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Neostriatum cholinergic cell (Definition)

Electrophysiological properties of Neostriatum cholinergic cells from literature:

Neuron electrophysiology data values (Table form)

Neuron Type Neuron Description Ephys Prop Article Extracted Value Standardized Value Content Source
Neostriatum cholinergic cell adaptation ratio (last/first ISI) Cell-specific spike-timing-dependent plasticity in GABAergic and cholinergic interneurons in corticostriatal rat brain slices. (NeuroElectro data) (PubMed) 1.2 ± 0.1 (65) 1.2 (ratio) Data Table
Neostriatum cholinergic cell Neostriatum fast-spiking cell AHP amplitude A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) -13.1 ± 4.0 (7) 13.1 (mV) Data Table
Neostriatum cholinergic cell neostriatium long-duration afterhyperpolarization cholinergic cell AHP amplitude A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) -25.3 ± 6.4 (8) 25.3 (mV) Data Table
Neostriatum cholinergic cell Neostriatum aspiny fast-firing cell AHP amplitude A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) -18.7 ± 5.5 (25) 18.7 (mV) Data Table
Neostriatum cholinergic cell AHP amplitude Enhanced high-frequency membrane potential fluctuations control spike output in striatal fast-spiking interneurones in vivo. (NeuroElectro data) (PubMed) 8.1 ± 2.7 (12) 8.1 (mV) Data Table
Neostriatum cholinergic cell Striatal Giant Aspiny Interneurons AHP amplitude The corticostriatal input to giant aspiny interneurons in the rat: a candidate pathway for synchronising the response to reward-related cues. (NeuroElectro data) (PubMed) 7.1 ± 3.0 (13) 7.1 (mV) Data Table
Neostriatum cholinergic cell Neostriatum cholinergic interneuron AHP amplitude Intrinsic membrane properties underlying spontaneous tonic firing in neostriatal cholinergic interneurons. (NeuroElectro data) (PubMed) 18.4 ± 3.3 (10) 18.4 (mV) Data Table
Neostriatum cholinergic cell Neostriatum aspiny low-threshold spike cholinergic cell AHP amplitude A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) -7.4 ± 3.8 (9) 7.4 (mV) Data Table
Neostriatum cholinergic cell Neostriatum cholinergic interneuron AHP duration Intrinsic membrane properties underlying spontaneous tonic firing in neostriatal cholinergic interneurons. (NeuroElectro data) (PubMed) 60.5 ± 12.3 (10) 60.5 (ms) Data Table
Neostriatum cholinergic cell Dorsal striatum aspiny cholinergic interneuron AHP duration Receptor subtype-specific modulation by dopamine of glutamatergic responses in striatal medium spiny neurons. (NeuroElectro data) (PubMed) 22.67 ± 2.94 (12) 22.67 (ms) Data Table
Neostriatum cholinergic cell Dorsal striatum aspiny cholinergic interneuron AHP voltage Receptor subtype-specific modulation by dopamine of glutamatergic responses in striatal medium spiny neurons. (NeuroElectro data) (PubMed) -73.3 ± 1.5 (12) -73.3 (mV) Data Table
Neostriatum cholinergic cell cell capacitance Enhanced high-frequency membrane potential fluctuations control spike output in striatal fast-spiking interneurones in vivo. (NeuroElectro data) (PubMed) 157.0 ± 48.7 (12) 157.0 (pF) Data Table
Neostriatum cholinergic cell cell capacitance Distinct roles of GABAergic interneurons in the regulation of striatal output pathways. (NeuroElectro data) (PubMed) 98.0 ± 12.0 (9) 98.0 (pF) Data Table
Neostriatum cholinergic cell Dorsal striatum aspiny cholinergic interneuron cell capacitance Receptor subtype-specific modulation by dopamine of glutamatergic responses in striatal medium spiny neurons. (NeuroElectro data) (PubMed) 21.6 ± 1.1 (12) 21.6 (pF) Data Table
Neostriatum cholinergic cell fast AHP amplitude Cell-specific spike-timing-dependent plasticity in GABAergic and cholinergic interneurons in corticostriatal rat brain slices. (NeuroElectro data) (PubMed) 12.0 ± 0.3 (65) 12.0 (mV) Data Table
Neostriatum cholinergic cell fast AHP duration Cell-specific spike-timing-dependent plasticity in GABAergic and cholinergic interneurons in corticostriatal rat brain slices. (NeuroElectro data) (PubMed) 25.7 ± 1.5 (65) 25.7 (ms) Data Table
Neostriatum cholinergic cell neostriatium long-duration afterhyperpolarization cholinergic cell first spike latency A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 207.0 ± 1322.0 (8) 207.0 (ms) Data Table
