.0 (pA) Data Table
Cochlear nucleus (ventral) bushy cell anterior ventral cochlear nucleus dorsal third high frequency region neuron rheobase Synaptic transmission at the cochlear nucleus endbulb synapse during age-related hearing loss in mice. (NeuroElectro data) (PubMed) 313.1 (21) 313.1 (pA) Data Table
Cochlear nucleus (ventral) bushy cell anterior ventral cochlear nucleus rostroventral third low frequency region neuron rheobase Synaptic transmission at the cochlear nucleus endbulb synapse during age-related hearing loss in mice. (NeuroElectro data) (PubMed) 270.6 (7) 270.6 (pA) Data Table
Cochlear nucleus (ventral) bushy cell anterior ventral cochlear nucleus dorsal third high frequency region neuron rheobase Synaptic transmission at the cochlear nucleus endbulb synapse during age-related hearing loss in mice. (NeuroElectro data) (PubMed) 189.8 (14) 189.8 (pA) Data Table
Cochlear nucleus (ventral) bushy cell anterior ventral cochlear nucleus dorsal third high frequency region neuron rheobase Synaptic transmission at the cochlear nucleus endbulb synapse during age-related hearing loss in mice. (NeuroElectro data) (PubMed) 263.4 (10) 263.4 (pA) Data Table
Cochlear nucleus (ventral) bushy cell anterior ventral cochlear nucleus dorsal third high frequency region neuron rheobase Synaptic transmission at the cochlear nucleus endbulb synapse during age-related hearing loss in mice. (NeuroElectro data) (PubMed) 302.0 (8) 302.0 (pA) Data Table
Dentate gyrus basket cell rheobase Altered profile of basket cell afferent synapses in hyper-excitable dentate gyrus revealed by optogenetic and two-pathway stimulations. (NeuroElectro data) (PubMed) 106.7 ± 25.5 106.7 (pA) Data Table
Dentate gyrus granule cell rheobase TWIK-1 contributes to the intrinsic excitability of dentate granule cells in mouse hippocampus. (NeuroElectro data) (PubMed) 42.4 (36) 42.4 (pA) Data Table
Dentate gyrus granule cell rheobase Intrinsic membrane properties determine hippocampal differential firing pattern in vivo in anesthetized rats. (NeuroElectro data) (PubMed) 135.0 ± 11.0 (18) 135.0 (pA) Data Table
Dentate gyrus granule cell Dentate gyrus GAD67-not expressing mature granule Cell rheobase Molecular and functional characterization of GAD67-expressing, newborn granule cells in mouse dentate gyrus. (NeuroElectro data) (PubMed) 95.0 ± 5.7 (22) 95.0 (pA) Data Table
Dentate gyrus granule cell Dentate gyrus GAD67-not expressing immature granule cell rheobase Molecular and functional characterization of GAD67-expressing, newborn granule cells in mouse dentate gyrus. (NeuroElectro data) (PubMed) 72.8 ± 11.7 (33) 72.8 (pA) Data Table
Dentate gyrus granule cell Dentate gyrus GAD67-expressing immature granule cell rheobase Molecular and functional characterization of GAD67-expressing, newborn granule cells in mouse dentate gyrus. (NeuroElectro data) (PubMed) 62.4 ± 14.3 (32) 62.4 (pA) Data Table
Dentate gyrus granule cell Dentate gyrus type 2 mature granule cell rheobase Impaired firing properties of dentate granule neurons in an Alzheimer's disease animal model are rescued by PPARγ agonism. (NeuroElectro data) (PubMed) 41.3 ± 5.5 41.3 (pA) Data Table
Dentate gyrus granule cell Dentate gyrus inferior blade granule cell rheobase Impaired firing properties of dentate granule neurons in an Alzheimer's disease animal model are rescued by PPARγ agonism. (NeuroElectro data) (PubMed) 25.3 ± 2.7 (19) 25.3 (pA) Data Table
Dorsal root ganglion cell dorsal root ganglion medium cell rheobase Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury. (NeuroElectro data) (PubMed) 0.9 ± 0.2 -- Data Table
Dorsal root ganglion cell Large dorsal root ganglion cell rheobase Long-term IL-1β exposure causes subpopulation-dependent alterations in rat dorsal root ganglion neuron excitability. (NeuroElectro data) (PubMed) 0.39 ± 0.05 (12) 390.0 (pA) Data Table
Dorsal root ganglion cell rheobase Chronic compression of mouse dorsal root ganglion alters voltage-gated sodium and potassium currents in medium-sized dorsal root ganglion neurons. (NeuroElectro data) (PubMed) 627.8 ± 43.4 627.8 (pA) Data Table
Dorsal root ganglion cell dorsal root ganglion small cell rheobase Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury. (NeuroElectro data) (PubMed) 0.7 ± 0.1 -- Data Table
Dorsal root ganglion cell Medium dorsal root ganglion cell rheobase Long-term IL-1β exposure causes subpopulation-dependent alterations in rat dorsal root ganglion neuron excitability. (NeuroElectro data) (PubMed) 0.49 ± 0.03 (36) 490.0 (pA) Data Table
Dorsal root ganglion cell thoracolumbar colorectal dorsal root ganglion cell rheobase Altered purinergic signaling in colorectal dorsal root ganglion neurons contributes to colorectal hypersensitivity. (NeuroElectro data) (PubMed) 247.3 ± 13.0 247.3 (pA) Data Table
Dorsal root ganglion cell rheobase TRPA1 channels mediate cold temperature sensing in mammalian vagal sensory neurons: pharmacological and genetic evidence. (NeuroElectro data) (PubMed) 58.0 ± 13.0 (8) 58.0 (pA) Data Table
Dorsal root ganglion cell Small isolectin B4 positive dorsal root ganglion cell rheobase Long-term IL-1β exposure causes subpopulation-dependent alterations in rat dorsal root ganglion neuron excitability. (NeuroElectro data) (PubMed) 0.37 ± 0.03 (20) 370.0 (pA) Data Table
Dorsal root ganglion cell lumbosacral colorectal dorsal root ganglion cell rheobase Altered purinergic signaling in colorectal dorsal root ganglion neurons contributes to colorectal hypersensitivity. (NeuroElectro data) (PubMed) 227.1 ± 21.7 227.1 (pA) Data Table
Dorsal root ganglion cell lumbar dorsal root ganglion neuron rheobase Identification and characterization of a subset of mouse sensory neurons that express acid-sensing ion channel 3. (NeuroElectro data) (PubMed) 578.8 ± 46.9 578.8 (pA) Data Table
Dorsal root ganglion cell Small isolectin B4 negative dorsal root ganglion cell rheobase Long-term IL-1β exposure causes subpopulation-dependent alterations in rat dorsal root ganglion neuron excitability. (NeuroElectro data) (PubMed) 0.27 ± 0.02 (23) 270.0 (pA) Data Table
Dorsal root ganglion cell rheobase Similar electrophysiological changes in axotomized and neighboring intact dorsal root ganglion neurons. (NeuroElectro data) (PubMed) 0.84 ± 0.17 (13) 840.0 (pA) Data Table
Dorsal root ganglion cell Isolectin B(4)-negative peptidergic neurons rheobase Differential slow inactivation and use-dependent inhibition of Nav1.8 channels contribute to distinct firing properties in IB4+ and IB4- DRG neurons. (NeuroElectro data) (PubMed) 58.2 ± 2.5 58.2 (pA) Data Table
Dorsal root ganglion cell rheobase Effects of a chronic compression of the dorsal root ganglion on voltage-gated Na+ and K+ currents in cutaneous afferent neurons. (NeuroElectro data) (PubMed) 7.9 ± 1.4 -- Data Table
Dorsal root ganglion cell small dorsal root ganglion cell rheobase Modulation of action potential firing by iberiotoxin and NS1619 in rat dorsal root ganglion neurons. (NeuroElectro data) (PubMed) 0.29 ± 0.03 (30) 290.0 (pA) Data Table
Dorsal root ganglion cell rheobase Long-term IL-1β exposure causes subpopulation-dependent alterations in rat dorsal root ganglion neuron excitability. (NeuroElectro data) (PubMed) 0.51 ± 0.04 (22) 510.0 (pA) Data Table
Dorsal root ganglion cell rheobase Calcium and calcium-activated currents in vagotomized rat primary vagal afferent neurons. (NeuroElectro data) (PubMed) 108.0 ± 23.0 (36) 108.0 (pA) Data Table
Dorsal root ganglion cell rheobase Similar electrophysiological changes in axotomized and neighboring intact dorsal root ganglion neurons. (NeuroElectro data) (PubMed) 1.76 ± 0.27 (24) 1760.0 (pA) Data Table
Dorsal root ganglion cell Isolectin B(4)-positive nonpeptidergic neurons rheobase Differential slow inactivation and use-dependent inhibition of Nav1.8 channels contribute to distinct firing properties in IB4+ and IB4- DRG neurons. (NeuroElectro data) (PubMed) 56.8 ± 1.1 56.8 (pA) Data Table
Dorsal root ganglion cell rheobase The P2Y2 receptor sensitizes mouse bladder sensory neurons and facilitates purinergic currents. (NeuroElectro data) (PubMed) 142.4 ± 11.6 142.4 (pA) Data Table
Dorsal root ganglion cell lumbar 4 and lumbar 5 dorsal root ganglion large cell rheobase Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury. (NeuroElectro data) (PubMed) 1.6 ± 0.12 (36) 1600.0 (pA) Data Table
Dorsal root ganglion cell medium dorsal root ganglion cell rheobase Modulation of action potential firing by iberiotoxin and NS1619 in rat dorsal root ganglion neurons. (NeuroElectro data) (PubMed) 0.41 ± 0.05 (22) 410.0 (pA) Data Table
Dorsal root ganglion cell rheobase Selective silencing of Na(V)1.7 decreases excitability and conduction in vagal sensory neurons. (NeuroElectro data) (PubMed) 24.2 ± 2.88 (12) 24.2 (pA) Data Table
Dorsal root ganglion cell rheobase Similar electrophysiological changes in axotomized and neighboring intact dorsal root ganglion neurons. (NeuroElectro data) (PubMed) 1.85 ± 0.33 (18) 1850.0 (pA) Data Table
Dorsal root ganglion cell small dorsal root ganglion rheobase Dissociation of dorsal root ganglion neurons induces hyperexcitability that is maintained by increased responsiveness to cAMP and cGMP. (NeuroElectro data) (PubMed) 0.34 ± 0.04 (22) 340.0 (pA) Data Table
Dorsal root ganglion cell rheobase Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury. (NeuroElectro data) (PubMed) 1.4 ± 0.17 1400.0 (pA) Data Table
Dorsal root ganglion cell rheobase Distinctive neurophysiological properties of embryonic trigeminal and geniculate neurons in culture. (NeuroElectro data) (PubMed) 128.0 ± 41.0 (173) 128.0 (pA) Data Table
Dorsal root ganglion cell rheobase Store-operated Ca2+ entry in sensory neurons: functional role and the effect of painful nerve injury. (NeuroElectro data) (PubMed) 1.36 ± 0.15 1360.0 (pA) Data Table
Dorsal root ganglion cell rheobase Sympathetic sprouting near sensory neurons after nerve injury occurs preferentially on spontaneously active cells and is reduced by early nerve block. (NeuroElectro data) (PubMed) 1.18 ± 0.07 -- Data Table
Dorsal root ganglion cell rheobase Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury. (NeuroElectro data) (PubMed) 0.5 ± 0.05 500.0 (pA) Data Table
Dorsal root ganglion cell rheobase Enhanced excitability of sensory neurons in rats with cutaneous hyperalgesia produced by chronic compression of the dorsal root ganglion. (NeuroElectro data) (PubMed) 0.9 ± 0.08 900.0 (pA) Data Table
Dorsal root ganglion cell Isolectin B(4)-negative peptidergic neurons rheobase Isolectin B(4)-positive and -negative nociceptors are functionally distinct. (NeuroElectro data) (PubMed) 209.3 ± 32.9 209.3 (pA) Data Table
Dorsal root ganglion cell rheobase Store-operated Ca2+ entry in sensory neurons: functional role and the effect of painful nerve injury. (NeuroElectro data) (PubMed) 2.37 ± 0.38 2370.0 (pA) Data Table
Dorsal root ganglion cell rheobase Sympathetic sprouting near sensory neurons after nerve injury occurs preferentially on spontaneously active cells and is reduced by early nerve block. (NeuroElectro data) (PubMed) 1.0 ± 0.08 -- Data Table
Dorsal root ganglion cell rheobase Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury. (NeuroElectro data) (PubMed) 0.8 ± 0.11 800.0 (pA) Data Table
Dorsal root ganglion cell rheobase Enhanced excitability of sensory neurons in rats with cutaneous hyperalgesia produced by chronic compression of the dorsal root ganglion. (NeuroElectro data) (PubMed) 1.68 ± 0.14 1680.0 (pA) Data Table
Dorsal root ganglion cell Isolectin B(4)-negative peptidergic neurons rheobase Isolectin B(4)-positive and -negative nociceptors are functionally distinct. (NeuroElectro data) (PubMed) 306.7 ± 56.3 306.7 (pA) Data Table
Dorsal root ganglion cell rheobase Chronic spontaneous activity generated in the somata of primary nociceptors is associated with pain-related behavior after spinal cord injury. (NeuroElectro data) (PubMed) 72.2 ± 15.7 -- Data Table
Dorsal root ganglion cell rheobase Sympathetic sprouting near sensory neurons after nerve injury occurs preferentially on spontaneously active cells and is reduced by early nerve block. (NeuroElectro data) (PubMed) 1.06 ± 0.08 -- Data Table
Dorsal root ganglion cell rheobase Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury. (NeuroElectro data) (PubMed) 0.8 ± 0.12 800.0 (pA) Data Table
Dorsal root ganglion cell rheobase Enhanced excitability of sensory neurons in rats with cutaneous hyperalgesia produced by chronic compression of the dorsal root ganglion. (NeuroElectro data) (PubMed) 1.89 ± 0.21 1890.0 (pA) Data Table
Dorsal root ganglion cell Lumbosacral dorsal root ganglion rheobase Cyclophosphamide-induced bladder inflammation sensitizes and enhances P2X receptor function in rat bladder sensory neurons. (NeuroElectro data) (PubMed) 146.1 ± 14.5 146.1 (pA) Data Table
Dorsal root ganglion cell Isolectin B(4)-positive nonpeptidergic neurons rheobase Isolectin B(4)-positive and -negative nociceptors are functionally distinct. (NeuroElectro data) (PubMed) 299.5 ± 36.7 299.5 (pA) Data Table
Dorsal root ganglion cell rheobase Chronic spontaneous activity generated in the somata of primary nociceptors is associated with pain-related behavior after spinal cord injury. (NeuroElectro data) (PubMed) 64.0 ± 7.1 -- Data Table
Dorsal root ganglion cell rheobase Hyperexcitability of axotomized and neighboring unaxotomized sensory neurons is reduced days after perineural clonidine at the site of injury. (NeuroElectro data) (PubMed) 1.2 ± 0.18 1200.0 (pA) Data Table
Dorsal root ganglion cell rheobase Vagotomy decreases excitability in primary vagal afferent somata. (NeuroElectro data) (PubMed) 81.0 ± 20.0 81.0 (pA) Data Table
Dorsal root ganglion cell thoracolumbar dorsal root ganglion rheobase Cyclophosphamide-induced bladder inflammation sensitizes and enhances P2X receptor function in rat bladder sensory neurons. (NeuroElectro data) (PubMed) 95.7 ± 7.5 95.7 (pA) Data Table
Dorsal root ganglion cell Isolectin B(4)-positive nonpeptidergic neurons rheobase Isolectin B(4)-positive and -negative nociceptors are functionally distinct. (NeuroElectro data) (PubMed) 176.7 ± 49.1 176.7 (pA) Data Table
Dorsal root ganglion cell rheobase Chronic spontaneous activity generated in the somata of primary nociceptors is associated with pain-related behavior after spinal cord injury. (NeuroElectro data) (PubMed) 12.0 ± 5.6 -- Data Table
DRG temperature cell Trigeminal cold sensitive ganglia rheobase Characteristics and physiological role of hyperpolarization activated currents in mouse cold thermoreceptors. (NeuroElectro data) (PubMed) 10.8 ± 5.3 (6) 10.8 (pA) Data Table
DRG temperature cell rheobase TRPA1 channels mediate cold temperature sensing in mammalian vagal sensory neurons: pharmacological and genetic evidence. (NeuroElectro data) (PubMed) 52.0 ± 14.0 (7) 52.0 (pA) Data Table
Hippocampus CA1 basket cell Hippocampus CA1 Stratum Oriens fast-spiking inhibitory neuron rheobase Impaired action potential initiation in GABAergic interneurons causes hyperexcitable networks in an epileptic mouse model carrying a human Na(V)1.1 mutation. (NeuroElectro data) (PubMed) 50.0 ± 9.5 (7) 50.0 (pA) Data Table
Hippocampus CA1 basket cell hippocampus CA1 vasoactive intestinal polypeptide expressing Cck-expressing basket cells rheobase Dendritic inhibition provided by interneuron-specific cells controls the firing rate and timing of the hippocampal feedback inhibitory circuitry. (NeuroElectro data) (PubMed) 70.0 ± 11.3 (6) 70.0 (pA) Data Table
Hippocampus CA1 IS-I neuron hippocampus CA1 type 3 vasoactive intestinal polypeptide expressing calretinin expressing interneurons rheobase Dendritic inhibition provided by interneuron-specific cells controls the firing rate and timing of the hippocampal feedback inhibitory circuitry. (NeuroElectro data) (PubMed) 42.8 ± 8.0 (23) 42.8 (pA) Data Table
Hippocampus CA1 oriens lacunosum moleculare neuron Hippocampus CA1 and CA2 non-fast spiking stramum oriens neuron rheobase 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) 38.7 ± 13.1 (15) 38.7 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Differential changes of potassium currents in CA1 pyramidal neurons after transient forebrain ischemia. (NeuroElectro data) (PubMed) 0.3 ± 0.03 (18) 300.0 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Stability and plasticity of intrinsic membrane properties in hippocampal CA1 pyramidal neurons: effects of internal anions. (NeuroElectro data) (PubMed) 1249.0 ± 144.0 (34) 1249.0 (pA) Data Table
Hippocampus CA1 pyramidal cell Hippocampus CA1 stratum radiatum pyramidal immunized with ovalbumin neurons rheobase Hippocampal function is compromised in an animal model of multiple sclerosis. (NeuroElectro data) (PubMed) 108.9 ± 8.6 108.9 (pA) Data Table
