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Medial entorhinal cortex layer II stellate cell

Electrophysiological properties of Medial entorhinal cortex layer II stellate cells from literature:

  • Reports: Blue dots indicate human-curated values; Orange dots indicate non-human curated values
  • Mean+SD: mean and standard deviation of human-curated neuron measurements
  • All neurons: mean and standard deviation computed over all neurons in database
  • Interactivity:
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  • Legend: Blue dots = text-mined values human curated; Orange dots = text-mined values not human curated

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Articles with extracted electrophysiology properties:

Article Title Authors Journal Year Electrophys values Neuron types
HCN1 channels control resting and active integrative properties of stellate cells from layer II of the entorhinal cortex. (NeuroElectro data) (PubMed) Nolan MF; Dudman JT; Dodson PD; Santoro B J. Neurosci. 2007 5 1
Temporal lobe epilepsy induces intrinsic alterations in Na channel gating in layer II medial entorhinal cortex neurons. (NeuroElectro data) (PubMed) Hargus NJ; Merrick EC; Nigam A; Kalmar CL; Baheti AR; Bertram EH; Patel MK Neurobiol. Dis. 2011 18 2
Membrane properties of identified lateral and medial perforant pathway projection neurons. (NeuroElectro data) (PubMed) Wang X; Lambert NA Neuroscience 2003 16 2
Reduced inhibition and increased output of layer II neurons in the medial entorhinal cortex in a model of temporal lobe epilepsy. (NeuroElectro data) (PubMed) Kobayashi M; Wen X; Buckmaster PS J. Neurosci. 2003 11 1
Dynamics of rat entorhinal cortex layer II and III cells: characteristics of membrane potential resonance at rest predict oscillation properties near threshold. (NeuroElectro data) (PubMed) Erchova I; Kreck G; Heinemann U; Herz AV J. Physiol. (Lond.) 2004 12 3
Enhanced actions of adenosine in medial entorhinal cortex layer II stellate neurons in temporal lobe epilepsy are mediated via A(1)-receptor activation. (NeuroElectro data) (PubMed) Hargus NJ; Jennings C; Perez-Reyes E; Bertram EH; Patel MK Epilepsia 2012 6 1
Differential contribution of kainate receptors to excitatory postsynaptic currents in superficial layer neurons of the rat medial entorhinal cortex. (NeuroElectro data) (PubMed) West PJ; Dalpé-Charron A; Wilcox KS Neuroscience 2007 27 3
Intrinsic electrophysiological properties of entorhinal cortex stellate cells and their contribution to grid cell firing fields. (NeuroElectro data) (PubMed) Pastoll H; Ramsden HL; Nolan MF Front Neural Circuits 2012 22 2
Selective functional interactions between excitatory and inhibitory cortical neurons and differential contribution to persistent activity of the slow oscillation. (NeuroElectro data) (PubMed) Tahvildari B; Wölfel M; Duque A; McCormick DA J. Neurosci. 2012 28 3
Contribution of near-threshold currents to intrinsic oscillatory activity in rat medial entorhinal cortex layer II stellate cells. (NeuroElectro data) (PubMed) Boehlen A; Henneberger C; Heinemann U; Erchova I J. Neurophysiol. 2013 63 1
Distinct Functional Groups Emerge from the Intrinsic Properties of Molecularly Identified Entorhinal Interneurons and Principal Cells. (NeuroElectro data) (PubMed) Ferrante M; Tahvildari B; Duque A; Hadzipasic M; Salkoff D; Zagha EW; Hasselmo ME; McCormick DA Cereb. Cortex 2016 16 2

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