Neostriatum cholinergic cell Neostriatum aspiny low-threshold spike cholinergic cell first spike latency A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 65.0 ± 45.0 (9) 65.0 (ms) Data Table
Neostriatum cholinergic cell Neostriatum aspiny fast-firing cell first spike latency A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 116.0 ± 742.0 (25) 116.0 (ms) Data Table
Neostriatum cholinergic cell Neostriatum fast-spiking cell first spike latency A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 86.0 ± 1482.0 (7) 86.0 (ms) Data Table
Neostriatum cholinergic cell first spike latency Cell-specific spike-timing-dependent plasticity in GABAergic and cholinergic interneurons in corticostriatal rat brain slices. (NeuroElectro data) (PubMed) 281.0 ± 13.2 (65) 281.0 (ms) Data Table
Neostriatum cholinergic cell Neostriatum aspiny fast-firing cell input resistance A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 232.0 ± 1122.0 (25) 232.0 (MΩ) Data Table
Neostriatum cholinergic cell input resistance Cell-specific spike-timing-dependent plasticity in GABAergic and cholinergic interneurons in corticostriatal rat brain slices. (NeuroElectro data) (PubMed) 307.3 ± 16.9 (65) 307.3 (MΩ) Data Table
Neostriatum cholinergic cell Neostriatum aspiny low-threshold spike cholinergic cell input resistance A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 462.0 ± 224.0 (9) 462.0 (MΩ) Data Table
Neostriatum cholinergic cell Neostriatum fast-spiking cell input resistance A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 452.0 ± 5092.0 (7) 452.0 (MΩ) Data Table
Neostriatum cholinergic cell input resistance Distinct roles of GABAergic interneurons in the regulation of striatal output pathways. (NeuroElectro data) (PubMed) 229.0 ± 69.0 (9) 229.0 (MΩ) Data Table
Neostriatum cholinergic cell neostriatium long-duration afterhyperpolarization cholinergic cell input resistance A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 395.0 ± 1772.0 (8) 395.0 (MΩ) Data Table
Neostriatum cholinergic cell Striatal Giant Aspiny Interneurons input resistance The corticostriatal input to giant aspiny interneurons in the rat: a candidate pathway for synchronising the response to reward-related cues. (NeuroElectro data) (PubMed) 31.1 ± 13.6 (13) 31.1 (MΩ) Data Table
Neostriatum cholinergic cell input resistance Enhanced high-frequency membrane potential fluctuations control spike output in striatal fast-spiking interneurones in vivo. (NeuroElectro data) (PubMed) 47.8 ± 11.4 (12) 47.8 (MΩ) Data Table
Neostriatum cholinergic cell maximum firing rate Distinct roles of GABAergic interneurons in the regulation of striatal output pathways. (NeuroElectro data) (PubMed) 60.0 ± 18.0 (9) 60.0 (Hz) Data Table
Neostriatum cholinergic cell Dorsolateral striatum cholinergic motor interneuron medium AHP amplitude Reduction of an afterhyperpolarization current increases excitability in striatal cholinergic interneurons in rat parkinsonism. (NeuroElectro data) (PubMed) 17.9 ± 1.4 (63) 17.9 (mV) Data Table
Neostriatum cholinergic cell membrane time constant Enhanced high-frequency membrane potential fluctuations control spike output in striatal fast-spiking interneurones in vivo. (NeuroElectro data) (PubMed) 7.8 ± 1.7 (12) 7.8 (ms) Data Table
Neostriatum cholinergic cell resting membrane potential Cell-specific spike-timing-dependent plasticity in GABAergic and cholinergic interneurons in corticostriatal rat brain slices. (NeuroElectro data) (PubMed) -61.9 ± 0.4 (65) -61.9 (mV) Data Table
Neostriatum cholinergic cell Striatal Giant Aspiny Interneurons resting membrane potential The corticostriatal input to giant aspiny interneurons in the rat: a candidate pathway for synchronising the response to reward-related cues. (NeuroElectro data) (PubMed) -58.9 ± 5.2 (13) -58.9 (mV) Data Table
Neostriatum cholinergic cell Dorsal striatum aspiny cholinergic interneuron resting membrane potential Receptor subtype-specific modulation by dopamine of glutamatergic responses in striatal medium spiny neurons. (NeuroElectro data) (PubMed) -59.4 ± 3.3 (12) -59.4 (mV) Data Table
Neostriatum cholinergic cell Neostriatum aspiny low-threshold spike cholinergic cell resting membrane potential A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) -42.0 ± 82.0 (9) -42.0 (mV) Data Table
Neostriatum cholinergic cell Neostriatum fast-spiking cell resting membrane potential A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) -62.0 ± 10.0 (7) -62.0 (mV) Data Table
