Vestibular ganglion cell |
|
cell capacitance |
Developmental increase in hyperpolarization-activated current regulates intrinsic firing properties in rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
12.5
± 0.4
(60)
|
12.5 (pF)
|
Data Table |
Vestibular ganglion cell |
Superior Vestibular Ganglia Cell
|
cell capacitance |
Low-voltage-activated potassium channels underlie the regulation of intrinsic firing properties of rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
11.6
± 0.3
(247)
|
11.6 (pF)
|
Data Table |
Vestibular ganglion cell |
|
cell capacitance |
Developmental increase in hyperpolarization-activated current regulates intrinsic firing properties in rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
14.6
± 1.0
(27)
|
14.6 (pF)
|
Data Table |
Vestibular ganglion cell |
Superior Vestibular Ganglia Cell
|
cell capacitance |
Low-voltage-activated potassium channels underlie the regulation of intrinsic firing properties of rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
11.2
± 0.6
(32)
|
11.2 (pF)
|
Data Table |
Vestibular ganglion cell |
|
cell capacitance |
Developmental increase in hyperpolarization-activated current regulates intrinsic firing properties in rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
14.0
± 0.6
(32)
|
14.0 (pF)
|
Data Table |
Vestibular ganglion cell |
Superior Vestibular Ganglia Cell
|
cell capacitance |
Low-voltage-activated potassium channels underlie the regulation of intrinsic firing properties of rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
12.2
± 1.1
(35)
|
12.2 (pF)
|
Data Table |
Vestibular ganglion cell |
|
cell capacitance |
Developmental increase in hyperpolarization-activated current regulates intrinsic firing properties in rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
13.0
± 1.0
(14)
|
13.0 (pF)
|
Data Table |
Vestibular ganglion cell |
Superior Vestibular Ganglia Cell
|
input resistance |
Low-voltage-activated potassium channels underlie the regulation of intrinsic firing properties of rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
0.32
± 0.04
(35)
|
320.0 (MΩ)
|
Data Table |
Vestibular ganglion cell |
|
input resistance |
Developmental increase in hyperpolarization-activated current regulates intrinsic firing properties in rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
0.42
± 0.04
(27)
|
420.0 (MΩ)
|
Data Table |
Vestibular ganglion cell |
Superior Vestibular Ganglia Cell
|
input resistance |
Low-voltage-activated potassium channels underlie the regulation of intrinsic firing properties of rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
0.27
± 0.1
(211)
|
270.0 (MΩ)
|
Data Table |
Vestibular ganglion cell |
|
input resistance |
Developmental increase in hyperpolarization-activated current regulates intrinsic firing properties in rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
0.32
± 0.03
(32)
|
320.0 (MΩ)
|
Data Table |
Vestibular ganglion cell |
|
input resistance |
Developmental increase in hyperpolarization-activated current regulates intrinsic firing properties in rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
0.44
± 0.04
(14)
|
440.0 (MΩ)
|
Data Table |
Vestibular ganglion cell |
Superior Vestibular Ganglia Cell
|
input resistance |
Low-voltage-activated potassium channels underlie the regulation of intrinsic firing properties of rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
0.28
± 0.02
(32)
|
280.0 (MΩ)
|
Data Table |
Vestibular ganglion cell |
|
input resistance |
Developmental increase in hyperpolarization-activated current regulates intrinsic firing properties in rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
0.54
± 0.02
(60)
|
540.0 (MΩ)
|
Data Table |
Vestibular ganglion cell |
|
resting membrane potential |
Developmental increase in hyperpolarization-activated current regulates intrinsic firing properties in rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
-47.3
± 1.3
(32)
|
-47.3 (mV)
|
Data Table |
Vestibular ganglion cell |
Superior Vestibular Ganglia Cell
|
resting membrane potential |
Low-voltage-activated potassium channels underlie the regulation of intrinsic firing properties of rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
-59.1
± 1.5
(35)
|
-59.1 (mV)
|
Data Table |
Vestibular ganglion cell |
|
resting membrane potential |
Developmental increase in hyperpolarization-activated current regulates intrinsic firing properties in rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
-48.7
± 2.1
(14)
|
-48.7 (mV)
|
Data Table |
Vestibular ganglion cell |
|
resting membrane potential |
Developmental increase in hyperpolarization-activated current regulates intrinsic firing properties in rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
-49.0
± 0.7
(60)
|
-49.0 (mV)
|
Data Table |
Vestibular ganglion cell |
Superior Vestibular Ganglia Cell
|
resting membrane potential |
Low-voltage-activated potassium channels underlie the regulation of intrinsic firing properties of rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
-58.0
± 0.7
(247)
|
-58.0 (mV)
|
Data Table |
Vestibular ganglion cell |
|
resting membrane potential |
Developmental increase in hyperpolarization-activated current regulates intrinsic firing properties in rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
-46.9
± 1.5
(27)
|
-46.9 (mV)
|
Data Table |
Vestibular ganglion cell |
Superior Vestibular Ganglia Cell
|
resting membrane potential |
Low-voltage-activated potassium channels underlie the regulation of intrinsic firing properties of rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
-59.2
± 1.6
(32)
|
-59.2 (mV)
|
Data Table |
Vestibular ganglion cell |
Superior Vestibular Ganglia Cell
|
spike threshold |
Low-voltage-activated potassium channels underlie the regulation of intrinsic firing properties of rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
27.1
± 1.9
(32)
|
--
|
Data Table |
Vestibular ganglion cell |
Superior Vestibular Ganglia Cell
|
spike threshold |
Low-voltage-activated potassium channels underlie the regulation of intrinsic firing properties of rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
28.2
± 2.6
(35)
|
--
|
Data Table |
Vestibular ganglion cell |
Superior Vestibular Ganglia Cell
|
spike threshold |
Low-voltage-activated potassium channels underlie the regulation of intrinsic firing properties of rat vestibular ganglion cells.
(NeuroElectro data)
(PubMed)
|
30.0
± 2.0
(261)
|
--
|
Data Table |