Hippocampus CA1 pyramidal cell Hippocampus CA1 non-fast spiking pyramidal neuron rheobase 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) 18.6 ± 2.2 (7) 18.6 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Stability and plasticity of intrinsic membrane properties in hippocampal CA1 pyramidal neurons: effects of internal anions. (NeuroElectro data) (PubMed) 1048.0 ± 168.0 (49) 1048.0 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Dietary ω-3 polyunsaturated fatty acids improves learning performance of diabetic rats by regulating the neuron excitability. (NeuroElectro data) (PubMed) 40.8 ± 5.8 (40) 40.8 (pA) Data Table
Hippocampus CA1 pyramidal cell Hippocampus CA1 stratum radiatum pyramidal immunized with ovalbumin neurons rheobase Hippocampal function is compromised in an animal model of multiple sclerosis. (NeuroElectro data) (PubMed) 111.2 ± 7.4 111.2 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Resting and active properties of pyramidal neurons in subiculum and CA1 of rat hippocampus. (NeuroElectro data) (PubMed) 213.0 ± 21.0 213.0 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Dietary prenatal choline supplementation alters postnatal hippocampal structure and function. (NeuroElectro data) (PubMed) 76.2 ± 4.9 (32) 76.2 (pA) Data Table
Hippocampus CA1 pyramidal cell proximal CA1 pyramidal excitatory neuron rheobase Distinct physiological and developmental properties of hippocampal CA2 subfield revealed by using anti-Purkinje cell protein 4 (PCP4) immunostaining. (NeuroElectro data) (PubMed) 61.0 ± 20.0 (14) 61.0 (pA) Data Table
Hippocampus CA1 pyramidal cell Hippocampus CA1 stratum pyramidale pyramidal cell rheobase Impaired action potential initiation in GABAergic interneurons causes hyperexcitable networks in an epileptic mouse model carrying a human Na(V)1.1 mutation. (NeuroElectro data) (PubMed) 50.0 ± 5.9 (15) 50.0 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Dietary cholesterol modulates the excitability of rabbit hippocampal CA1 pyramidal neurons. (NeuroElectro data) (PubMed) 0.17 ± 0.02 (25) 170.0 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Intrinsic membrane properties determine hippocampal differential firing pattern in vivo in anesthetized rats. (NeuroElectro data) (PubMed) 20.0 ± 7.0 (13) 20.0 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Elevated postsynaptic [Ca2+]i and L-type calcium channel activity in aged hippocampal neurons: relationship to impaired synaptic plasticity. (NeuroElectro data) (PubMed) 181.0 ± 15.0 (16) -- Data Table
Hippocampus CA1 pyramidal cell rheobase Evidence for altered hippocampal function in a mouse model of the human 22q11.2 microdeletion. (NeuroElectro data) (PubMed) 88.13 ± 8.27 (7) 88.13 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Elevated postsynaptic [Ca2+]i and L-type calcium channel activity in aged hippocampal neurons: relationship to impaired synaptic plasticity. (NeuroElectro data) (PubMed) 151.0 ± 15.0 (15) -- Data Table
Hippocampus CA1 pyramidal cell rheobase Enhanced intrinsic excitability and EPSP-spike coupling accompany enriched environment-induced facilitation of LTP in hippocampal CA1 pyramidal neurons. (NeuroElectro data) (PubMed) 0.7 ± 0.03 (16) 700.0 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Normal electrical properties of hippocampal neurons modelling early Huntington disease pathogenesis. (NeuroElectro data) (PubMed) 0.05 (15) 50.0 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Group I mGluRs increase excitability of hippocampal CA1 pyramidal neurons by a PLC-independent mechanism. (NeuroElectro data) (PubMed) 0.07 ± 0.02 (17) 70.0 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Normal electrical properties of hippocampal neurons modelling early Huntington disease pathogenesis. (NeuroElectro data) (PubMed) 0.04 (7) 40.0 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Paradoxical sleep deprivation impairs spatial learning and affects membrane excitability and mitochondrial protein in the hippocampus. (NeuroElectro data) (PubMed) 37.7 ± 14.7 37.7 (pA) Data Table
Hippocampus CA1 pyramidal cell Hippocampus CA1 non-fast spiking stratum oriens pyramidal-like cell rheobase 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) 23.8 ± 11.2 (8) 23.8 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Synaptic ionotropic glutamate receptors and plasticity are developmentally altered in the CA1 field of Fmr1 knockout mice. (NeuroElectro data) (PubMed) 70.0 ± 28.0 (12) 70.0 (pA) Data Table
Hippocampus CA1 pyramidal cell rheobase Stability and plasticity of intrinsic membrane properties in hippocampal CA1 pyramidal neurons: effects of internal anions. (NeuroElectro data) (PubMed) 1135.0 ± 106.0 (9) 1135.0 (pA) Data Table
Hippocampus CA2 pyramidal neuron Hippocampus CA2 non-fast spiking pyramidal-like neuron rheobase 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) 15.7 ± 6.1 (7) 15.7 (pA) Data Table
Hippocampus CA2 pyramidal neuron Hippocampus CA2 non-fasting spiking pyramidal neuron rheobase 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) 19.1 ± 6.6 (11) 19.1 (pA) Data Table
Hippocampus CA2 pyramidal neuron Hippocampus CA2 excitatory pyramidal neuron rheobase Distinct physiological and developmental properties of hippocampal CA2 subfield revealed by using anti-Purkinje cell protein 4 (PCP4) immunostaining. (NeuroElectro data) (PubMed) 52.0 ± 7.0 (14) 52.0 (pA) Data Table
Hippocampus CA3 basket cell hippocampus CA3 parvalbumin-expressing basket cells rheobase Different input and output properties characterize parvalbumin-positive basket and Axo-axonic cells in the hippocampal CA3 subfield. (NeuroElectro data) (PubMed) 150.0 (13) 150.0 (pA) Data Table
Hippocampus CA3 basket cell Hippocampus CA3 basket CB1-expressing cell rheobase Anatomically heterogeneous populations of CB1 cannabinoid receptor-expressing interneurons in the CA3 region of the hippocampus show homogeneous input-output characteristics. (NeuroElectro data) (PubMed) 175.0 (14) 175.0 (pA) Data Table
Hippocampus CA3 oriens interneuron hippocampus CA3 parvalbumin-expressing axo-axonic cells rheobase Different input and output properties characterize parvalbumin-positive basket and Axo-axonic cells in the hippocampal CA3 subfield. (NeuroElectro data) (PubMed) 113.0 (20) 113.0 (pA) Data Table
Hippocampus CA3 pyramidal cell rheobase Optogenetic inhibition of chemically induced hypersynchronized bursting in mice. (NeuroElectro data) (PubMed) 297.2 297.2 (pA) Data Table
Hippocampus CA3 pyramidal cell rheobase GCP II (NAALADase) inhibition suppresses mossy fiber-CA3 synaptic neurotransmission by a presynaptic mechanism. (NeuroElectro data) (PubMed) 98.9 ± 1.8 (7) 98.9 (pA) Data Table
Hippocampus CA3 pyramidal cell Distal CA3 excitatory pyramidal neuron rheobase Distinct physiological and developmental properties of hippocampal CA2 subfield revealed by using anti-Purkinje cell protein 4 (PCP4) immunostaining. (NeuroElectro data) (PubMed) 92.0 ± 39.0 (20) 92.0 (pA) Data Table
Hippocampus CA3 pyramidal cell rheobase Intrinsic membrane properties determine hippocampal differential firing pattern in vivo in anesthetized rats. (NeuroElectro data) (PubMed) 18.0 ± 3.0 (36) 18.0 (pA) Data Table
Hypoglossal nucleus motor neuron rheobase Excitatory-inhibitory imbalance in hypoglossal neurons during the critical period of postnatal development in the rat. (NeuroElectro data) (PubMed) 305.12 ± 12.28 (21) 305.12 (pA) Data Table
Hypoglossal nucleus motor neuron rheobase Developmental nicotine exposure alters neurotransmission and excitability in hypoglossal motoneurons. (NeuroElectro data) (PubMed) 309.0 ± 34.0 (10) 309.0 (pA) Data Table
Hypoglossal nucleus motor neuron rheobase Excitatory-inhibitory imbalance in hypoglossal neurons during the critical period of postnatal development in the rat. (NeuroElectro data) (PubMed) 246.67 ± 25.42 (21) -- Data Table
Hypoglossal nucleus motor neuron rheobase Developmental nicotine exposure alters neurotransmission and excitability in hypoglossal motoneurons. (NeuroElectro data) (PubMed) 351.0 ± 45.0 (10) 351.0 (pA) Data Table
Hypoglossal nucleus motor neuron rheobase Excitatory-inhibitory imbalance in hypoglossal neurons during the critical period of postnatal development in the rat. (NeuroElectro data) (PubMed) 238.88 ± 22.2 (21) -- Data Table
Hypoglossal nucleus motor neuron rheobase Excitatory-inhibitory imbalance in hypoglossal neurons during the critical period of postnatal development in the rat. (NeuroElectro data) (PubMed) 241.25 ± 12.69 (21) -- Data Table
Hypoglossal nucleus motor neuron rheobase Excitatory-inhibitory imbalance in hypoglossal neurons during the critical period of postnatal development in the rat. (NeuroElectro data) (PubMed) 102.5 ± 10.14 (21) -- Data Table
Hypothalamus oxytocin neuroendocrine magnocellular cell rheobase Excitatory role of the hyperpolarization-activated inward current in phasic and tonic firing of rat supraoptic neurons. (NeuroElectro data) (PubMed) 120.7 ± 20.7 (5) 120.7 (pA) Data Table
Inferior colliculus neuron Inferior colliculus central nucleus auditory neuron rheobase In vivo intracellular characteristics of inferior colliculus neurons in guinea pigs. (NeuroElectro data) (PubMed) 0.3 (71) 300.0 (pA) Data Table
Lateral amygdala projection neuron lateral central amygdala BNST-projecting responsive cell rheobase Optogenetic study of the projections from the bed nucleus of the stria terminalis to the central amygdala. (NeuroElectro data) (PubMed) 35.0 ± 8.2 (12) 35.0 (pA) Data Table
Lateral amygdala projection neuron lateral nucleus of the amygdala projection neuron rheobase Deletion of the mouse homolog of KCNAB2, a gene linked to monosomy 1p36, results in associative memory impairments and amygdala hyperexcitability. (NeuroElectro data) (PubMed) 0.59 ± 0.04 590.0 (pA) Data Table
Lateral amygdala projection neuron lateral central amygdala BNST-projecting unresponsive cell rheobase Optogenetic study of the projections from the bed nucleus of the stria terminalis to the central amygdala. (NeuroElectro data) (PubMed) 33.1 ± 3.4 (16) 33.1 (pA) Data Table
Medial entorhinal cortex layer II stellate cell rheobase Intrinsic electrophysiological properties of entorhinal cortex stellate cells and their contribution to grid cell firing fields. (NeuroElectro data) (PubMed) 246.2 ± 21.6 (13) 246.2 (pA) Data Table
Medial entorhinal cortex layer II stellate cell rheobase Contribution of near-threshold currents to intrinsic oscillatory activity in rat medial entorhinal cortex layer II stellate cells. (NeuroElectro data) (PubMed) 181.1 ± 24.5 (66) 181.1 (pA) Data Table
Medial entorhinal cortex layer II stellate cell rheobase Contribution of near-threshold currents to intrinsic oscillatory activity in rat medial entorhinal cortex layer II stellate cells. (NeuroElectro data) (PubMed) 172.8 ± 28.7 (26) 172.8 (pA) Data Table
Medial entorhinal cortex layer II stellate cell rheobase Contribution of near-threshold currents to intrinsic oscillatory activity in rat medial entorhinal cortex layer II stellate cells. (NeuroElectro data) (PubMed) 186.7 ± 33.9 (26) 186.7 (pA) Data Table
Medial entorhinal cortex layer II stellate cell rheobase Contribution of near-threshold currents to intrinsic oscillatory activity in rat medial entorhinal cortex layer II stellate cells. (NeuroElectro data) (PubMed) 166.4 ± 19.2 (66) 166.4 (pA) Data Table
Medial entorhinal cortex layer II stellate cell rheobase Contribution of near-threshold currents to intrinsic oscillatory activity in rat medial entorhinal cortex layer II stellate cells. (NeuroElectro data) (PubMed) 170.0 ± 33.5 (26) 170.0 (pA) Data Table
Medial entorhinal cortex layer II stellate cell rheobase Intrinsic electrophysiological properties of entorhinal cortex stellate cells and their contribution to grid cell firing fields. (NeuroElectro data) (PubMed) 181.8 ± 18.8 (11) 181.8 (pA) Data Table
Medial entorhinal cortex layer III pyramidal cell Medial entorhinal cortex layer III projection cell rheobase Morphological and electrophysiological characterization of layer III cells of the medial entorhinal cortex of the rat. (NeuroElectro data) (PubMed) 0.15 ± 0.01 (89) 150.0 (pA) Data Table
Medial entorhinal cortex layer III pyramidal cell Medial entorhinal cortex layer III projection cell rheobase Morphological and electrophysiological characterization of layer III cells of the medial entorhinal cortex of the rat. (NeuroElectro data) (PubMed) 0.5 ± 0.03 (61) 500.0 (pA) Data Table
Medial entorhinal cortex layer III pyramidal cell Medial entorhinal cortex layer III local circuit cell rheobase Morphological and electrophysiological characterization of layer III cells of the medial entorhinal cortex of the rat. (NeuroElectro data) (PubMed) 0.23 ± 0.03 (23) 230.0 (pA) Data Table
Medial entorhinal cortex layer III pyramidal cell Medial entorhinal cortex layer III local circuit cell rheobase Morphological and electrophysiological characterization of layer III cells of the medial entorhinal cortex of the rat. (NeuroElectro data) (PubMed) 0.15 ± 0.03 (12) 150.0 (pA) Data Table
Medial Nucleus of Trapezoid Body neuron rheobase Kv1.1-containing channels are critical for temporal precision during spike initiation. (NeuroElectro data) (PubMed) 0.88 ± 0.09 -- Data Table
Medial Nucleus of Trapezoid Body neuron rheobase Hyperexcitability and reduced low threshold potassium currents in auditory neurons of mice lacking the channel subunit Kv1.1. (NeuroElectro data) (PubMed) 90.0 ± 6.0 (29) 90.0 (pA) Data Table
Neocortex basket cell primary somatosensory cortex layer 5 parvalbumin-expressing fast-spiking GABAergic interneuron rheobase Transcriptional and electrophysiological maturation of neocortical fast-spiking GABAergic interneurons. (NeuroElectro data) (PubMed) 0.228823 228.823 (pA) Data Table
Neocortex basket cell Auditory cortex layer 2-3 fast-spiking interneuron rheobase Development of inhibitory timescales in auditory cortex. (NeuroElectro data) (PubMed) 0.27 ± 0.1 (59) 270.0 (pA) Data Table
Neocortex basket cell Somatosensory cortex layer 5 parvalbumin expressing basket cell rheobase Impaired excitability of somatostatin- and parvalbumin-expressing cortical interneurons in a mouse model of Dravet syndrome. (NeuroElectro data) (PubMed) 178.4 ± 12.0 (19) 178.4 (pA) Data Table
Neocortex basket cell Prefrontal cortex layer 2-3 local arbor pericellular basket cells rheobase Interneuron diversity in layers 2-3 of monkey prefrontal cortex. (NeuroElectro data) (PubMed) 18.0 ± 13.0 (14) 18.0 (pA) Data Table
Neocortex basket cell primary somatosensory cortex layer 5 parvalbumin-expressing fast-spiking GABAergic interneuron rheobase Transcriptional and electrophysiological maturation of neocortical fast-spiking GABAergic interneurons. (NeuroElectro data) (PubMed) 1.226245 1226.245 (pA) Data Table
Neocortex basket cell Auditory cortex layer 2-3 fast-spiking interneuron rheobase Development of inhibitory timescales in auditory cortex. (NeuroElectro data) (PubMed) 0.1 ± 0.1 (36) 100.0 (pA) Data Table
Neocortex basket cell Primary auditory cortex fast-spiking interneurons rheobase Characterization of thalamocortical responses of regular-spiking and fast-spiking neurons of the mouse auditory cortex in vitro and in silico. (NeuroElectro data) (PubMed) 0.16 ± 0.08 (16) 160.0 (pA) Data Table
Neocortex basket cell medial frontal cortex basket fast-spiking parvalbumin positive EGFP-expressing GABAergic cell rheobase Development of GABA circuitry of fast-spiking basket interneurons in the medial prefrontal cortex of erbb4-mutant mice. (NeuroElectro data) (PubMed) 383.84 ± 25.49 (8) 383.84 (pA) Data Table
Neocortex basket cell primary somatosensory cortex layer 5 parvalbumin-expressing fast-spiking GABAergic interneuron rheobase Transcriptional and electrophysiological maturation of neocortical fast-spiking GABAergic interneurons. (NeuroElectro data) (PubMed) 0.112101 112.101 (pA) Data Table
Neocortex basket cell Auditory cortex layer 2-3 fast-spiking interneuron rheobase Development of inhibitory timescales in auditory cortex. (NeuroElectro data) (PubMed) 0.33 ± 0.13 (50) 330.0 (pA) Data Table
Neocortex basket cell somatosensory cortex layer 4 medial ganglionic eminence-derived parvalbumin-expressing interneurons rheobase Satb1 is an activity-modulated transcription factor required for the terminal differentiation and connectivity of medial ganglionic eminence-derived cortical interneurons. (NeuroElectro data) (PubMed) 550.0 ± 69.9 (12) 550.0 (pA) Data Table
Neocortex basket cell Insular cortex Layer 5 Gabaergic fast-spiking VGAT-expressing interneurons rheobase Postsynaptic cell type-dependent cholinergic regulation of GABAergic synaptic transmission in rat insular cortex. (NeuroElectro data) (PubMed) 112.3 ± 7.2 (71) 112.3 (pA) Data Table
Neocortex basket cell primary somatosensory cortex layer 5 parvalbumin-expressing fast-spiking GABAergic interneuron rheobase Transcriptional and electrophysiological maturation of neocortical fast-spiking GABAergic interneurons. (NeuroElectro data) (PubMed) 0.0214 21.4 (pA) Data Table
