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Items: 1 to 20 of 77

1.

Distinct Functional Groups Emerge from the Intrinsic Properties of Molecularly Identified Entorhinal Interneurons and Principal Cells.

Ferrante M, Tahvildari B, Duque A, Hadzipasic M, Salkoff D, Zagha EW, Hasselmo ME, McCormick DA.

Cereb Cortex. 2017 Jun 1;27(6):3186-3207. doi: 10.1093/cercor/bhw143.

2.

Serotonin 3A receptor subtype as an early and protracted marker of cortical interneuron subpopulations.

Vucurovic K, Gallopin T, Ferezou I, Rancillac A, Chameau P, van Hooft JA, Geoffroy H, Monyer H, Rossier J, Vitalis T.

Cereb Cortex. 2010 Oct;20(10):2333-47. doi: 10.1093/cercor/bhp310. Epub 2010 Jan 18.

3.

A novel functionally distinct subtype of striatal neuropeptide Y interneuron.

Ibáñez-Sandoval O, Tecuapetla F, Unal B, Shah F, Koós T, Tepper JM.

J Neurosci. 2011 Nov 16;31(46):16757-69. doi: 10.1523/JNEUROSCI.2628-11.2011.

4.

Ivy and neurogliaform interneurons are a major target of μ-opioid receptor modulation.

Krook-Magnuson E, Luu L, Lee SH, Varga C, Soltesz I.

J Neurosci. 2011 Oct 19;31(42):14861-70. doi: 10.1523/JNEUROSCI.2269-11.2011.

5.

5-HT(3A) receptor-bearing white matter interstitial GABAergic interneurons are functionally integrated into cortical and subcortical networks.

von Engelhardt J, Khrulev S, Eliava M, Wahlster S, Monyer H.

J Neurosci. 2011 Nov 16;31(46):16844-54. doi: 10.1523/JNEUROSCI.0310-11.2011.

6.

Correlation between axonal morphologies and synaptic input kinetics of interneurons from mouse visual cortex.

Dumitriu D, Cossart R, Huang J, Yuste R.

Cereb Cortex. 2007 Jan;17(1):81-91. Epub 2006 Feb 8.

PMID:
16467567
7.

Excitatory and inhibitory synapses in neuropeptide Y-expressing striatal interneurons.

Partridge JG, Janssen MJ, Chou DY, Abe K, Zukowska Z, Vicini S.

J Neurophysiol. 2009 Nov;102(5):3038-45. doi: 10.1152/jn.00272.2009. Epub 2009 Sep 16.

8.

A disinhibitory circuit mediates motor integration in the somatosensory cortex.

Lee S, Kruglikov I, Huang ZJ, Fishell G, Rudy B.

Nat Neurosci. 2013 Nov;16(11):1662-70. doi: 10.1038/nn.3544. Epub 2013 Oct 6.

9.

Postnatal development of GABAergic interneurons in the neocortical subplate of mice.

Qu GJ, Ma J, Yu YC, Fu Y.

Neuroscience. 2016 May 13;322:78-93. doi: 10.1016/j.neuroscience.2016.02.023. Epub 2016 Feb 15.

PMID:
26892297
10.

Response features of parvalbumin-expressing interneurons suggest precise roles for subtypes of inhibition in visual cortex.

Runyan CA, Schummers J, Van Wart A, Kuhlman SJ, Wilson NR, Huang ZJ, Sur M.

Neuron. 2010 Sep 9;67(5):847-57. doi: 10.1016/j.neuron.2010.08.006.

11.

Neostriatal GABAergic Interneurons Mediate Cholinergic Inhibition of Spiny Projection Neurons.

Faust TW, Assous M, Tepper JM, Koós T.

J Neurosci. 2016 Sep 7;36(36):9505-11. doi: 10.1523/JNEUROSCI.0466-16.2016.

12.

Anatomical and Electrophysiological Clustering of Superficial Medial Entorhinal Cortex Interneurons.

Martínez JJ, Rahsepar B, White JA.

eNeuro. 2017 Oct 16;4(5). pii: ENEURO.0263-16.2017. doi: 10.1523/ENEURO.0263-16.2017. eCollection 2017 Sep-Oct.

13.

Properties and dynamics of inhibitory synaptic communication within the CA3 microcircuits of pyramidal cells and interneurons expressing parvalbumin or cholecystokinin.

Kohus Z, Káli S, Rovira-Esteban L, Schlingloff D, Papp O, Freund TF, Hájos N, Gulyás AI.

J Physiol. 2016 Jul 1;594(13):3745-74. doi: 10.1113/JP272231. Epub 2016 May 5.

14.

Immunochemical characterization of inhibitory mouse cortical neurons: three chemically distinct classes of inhibitory cells.

Xu X, Roby KD, Callaway EM.

J Comp Neurol. 2010 Feb 1;518(3):389-404. doi: 10.1002/cne.22229.

15.

Electrical and Network Neuronal Properties Are Preferentially Disrupted in Dorsal, But Not Ventral, Medial Entorhinal Cortex in a Mouse Model of Tauopathy.

Booth CA, Ridler T, Murray TK, Ward MA, de Groot E, Goodfellow M, Phillips KG, Randall AD, Brown JT.

J Neurosci. 2016 Jan 13;36(2):312-24. doi: 10.1523/JNEUROSCI.2845-14.2016.

16.

Synaptic Mechanisms of Tight Spike Synchrony at Gamma Frequency in Cerebral Cortex.

Salkoff DB, Zagha E, Yüzgeç Ö, McCormick DA.

J Neurosci. 2015 Jul 15;35(28):10236-51. doi: 10.1523/JNEUROSCI.0828-15.2015.

17.

Electrophysiological classification of somatostatin-positive interneurons in mouse sensorimotor cortex.

Halabisky B, Shen F, Huguenard JR, Prince DA.

J Neurophysiol. 2006 Aug;96(2):834-45. Epub 2006 May 17.

18.

Regulation of neuronal input transformations by tunable dendritic inhibition.

Lovett-Barron M, Turi GF, Kaifosh P, Lee PH, Bolze F, Sun XH, Nicoud JF, Zemelman BV, Sternson SM, Losonczy A.

Nat Neurosci. 2012 Jan 15;15(3):423-30, S1-3. doi: 10.1038/nn.3024.

PMID:
22246433
19.

Inhibition of inhibition in visual cortex: the logic of connections between molecularly distinct interneurons.

Pfeffer CK, Xue M, He M, Huang ZJ, Scanziani M.

Nat Neurosci. 2013 Aug;16(8):1068-76. doi: 10.1038/nn.3446. Epub 2013 Jun 30.

20.

Classification of projection neurons and interneurons in the rat lateral amygdala based upon cluster analysis.

Sosulina L, Meis S, Seifert G, Steinhäuser C, Pape HC.

Mol Cell Neurosci. 2006 Sep;33(1):57-67. Epub 2006 Jul 24.

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