Article: Ca2+-dependent and Na+-dependent K+ conductances contribute to a slow AHP in thalamic paraventricular nucleus neurons: a novel target for orexin receptors.
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Zhang L; Kolaj M; Renaud LP
J. Neurophysiol., 2010
Table 1Intrinsic properties of thalamic neurons
Intralaminar Midline First-order Higher-order CL Pf MD TRN dLGN VB LP LD Po Resting membrane potential (mV) −69.5±4.0 (n=29) −66.7±5.2 (n=22) −69.5±3.3 (n=19) −65.8±8.4 (n=26) −68.3±4.1 (n=12) −68.2±2.7 (n=4) −71.0±3.0 (n=9) −73.0±5.0 (n=8) −72±2 (n=13) Input resistance (MΩ) 386±124 (n=29) 589±207 (n=22) *p<0.01 277±105 (n=19) 341±214 (n=21) 342±96 (n=12) 262±70 (n=4) 345±112 (n=9) 242±65 (n=8) 212±55 (n=11)
Intralaminar Midline First-order Higher-order CL Pf MD TRN dLGN VB LP LD Po
CL: centrolateral nucleus, Pf: parafascicular nucleus, MD: mediodorsal nucleus, TRN: thalamic reticular nucleus, dLGN: dorsal lateral geniculate nucleus, VB: ventrobasal, LP: lateral posterior nucleus, LD: laterodorsal nucleus, Po: posterior thalamic nucleus.
Inferred neuron-electrophysiology data values