Neocortex basket cell somatosensory cortex layer 2/3 parvalbumin expressing interneuron rheobase Decorrelating action of inhibition in neocortical networks. (NeuroElectro data) (PubMed) 218.6 ± 31.78 (42) 218.6 (pA) Data Table
Neocortex basket cell Primary somatosensory cortex layer 4 fast-spiking inhibitory neuron rheobase Impaired action potential initiation in GABAergic interneurons causes hyperexcitable networks in an epileptic mouse model carrying a human Na(V)1.1 mutation. (NeuroElectro data) (PubMed) 92.9 ± 13.0 (7) 92.9 (pA) Data Table
Neocortex basket cell visual cortex layer 5-6 fast-spiking cell rheobase Synaptogenesis of electrical and GABAergic synapses of fast-spiking inhibitory neurons in the neocortex. (NeuroElectro data) (PubMed) 348.7 ± 17.2 (15) 348.7 (pA) Data Table
Neocortex basket cell Visual cortex layer 2/3 parvalbumin-expressing interneuron rheobase Synapse-associated protein 97 regulates the membrane properties of fast-spiking parvalbumin interneurons in the visual cortex. (NeuroElectro data) (PubMed) 228.0 ± 16.0 (20) 228.0 (pA) Data Table
Neocortex basket cell primary auditory cortex layer 2-4 fast-spiking parvalbumin-positive GFP-expressing round basket cell rheobase Spatial profile of excitatory and inhibitory synaptic connectivity in mouse primary auditory cortex. (NeuroElectro data) (PubMed) 0.2 (26) 200.0 (pA) Data Table
Neocortex basket cell visual cortex layer 5-6 fast-spiking cell rheobase Synaptogenesis of electrical and GABAergic synapses of fast-spiking inhibitory neurons in the neocortex. (NeuroElectro data) (PubMed) 232.4 ± 21.6 (15) 232.4 (pA) Data Table
Neocortex basket cell Visual cortex layer 2/3 parvalbumin-expressing interneuron rheobase Synapse-associated protein 97 regulates the membrane properties of fast-spiking parvalbumin interneurons in the visual cortex. (NeuroElectro data) (PubMed) 384.0 ± 46.0 (14) 384.0 (pA) Data Table
Neocortex basket cell Auditory cortex fast-spiking cell rheobase Age-dependent effect of hearing loss on cortical inhibitory synapse function. (NeuroElectro data) (PubMed) 123.0 ± 22.0 (10) 123.0 (pA) Data Table
Neocortex basket cell visual cortex layer 5-6 fast-spiking cell rheobase Synaptogenesis of electrical and GABAergic synapses of fast-spiking inhibitory neurons in the neocortex. (NeuroElectro data) (PubMed) 150.3 ± 13.1 (15) 150.3 (pA) Data Table
Neocortex basket cell rheobase Parvalbumin-positive basket interneurons in monkey and rat prefrontal cortex. (NeuroElectro data) (PubMed) 132.0 ± 69.0 (31) 132.0 (pA) Data Table
Neocortex basket cell medial prefrontal cortex fast spiking interneuron rheobase Cell type-specific effects of adenosine on cortical neurons. (NeuroElectro data) (PubMed) 176.0 ± 15.0 (14) 176.0 (pA) Data Table
Neocortex basket cell somatosensory cortex layer 2/3 fast-spiking cell rheobase Spike-timing-dependent plasticity of neocortical excitatory synapses on inhibitory interneurons depends on target cell type. (NeuroElectro data) (PubMed) 269.0 ± 17.0 (31) 269.0 (pA) Data Table
Neocortex basket cell Frontal cortex layer 5 fast-spiking GABAergic Venus-expressing parvalbumin positive basket cell rheobase Quantitative chemical composition of cortical GABAergic neurons revealed in transgenic venus-expressing rats. (NeuroElectro data) (PubMed) 378.0 ± 88.0 (11) 378.0 (pA) Data Table
Neocortex basket cell visual cortex layer 5-6 fast-spiking cell rheobase Synaptogenesis of electrical and GABAergic synapses of fast-spiking inhibitory neurons in the neocortex. (NeuroElectro data) (PubMed) 131.3 ± 19.2 (15) 131.3 (pA) Data Table
Neocortex basket cell rheobase Parvalbumin-positive basket interneurons in monkey and rat prefrontal cortex. (NeuroElectro data) (PubMed) 74.0 ± 50.0 (39) 74.0 (pA) Data Table
Neocortex basket cell somatosensory cortex fast-firing interneuron rheobase Cell type-specific effects of adenosine on cortical neurons. (NeuroElectro data) (PubMed) 163.0 ± 43.0 (4) 163.0 (pA) Data Table
Neocortex basket cell dorsolateral prefrontal cortex layer 2/3 basket cell rheobase Functional properties of fast spiking interneurons and their synaptic connections with pyramidal cells in primate dorsolateral prefrontal cortex. (NeuroElectro data) (PubMed) 160.0 ± 23.0 (16) 160.0 (pA) Data Table
Neocortex basket cell primary somatosensory cortex barrel field layer 4 parvalbumin expressing early onset firing fast spiking interneuron rheobase Two functional inhibitory circuits are comprised of a heterogeneous population of fast-spiking cortical interneurons. (NeuroElectro data) (PubMed) 213.2 ± 9.74 (88) 213.2 (pA) Data Table
Neocortex basket cell primary somatosensory cortex barrel field layer 4 parvalbumin expressing delayed firing fast spiking interneuron rheobase Two functional inhibitory circuits are comprised of a heterogeneous population of fast-spiking cortical interneurons. (NeuroElectro data) (PubMed) 150.6 ± 8.78 (83) 150.6 (pA) Data Table
Neocortex bouquet double cell Prefrontal cortex layer 2-3 linear double bouquet cells rheobase Interneuron diversity in layers 2-3 of monkey prefrontal cortex. (NeuroElectro data) (PubMed) 23.0 ± 19.0 (21) 23.0 (pA) Data Table
Neocortex chandelier cell Prefrontal cortex layer 2-3 linear chandelier cells rheobase Interneuron diversity in layers 2-3 of monkey prefrontal cortex. (NeuroElectro data) (PubMed) 40.0 ± 27.0 (13) 40.0 (pA) Data Table
Neocortex chandelier cell dorsolateral prefrontal cortex layer 2/3 chandelier cell rheobase Functional properties of fast spiking interneurons and their synaptic connections with pyramidal cells in primate dorsolateral prefrontal cortex. (NeuroElectro data) (PubMed) 100.0 ± 14.0 (12) 100.0 (pA) Data Table
Neocortex interneuron deep Visual Cortex layer 2/3 parvalbumin-expressing continuous-firing high-frequency interneuron rheobase Subgroups of parvalbumin-expressing interneurons in layers 2/3 of the visual cortex. (NeuroElectro data) (PubMed) 570.0 ± 60.0 (11) 570.0 (pA) Data Table
Neocortex interneuron deep barrel cortex layer 6a GABAergic inhibitory interneuron rheobase Inter- and intralaminar subcircuits of excitatory and inhibitory neurons in layer 6a of the rat barrel cortex. (NeuroElectro data) (PubMed) 205.2 ± 124.7 (32) 205.2 (pA) Data Table
Neocortex interneuron deep Visual Cortex layer 2/3 parvalbumin-expressing weakly stuttering interneuron rheobase Subgroups of parvalbumin-expressing interneurons in layers 2/3 of the visual cortex. (NeuroElectro data) (PubMed) 200.0 ± 20.0 (18) 200.0 (pA) Data Table
Neocortex interneuron deep Neocortex layer 2-3 fast spiking Transcription factor Er81 expressing parvalbumin-expressing internuron rheobase Tuning of fast-spiking interneuron properties by an activity-dependent transcriptional switch. (NeuroElectro data) (PubMed) 273.0 ± 20.4 (22) -- Data Table
Neocortex interneuron deep Visual Cortex layer 2/3 parvalbumin-expressing strongly stuttering interneuron rheobase Subgroups of parvalbumin-expressing interneurons in layers 2/3 of the visual cortex. (NeuroElectro data) (PubMed) 400.0 ± 20.0 (31) 400.0 (pA) Data Table
Neocortex interneuron deep Neocortex layer 2-3 fast spiking non-transcription factor Er81 expressing parvalbumin-expressing internuron rheobase Tuning of fast-spiking interneuron properties by an activity-dependent transcriptional switch. (NeuroElectro data) (PubMed) 186.5 ± 42.2 (11) -- Data Table
Neocortex interneuron deep Presubiculum parvalbumin interneuron rheobase Diversity and overlap of parvalbumin and somatostatin expressing interneurons in mouse presubiculum. (NeuroElectro data) (PubMed) 175.0 (46) 175.0 (pA) Data Table
Neocortex interneuron deep Visual Cortex layer 2/3 parvalbumin-expressing continuous-firing interneuron rheobase Subgroups of parvalbumin-expressing interneurons in layers 2/3 of the visual cortex. (NeuroElectro data) (PubMed) 320.0 ± 30.0 (22) 320.0 (pA) Data Table
Neocortex interneuron deep Presubiculum somatostatin-expressing interneuron rheobase Diversity and overlap of parvalbumin and somatostatin expressing interneurons in mouse presubiculum. (NeuroElectro data) (PubMed) 72.0 (61) 72.0 (pA) Data Table
Neocortex interneuron deep Medial prefrontal cortex layer V fast-spiking interneurons rheobase Repeated cocaine exposure increases fast-spiking interneuron excitability in the rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 258.6 ± 13.41 (19) 258.6 (pA) Data Table
Neocortex interneuron deep Presubiculum somatostatin-expressing interneuron rheobase Diversity and overlap of parvalbumin and somatostatin expressing interneurons in mouse presubiculum. (NeuroElectro data) (PubMed) 40.0 (35) 40.0 (pA) Data Table
Neocortex interneuron deep primary auditory cortex layer 2-4 fast-spiking inhibitory cell rheobase Spatial profile of excitatory and inhibitory synaptic connectivity in mouse primary auditory cortex. (NeuroElectro data) (PubMed) 0.2 (52) 200.0 (pA) Data Table
Neocortex interneuron deep dorsolateral prefrontal cortex layer 2/3 pyramidal fast-spiking GABAergic interneuron rheobase Dopamine increases inhibition in the monkey dorsolateral prefrontal cortex through cell type-specific modulation of interneurons. (NeuroElectro data) (PubMed) 139.5 ± 13.8 139.5 (pA) Data Table
Neocortex interneuron deep dorsolateral prefrontal cortex layer 2/3 adapting non-pyramidal GABAergic interneurons rheobase Dopamine increases inhibition in the monkey dorsolateral prefrontal cortex through cell type-specific modulation of interneurons. (NeuroElectro data) (PubMed) 54.4 ± 7.5 54.4 (pA) Data Table
Neocortex interneuron deep somatosensory cortex non-fast firing interneuron rheobase Cell type-specific effects of adenosine on cortical neurons. (NeuroElectro data) (PubMed) 234.0 ± 52.0 (6) 234.0 (pA) Data Table
Neocortex layer 4 stellate cell Layer 4 somatosensory cortex barrel column spiny stellate neurons rheobase The excitatory neuronal network of the C2 barrel column in mouse primary somatosensory cortex. (NeuroElectro data) (PubMed) 56.0 ± 1.0 56.0 (pA) Data Table
Neocortex layer 4 stellate cell Primary auditory cortex layer 3/4 regular-spiking pyramidal neurons rheobase Characterization of thalamocortical responses of regular-spiking and fast-spiking neurons of the mouse auditory cortex in vitro and in silico. (NeuroElectro data) (PubMed) 0.05 ± 0.03 (31) 50.0 (pA) Data Table
Neocortex layer 4 stellate cell Neocortex layer 4 regular spiking spiny stellate cell rheobase mGluR5 in cortical excitatory neurons exerts both cell-autonomous and -nonautonomous influences on cortical somatosensory circuit formation. (NeuroElectro data) (PubMed) 107.1 ± 6.0 (39) 107.1 (pA) Data Table
Neocortex Martinotti cell Somatosensory cortex layer 5 somatostatin expressing Martinotti cell rheobase Impaired excitability of somatostatin- and parvalbumin-expressing cortical interneurons in a mouse model of Dravet syndrome. (NeuroElectro data) (PubMed) 51.9 ± 6.6 (21) 51.9 (pA) Data Table
Neocortex Martinotti cell somatosensory cortex layer 2/3 somatostatin expressing interneuron rheobase Decorrelating action of inhibition in neocortical networks. (NeuroElectro data) (PubMed) 148.4 ± 25.25 (50) 148.4 (pA) Data Table
Neocortex Martinotti cell Barrel Cortex GAD67 expressing, somatostatin-containing Gabaergic interneurons rheobase Distinct subtypes of somatostatin-containing neocortical interneurons revealed in transgenic mice. (NeuroElectro data) (PubMed) 202.0 (58) 202.0 (pA) Data Table
Neocortex Martinotti cell somatosensory cortex layer 4 medial ganglionic eminence-derived somatostatin-expressing interneurons rheobase Satb1 is an activity-modulated transcription factor required for the terminal differentiation and connectivity of medial ganglionic eminence-derived cortical interneurons. (NeuroElectro data) (PubMed) 204.4 ± 23.5 (23) 204.4 (pA) Data Table
Neocortex Martinotti cell Barrel Cortex GAD67 expressing, somatostatin-containing Gabaergic interneurons rheobase Distinct subtypes of somatostatin-containing neocortical interneurons revealed in transgenic mice. (NeuroElectro data) (PubMed) 27.0 (59) 27.0 (pA) Data Table
Neocortex Martinotti cell Prefrontal cortex layer 2-3 Martinotti cells rheobase Interneuron diversity in layers 2-3 of monkey prefrontal cortex. (NeuroElectro data) (PubMed) 24.0 ± 9.0 (14) 24.0 (pA) Data Table
Neocortex Martinotti cell primary auditory cortex layer 2-4 non-fast-spiking inhibitory cell rheobase Spatial profile of excitatory and inhibitory synaptic connectivity in mouse primary auditory cortex. (NeuroElectro data) (PubMed) 0.13 (57) 130.0 (pA) Data Table
Neocortex Martinotti cell Barrel Cortex GAD67 expressing, somatostatin-containing Gabaergic interneurons rheobase Distinct subtypes of somatostatin-containing neocortical interneurons revealed in transgenic mice. (NeuroElectro data) (PubMed) 51.0 (33) 51.0 (pA) Data Table
Neocortex Martinotti cell Frontal cortex layer 5 burst-spiking nonpyramidal GABAergic Venus-expressing somatostatin-positive Martinotti neuron rheobase Quantitative chemical composition of cortical GABAergic neurons revealed in transgenic venus-expressing rats. (NeuroElectro data) (PubMed) 38.0 ± 33.0 (8) 38.0 (pA) Data Table
Neocortex Martinotti cell Insular cortex Layer 5 Gabaergic low thresold spiking VGAT-expressing interneurons rheobase Postsynaptic cell type-dependent cholinergic regulation of GABAergic synaptic transmission in rat insular cortex. (NeuroElectro data) (PubMed) 23.2 ± 4.0 (13) 23.2 (pA) Data Table
Neocortex Martinotti cell medial prefrontal cortex low-threshold spiking interneuron rheobase Cell type-specific effects of adenosine on cortical neurons. (NeuroElectro data) (PubMed) 28.0 ± 9.0 (5) 28.0 (pA) Data Table
Neocortex Martinotti cell Frontal cortex layer 5 regular-spiking nonpyramidal GABAergic Venus-expressing somatostatin-positive Martinotti cell rheobase Quantitative chemical composition of cortical GABAergic neurons revealed in transgenic venus-expressing rats. (NeuroElectro data) (PubMed) 71.0 ± 37.0 (7) 71.0 (pA) Data Table
Neocortex Martinotti cell Auditory cortex low-threshold spiking cell rheobase Age-dependent effect of hearing loss on cortical inhibitory synapse function. (NeuroElectro data) (PubMed) 105.0 ± 15.0 (13) 105.0 (pA) Data Table
Neocortex Martinotti cell Somatosensory cortex layer 2-3 somatostatin-expressing inhibitory neuron rheobase Postnatal maturation of somatostatin-expressing inhibitory cells in the somatosensory cortex of GIN mice. (NeuroElectro data) (PubMed) 14.0 ± 2.0 (16) 14.0 (pA) Data Table
Neocortex Martinotti cell primary auditory cortex layer 2-4 non-fast-spiking somatostatin-positive GFP-expressing Martinotti cell rheobase Spatial profile of excitatory and inhibitory synaptic connectivity in mouse primary auditory cortex. (NeuroElectro data) (PubMed) 0.06 (46) 60.0 (pA) Data Table
Neocortex Martinotti cell somatosensory cortex layer 2/3 low-threshold spiking cell rheobase Spike-timing-dependent plasticity of neocortical excitatory synapses on inhibitory interneurons depends on target cell type. (NeuroElectro data) (PubMed) 43.0 ± 3.0 (30) 43.0 (pA) Data Table
Neocortex Martinotti cell neocortex layer 2/3 low-threshold spiking inhibitory interneuron rheobase Impaired inhibitory control of cortical synchronization in fragile X syndrome. (NeuroElectro data) (PubMed) 16.9 ± 2.4 (16) 16.9 (pA) Data Table
Neocortex Martinotti cell frontal cortex layer 2/3 somatostatin-expressing cell rheobase Dense inhibitory connectivity in neocortex. (NeuroElectro data) (PubMed) 38.54 ± 6.28 (24) 38.54 (pA) Data Table
