Depression-Biased Reverse Plasticity Rule Is Required for Stable Learning at Top-Down Connections Kendra S. Burbank1, Gabriel Kreiman1,2,3* 1 Department of Neurology and Ophthalmology, Children’s Hospital Boston, Harva

First Page		Document Content
Date: 2012-03-15 12:57:00 Neurophysiology Neural networks Computational neuroscience Neurology Synaptic plasticity Synaptic scaling Spike-timing-dependent plasticity Synaptic weight Chemical synapse Biology Neuroscience Nervous system		Depression-Biased Reverse Plasticity Rule Is Required for Stable Learning at Top-Down Connections Kendra S. Burbank1, Gabriel Kreiman1,2,3* 1 Department of Neurology and Ophthalmology, Children’s Hospital Boston, Harva Add to Reading List Source URL: klab.tch.harvard.edu Download Document from Source Website File Size: 1,14 MB Share Document on Facebook

	ION Publication List （） 1. Peng, Y., Hou, Z., and Yu, X.* (2013) The kinase activity of EphA4 mediates homeostatic scaling-down of synaptic strength via activation of Cdk5. Neuropharmacology 65: 232-24 DocID: 1tV0S - View Document
	ARTICLE Communicated by Erkki Oja Synergies Between Intrinsic and Synaptic Plasticity Mechanisms DocID: 1qfHE - View Document
	rd The 173 iCeMS SEMINAR Fri 05 Sep 2014 DocID: 1awlm - View Document
	The Brugada syndrome mutation A39V does not affect surface expression of neuronal rat Cav1.2 channels DocID: 15CZr - View Document
	Depression-Biased Reverse Plasticity Rule Is Required for Stable Learning at Top-Down Connections Kendra S. Burbank1, Gabriel Kreiman1,2,3* 1 Department of Neurology and Ophthalmology, Children’s Hospital Boston, Harva DocID: 13MKi - View Document