Neostriatum cholinergic cell Neostriatum cholinergic interneuron resting membrane potential Intrinsic membrane properties underlying spontaneous tonic firing in neostriatal cholinergic interneurons. (NeuroElectro data) (PubMed) -63.9 ± 3.7 (10) -63.9 (mV) Data Table
Neostriatum cholinergic cell resting membrane potential Distinct roles of GABAergic interneurons in the regulation of striatal output pathways. (NeuroElectro data) (PubMed) -57.0 ± 4.0 (9) -57.0 (mV) Data Table
Neostriatum cholinergic cell neostriatium long-duration afterhyperpolarization cholinergic cell resting membrane potential A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) -51.0 ± 82.0 (8) -51.0 (mV) 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 cholinergic cell slow AHP duration Cell-specific spike-timing-dependent plasticity in GABAergic and cholinergic interneurons in corticostriatal rat brain slices. (NeuroElectro data) (PubMed) 64.6 ± 2.9 (65) 64.6 (ms) Data Table
Neostriatum cholinergic cell Neostriatum aspiny fast-firing cell spike amplitude A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 36.0 ± 13.5 (25) 36.0 (mV) Data Table
Neostriatum cholinergic cell spike amplitude Cell-specific spike-timing-dependent plasticity in GABAergic and cholinergic interneurons in corticostriatal rat brain slices. (NeuroElectro data) (PubMed) 61.3 ± 1.0 (65) 61.3 (mV) Data Table
Neostriatum cholinergic cell spike amplitude Enhanced high-frequency membrane potential fluctuations control spike output in striatal fast-spiking interneurones in vivo. (NeuroElectro data) (PubMed) 62.0 ± 5.9 (12) 62.0 (mV) Data Table
Neostriatum cholinergic cell Striatal Giant Aspiny Interneurons spike amplitude The corticostriatal input to giant aspiny interneurons in the rat: a candidate pathway for synchronising the response to reward-related cues. (NeuroElectro data) (PubMed) 72.3 ± 9.3 (13) 72.3 (mV) Data Table
Neostriatum cholinergic cell Neostriatum aspiny low-threshold spike cholinergic cell spike amplitude A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 44.5 ± 9.6 (9) 44.5 (mV) Data Table
Neostriatum cholinergic cell neostriatium long-duration afterhyperpolarization cholinergic cell spike amplitude A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 42.7 ± 8.9 (8) 42.7 (mV) Data Table
Neostriatum cholinergic cell Neostriatum fast-spiking cell spike amplitude A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 29.9 ± 7.8 (7) 29.9 (mV) Data Table
Neostriatum cholinergic cell Dorsolateral striatum cholinergic motor interneuron spike amplitude Reduction of an afterhyperpolarization current increases excitability in striatal cholinergic interneurons in rat parkinsonism. (NeuroElectro data) (PubMed) 79.4 ± 3.0 (63) 79.4 (mV) Data Table
Neostriatum cholinergic cell Striatal Giant Aspiny Interneurons spike half-width The corticostriatal input to giant aspiny interneurons in the rat: a candidate pathway for synchronising the response to reward-related cues. (NeuroElectro data) (PubMed) 0.76 ± 0.16 (13) 0.76 (ms) Data Table
Neostriatum cholinergic cell Dorsal striatum aspiny cholinergic interneuron spike half-width Receptor subtype-specific modulation by dopamine of glutamatergic responses in striatal medium spiny neurons. (NeuroElectro data) (PubMed) 1.82 ± 0.16 (12) 1.82 (ms) Data Table
Neostriatum cholinergic cell spike half-width Distinct roles of GABAergic interneurons in the regulation of striatal output pathways. (NeuroElectro data) (PubMed) 2.1 ± 0.2 (9) 2.1 (ms) Data Table
Neostriatum cholinergic cell Dorsolateral striatum cholinergic motor interneuron spike half-width Reduction of an afterhyperpolarization current increases excitability in striatal cholinergic interneurons in rat parkinsonism. (NeuroElectro data) (PubMed) 0.45 ± 0.01 (63) 0.45 (ms) Data Table
Neostriatum cholinergic cell spike half-width Enhanced high-frequency membrane potential fluctuations control spike output in striatal fast-spiking interneurones in vivo. (NeuroElectro data) (PubMed) 1.1 ± 0.3 (12) 1.1 (ms) Data Table
Neostriatum cholinergic cell Dorsolateral striatum cholinergic motor interneuron spike max rise slope Reduction of an afterhyperpolarization current increases excitability in striatal cholinergic interneurons in rat parkinsonism. (NeuroElectro data) (PubMed) 218.0 ± 13.8 (63) 218.0 (mV/ms) Data Table