Neocortex Martinotti cell Somatosensory cortex layer 2-3 somatostatin-expressing inhibitory neuron rheobase Postnatal maturation of somatostatin-expressing inhibitory cells in the somatosensory cortex of GIN mice. (NeuroElectro data) (PubMed) 28.0 ± 5.0 (22) 28.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Somatosensory cortex layer 2-3 regular-spiking pyramidal cell rheobase Postnatal maturation of somatostatin-expressing inhibitory cells in the somatosensory cortex of GIN mice. (NeuroElectro data) (PubMed) 90.0 ± 21.0 (13) 90.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Anterior Cingulate Cortex Layer II/III Pyramidal Neuron rheobase Synaptic organization and input-specific short-term plasticity in anterior cingulate cortical neurons with intact thalamic inputs. (NeuroElectro data) (PubMed) 0.27 ± 0.11 (10) 270.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Somatosensory Cortex Layer 2-3 Low Threshold Pyramidal Cell rheobase Cellular mechanisms for response heterogeneity among L2/3 pyramidal cells in whisker somatosensory cortex. (NeuroElectro data) (PubMed) 254.0 ± 11.0 (35) 254.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Somatosensory cortex layer 2-3 regular-spiking pyramidal cell rheobase Postnatal maturation of somatostatin-expressing inhibitory cells in the somatosensory cortex of GIN mice. (NeuroElectro data) (PubMed) 30.0 ± 4.0 (11) 30.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 dorsal prelimbic medial prefrontal cortex pyramidal neuron rheobase Cocaine self-administration enhances excitatory responses of pyramidal neurons in the rat medial prefrontal cortex to human immunodeficiency virus-1 Tat. (NeuroElectro data) (PubMed) 141.7 ± 17.2 (9) 141.7 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Layer 3 somatosensory barrel column pyramidal neurons rheobase The excitatory neuronal network of the C2 barrel column in mouse primary somatosensory cortex. (NeuroElectro data) (PubMed) 132.0 ± 4.0 132.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Somatosensory Cortex Layer 2-3 High Threshold Pyramidal Cell rheobase Cellular mechanisms for response heterogeneity among L2/3 pyramidal cells in whisker somatosensory cortex. (NeuroElectro data) (PubMed) 273.0 ± 14.0 (34) 273.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 somatosensory cortex layer 2/3 pyramidal cell rheobase Decorrelating action of inhibition in neocortical networks. (NeuroElectro data) (PubMed) 51.1 ± 9.15 (62) 51.1 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Medial Prefrontal Cortex layer 3 broad tufted adapting pyramidal cell rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 115.0 ± 16.0 (4) 115.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Dorsolateral prefrontal cortex layer 2/3 regular spiking low input resistance supragranular pyramidal cells rheobase Electrophysiological classes of layer 2/3 pyramidal cells in monkey prefrontal cortex. (NeuroElectro data) (PubMed) 106.0 ± 8.0 (27) 106.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Layer 2 somatosensory barrel cortex pyramidal neurons rheobase The excitatory neuronal network of the C2 barrel column in mouse primary somatosensory cortex. (NeuroElectro data) (PubMed) 126.0 ± 3.0 126.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 rheobase Functional roles of Kv1 channels in neocortical pyramidal neurons. (NeuroElectro data) (PubMed) 160.0 ± 74.0 160.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Primary somatosensory barrel cortex layer 2/3 non-fast-spiking GABAergic inhibitory neurons rheobase Microcircuits of excitatory and inhibitory neurons in layer 2/3 of mouse barrel cortex. (NeuroElectro data) (PubMed) 85.0 ± 9.0 85.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Somatosensory cortex layer 2-3 pyramidal neurons rheobase Effects of ethanol on rat somatosensory cortical neurons. (NeuroElectro data) (PubMed) 0.56 ± 0.04 (10) 560.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Medial Prefrontal Cortex layer 3 slender tufted burst spiking pyramidal cell rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 120.0 ± 10.0 (7) 120.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Primary visual cortex layer 3 pyramidal aged neurons rheobase Age-related changes to layer 3 pyramidal cells in the rhesus monkey visual cortex. (NeuroElectro data) (PubMed) 89.8 ± 13.2 (26) 89.8 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Dorsolateral prefrontal cortex layer 2/3 regular spiking high input resistance supragranular pyramidal cells rheobase Electrophysiological classes of layer 2/3 pyramidal cells in monkey prefrontal cortex. (NeuroElectro data) (PubMed) 52.0 ± 9.0 (13) 52.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Primary somatosensory barrel cortex layer 2/3 fast-spiking GABAergic inhibitory neurons rheobase Microcircuits of excitatory and inhibitory neurons in layer 2/3 of mouse barrel cortex. (NeuroElectro data) (PubMed) 208.0 ± 17.0 208.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Layer 2/3 frontal cortex corticocortical pyramidal cell projecting to perirhinal cortex rheobase Specialized cortical subnetworks differentially connect frontal cortex to parahippocampal areas. (NeuroElectro data) (PubMed) 263.0 ± 65.0 (58) 263.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Medial Prefrontal Cortex layer 2 pyramidal cell rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 181.0 ± 12.0 (10) 181.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Primary visual cortex layer 3 pyramidal young neurons rheobase Age-related changes to layer 3 pyramidal cells in the rhesus monkey visual cortex. (NeuroElectro data) (PubMed) 87.2 ± 11.5 (30) 87.2 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Dorsolateral prefrontal cortex layer 2/3 intermediate spiking supragranular pyramidal cells rheobase Electrophysiological classes of layer 2/3 pyramidal cells in monkey prefrontal cortex. (NeuroElectro data) (PubMed) 120.0 ± 7.0 (24) 120.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Primary somatosensory barrel cortex layer 2/3 excitatory neurons rheobase Microcircuits of excitatory and inhibitory neurons in layer 2/3 of mouse barrel cortex. (NeuroElectro data) (PubMed) 113.0 ± 7.0 113.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 rheobase Insulin facilitates repetitive spike firing in rat insular cortex via phosphoinositide 3-kinase but not mitogen activated protein kinase cascade. (NeuroElectro data) (PubMed) 0.55 ± 0.06 (19) 550.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Medial Prefrontal Cortex layer 3 slender tufted adapting pyramidal cell rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 93.0 ± 23.0 (3) 93.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Frontal cortex Cg1 superficial layers 2/3 pyramidal neurons rheobase Arc regulates experience-dependent persistent firing patterns in frontal cortex. (NeuroElectro data) (PubMed) 130.0 ± 14.3 (9) 130.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Dorsolateral prefrontal cortex layer 2/3 low threshold spiking supragranular pyramidal cells rheobase Electrophysiological classes of layer 2/3 pyramidal cells in monkey prefrontal cortex. (NeuroElectro data) (PubMed) 60.0 ± 12.0 (13) 60.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Layer 2-3 auditory cortex pyramidal neurons rheobase Maturation of intrinsic and synaptic properties of layer 2/3 pyramidal neurons in mouse auditory cortex. (NeuroElectro data) (PubMed) 0.1 ± 0.06 (66) 100.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 somatosensory cortex layer 2/3 pyramidal neurons rheobase Electrophysiological properties of genetically identified subtypes of layer 5 neocortical pyramidal neurons: Ca²⁺ dependence and differential modulation by norepinephrine. (NeuroElectro data) (PubMed) 246.0 ± 28.0 (25) 246.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Medial Prefrontal Cortex layer 3 broad tufted regular spiking pyramidal cell rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 244.0 ± 11.0 (7) 244.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 dorsal frontal cortex layer 2/3 non-Tbr2 expressing pyramidal cell rheobase Neural precursor lineages specify distinct neocortical pyramidal neuron types. (NeuroElectro data) (PubMed) 205.0 205.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Frontal cortex Cg1 superficial layers 2/3 pyramidal Arc expressing neurons rheobase Arc regulates experience-dependent persistent firing patterns in frontal cortex. (NeuroElectro data) (PubMed) 136.0 ± 16.6 (10) 136.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Insular cortex layer 2-3 pyramidal cells rheobase Insulin facilitates repetitive spike firing in rat insular cortex via phosphoinositide 3-kinase but not mitogen activated protein kinase cascade. (NeuroElectro data) (PubMed) 0.55 ± 0.06 550.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Primary Somatosensory Barrel Cortex Layer 2/3 Pyramidal Neuron rheobase A seizure-induced gain-of-function in BK channels is associated with elevated firing activity in neocortical pyramidal neurons. (NeuroElectro data) (PubMed) 117.1 ± 41.28 117.1 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Layer 2-3 auditory cortex pyramidal neurons rheobase Maturation of intrinsic and synaptic properties of layer 2/3 pyramidal neurons in mouse auditory cortex. (NeuroElectro data) (PubMed) 0.26 ± 0.09 (66) 260.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 medial prefrontal cortex layer II pyramidal regular spiking neuron rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 183.0 ± 43.0 (3) 183.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Layer 2/3 somatosensory cortex pyramidal neurons rheobase Neuromodulation by a cytokine: interferon-beta differentially augments neocortical neuronal activity and excitability. (NeuroElectro data) (PubMed) 206.8 ± 38.4 (21) 206.8 (pA) Data Table
Neocortex pyramidal cell layer 2-3 dorsal frontal cortex layer 2/3 Tbr2 expressing pyramidal cell rheobase Neural precursor lineages specify distinct neocortical pyramidal neuron types. (NeuroElectro data) (PubMed) 141.2 141.2 (pA) Data Table
Neocortex pyramidal cell layer 2-3 medial prefrontal cortex prelimbic area layers 2-3 pyramidal neuron rheobase Strychnine-sensitive glycine receptors on pyramidal neurons in layers II/III of the mouse prefrontal cortex are tonically activated. (NeuroElectro data) (PubMed) 111.0 ± 10.0 (30) 111.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Layer 2-3 auditory cortex pyramidal neurons rheobase Maturation of intrinsic and synaptic properties of layer 2/3 pyramidal neurons in mouse auditory cortex. (NeuroElectro data) (PubMed) 0.07 ± 0.06 (56) 70.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 medial prefrontal cortex layer II pyramidal adapting neuron rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 203.0 ± 26.0 (8) 203.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Dorsolateral Granular Prefrontal Cortex layer 3 pyramidal cell rheobase Influence of highly distinctive structural properties on the excitability of pyramidal neurons in monkey visual and prefrontal cortices. (NeuroElectro data) (PubMed) 130.0 ± 16.0 (25) 130.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 primary auditory cortex layer 2-4 apical pyramidal cell rheobase Spatial profile of excitatory and inhibitory synaptic connectivity in mouse primary auditory cortex. (NeuroElectro data) (PubMed) 0.09 (49) 90.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 somatosensory cortex layer 2/3 pyramidal neuron rheobase Altered dendritic complexity affects firing properties of cortical layer 2/3 pyramidal neurons in mice lacking the 5-HT3A receptor. (NeuroElectro data) (PubMed) 170.95 ± 16.85 (21) 170.95 (pA) Data Table
Neocortex pyramidal cell layer 2-3 medial prefrontal cortex layer II pyramidal intermediate adapting neuron rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 183.0 ± 14.0 (4) 183.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Primary Visual Cortex layer 3 pyramidal cell rheobase Influence of highly distinctive structural properties on the excitability of pyramidal neurons in monkey visual and prefrontal cortices. (NeuroElectro data) (PubMed) 79.4 ± 14.4 (18) 79.4 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Medial prefrontal cortex layer 2-3 prelimbic pyramidal cell rheobase Postnatal day 2 to 11 constitutes a 5-HT-sensitive period impacting adult mPFC function. (NeuroElectro data) (PubMed) 255.0 ± 31.0 (10) 255.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 neocortical layer 2-3 regular spiking pyramidal cells rheobase Myelination defects and neuronal hyperexcitability in the neocortex of connexin 32-deficient mice. (NeuroElectro data) (PubMed) 0.53 ± 0.16 (24) -- Data Table
Neocortex pyramidal cell layer 2-3 dorsolateral prefrontal cortex layer 2/3 GABAergic small pyramidal neuron rheobase Dopamine increases inhibition in the monkey dorsolateral prefrontal cortex through cell type-specific modulation of interneurons. (NeuroElectro data) (PubMed) 109.5 ± 17.0 109.5 (pA) Data Table
Neocortex pyramidal cell layer 2-3 Medial prefrontal cortex layer 2-3 infralimbic pyramidal cell rheobase Postnatal day 2 to 11 constitutes a 5-HT-sensitive period impacting adult mPFC function. (NeuroElectro data) (PubMed) 134.0 ± 26.0 (13) 134.0 (pA) Data Table
Neocortex pyramidal cell layer 2-3 rheobase Sensory experience alters cortical connectivity and synaptic function site specifically. (NeuroElectro data) (PubMed) 300.0 300.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 barrel cortex layer 6a corticocortical pyramidal neuron with infragranular arborization axons rheobase Inter- and intralaminar subcircuits of excitatory and inhibitory neurons in layer 6a of the rat barrel cortex. (NeuroElectro data) (PubMed) 133.4 ± 56.5 (38) 133.4 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Medial Prefrontal Cortex layer 5 broad tufted regular spiking pyramidal cell rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 179.0 ± 10.0 (18) 179.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 primary somatosensory cortex layer 5 pyramidal neurons rheobase Early postnatal plasticity in neocortex of Fmr1 knockout mice. (NeuroElectro data) (PubMed) 61.0 ± 6.0 61.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 medial prefrontal cortex layer V broad tufted pyramidal regular spiking neuron rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 179.0 ± 10.0 (18) 179.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Primary motor cortex layer 5b corticostriatal pyramidal neuron rheobase Intrinsic electrophysiology of mouse corticospinal neurons: a class-specific triad of spike-related properties. (NeuroElectro data) (PubMed) 182.0 ± 73.0 (10) 182.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Visual cortex layer 5a corticostriatal Etv1-expressing slender-tufted pyramidal cell rheobase Cell-type specific properties of pyramidal neurons in neocortex underlying a layout that is modifiable depending on the cortical area. (NeuroElectro data) (PubMed) 131.0 ± 73.0 131.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Medial Prefrontal Cortex layer 5 slender tufted low input resistance adapting pyramidal cell rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 123.0 ± 7.0 (30) 123.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 medial frontal cortex layer 5-6 pyramidal cell rheobase Development of GABA circuitry of fast-spiking basket interneurons in the medial prefrontal cortex of erbb4-mutant mice. (NeuroElectro data) (PubMed) 282.14 ± 15.32 (8) 282.14 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Anterior cingulate cortex pyramidal neuron receiving inputs from thalamus rheobase Synaptic organization and input-specific short-term plasticity in anterior cingulate cortical neurons with intact thalamic inputs. (NeuroElectro data) (PubMed) 0.3 ± 0.05 (21) 300.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 medial prefrontal cortex layer VI pyramidal neuron projecting to layer I rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 78.0 ± 22.0 (5) -- Data Table
Neocortex pyramidal cell layer 5-6 Barrel cortex layer 5b corticopontine Glt25d2-expressing thick-tufted pyramidal cell rheobase Cell-type specific properties of pyramidal neurons in neocortex underlying a layout that is modifiable depending on the cortical area. (NeuroElectro data) (PubMed) 158.0 ± 11.0 158.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Primary motor cortex layer 5b corticospinal thick-tufted large pyramidal neuron rheobase Intrinsic electrophysiology of mouse corticospinal neurons: a class-specific triad of spike-related properties. (NeuroElectro data) (PubMed) 330.0 ± 76.0 (9) 330.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Somatosensory cortex layer 5 pyramidal cell rheobase Impaired excitability of somatostatin- and parvalbumin-expressing cortical interneurons in a mouse model of Dravet syndrome. (NeuroElectro data) (PubMed) 98.6 ± 5.5 (35) 98.6 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Medial Prefrontal Cortex Layer V/VI Pyramidal Cell rheobase Sleep loss alters synaptic and intrinsic neuronal properties in mouse prefrontal cortex. (NeuroElectro data) (PubMed) 101.14 ± 5.06 (22) 101.14 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Somatosensory cortex layer 5 pyramidal neurons rheobase Effects of ethanol on rat somatosensory cortical neurons. (NeuroElectro data) (PubMed) 0.41 ± 0.04 (20) 410.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 medial prefrontal cortex layer IV pyramidal neuron rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 60.0 ± 10.0 (3) -- Data Table
Neocortex pyramidal cell layer 5-6 Temporoparietal Cortex Layer 5 Pyramidal Cell rheobase Increased excitability and inward rectification in layer V cortical pyramidal neurons in the epileptic mutant mouse Stargazer. (NeuroElectro data) (PubMed) 80.0 ± 17.0 (10) 80.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Barrel cortex layer 5a corticostriatal Etv1-expressing slender-tufted pyramidal cell rheobase Cell-type specific properties of pyramidal neurons in neocortex underlying a layout that is modifiable depending on the cortical area. (NeuroElectro data) (PubMed) 158.0 ± 9.0 158.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Primary motor cortex layer 5b corticospinal thick-tufted large pyramidal neuron rheobase Intrinsic electrophysiology of mouse corticospinal neurons: a class-specific triad of spike-related properties. (NeuroElectro data) (PubMed) 361.0 ± 87.0 (10) 361.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 medial prefrontal cortex layer VI pyramidal neuron projecting to layers III - VI rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 125.0 ± 23.0 (5) -- Data Table
