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Items: 1 to 20 of 95

1.

Maturation of GABAergic inhibition promotes strengthening of temporally coherent inputs among convergent pathways.

Kuhlman SJ, Lu J, Lazarus MS, Huang ZJ.

PLoS Comput Biol. 2010 Jun 3;6(6):e1000797. doi: 10.1371/journal.pcbi.1000797.

2.

Binocular input coincidence mediates critical period plasticity in the mouse primary visual cortex.

Chen XJ, Rasch MJ, Chen G, Ye CQ, Wu S, Zhang XH.

J Neurosci. 2014 Feb 19;34(8):2940-55. doi: 10.1523/JNEUROSCI.2640-13.2014.

3.

Partial Breakdown of Input Specificity of STDP at Individual Synapses Promotes New Learning.

Volgushev M, Chen JY, Ilin V, Goz R, Chistiakova M, Bazhenov M.

J Neurosci. 2016 Aug 24;36(34):8842-55. doi: 10.1523/JNEUROSCI.0552-16.2016.

4.

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.

5.

Spike-timing-dependent synaptic modification induced by natural spike trains.

Froemke RC, Dan Y.

Nature. 2002 Mar 28;416(6879):433-8.

PMID:
11919633
6.

Inhibitory synaptic plasticity regulates pyramidal neuron spiking in the rodent hippocampus.

Saraga F, Balena T, Wolansky T, Dickson CT, Woodin MA.

Neuroscience. 2008 Jul 31;155(1):64-75. doi: 10.1016/j.neuroscience.2008.05.009. Epub 2008 May 21.

PMID:
18562122
7.

Impaired GABAergic inhibition in the visual cortex of brain-derived neurotrophic factor heterozygous knockout mice.

Abidin I, Eysel UT, Lessmann V, Mittmann T.

J Physiol. 2008 Apr 1;586(7):1885-901. doi: 10.1113/jphysiol.2007.148627. Epub 2008 Jan 31.

8.

Competitive Hebbian learning through spike-timing-dependent synaptic plasticity.

Song S, Miller KD, Abbott LF.

Nat Neurosci. 2000 Sep;3(9):919-26.

PMID:
10966623
9.
10.

Preserved excitatory-inhibitory balance of cortical synaptic inputs following deprived eye stimulation after a saturating period of monocular deprivation in rats.

Iurilli G, Olcese U, Medini P.

PLoS One. 2013 Dec 12;8(12):e82044. doi: 10.1371/journal.pone.0082044. eCollection 2013.

11.

Input specificity and dependence of spike timing-dependent plasticity on preceding postsynaptic activity at unitary connections between neocortical layer 2/3 pyramidal cells.

Zilberter M, Holmgren C, Shemer I, Silberberg G, Grillner S, Harkany T, Zilberter Y.

Cereb Cortex. 2009 Oct;19(10):2308-20. doi: 10.1093/cercor/bhn247. Epub 2009 Feb 4.

12.

Postsynaptic effects of GABAergic synaptic diversity: regulation of neuronal excitability by changes in IPSC variance.

Aradi I, Santhakumar V, Chen K, Soltesz I.

Neuropharmacology. 2002 Sep;43(4):511-22.

PMID:
12367598
13.

Intrinsic stability of temporally shifted spike-timing dependent plasticity.

Babadi B, Abbott LF.

PLoS Comput Biol. 2010 Nov 4;6(11):e1000961. doi: 10.1371/journal.pcbi.1000961.

14.

Spike-timing-dependent synaptic plasticity depends on dendritic location.

Froemke RC, Poo MM, Dan Y.

Nature. 2005 Mar 10;434(7030):221-5.

PMID:
15759002
15.

A computational study on plasticity during theta cycles at Schaffer collateral synapses on CA1 pyramidal cells in the hippocampus.

Saudargiene A, Cobb S, Graham BP.

Hippocampus. 2015 Feb;25(2):208-18. doi: 10.1002/hipo.22365. Epub 2014 Sep 25.

PMID:
25220633
16.
17.

Regional Specificity of GABAergic Regulation of Cross-Modal Plasticity in Mouse Visual Cortex after Unilateral Enucleation.

Nys J, Smolders K, Laramée ME, Hofman I, Hu TT, Arckens L.

J Neurosci. 2015 Aug 12;35(32):11174-89. doi: 10.1523/JNEUROSCI.3808-14.2015.

18.

Adrenergic gating of Hebbian spike-timing-dependent plasticity in cortical interneurons.

Huang S, Huganir RL, Kirkwood A.

J Neurosci. 2013 Aug 7;33(32):13171-8. doi: 10.1523/JNEUROSCI.5741-12.2013.

19.

Bidirectional plasticity in fast-spiking GABA circuits by visual experience.

Yazaki-Sugiyama Y, Kang S, Câteau H, Fukai T, Hensch TK.

Nature. 2009 Nov 12;462(7270):218-21. doi: 10.1038/nature08485.

PMID:
19907494
20.

Experience and activity-dependent maturation of perisomatic GABAergic innervation in primary visual cortex during a postnatal critical period.

Chattopadhyaya B, Di Cristo G, Higashiyama H, Knott GW, Kuhlman SJ, Welker E, Huang ZJ.

J Neurosci. 2004 Oct 27;24(43):9598-611.

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