Neostriatum cholinergic cell Neostriatum cholinergic interneuron spike threshold Intrinsic membrane properties underlying spontaneous tonic firing in neostriatal cholinergic interneurons. (NeuroElectro data) (PubMed) -50.1 ± 3.3 (10) -50.1 (mV) Data Table
Neostriatum cholinergic cell spike threshold Enhanced high-frequency membrane potential fluctuations control spike output in striatal fast-spiking interneurones in vivo. (NeuroElectro data) (PubMed) -54.5 ± 5.1 (12) -54.5 (mV) Data Table
Neostriatum cholinergic cell Striatal Giant Aspiny Interneurons spike threshold The corticostriatal input to giant aspiny interneurons in the rat: a candidate pathway for synchronising the response to reward-related cues. (NeuroElectro data) (PubMed) -53.1 ± 4.6 (13) -53.1 (mV) Data Table
Neostriatum cholinergic cell spike threshold Cell-specific spike-timing-dependent plasticity in GABAergic and cholinergic interneurons in corticostriatal rat brain slices. (NeuroElectro data) (PubMed) -41.6 ± 0.9 (65) -41.6 (mV) Data Table
Neostriatum cholinergic cell Dorsolateral striatum cholinergic motor interneuron spike threshold Reduction of an afterhyperpolarization current increases excitability in striatal cholinergic interneurons in rat parkinsonism. (NeuroElectro data) (PubMed) -41.1 ± 1.6 (63) -41.1 (mV) Data Table
Neostriatum cholinergic cell neostriatium long-duration afterhyperpolarization cholinergic cell spike threshold A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) -43.7 ± 10.4 (8) -43.7 (mV) Data Table
Neostriatum cholinergic cell Neostriatum aspiny fast-firing cell spike threshold A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) -47.7 ± 6.0 (25) -47.7 (mV) Data Table
Neostriatum cholinergic cell Dorsal striatum aspiny cholinergic interneuron spike threshold Receptor subtype-specific modulation by dopamine of glutamatergic responses in striatal medium spiny neurons. (NeuroElectro data) (PubMed) -51.8 ± 2.6 (12) -51.8 (mV) Data Table
Neostriatum cholinergic cell Neostriatum aspiny low-threshold spike cholinergic cell spike threshold A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) -43.5 ± 8.5 (9) -43.5 (mV) Data Table
Neostriatum cholinergic cell Neostriatum fast-spiking cell spike threshold A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) -40.9 ± 13.62 (7) -40.9 (mV) Data Table
Neostriatum cholinergic cell Neostriatum aspiny low-threshold spike cholinergic cell spike width A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 1.65 ± 0.85 (9) 1.65 (ms) Data Table
Neostriatum cholinergic cell Neostriatum fast-spiking cell spike width A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 0.9 ± 0.41 (7) 0.9 (ms) Data Table
Neostriatum cholinergic cell neostriatium long-duration afterhyperpolarization cholinergic cell spike width A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 2.47 ± 0.63 (8) 2.47 (ms) Data Table
Neostriatum cholinergic cell Neostriatum cholinergic interneuron spike width Intrinsic membrane properties underlying spontaneous tonic firing in neostriatal cholinergic interneurons. (NeuroElectro data) (PubMed) 2.4 ± 0.2 (10) 2.4 (ms) Data Table
Neostriatum cholinergic cell Neostriatum aspiny fast-firing cell spike width A telencephalic nucleus essential for song learning contains neurons with physiological characteristics of both striatum and globus pallidus. (NeuroElectro data) (PubMed) 0.86 ± 0.19 (25) 0.86 (ms) Data Table
Neostriatum cholinergic cell spike width Cell-specific spike-timing-dependent plasticity in GABAergic and cholinergic interneurons in corticostriatal rat brain slices. (NeuroElectro data) (PubMed) 5.2 ± 0.2 (65) 5.2 (ms) Data Table
Neostriatum cholinergic cell spontaneous firing rate Enhanced high-frequency membrane potential fluctuations control spike output in striatal fast-spiking interneurones in vivo. (NeuroElectro data) (PubMed) 3.6 ± 2.6 (12) 3.6 (Hz) Data Table
Neostriatum cholinergic cell Striatal Giant Aspiny Interneurons spontaneous firing rate The corticostriatal input to giant aspiny interneurons in the rat: a candidate pathway for synchronising the response to reward-related cues. (NeuroElectro data) (PubMed) 3.0 ± 1.5 (13) 3.0 (Hz) Data Table
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