Neocortex pyramidal cell layer 5-6 Layer 5a somatosensory cortex barrel column small tuft pyramidal neurons rheobase The excitatory neuronal network of the C2 barrel column in mouse primary somatosensory cortex. (NeuroElectro data) (PubMed) 68.0 ± 2.0 68.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 prefrontal cortex layer 5 pyramidal neuron rheobase Short-term sleep deprivation increases intrinsic excitability of prefrontal cortical neurons. (NeuroElectro data) (PubMed) 49.64 ± 4.37 (19) 49.64 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Secondary somatosensory cortex layer 5b corticospinal thick-tufted large pyramidal neuron rheobase Intrinsic electrophysiology of mouse corticospinal neurons: a class-specific triad of spike-related properties. (NeuroElectro data) (PubMed) 286.0 ± 57.0 (7) 286.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 rheobase Protein-kinase C-dependent phosphorylation inhibits the effect of the antiepileptic drug topiramate on the persistent fraction of sodium currents. (NeuroElectro data) (PubMed) 0.19 ± 0.04 (5) 190.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Prefrontal cortex layer 5-6 pyramidal neuron rheobase Stimulation of D1-type dopamine receptors enhances excitability in prefrontal cortical pyramidal neurons in a state-dependent manner. (NeuroElectro data) (PubMed) 50.0 ± 38.0 50.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 somatosensory cortex layer 5b pyramidal cell rheobase Early exposure to alcohol leads to permanent impairment of dendritic excitability in neocortical pyramidal neurons. (NeuroElectro data) (PubMed) 726.32 ± 43.15 (19) 726.32 (pA) Data Table
Neocortex pyramidal cell layer 5-6 medial prefrontal cortex layer VI pyramidal neuron projecting to layers III - VI rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 65.0 ± 5.0 (5) -- Data Table
Neocortex pyramidal cell layer 5-6 Layer 5b somatosensory cortex barrel column extensive tuft pyramidal neurons rheobase The excitatory neuronal network of the C2 barrel column in mouse primary somatosensory cortex. (NeuroElectro data) (PubMed) 98.0 ± 3.0 98.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Layer 5a frontal cortex corticocortical pyramidal cell projecting to perirhinal cortex rheobase Specialized cortical subnetworks differentially connect frontal cortex to parahippocampal areas. (NeuroElectro data) (PubMed) 148.0 ± 36.0 (53) 148.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 rheobase Control over stress, but not stress per se increases prefrontal cortical pyramidal neuron excitability. (NeuroElectro data) (PubMed) 766.0 ± 63.0 (10) 766.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 barrel cortex layer 5 pyramidal neuron rheobase Loss of sensory input increases the intrinsic excitability of layer 5 pyramidal neurons in rat barrel cortex. (NeuroElectro data) (PubMed) 266.0 ± 15.0 (51) 266.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Primary motor cortex layer 5 pyramidal cell rheobase Oxidative stress induced by cumene hydroperoxide evokes changes in neuronal excitability of rat motor cortex neurons. (NeuroElectro data) (PubMed) 176.5 ± 22.4 (30) 176.5 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Infralimbic Medial Prefrontal Cortex Layer V Regular Spiking Pyramidal Neuron Projecting to the Basolateral Complex of Amygdala rheobase Trace Fear Conditioning Differentially Modulates Intrinsic Excitability of Medial Prefrontal Cortex-Basolateral Complex of Amygdala Projection Neurons in Infralimbic and Prelimbic Cortices. (NeuroElectro data) (PubMed) 147.0 ± 12.0 (20) 147.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Layer 6 somatosensory cortex barrel column short pyramidal neurons rheobase The excitatory neuronal network of the C2 barrel column in mouse primary somatosensory cortex. (NeuroElectro data) (PubMed) 76.0 ± 3.0 76.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Layer 5 frontal cortex pyramidal corticothalamic projecting cell rheobase Specialized cortical subnetworks differentially connect frontal cortex to parahippocampal areas. (NeuroElectro data) (PubMed) 212.0 ± 54.0 (53) 212.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Medial Prefrontal Cortex layer 5 slender tufted high input resistance adapting pyramidal cell rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 67.0 ± 4.0 (11) 67.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 medial prefrontal cortex prelimbic area layers 5-6 pyramidal neuron rheobase Strychnine-sensitive glycine receptors on pyramidal neurons in layers II/III of the mouse prefrontal cortex are tonically activated. (NeuroElectro data) (PubMed) 155.0 ± 14.0 (30) 155.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Somatosensory cortex layer 5b Glt25d2-expressing thick-tufted pyramidal neurons rheobase Electrophysiological properties of genetically identified subtypes of layer 5 neocortical pyramidal neurons: Ca²⁺ dependence and differential modulation by norepinephrine. (NeuroElectro data) (PubMed) 97.0 ± 8.0 (62) 97.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Prelimbic Medial Prefrontal Cortex Layer V Regular Spiking Pyramidal Neuron Projecting to the Basolateral Complex of Amygdala rheobase Trace Fear Conditioning Differentially Modulates Intrinsic Excitability of Medial Prefrontal Cortex-Basolateral Complex of Amygdala Projection Neurons in Infralimbic and Prelimbic Cortices. (NeuroElectro data) (PubMed) 135.0 ± 14.0 (12) 135.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Medial Prefrontal Cortex layer 6 tall apical dendrite pyramidal cell receiving input from neocortex pyramidal cell layer 1 rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 78.0 ± 22.0 (4) 78.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 somatosensory cortex layer 5 pyramidal GABAergic neurons rheobase The GABAB1b isoform mediates long-lasting inhibition of dendritic Ca2+ spikes in layer 5 somatosensory pyramidal neurons. (NeuroElectro data) (PubMed) 339.6 ± 15.7 (48) 339.6 (pA) Data Table
Neocortex pyramidal cell layer 5-6 somatosensory cortex layer 5a corticostriatal Etv1-expressing slender-tufted pyramidal neurons rheobase Electrophysiological properties of genetically identified subtypes of layer 5 neocortical pyramidal neurons: Ca²⁺ dependence and differential modulation by norepinephrine. (NeuroElectro data) (PubMed) 172.0 ± 12.0 (76) 172.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Layer 5 somatosensory pyramidal neurons rheobase Neuromodulation by a cytokine: interferon-beta differentially augments neocortical neuronal activity and excitability. (NeuroElectro data) (PubMed) 254.0 ± 48.7 (23) 254.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Prelimbic Medial Prefrontal Cortex Layer V Burst-Spiking Pyramidal Neuron Projecting to Basolateral Complex of Amygdala rheobase Trace Fear Conditioning Differentially Modulates Intrinsic Excitability of Medial Prefrontal Cortex-Basolateral Complex of Amygdala Projection Neurons in Infralimbic and Prelimbic Cortices. (NeuroElectro data) (PubMed) 116.0 ± 6.0 (5) 116.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 primary motor cortex layer 5 corticospinal thick tufted pyramidal cell rheobase Region-specific spike-frequency acceleration in layer 5 pyramidal neurons mediated by Kv1 subunits. (NeuroElectro data) (PubMed) 367.0 (8) 367.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Medial Prefrontal Cortex layers 5-6 wide apical dendrite pyramidal cell rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 53.0 ± 6.0 (4) 53.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Infralimbic prefrontal cortex layer V pyramidal neurons rheobase Fear extinction induces mGluR5-mediated synaptic and intrinsic plasticity in infralimbic neurons. (NeuroElectro data) (PubMed) 105.0 ± 9.0 105.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Layer 5 somatosensory barrel cortex pyramidal neurons rheobase Effect of common anesthetics on dendritic properties in layer 5 neocortical pyramidal neurons. (NeuroElectro data) (PubMed) 353.37 ± 19.35 (42) 353.37 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Somatosensory cortex pyramidal neuron layer 5 rheobase Environmental manipulations early in development alter seizure activity, Ih and HCN1 protein expression later in life. (NeuroElectro data) (PubMed) 38.2 ± 5.24 (23) 38.2 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Somatosensory cortex layer V Satb2 expressing Ctip2 expressing double-firing thick-tufted pyramidal neuron rheobase Area-specific development of distinct projection neuron subclasses is regulated by postnatal epigenetic modifications. (NeuroElectro data) (PubMed) 0.39 ± 0.04 (9) -- Data Table
Neocortex pyramidal cell layer 5-6 Layer 6 somatosensory cortex pyramidal neurons rheobase Properties of layer 6 pyramidal neuron apical dendrites. (NeuroElectro data) (PubMed) 184.21 ± 12.9 (19) 184.21 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Medial Prefrontal Cortex layer 6 short apical dendrite pyramidal cell receiving input from Neocortex pyramidal cell layers 3-6 rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 125.0 ± 23.0 (4) 125.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Anterior Cingulate Cortex Layer VI Pyramidal Neuron rheobase Synaptic organization and input-specific short-term plasticity in anterior cingulate cortical neurons with intact thalamic inputs. (NeuroElectro data) (PubMed) 0.25 ± 0.06 (4) 250.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 medial prefrontal cortex layer V slender tufted pyramidal high-resistance adapting neuron rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 66.0 ± 4.0 (13) 66.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Somatosensory cortex layer V Ctip2 expressing Satb2 expressing single-firing thick-tufted pyramidal neuron rheobase Area-specific development of distinct projection neuron subclasses is regulated by postnatal epigenetic modifications. (NeuroElectro data) (PubMed) 0.3 ± 0.02 (9) -- Data Table
Neocortex pyramidal cell layer 5-6 neocortex layer 5 large pyramidal cell rheobase Maturation of "neocortex isole" in vivo in mice. (NeuroElectro data) (PubMed) 90.9 ± 9.1 (20) 90.9 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Layer 6a barrel cortex pyramidal corticothalamic neuron with large terminal arbors rheobase Inter- and intralaminar subcircuits of excitatory and inhibitory neurons in layer 6a of the rat barrel cortex. (NeuroElectro data) (PubMed) 195.6 ± 79.8 (34) 195.6 (pA) Data Table
Neocortex pyramidal cell layer 5-6 primary somatosensory cortex layer 5 pyramidal cell rheobase Impaired action potential initiation in GABAergic interneurons causes hyperexcitable networks in an epileptic mouse model carrying a human Na(V)1.1 mutation. (NeuroElectro data) (PubMed) 107.8 ± 9.9 (17) 107.8 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Medial Prefrontal Cortex layer 6 small apical dendrite pyramidal cell receiving input from Neocortex pyramidal cell layers 3-6 rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 65.0 ± 5.0 (2) 65.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Anterior Cingulate Cortex Layer V Pyramidal Neuron rheobase Synaptic organization and input-specific short-term plasticity in anterior cingulate cortical neurons with intact thalamic inputs. (NeuroElectro data) (PubMed) 0.39 ± 0.08 (20) 390.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 medial prefrontal cortex layer V slender tufted pyramidal low-resistance adapting neuron rheobase Morphological and physiological characterization of pyramidal neuron subtypes in rat medial prefrontal cortex. (NeuroElectro data) (PubMed) 124.0 ± 7.0 (27) 124.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Somatosensory cortex layer V Ctip2 expressing single-firing thick-tufted pyramidal neuron rheobase Area-specific development of distinct projection neuron subclasses is regulated by postnatal epigenetic modifications. (NeuroElectro data) (PubMed) 0.26 ± 0.04 (7) -- Data Table
Neocortex pyramidal cell layer 5-6 Prefrontal Cortex Layer 5 Pyramidal Neurons rheobase Modulation of neuronal excitability by serotonin-NMDA interactions in prefrontal cortex. (NeuroElectro data) (PubMed) 121.7 ± 5.6 (6) 121.7 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Visual cortex layer 5b corticopontine Glt25d2-expressing thick-tufted pyramidal cell rheobase Cell-type specific properties of pyramidal neurons in neocortex underlying a layout that is modifiable depending on the cortical area. (NeuroElectro data) (PubMed) 103.0 ± 16.0 103.0 (pA) Data Table
Neocortex pyramidal cell layer 5-6 Primary motor cortex layer 5b corticospinal thick-tufted large pyramidal neuron rheobase Intrinsic electrophysiology of mouse corticospinal neurons: a class-specific triad of spike-related properties. (NeuroElectro data) (PubMed) 341.0 ± 86.0 (23) 341.0 (pA) Data Table
Neocortex uncharacterized cell medial prefrontal cortex infralimbic layer II,III, and V pyramidal neurons rheobase Spontaneous recovery of fear reverses extinction-induced excitability of infralimbic neurons. (NeuroElectro data) (PubMed) 94.0 ± 12.0 (15) 94.0 (pA) Data Table
Neocortex uncharacterized cell Layer 2-3 and 5 medial prefrontal cortex prelimibic and infralimbic pyramidal neurons rheobase Fear conditioning and extinction differentially modify the intrinsic excitability of infralimbic neurons. (NeuroElectro data) (PubMed) 103.0 ± 10.0 (31) 103.0 (pA) Data Table
Neocortex uncharacterized cell rheobase Fear conditioning and extinction differentially modify the intrinsic excitability of infralimbic neurons. (NeuroElectro data) (PubMed) 102.0 ± 8.5 102.0 (pA) Data Table
Neocortex uncharacterized cell Insular cortex Layer 5 Gabaergic late spiking VGAT-expressing interneurons rheobase Postsynaptic cell type-dependent cholinergic regulation of GABAergic synaptic transmission in rat insular cortex. (NeuroElectro data) (PubMed) 78.1 ± 11.0 (16) 78.1 (pA) Data Table
Neocortex uncharacterized cell Barrel cortex layer 1 vasoactive intestinal polypeptide expressing neurons rheobase Characterizing VIP Neurons in the Barrel Cortex of VIPcre/tdTomato Mice Reveals Layer-Specific Differences. (NeuroElectro data) (PubMed) 9.9 (1) 9.9 (pA) Data Table
Neocortex uncharacterized cell Frontal cortex layer 2-3 and layer 5 α-actinin-2–positive late-spiking Venus-expressing GABAergic neurogliaform cell rheobase Quantitative chemical composition of cortical GABAergic neurons revealed in transgenic venus-expressing rats. (NeuroElectro data) (PubMed) 178.0 ± 39.0 (6) 178.0 (pA) Data Table
Neocortex uncharacterized cell Insular cortex Layer 5 Gabaergic regular spiking VGAT-expressing interneurons rheobase Postsynaptic cell type-dependent cholinergic regulation of GABAergic synaptic transmission in rat insular cortex. (NeuroElectro data) (PubMed) 81.5 ± 21.0 (10) 81.5 (pA) Data Table
Neocortex uncharacterized cell Barrel cortex layer 5b vasoactive intestinal polypeptide expressing neurons rheobase Characterizing VIP Neurons in the Barrel Cortex of VIPcre/tdTomato Mice Reveals Layer-Specific Differences. (NeuroElectro data) (PubMed) 53.6 ± 36.7 (9) 53.6 (pA) Data Table
Neocortex uncharacterized cell Barrel cortex layer 5a vasoactive intestinal polypeptide expressing neurons rheobase Characterizing VIP Neurons in the Barrel Cortex of VIPcre/tdTomato Mice Reveals Layer-Specific Differences. (NeuroElectro data) (PubMed) 71.2 ± 26.8 (7) 71.2 (pA) Data Table
Neocortex uncharacterized cell Barrel cortex layer 4 vasoactive intestinal polypeptide expressing neurons rheobase Characterizing VIP Neurons in the Barrel Cortex of VIPcre/tdTomato Mice Reveals Layer-Specific Differences. (NeuroElectro data) (PubMed) 53.2 ± 33.5 (7) 53.2 (pA) Data Table
Neocortex uncharacterized cell Barrel cortex layer 2/3 vasoactive intestinal polypeptide expressing neurons rheobase Characterizing VIP Neurons in the Barrel Cortex of VIPcre/tdTomato Mice Reveals Layer-Specific Differences. (NeuroElectro data) (PubMed) 58.5 ± 35.8 (34) 58.5 (pA) Data Table
Neocortex uncharacterized cell Barrel cortex layer 6 vasoactive intestinal polypeptide expressing neurons rheobase Characterizing VIP Neurons in the Barrel Cortex of VIPcre/tdTomato Mice Reveals Layer-Specific Differences. (NeuroElectro data) (PubMed) 34.8 ± 20.7 (11) 34.8 (pA) Data Table
Neostriatum cholinergic cell rheobase Enhanced high-frequency membrane potential fluctuations control spike output in striatal fast-spiking interneurones in vivo. (NeuroElectro data) (PubMed) 0.09 ± 0.17 (12) 90.0 (pA) Data Table
Neostriatum cholinergic cell rheobase Cell-specific spike-timing-dependent plasticity in GABAergic and cholinergic interneurons in corticostriatal rat brain slices. (NeuroElectro data) (PubMed) 40.1 ± 3.1 (65) 40.1 (pA) Data Table
Neostriatum gabaergic interneuron Neostriatum tonically active interneuron rheobase Acetylcholine encodes long-lasting presynaptic plasticity at glutamatergic synapses in the dorsal striatum after repeated amphetamine exposure. (NeuroElectro data) (PubMed) 107.0 ± 18.0 (50) 107.0 (pA) Data Table
Neostriatum gabaergic interneuron Neostraitum fast-spiking gabaergic interneuron rheobase Functional and molecular development of striatal fast-spiking GABAergic interneurons and their cortical inputs. (NeuroElectro data) (PubMed) 236.36 ± 62.19 (11) 236.36 (pA) Data Table
Neostriatum gabaergic interneuron Neostraitum fast-spiking gabaergic interneuron rheobase Functional and molecular development of striatal fast-spiking GABAergic interneurons and their cortical inputs. (NeuroElectro data) (PubMed) 200.0 ± 21.08 (10) 200.0 (pA) Data Table
Neostriatum gabaergic interneuron rheobase Cell-specific spike-timing-dependent plasticity in GABAergic and cholinergic interneurons in corticostriatal rat brain slices. (NeuroElectro data) (PubMed) 161.9 ± 9.0 (45) 161.9 (pA) Data Table
Neostriatum gabaergic interneuron striatum GABAergic fast-spiking interneuron rheobase Enhanced high-frequency membrane potential fluctuations control spike output in striatal fast-spiking interneurones in vivo. (NeuroElectro data) (PubMed) 0.89 ± 0.32 (9) 890.0 (pA) Data Table
Neostriatum gabaergic interneuron Neostriatum persistent low-threshold spike interneurons rheobase Acetylcholine encodes long-lasting presynaptic plasticity at glutamatergic synapses in the dorsal striatum after repeated amphetamine exposure. (NeuroElectro data) (PubMed) 25.0 ± 4.0 (14) 25.0 (pA) Data Table
Neostriatum medium spiny neuron rheobase Differences in striatal spiny neuron action potentials between the spontaneously hypertensive and Wistar-Kyoto rat strains. (NeuroElectro data) (PubMed) 0.72 (24) 720.0 (pA) Data Table
Neostriatum medium spiny neuron rheobase Enhanced high-frequency membrane potential fluctuations control spike output in striatal fast-spiking interneurones in vivo. (NeuroElectro data) (PubMed) 0.93 ± 0.31 (90) 930.0 (pA) Data Table
Neostriatum medium spiny neuron rheobase Acetylcholine encodes long-lasting presynaptic plasticity at glutamatergic synapses in the dorsal striatum after repeated amphetamine exposure. (NeuroElectro data) (PubMed) 368.0 ± 29.0 (14) 368.0 (pA) Data Table
Neostriatum medium spiny neuron rheobase Tonic mGluR5/CB1-dependent suppression of inhibition as a pathophysiological hallmark in the striatum of mice carrying a mutant form of huntingtin. (NeuroElectro data) (PubMed) 189.6 189.6 (pA) Data Table
Neostriatum medium spiny neuron Neostriatum medium-sized spiny projection neurons rheobase Functional and molecular development of striatal fast-spiking GABAergic interneurons and their cortical inputs. (NeuroElectro data) (PubMed) 200.0 ± 33.03 (10) 200.0 (pA) Data Table
Neostriatum medium spiny neuron Neostriatum medium-sized spiny projection neurons rheobase Functional and molecular development of striatal fast-spiking GABAergic interneurons and their cortical inputs. (NeuroElectro data) (PubMed) 175.0 ± 25.0 (12) 175.0 (pA) Data Table
Neostriatum medium spiny neuron dorsolateral striatum spiny projection neuron rheobase Dopamine receptor activation is required for corticostriatal spike-timing-dependent plasticity. (NeuroElectro data) (PubMed) 265.0 ± 16.0 (74) 265.0 (pA) Data Table
Neostriatum medium spiny neuron Striatum Drd1-expressing striatonigral direct pathway medium spiny neuron rheobase Membrane properties of striatal direct and indirect pathway neurons in mouse and rat slices and their modulation by dopamine. (NeuroElectro data) (PubMed) 191.42 191.42 (pA) Data Table
Neostriatum medium spiny neuron rheobase Electrophysiological and morphological changes in striatal spiny neurons in R6/2 Huntington's disease transgenic mice. (NeuroElectro data) (PubMed) 0.7 ± 0.07 (7) 700.0 (pA) Data Table
Neostriatum medium spiny neuron Striatum Drd2-expressing striatopallidal indirect pathway medium spiny neuron rheobase Membrane properties of striatal direct and indirect pathway neurons in mouse and rat slices and their modulation by dopamine. (NeuroElectro data) (PubMed) 139.1 139.1 (pA) Data Table
Neostriatum medium spiny neuron rheobase Electrophysiological and morphological changes in striatal spiny neurons in R6/2 Huntington's disease transgenic mice. (NeuroElectro data) (PubMed) 0.51 ± 0.04 (12) 510.0 (pA) Data Table
Neostriatum medium spiny neuron rheobase Cell-specific spike-timing-dependent plasticity in GABAergic and cholinergic interneurons in corticostriatal rat brain slices. (NeuroElectro data) (PubMed) 163.6 ± 8.8 (50) 163.6 (pA) Data Table
Neostriatum medium spiny neuron Striatum Drd2-expressing medium spiny neuron rheobase Membrane properties of striatal direct and indirect pathway neurons in mouse and rat slices and their modulation by dopamine. (NeuroElectro data) (PubMed) 268.74 268.74 (pA) Data Table
Neostriatum medium spiny neuron Neostriatum Drd2-expressing medium spiny neuron rheobase Dichotomous anatomical properties of adult striatal medium spiny neurons. (NeuroElectro data) (PubMed) 130.0 (31) 130.0 (pA) Data Table
Neostriatum medium spiny neuron rheobase Intrinsic excitability varies by sex in prepubertal striatal medium spiny neurons. (NeuroElectro data) (PubMed) 0.04 ± 0.008 (33) 40.0 (pA) Data Table
Neostriatum medium spiny neuron Striatum Drd1a-expressing medium spiny neuron rheobase Membrane properties of striatal direct and indirect pathway neurons in mouse and rat slices and their modulation by dopamine. (NeuroElectro data) (PubMed) 355.39 355.39 (pA) Data Table
Neostriatum medium spiny neuron Neostriatum Drd1-expressing medium spiny neuron rheobase Dichotomous anatomical properties of adult striatal medium spiny neurons. (NeuroElectro data) (PubMed) 270.0 (35) 270.0 (pA) Data Table
Neostriatum medium spiny neuron rheobase Intrinsic excitability varies by sex in prepubertal striatal medium spiny neurons. (NeuroElectro data) (PubMed) 0.025 ± 0.004 (30) 25.0 (pA) Data Table
Neostriatum medium spiny neuron rheobase Modulatory actions of dopamine on NMDA receptor-mediated responses are reduced in D1A-deficient mutant mice. (NeuroElectro data) (PubMed) 0.58 ± 0.05 (29) 580.0 (pA) Data Table
Nucleus accumbens core neuron rheobase Selective disruption of nucleus accumbens gating mechanisms in rats behaviorally sensitized to methamphetamine. (NeuroElectro data) (PubMed) 0.36 ± 0.11 (8) 360.0 (pA) Data Table
Nucleus accumbens core neuron rheobase Similar neurons, opposite adaptations: psychostimulant experience differentially alters firing properties in accumbens core versus shell. (NeuroElectro data) (PubMed) 137.5 ± 10.0 (16) 137.5 (pA) Data Table
Nucleus accumbens medium spiny neuron rheobase Repeated cocaine administration suppresses HVA-Ca2+ potentials and enhances activity of K+ channels in rat nucleus accumbens neurons. (NeuroElectro data) (PubMed) 0.6 ± 0.1 600.0 (pA) Data Table
Nucleus accumbens medium spiny neuron rheobase Whole-cell plasticity in cocaine withdrawal: reduced sodium currents in nucleus accumbens neurons. (NeuroElectro data) (PubMed) 0.65 ± 0.03 (36) 650.0 (pA) Data Table
Nucleus accumbens medium spiny neuron rheobase Repeated cocaine administration suppresses HVA-Ca2+ potentials and enhances activity of K+ channels in rat nucleus accumbens neurons. (NeuroElectro data) (PubMed) 0.9 ± 0.1 900.0 (pA) Data Table
Nucleus accumbens medium spiny neuron rheobase Cdk5 modulates cocaine reward, motivation, and striatal neuron excitability. (NeuroElectro data) (PubMed) 158.3 ± 4.2 (7) -- Data Table
Nucleus accumbens medium spiny neuron Nucleus accumbens medium spiny neuron projecting to adjacent medium spiny neurons rheobase D(2)-like dopamine receptors differentially regulate unitary IPSCs depending on presynaptic GABAergic neuron subtypes in rat nucleus accumbens shell. (NeuroElectro data) (PubMed) 118.0 ± 6.1 (97) 118.0 (pA) Data Table
Nucleus accumbens medium spiny neuron rheobase Fos regulates neuronal activity in the nucleus accumbens. (NeuroElectro data) (PubMed) 0.29 ± 0.04 (10) 290.0 (pA) Data Table
Nucleus accumbens medium spiny neuron rheobase Repeated cocaine administration suppresses HVA-Ca2+ potentials and enhances activity of K+ channels in rat nucleus accumbens neurons. (NeuroElectro data) (PubMed) 0.9 ± 0.2 900.0 (pA) Data Table
Nucleus accumbens shell neuron rheobase Exposure to cocaine dynamically regulates the intrinsic membrane excitability of nucleus accumbens neurons. (NeuroElectro data) (PubMed) 111.0 ± 11.0 (9) 111.0 (pA) Data Table
Nucleus accumbens shell neuron rheobase Exposure to cocaine dynamically regulates the intrinsic membrane excitability of nucleus accumbens neurons. (NeuroElectro data) (PubMed) 120.0 ± 15.0 120.0 (pA) Data Table
Nucleus accumbens shell neuron rheobase Exposure to cocaine dynamically regulates the intrinsic membrane excitability of nucleus accumbens neurons. (NeuroElectro data) (PubMed) 133.0 ± 11.0 133.0 (pA) Data Table
Nucleus accumbens shell neuron rheobase Selective disruption of nucleus accumbens gating mechanisms in rats behaviorally sensitized to methamphetamine. (NeuroElectro data) (PubMed) 0.25 ± 0.13 (5) 250.0 (pA) Data Table
Nucleus accumbens shell neuron rheobase Similar neurons, opposite adaptations: psychostimulant experience differentially alters firing properties in accumbens core versus shell. (NeuroElectro data) (PubMed) 124.0 ± 5.8 (10) 124.0 (pA) Data Table
Nucleus accumbens shell neuron Nucleus Accumbens fast-spiking parvalbumin-expressing GABAergic neuron projecting to medium spiny neurons. rheobase D(2)-like dopamine receptors differentially regulate unitary IPSCs depending on presynaptic GABAergic neuron subtypes in rat nucleus accumbens shell. (NeuroElectro data) (PubMed) 185.2 ± 19.8 (24) 185.2 (pA) Data Table
Nucleus of the solitary tract intrinsic cell rheobase H₂O₂ induces delayed hyperexcitability in nucleus tractus solitarii neurons. (NeuroElectro data) (PubMed) 66.55 ± 13.55 (23) 66.55 (pA) Data Table
Nucleus of the solitary tract intrinsic cell Nucleus Tractus Solitarius Neurons rheobase Prostaglandin E2 depresses solitary tract-mediated synaptic transmission in the nucleus tractus solitarius. (NeuroElectro data) (PubMed) 44.0 ± 15.0 (10) 44.0 (pA) Data Table
Oculomotor nucleus motor neuron oculomotor nucleus predicted fast firing motor neuron rheobase Homeostatic dysregulation in membrane properties of masticatory motoneurons compared with oculomotor neurons in a mouse model for amyotrophic lateral sclerosis. (NeuroElectro data) (PubMed) 400.0 ± 27.0 (11) 400.0 (pA) Data Table
Oculomotor nucleus motor neuron oculomotor nucleus predicted slow firing motor neuron rheobase Homeostatic dysregulation in membrane properties of masticatory motoneurons compared with oculomotor neurons in a mouse model for amyotrophic lateral sclerosis. (NeuroElectro data) (PubMed) 162.0 ± 17.3 (10) 162.0 (pA) Data Table
Oculomotor nucleus motor neuron rheobase Temporal sequence of changes in electrophysiological properties of oculomotor motoneurons during postnatal development. (NeuroElectro data) (PubMed) 0.29 ± 0.05 (28) 290.0 (pA) Data Table
Oculomotor nucleus motor neuron rheobase Temporal sequence of changes in electrophysiological properties of oculomotor motoneurons during postnatal development. (NeuroElectro data) (PubMed) 0.2 ± 0.04 (27) 200.0 (pA) Data Table
Oculomotor nucleus motor neuron rheobase Temporal sequence of changes in electrophysiological properties of oculomotor motoneurons during postnatal development. (NeuroElectro data) (PubMed) 0.18 ± 0.04 (29) 180.0 (pA) Data Table
Oculomotor nucleus motor neuron rheobase Temporal sequence of changes in electrophysiological properties of oculomotor motoneurons during postnatal development. (NeuroElectro data) (PubMed) 0.11 ± 0.02 (26) 110.0 (pA) Data Table
Oculomotor nucleus motor neuron rheobase Temporal sequence of changes in electrophysiological properties of oculomotor motoneurons during postnatal development. (NeuroElectro data) (PubMed) 0.15 ± 0.03 (24) 150.0 (pA) Data Table
Olfactory bulb (main) Blanes cell Olfactory bulb (main) deep short-axon inhibitory cell rheobase Rapid Feedforward Inhibition and Asynchronous Excitation Regulate Granule Cell Activity in the Mammalian Main Olfactory Bulb. (NeuroElectro data) (PubMed) 42.8 ± 24.6 (9) 42.8 (pA) Data Table
Olfactory bulb (main) granule cell rheobase Rapid Feedforward Inhibition and Asynchronous Excitation Regulate Granule Cell Activity in the Mammalian Main Olfactory Bulb. (NeuroElectro data) (PubMed) 37.1 ± 21.2 (31) 37.1 (pA) Data Table
Olfactory cortex horizontal cell Anterior Piriform cortex multipolar/horizontal/vertical adapting low frequency interneuron rheobase The loss of interneuron functional diversity in the piriform cortex after induction of experimental epilepsy. (NeuroElectro data) (PubMed) 138.0 ± 7.6 (71) 138.0 (pA) Data Table
Olfactory cortex horizontal cell Anterior Piriform cortex multipolar/horizontal weakly adapting low frequency cell rheobase The loss of interneuron functional diversity in the piriform cortex after induction of experimental epilepsy. (NeuroElectro data) (PubMed) 182.6 ± 10.0 (66) 182.6 (pA) Data Table
Olfactory cortex horizontal cell Anterior Piriform cortex multipolar/horizontal/vertical slow adapting low frequency interneuron rheobase The loss of interneuron functional diversity in the piriform cortex after induction of experimental epilepsy. (NeuroElectro data) (PubMed) 190.0 ± 7.6 (10) 190.0 (pA) Data Table
Olfactory cortex horizontal cell Anterior Piriform cortex multipolar/horizontal/vertical adapting high frequency interneuron rheobase The loss of interneuron functional diversity in the piriform cortex after induction of experimental epilepsy. (NeuroElectro data) (PubMed) 119.0 ± 6.3 (42) 119.0 (pA) Data Table
Olfactory cortex large multipolar cell rheobase The loss of interneuron functional diversity in the piriform cortex after induction of experimental epilepsy. (NeuroElectro data) (PubMed) 103.1 ± 11.6 (16) 103.1 (pA) Data Table
Olfactory cortex pyramidal cell rheobase Olfactory-learning abilities are correlated with the rate by which intrinsic neuronal excitability is modulated in the piriform cortex. (NeuroElectro data) (PubMed) 0.78 ± 0.36 780.0 (pA) Data Table
Olfactory cortex pyramidal cell rheobase Olfactory-learning abilities are correlated with the rate by which intrinsic neuronal excitability is modulated in the piriform cortex. (NeuroElectro data) (PubMed) 0.78 ± 0.36 (39) 780.0 (pA) Data Table
Other Upper lumbar spinal cord ventromedial gray matter locomotor interneuron rheobase The persistent sodium current generates pacemaker activities in the central pattern generator for locomotion and regulates the locomotor rhythm. (NeuroElectro data) (PubMed) 18.5 ± 3.7 (8) 18.5 (pA) Data Table
Other Superficial dorsal horn (SDH) laminae I–II single spiking neurons rheobase Recording temperature affects the excitability of mouse superficial dorsal horn neurons, in vitro. (NeuroElectro data) (PubMed) 128.0 ± 21.0 (25) 128.0 (pA) Data Table
Other somatosensory cortex layer 1 classical adapting GABAergic cells rheobase Synaptic and cellular organization of layer 1 of the developing rat somatosensory cortex. (NeuroElectro data) (PubMed) 35.44 (11) 35.44 (pA) Data Table
Other lumbar spinal cord Ventromedial Greymatter Interneuron rheobase Contribution of persistent sodium current to locomotor pattern generation in neonatal rats. (NeuroElectro data) (PubMed) 31.4 ± 4.7 (41) 31.4 (pA) Data Table
Other Commissural interneurons with ascending axonal projections rheobase Intrinsic and functional differences among commissural interneurons during fictive locomotion and serotonergic modulation in the neonatal mouse. (NeuroElectro data) (PubMed) 37.7 ± 22.8 (20) 37.7 (pA) Data Table
Other rostral periventricular region of the third ventricle kisspeptin expressing neurons from ovariectomized mice rheobase Estrous cycle plasticity in the hyperpolarization-activated current ih is mediated by circulating 17β-estradiol in preoptic area kisspeptin neurons. (NeuroElectro data) (PubMed) 8.33 ± 0.8 (21) 8.33 (pA) Data Table
Other rheobase Are all spinal segments equal: intrinsic membrane properties of superficial dorsal horn neurons in the developing and mature mouse spinal cord. (NeuroElectro data) (PubMed) 29.0 ± 4.1 29.0 (pA) Data Table
Other Amygdala basolateral nucleus interneuron rheobase Increased anxiety-like behavior and enhanced synaptic efficacy in the amygdala of GluR5 knockout mice. (NeuroElectro data) (PubMed) 27.5 ± 4.0 (25) 27.5 (pA) Data Table
Other Cochlear Spiral ganglion Ca2+ dependant neuron rheobase Spike encoding of neurotransmitter release timing by spiral ganglion neurons of the cochlea. (NeuroElectro data) (PubMed) 46.0 (8) 46.0 (pA) Data Table
Other Superficial dorsal horn (SDH) laminae I–II Tonic-firing neurons rheobase Recording temperature affects the excitability of mouse superficial dorsal horn neurons, in vitro. (NeuroElectro data) (PubMed) 29.0 ± 4.6 (21) 29.0 (pA) Data Table
Other Spinal Cord Motor Neuron rheobase Effect of prolonged riluzole exposure on cultured motoneurons in a mouse model of ALS. (NeuroElectro data) (PubMed) 26.8 ± 41.6 (56) 26.8 (pA) Data Table
Other Commissural interneurons with descending axonal projections rheobase Intrinsic and functional differences among commissural interneurons during fictive locomotion and serotonergic modulation in the neonatal mouse. (NeuroElectro data) (PubMed) 33.5 ± 18.9 (11) 33.5 (pA) Data Table
Other rheobase Are all spinal segments equal: intrinsic membrane properties of superficial dorsal horn neurons in the developing and mature mouse spinal cord. (NeuroElectro data) (PubMed) 27.0 ± 2.6 27.0 (pA) Data Table
Other substantia gelatinosa lamina 2 EGFP-expressing GAD65-expressing GABAergic inhibitory interneuron rheobase Modulation of synaptic transmission from primary afferents to spinal substantia gelatinosa neurons by group III mGluRs in GAD65-EGFP transgenic mice. (NeuroElectro data) (PubMed) 39.0 ± 5.0 (55) 39.0 (pA) Data Table
Other Superficial dorsal horn (SDH) laminae I–II delayed-firing neurons rheobase Recording temperature affects the excitability of mouse superficial dorsal horn neurons, in vitro. (NeuroElectro data) (PubMed) 113.3 ± 20.4 (21) -- Data Table
Other Medial amygdala posteroventral division GFP positive GABAergic neurons rheobase Functional properties and projections of neurons in the medial amygdala. (NeuroElectro data) (PubMed) 101.0 ± 6.0 (75) 101.0 (pA) Data Table
Other Commissural interneurons with bifurcating axonal projections rheobase Intrinsic and functional differences among commissural interneurons during fictive locomotion and serotonergic modulation in the neonatal mouse. (NeuroElectro data) (PubMed) 41.5 ± 29.1 (6) 41.5 (pA) Data Table
Other rheobase Are all spinal segments equal: intrinsic membrane properties of superficial dorsal horn neurons in the developing and mature mouse spinal cord. (NeuroElectro data) (PubMed) 33.0 ± 4.0 33.0 (pA) Data Table
Other Insular Cortex Pyramidal Neurons rheobase Histaminergic effects on the frequency of repetitive spike firing in rat insular cortex. (NeuroElectro data) (PubMed) 0.64 ± 0.08 (16) 640.0 (pA) Data Table
Other Prefrontal cortex layer 2-3 linear curved arbor cells rheobase Interneuron diversity in layers 2-3 of monkey prefrontal cortex. (NeuroElectro data) (PubMed) 23.0 ± 15.0 (41) 23.0 (pA) Data Table
Other substantia gelatinosa lamina 2 non-GAD65-expressing GABAergic inhibitory interneuron rheobase Modulation of synaptic transmission from primary afferents to spinal substantia gelatinosa neurons by group III mGluRs in GAD65-EGFP transgenic mice. (NeuroElectro data) (PubMed) 134.0 ± 12.0 (41) 134.0 (pA) Data Table
Other Superficial dorsal horn (SDH) laminae I–II single spiking neurons rheobase Recording temperature affects the excitability of mouse superficial dorsal horn neurons, in vitro. (NeuroElectro data) (PubMed) 239.1 ± 13.4 (25) -- Data Table
Other Medial amygdala posteroventral division GFP negative non-GABAergic neurons rheobase Functional properties and projections of neurons in the medial amygdala. (NeuroElectro data) (PubMed) 90.0 ± 4.0 (79) 90.0 (pA) Data Table
Other rheobase Are all spinal segments equal: intrinsic membrane properties of superficial dorsal horn neurons in the developing and mature mouse spinal cord. (NeuroElectro data) (PubMed) 48.0 ± 4.0 48.0 (pA) Data Table
Other Hypothalamus ventromedial nucleus Neuropeptide Y sensitive neurons rheobase Neuropeptide Y suppresses anorexigenic output from the ventromedial nucleus of the hypothalamus. (NeuroElectro data) (PubMed) 35.1 ± 2.3 (147) 35.1 (pA) Data Table
Other Ventral nucleus of the lateral lemniscus ventral GABAergic inhibitory onset-firing neurons rheobase Heterogeneity of Intrinsic and Synaptic Properties of Neurons in the Ventral and Dorsal Parts of the Ventral Nucleus of the Lateral Lemniscus. (NeuroElectro data) (PubMed) 376.5 ± 19.4 (34) 376.5 (pA) Data Table
Other rheobase Are all spinal segments equal: intrinsic membrane properties of superficial dorsal horn neurons in the developing and mature mouse spinal cord. (NeuroElectro data) (PubMed) 31.0 ± 6.7 31.0 (pA) Data Table
Other Central Amygdala medial sector nonresponsive neuron rheobase Optogenetic study of the projections from the bed nucleus of the stria terminalis to the central amygdala. (NeuroElectro data) (PubMed) 37.1 ± 4.7 (8) 37.1 (pA) Data Table
Other Prefrontal cortex layer 2-3 vertically oriented basket-like cells rheobase Interneuron diversity in layers 2-3 of monkey prefrontal cortex. (NeuroElectro data) (PubMed) 25.0 ± 18.0 (13) 25.0 (pA) Data Table
Other Superficial dorsal horn (SDH) laminae I–II Tonic-firing neurons rheobase Recording temperature affects the excitability of mouse superficial dorsal horn neurons, in vitro. (NeuroElectro data) (PubMed) 27.5 ± 6.2 (21) -- Data Table
Other spinal cord lamina I GABAergic interneurons rheobase Spinal cord injury causes plasticity in a subpopulation of lamina I GABAergic interneurons. (NeuroElectro data) (PubMed) 91.0 ± 6.0 91.0 (pA) Data Table
Other Primary Auditory Cortex Layers 2/3 Pyramidal Neurons rheobase Hearing loss raises excitability in the auditory cortex. (NeuroElectro data) (PubMed) 58.0 ± 5.0 (11) 58.0 (pA) Data Table
Other Medial Amygdala PosteroVentral Non-GABAergic multipolar spiny dendrite spare-branched Neurons rheobase Functional properties and projections of neurons in the medial amygdala. (NeuroElectro data) (PubMed) 79.0 ± 4.0 (36) 79.0 (pA) Data Table
Other rheobase Are all spinal segments equal: intrinsic membrane properties of superficial dorsal horn neurons in the developing and mature mouse spinal cord. (NeuroElectro data) (PubMed) 48.0 ± 4.0 48.0 (pA) Data Table
Other Ventral nucleus of the lateral lemniscus dorsal GABAergic inhibitory onset-firing neurons rheobase Heterogeneity of Intrinsic and Synaptic Properties of Neurons in the Ventral and Dorsal Parts of the Ventral Nucleus of the Lateral Lemniscus. (NeuroElectro data) (PubMed) 500.0 ± 33.3 (19) 500.0 (pA) Data Table
Other Central Amygdala medial sector responsive neuron rheobase Optogenetic study of the projections from the bed nucleus of the stria terminalis to the central amygdala. (NeuroElectro data) (PubMed) 31.7 ± 5.8 (15) 31.7 (pA) Data Table
Other Superficial dorsal horn (SDH) laminae I–II initial bursting neurons rheobase Recording temperature affects the excitability of mouse superficial dorsal horn neurons, in vitro. (NeuroElectro data) (PubMed) 47.7 ± 5.2 (33) -- Data Table
Other Glutamatergic hippocampal autaptic neuron rheobase Loss of mTOR repressors Tsc1 or Pten has divergent effects on excitatory and inhibitory synaptic transmission in single hippocampal neuron cultures. (NeuroElectro data) (PubMed) 176.0 ± 17.0 (32) 176.0 (pA) Data Table
Other red nucleus rubrospinal fast spiking neuron rheobase Membrane properties and inhibitory connections of normal and upper cervically axotomized rubrospinal neurons in the rat. (NeuroElectro data) (PubMed) 0.21 ± 0.14 (34) 210.0 (pA) Data Table
Other basolateral amygdala fast spiking interneuron rheobase Dopamine modulates excitability of basolateral amygdala neurons in vitro. (NeuroElectro data) (PubMed) 126.0 ± 24.0 (15) 126.0 (pA) Data Table
Other Trigeminal ganglion neurons rheobase Effects of familial hemiplegic migraine type 1 mutation T666M on voltage-gated calcium channel activities in trigeminal ganglion neurons. (NeuroElectro data) (PubMed) 83.0 ± 7.0 (10) 83.0 (pA) Data Table
Other rheobase Are all spinal segments equal: intrinsic membrane properties of superficial dorsal horn neurons in the developing and mature mouse spinal cord. (NeuroElectro data) (PubMed) 55.0 ± 5.3 55.0 (pA) Data Table
Other Medial Amygdala PosteroVentral Non-GABAergic pyramidal or multipolar spiny dendrite multi-branched Neurons rheobase Functional properties and projections of neurons in the medial amygdala. (NeuroElectro data) (PubMed) 100.0 ± 6.0 (42) 100.0 (pA) Data Table
Other Ventral nucleus of the lateral lemniscus dorsal GABAergic inhibitory sustained-firing neurons rheobase Heterogeneity of Intrinsic and Synaptic Properties of Neurons in the Ventral and Dorsal Parts of the Ventral Nucleus of the Lateral Lemniscus. (NeuroElectro data) (PubMed) 266.7 ± 50.0 (9) 266.7 (pA) Data Table
Other presubiculum regular spiking pyramidal cells in layers II/III rheobase Cellular neuroanatomy of rat presubiculum. (NeuroElectro data) (PubMed) 37.0 (24) 37.0 (pA) Data Table
Other Hippocampus CA3 mossy fiber associated CB1-expressing interneurons rheobase Anatomically heterogeneous populations of CB1 cannabinoid receptor-expressing interneurons in the CA3 region of the hippocampus show homogeneous input-output characteristics. (NeuroElectro data) (PubMed) 100.0 (16) 100.0 (pA) Data Table
Other Glutamatergic hippocampal autaptic neuron rheobase Loss of mTOR repressors Tsc1 or Pten has divergent effects on excitatory and inhibitory synaptic transmission in single hippocampal neuron cultures. (NeuroElectro data) (PubMed) 155.0 ± 13.0 155.0 (pA) Data Table
Other rheobase Are all spinal segments equal: intrinsic membrane properties of superficial dorsal horn neurons in the developing and mature mouse spinal cord. (NeuroElectro data) (PubMed) 77.0 ± 8.3 77.0 (pA) Data Table
Other Lateral central amygdala early-spiking GABAergic neuron rheobase Wiring Specificity and Synaptic Diversity in the Mouse Lateral Central Amygdala. (NeuroElectro data) (PubMed) 34.3 ± 2.9 (40) 34.3 (pA) Data Table
Other Medial Amygdala PosteroVentral GABAergic multipolar spiny dendrite spare-branched Type 3 Neurons rheobase Functional properties and projections of neurons in the medial amygdala. (NeuroElectro data) (PubMed) 125.0 ± 10.0 (28) 125.0 (pA) Data Table
Other Prefrontal cortex layer 2-3 linear arbour cells rheobase Interneuron diversity in layers 2-3 of monkey prefrontal cortex. (NeuroElectro data) (PubMed) 59.0 ± 34.0 (59) 59.0 (pA) Data Table
Other presubiculum intrinsically bursting cells in layers IV rheobase Cellular neuroanatomy of rat presubiculum. (NeuroElectro data) (PubMed) 43.0 (6) 43.0 (pA) Data Table
Other Basalis nucleus magnocellular non-cholinergic neuron rheobase Physiological properties of cholinergic and non-cholinergic magnocellular neurons in acute slices from adult mouse nucleus basalis. (NeuroElectro data) (PubMed) 48.1 (30) 48.1 (pA) Data Table
Other Anterior Cingulate Cortex Non-regular-spiking Neuron rheobase Synaptic organization and input-specific short-term plasticity in anterior cingulate cortical neurons with intact thalamic inputs. (NeuroElectro data) (PubMed) 0.35 ± 0.08 (6) 350.0 (pA) Data Table
Other cultured hippocampus neurons rheobase The FGF14(F145S) mutation disrupts the interaction of FGF14 with voltage-gated Na+ channels and impairs neuronal excitability. (NeuroElectro data) (PubMed) 38.0 ± 6.0 (30) 38.0 (pA) Data Table
Other neocortex layer 1 classical stuttering GABAergic cells rheobase Synaptic and cellular organization of layer 1 of the developing rat somatosensory cortex. (NeuroElectro data) (PubMed) 38.62 (14) 38.62 (pA) Data Table
Other rheobase Are all spinal segments equal: intrinsic membrane properties of superficial dorsal horn neurons in the developing and mature mouse spinal cord. (NeuroElectro data) (PubMed) 107.0 ± 11.0 107.0 (pA) Data Table
Other Lateral central amygdala late-spiking GABAergic neuron rheobase Wiring Specificity and Synaptic Diversity in the Mouse Lateral Central Amygdala. (NeuroElectro data) (PubMed) 48.2 ± 2.6 (50) 48.2 (pA) Data Table
Other Medial Amygdala PosteroVentral GABAergic multipolar spiny dendrite spare-branched Type 1 Neurons rheobase Functional properties and projections of neurons in the medial amygdala. (NeuroElectro data) (PubMed) 56.0 ± 7.0 (22) 56.0 (pA) Data Table
Other Dorsolateral thalamus neuron rheobase A GABAergic, strongly inhibitory projection to a thalamic nucleus in the zebra finch song system. (NeuroElectro data) (PubMed) 20.0 ± 7.0 -- Data Table
Other presubiculum regular spiking pyramidal cells in layer V/VI rheobase Cellular neuroanatomy of rat presubiculum. (NeuroElectro data) (PubMed) 36.0 (17) 36.0 (pA) Data Table
Other Central Medial Thalamus tonically firing neuron rheobase Electroresponsive properties of rat central medial thalamic neurons. (NeuroElectro data) (PubMed) 61.4 ± 6.6 (31) 61.4 (pA) Data Table
Other Anterior Cingulate Cortex Regular-Spiking Neuron rheobase Synaptic organization and input-specific short-term plasticity in anterior cingulate cortical neurons with intact thalamic inputs. (NeuroElectro data) (PubMed) 0.26 ± 0.03 (42) 260.0 (pA) Data Table
Other Hippocampus CA3 perforant-path associated CB1-expressing interneurons rheobase Anatomically heterogeneous populations of CB1 cannabinoid receptor-expressing interneurons in the CA3 region of the hippocampus show homogeneous input-output characteristics. (NeuroElectro data) (PubMed) 150.0 (11) 150.0 (pA) Data Table
Other somatosensory cortex layer 1 bursting non-accommodating GABAergic cells rheobase Synaptic and cellular organization of layer 1 of the developing rat somatosensory cortex. (NeuroElectro data) (PubMed) 37.52 37.52 (pA) Data Table
Other rheobase Are all spinal segments equal: intrinsic membrane properties of superficial dorsal horn neurons in the developing and mature mouse spinal cord. (NeuroElectro data) (PubMed) 89.0 ± 8.6 89.0 (pA) Data Table
Other Medial Amygdala PosteroVentral GABAergic smooth short dendrite Neurons rheobase Functional properties and projections of neurons in the medial amygdala. (NeuroElectro data) (PubMed) 113.0 ± 12.0 (16) 113.0 (pA) Data Table
Other Dorsolateral thalamus neuron rheobase A GABAergic, strongly inhibitory projection to a thalamic nucleus in the zebra finch song system. (NeuroElectro data) (PubMed) 91.0 ± 61.0 -- Data Table
Other presubiculum regular spiking pyramidal cells in layer V/VI rheobase Cellular neuroanatomy of rat presubiculum. (NeuroElectro data) (PubMed) 15.0 (11) 15.0 (pA) Data Table
Other Central Medial Thalamus single low-threshold bursting neuron rheobase Electroresponsive properties of rat central medial thalamic neurons. (NeuroElectro data) (PubMed) 26.4 ± 2.8 (29) 26.4 (pA) Data Table
Other Superficial dorsal horn (SDH) laminae I–II delayed-firing neurons rheobase Recording temperature affects the excitability of mouse superficial dorsal horn neurons, in vitro. (NeuroElectro data) (PubMed) 106.4 ± 13.6 (21) 106.4 (pA) Data Table
Other spinal cord lumbar motorneuron rheobase The motor inhibitory system operating during active sleep is tonically suppressed by GABAergic mechanisms during other states. (NeuroElectro data) (PubMed) 13.4 ± 1.2 (35) 13.4 (pA) Data Table
Other neocortex layer 1 classical irregular spiking GABAergic cells rheobase Synaptic and cellular organization of layer 1 of the developing rat somatosensory cortex. (NeuroElectro data) (PubMed) 42.77 (8) 42.77 (pA) Data Table
Other Hippocampus CA3 dendritic layer-innervating CB1-expressing interneurons rheobase Anatomically heterogeneous populations of CB1 cannabinoid receptor-expressing interneurons in the CA3 region of the hippocampus show homogeneous input-output characteristics. (NeuroElectro data) (PubMed) 150.0 (26) 150.0 (pA) Data Table
Other rheobase Early electrophysiological abnormalities in lumbar motoneurons in a transgenic mouse model of amyotrophic lateral sclerosis. (NeuroElectro data) (PubMed) 1.1 ± 0.1 1100.0 (pA) Data Table
Other rostral periventricular region of the third ventricle kisspeptin expressing neurons from proestrus mice rheobase Estrous cycle plasticity in the hyperpolarization-activated current ih is mediated by circulating 17β-estradiol in preoptic area kisspeptin neurons. (NeuroElectro data) (PubMed) 9.47 ± 1.2 (19) 9.47 (pA) Data Table
Other rheobase Are all spinal segments equal: intrinsic membrane properties of superficial dorsal horn neurons in the developing and mature mouse spinal cord. (NeuroElectro data) (PubMed) 33.0 ± 7.5 33.0 (pA) Data Table
Other Rat Hind Leg Lumbar Motoneuron rheobase Characteristics and organization of discharge properties in rat hindlimb motoneurons. (NeuroElectro data) (PubMed) 8.35 ± 4.36 (37) 8350.0 (pA) Data Table
Other sensorimotor cortex sideways-oriented layer 2 pyramidal cells rheobase Morphological and electrophysiological properties of atypically oriented layer 2 pyramidal cells of the juvenile rat neocortex. (NeuroElectro data) (PubMed) 93.0 (17) 93.0 (pA) Data Table
Other Superficial dorsal horn (SDH) laminae I–II initial bursting neurons rheobase Recording temperature affects the excitability of mouse superficial dorsal horn neurons, in vitro. (NeuroElectro data) (PubMed) 46.0 ± 5.8 (33) 46.0 (pA) Data Table
Other somatosensory cortex layer 1 classical non-accomodating GABAergic cells rheobase Synaptic and cellular organization of layer 1 of the developing rat somatosensory cortex. (NeuroElectro data) (PubMed) 41.82 (40) 41.82 (pA) Data Table
Other Spinal cord phrenic motoneuron rheobase Electrophysiological properties of rat phrenic motoneurons during perinatal development. (NeuroElectro data) (PubMed) 89.0 ± 14.0 89.0 (pA) Data Table
Other rostral periventricular region of the third ventricle kisspeptin expressing neurons from diestrus mice rheobase Estrous cycle plasticity in the hyperpolarization-activated current ih is mediated by circulating 17β-estradiol in preoptic area kisspeptin neurons. (NeuroElectro data) (PubMed) 8.81 ± 0.84 (21) 8.81 (pA) Data Table
Other rheobase Are all spinal segments equal: intrinsic membrane properties of superficial dorsal horn neurons in the developing and mature mouse spinal cord. (NeuroElectro data) (PubMed) 29.0 ± 6.2 29.0 (pA) Data Table
Other Prefrontal cortex layer 2-3 neurogliaform cells rheobase Interneuron diversity in layers 2-3 of monkey prefrontal cortex. (NeuroElectro data) (PubMed) 36.0 ± 30.0 (19) 36.0 (pA) Data Table
Paraventricular hypothalamic nucleus neurons Weakly rectifying paraventricular hypothalamic Type I putative magnocellular neurosecretory cells rheobase A slow transient potassium current expressed in a subset of neurosecretory neurons of the hypothalamic paraventricular nucleus. (NeuroElectro data) (PubMed) 15.4 ± 2.4 (53) 15.4 (pA) Data Table
Paraventricular hypothalamic nucleus neurons Strongly rectifying paraventricular hypothalamic Type I putative magnocellular neurosecretory cells rheobase A slow transient potassium current expressed in a subset of neurosecretory neurons of the hypothalamic paraventricular nucleus. (NeuroElectro data) (PubMed) 58.5 ± 13.2 (33) 58.5 (pA) Data Table
Spinal cord intermediate horn motor neuron sympathetic rheobase Hyperexcitability of cultured spinal motoneurons from presymptomatic ALS mice. (NeuroElectro data) (PubMed) 770.0 ± 640.0 (23) 770.0 (pA) Data Table
Spinal cord intermediate horn motor neuron sympathetic Spinal cord intermediolateral column sympathetic preganglionic neuron rheobase Heterogeneity of membrane properties in sympathetic preganglionic neurons of neonatal mice: evidence of four subpopulations in the intermediolateral nucleus. (NeuroElectro data) (PubMed) 32.7 ± 21.4 (30) 32.7 (pA) Data Table
Spinal cord intermediate horn motor neuron sympathetic rheobase Hypocretinergic control of spinal cord motoneurons. (NeuroElectro data) (PubMed) 6.4 ± 0.89 (7) 6400.0 (pA) Data Table
Spinal cord motor neuron parasympathetic Tonic firing parasympathetic preganglionic lumbosacral neurons rheobase Electrophysiological properties of lumbosacral preganglionic neurons in the neonatal rat spinal cord. (NeuroElectro data) (PubMed) 12.1 ± 1.0 -- Data Table
Spinal cord motor neuron parasympathetic Phasic firing parasympathetic preganglionic lumbosacral neurons rheobase Electrophysiological properties of lumbosacral preganglionic neurons in the neonatal rat spinal cord. (NeuroElectro data) (PubMed) 29.0 ± 4.0 -- Data Table
Spinal cord ventral horn interneuron II rheobase Properties of mouse spinal lamina I GABAergic interneurons. (NeuroElectro data) (PubMed) 135.0 ± 12.0 (59) 135.0 (pA) Data Table
Spinal cord ventral horn interneuron Renshaw rheobase Properties of a distinct subpopulation of GABAergic commissural interneurons that are part of the locomotor circuitry in the neonatal spinal cord. (NeuroElectro data) (PubMed) 53.6 ± 6.4 53.6 (pA) Data Table
Spinal cord ventral horn interneuron V2 rheobase Electrophysiological characterization of V2a interneurons and their locomotor-related activity in the neonatal mouse spinal cord. (NeuroElectro data) (PubMed) 14.8 ± 7.9 (82) 14.8 (pA) Data Table
Spinal cord ventral horn interneuron V2 rheobase Firing and cellular properties of V2a interneurons in the rodent spinal cord. (NeuroElectro data) (PubMed) 14.0 ± 2.0 (62) 14.0 (pA) Data Table
Spinal cord ventral horn motor neuron alpha rheobase Effects of daily spontaneous running on the electrophysiological properties of hindlimb motoneurones in rats. (NeuroElectro data) (PubMed) 7.3 ± 3.9 7300.0 (pA) Data Table
Spinal cord ventral horn motor neuron alpha rheobase Electrophysiological properties of rat phrenic motoneurons during perinatal development. (NeuroElectro data) (PubMed) 7.1 ± 0.5 7.1 (pA) Data Table
Spinal cord ventral horn motor neuron alpha Spinal cord segments 4-6 lateral ventral intrinsic alpha motoneuron rheobase Diversification of intrinsic motoneuron electrical properties during normal development and botulinum toxin-induced muscle paralysis in early postnatal mice. (NeuroElectro data) (PubMed) 139.0 (14) 139.0 (pA) Data Table
Spinal cord ventral horn motor neuron alpha rheobase Hindlimb unweighting for 2 weeks alters physiological properties of rat hindlimb motoneurones. (NeuroElectro data) (PubMed) 10.6 ± 4.3 (52) -- Data Table
Spinal cord ventral horn motor neuron alpha rheobase Electrophysiological properties of rat phrenic motoneurons during perinatal development. (NeuroElectro data) (PubMed) 12.6 ± 0.9 12.6 (pA) Data Table
Spinal cord ventral horn motor neuron alpha lumbar spinal cord Ventromedial Greymatter Motorneuron rheobase Contribution of persistent sodium current to locomotor pattern generation in neonatal rats. (NeuroElectro data) (PubMed) 329.1 ± 75.0 (27) 329.1 (pA) Data Table
Spinal cord ventral horn motor neuron alpha Spinal cord segments 4-6 lateral ventral intrinsic alpha motoneuron rheobase Diversification of intrinsic motoneuron electrical properties during normal development and botulinum toxin-induced muscle paralysis in early postnatal mice. (NeuroElectro data) (PubMed) 133.5 (16) 133.5 (pA) Data Table
Spinal cord ventral horn motor neuron alpha spinal cord lumbar hind limb alpha motoneuron rheobase An in vitro protocol for recording from spinal motoneurons of adult rats. (NeuroElectro data) (PubMed) 4.3 ± 3.0 (37) 4300.0 (pA) Data Table
Spinal cord ventral horn motor neuron alpha spinal cord lumbar flexor motorneuron rheobase Identified ankle extensor and flexor motoneurons display different firing profiles in the neonatal rat. (NeuroElectro data) (PubMed) 1.3 ± 0.1 1300.0 (pA) Data Table
Spinal cord ventral horn motor neuron alpha spinal cord dorsolateral nucleus motoneuron rheobase An in vitro protocol for recording from spinal motoneurons of adult rats. (NeuroElectro data) (PubMed) 2.4 ± 1.9 (64) 2400.0 (pA) Data Table
Spinal cord ventral horn motor neuron alpha spinal cord lumbar extensor motorneuron rheobase Identified ankle extensor and flexor motoneurons display different firing profiles in the neonatal rat. (NeuroElectro data) (PubMed) 1.6 ± 0.1 1600.0 (pA) Data Table
Spinal cord ventral horn motor neuron alpha spinal cord lumbar hind limb alpha motoneuron rheobase Properties of urethral rhabdosphincter motoneurons and their regulation by noradrenaline. (NeuroElectro data) (PubMed) 0.59 (13) 590.0 (pA) Data Table
Spinal cord ventral horn motor neuron alpha spinal cord lumbar motor neuron rheobase Early excitability changes in lumbar motoneurons of transgenic SOD1G85R and SOD1G(93A-Low) mice. (NeuroElectro data) (PubMed) 1.0 ± 0.1 (33) 1000.0 (pA) Data Table
Spinal cord ventral horn motor neuron alpha spinal cord ventral nucleus motoneuron rheobase Properties of urethral rhabdosphincter motoneurons and their regulation by noradrenaline. (NeuroElectro data) (PubMed) 0.56 (13) 560.0 (pA) Data Table
Spinal cord ventral horn motor neuron alpha spinal cord dorsolateral nucleus motoneuron rheobase Properties of urethral rhabdosphincter motoneurons and their regulation by noradrenaline. (NeuroElectro data) (PubMed) 0.079 (26) 79.0 (pA) Data Table
Spinal cord ventral horn motor neuron alpha spinal cord dorsolateral nucleus motoneuron rheobase External urethral sphincter motoneuron properties in adult female rats studied in vitro. (NeuroElectro data) (PubMed) 0.6 ± 0.6 (29) 600.0 (pA) Data Table
Spinal cord ventral horn motor neuron alpha Fast-like alpha motor neuron rheobase Sensorimotor function is modulated by the serotonin receptor 1d, a novel marker for gamma motor neurons. (NeuroElectro data) (PubMed) 361.43 ± 45.33 (7) -- Data Table
Spinal cord ventral horn motor neuron alpha spinal cord lumbar hind limb alpha motoneuron rheobase External urethral sphincter motoneuron properties in adult female rats studied in vitro. (NeuroElectro data) (PubMed) 4.3 ± 3.0 (24) 4300.0 (pA) Data Table
Spinal cord ventral horn motor neuron alpha Slow-like alpha motor neurons rheobase Sensorimotor function is modulated by the serotonin receptor 1d, a novel marker for gamma motor neurons. (NeuroElectro data) (PubMed) 175.0 ± 30.65 (8) -- Data Table
Spinal cord ventral horn motor neuron alpha rheobase Intrinsic properties of mouse lumbar motoneurons revealed by intracellular recording in vivo. (NeuroElectro data) (PubMed) 7.1 ± 5.9 7100.0 (pA) Data Table
Spinal cord ventral horn motor neuron gamma Gamma motor neurons rheobase Sensorimotor function is modulated by the serotonin receptor 1d, a novel marker for gamma motor neurons. (NeuroElectro data) (PubMed) 235.0 ± 30.0 (8) 235.0 (pA) Data Table
Subiculum pyramidal cell Subiculum bursting cell rheobase Lifetime memories from persistently supple synapses. (NeuroElectro data) (PubMed) 160.0 -- Data Table
Subiculum pyramidal cell Subiculum regular spiking pyramidal cell rheobase Resting and active properties of pyramidal neurons in subiculum and CA1 of rat hippocampus. (NeuroElectro data) (PubMed) 283.0 ± 28.0 283.0 (pA) Data Table
Subiculum pyramidal cell Subiculum bursting cell rheobase Lifetime memories from persistently supple synapses. (NeuroElectro data) (PubMed) 53.0 ± 8.0 -- Data Table
Subiculum pyramidal cell Presubicular pyramidal cells rheobase Diversity and overlap of parvalbumin and somatostatin expressing interneurons in mouse presubiculum. (NeuroElectro data) (PubMed) 84.0 (17) 84.0 (pA) Data Table
Subiculum pyramidal cell Subiculum weak bursting pyramidal cell rheobase Resting and active properties of pyramidal neurons in subiculum and CA1 of rat hippocampus. (NeuroElectro data) (PubMed) 314.0 ± 34.0 -- Data Table
Subiculum pyramidal cell Subiculum strong bursting pyramidal cell rheobase Resting and active properties of pyramidal neurons in subiculum and CA1 of rat hippocampus. (NeuroElectro data) (PubMed) 234.0 ± 14.0 -- Data Table
Subiculum pyramidal cell Subiculum regular firing cell rheobase Lifetime memories from persistently supple synapses. (NeuroElectro data) (PubMed) 0.165 ± 0.029 -- Data Table
Subiculum pyramidal cell Ventral subiculum regular spiking pyramidal neuron rheobase Psychostimulant-induced plasticity of intrinsic neuronal excitability in ventral subiculum. (NeuroElectro data) (PubMed) 135.0 ± 25.0 (8) 135.0 (pA) Data Table
Subiculum pyramidal cell Subiculum regular firing cell rheobase Lifetime memories from persistently supple synapses. (NeuroElectro data) (PubMed) 55.2 ± 8.0 -- Data Table
Subiculum pyramidal cell Subiculum bursting cell rheobase Lifetime memories from persistently supple synapses. (NeuroElectro data) (PubMed) 160.0 -- Data Table
Subiculum pyramidal cell rheobase Lifetime memories from persistently supple synapses. (NeuroElectro data) (PubMed) 15.0 ± 3.0 -- Data Table
Subiculum pyramidal cell Subiculum bursting cell rheobase Lifetime memories from persistently supple synapses. (NeuroElectro data) (PubMed) 160.0 -- Data Table
Subiculum pyramidal cell Subiculum bursting cell rheobase Lifetime memories from persistently supple synapses. (NeuroElectro data) (PubMed) 0.133 ± 0.015 -- Data Table
Thalamic reticular nucleus cell thalamic reticular nucleus bursting GABAergic inhibitory neuron rheobase Impaired action potential initiation in GABAergic interneurons causes hyperexcitable networks in an epileptic mouse model carrying a human Na(V)1.1 mutation. (NeuroElectro data) (PubMed) 47.6 ± 4.5 (23) 47.6 (pA) Data Table
Thalamic reticular nucleus cell Thalamic reticular nucleus non-bursting GABAergic inhibitory neuron rheobase Impaired action potential initiation in GABAergic interneurons causes hyperexcitable networks in an epileptic mouse model carrying a human Na(V)1.1 mutation. (NeuroElectro data) (PubMed) 59.3 ± 7.4 (7) 59.3 (pA) Data Table
Thalamic reticular nucleus cell rheobase Focal cortical infarcts alter intrinsic excitability and synaptic excitation in the reticular thalamic nucleus. (NeuroElectro data) (PubMed) 34.3 ± 2.5 (30) 34.3 (pA) Data Table
Thalamus relay cell Ventrobasal thalamocortical excitatory relay neuron rheobase Impaired action potential initiation in GABAergic interneurons causes hyperexcitable networks in an epileptic mouse model carrying a human Na(V)1.1 mutation. (NeuroElectro data) (PubMed) 97.7 ± 8.6 (11) 97.7 (pA) Data Table
Thalamus relay cell Thalamus ventroposteromedial nucleus bushy relay neuron rheobase Electroresponsive properties of rat central medial thalamic neurons. (NeuroElectro data) (PubMed) 81.7 ± 14.6 (12) 81.7 (pA) Data Table
Thalamus relay cell mediodorsal nucleus thalamus relay cell rheobase Dopamine modulates the responsivity of mediodorsal thalamic cells recorded in vitro. (NeuroElectro data) (PubMed) 0.44 ± 0.23 (11) 440.0 (pA) Data Table
Thalamus relay cell rheobase Dopamine modulates the responsivity of mediodorsal thalamic cells recorded in vitro. (NeuroElectro data) (PubMed) 0.44 ± 0.26 440.0 (pA) Data Table
Thalamus relay cell rheobase Dopamine modulates the responsivity of mediodorsal thalamic cells recorded in vitro. (NeuroElectro data) (PubMed) 0.37 ± 0.12 370.0 (pA) Data Table
Thalamus relay cell Central Medial Thalamic relay neuron projecting to basolateral amygdala rheobase Electroresponsive properties of rat central medial thalamic neurons. (NeuroElectro data) (PubMed) 43.1 ± 4.3 (60) 43.1 (pA) Data Table
Trigeminal nucleus motor neuron Trigeminal nucleus predicted fast fatigable motoneurons rheobase Homeostatic dysregulation in membrane properties of masticatory motoneurons compared with oculomotor neurons in a mouse model for amyotrophic lateral sclerosis. (NeuroElectro data) (PubMed) 800.7 ± 67.3 (16) 800.7 (pA) Data Table
Trigeminal nucleus motor neuron Trigeminal nucleus predicted fast fatigue resistant motoneurons rheobase Homeostatic dysregulation in membrane properties of masticatory motoneurons compared with oculomotor neurons in a mouse model for amyotrophic lateral sclerosis. (NeuroElectro data) (PubMed) 459.1 ± 30.2 (16) 459.1 (pA) Data Table
Trigeminal nucleus motor neuron rheobase Nitric oxide as an anterograde neurotransmitter in the trigeminal motor pool. (NeuroElectro data) (PubMed) 0.84 ± 0.2 (24) 840.0 (pA) Data Table
Trigeminal nucleus principal cell trigeminal principal sensory nucleus burst and tonic firing cell rheobase Emergence of intrinsic bursting in trigeminal sensory neurons parallels the acquisition of mastication in weanling rats. (NeuroElectro data) (PubMed) 0.021 ± 0.005 (23) 21.0 (pA) Data Table
Trigeminal nucleus principal cell trigeminal principal sensory nucleus repetitive bursting cell rheobase Emergence of intrinsic bursting in trigeminal sensory neurons parallels the acquisition of mastication in weanling rats. (NeuroElectro data) (PubMed) 0.015 ± 0.004 (7) 15.0 (pA) Data Table
Trigeminal nucleus principal cell rheobase Functional analysis of a migraine-associated TRESK K+ channel mutation. (NeuroElectro data) (PubMed) 75.0 ± 3.0 (14) 75.0 (pA) Data Table
Trigeminal nucleus principal cell Mesencephalic nucleus trigeminal cells rheobase Participation of Kv1 channels in control of membrane excitability and burst generation in mesencephalic V neurons. (NeuroElectro data) (PubMed) 400.3 ± 29.0 (9) 400.3 (pA) Data Table
Trigeminal nucleus principal cell trigeminal principal sensory nucleus adapting cell rheobase Emergence of intrinsic bursting in trigeminal sensory neurons parallels the acquisition of mastication in weanling rats. (NeuroElectro data) (PubMed) 0.042 ± 0.008 (53) 42.0 (pA) Data Table
Trigeminal nucleus principal cell Trigeminal nucleus predicted slow firing motoneurons rheobase Homeostatic dysregulation in membrane properties of masticatory motoneurons compared with oculomotor neurons in a mouse model for amyotrophic lateral sclerosis. (NeuroElectro data) (PubMed) 151.6 ± 13.8 (16) 151.6 (pA) Data Table
Trigeminal nucleus principal cell trigeminal principal sensory nucleus tonic firing cell rheobase Emergence of intrinsic bursting in trigeminal sensory neurons parallels the acquisition of mastication in weanling rats. (NeuroElectro data) (PubMed) 0.072 ± 0.009 (124) 72.0 (pA) Data Table