<--- Back to Details
First PageDocument Content
AMPA receptor / Silent synapse / Synaptic plasticity / Green fluorescent protein / Long-term potentiation / NMDA receptor / Schaffer collateral / Ca2+/calmodulin-dependent protein kinase / Glutamate receptor / Biology / Neuroscience / Neurophysiology
Date: 2004-12-16 13:58:16
AMPA receptor
Silent synapse
Synaptic plasticity
Green fluorescent protein
Long-term potentiation
NMDA receptor
Schaffer collateral
Ca2+/calmodulin-dependent protein kinase
Glutamate receptor
Biology
Neuroscience
Neurophysiology

Add to Reading List

Source URL: malinowlab.cshl.edu

Download Document from Source Website

File Size: 1,18 MB

Share Document on Facebook

Similar Documents

Nervous system / Neuroscience / Neurophysiology / Brain / Neurology / Neural networks / Synaptic plasticity / Long-term potentiation / Hippocampus / Schaffer collateral

Your partner for hands-on CNS electrophysiology NSF SET *

DocID: 1q7By - View Document

Corticotropin-releasing hormone / Neuroscience / Neuroanatomy / Neurophysiology / Limbic system / Corticotropin-releasing hormone receptor / Hippocampus / Inhibitory postsynaptic potential / Stress / Neuron / Apical dendrite / Schaffer collateral

Mechanisms of rapid dendritic spine loss in the hippocampus induced by corticotropin releasing hormone. Adrienne L. Andres, Yuncai Chen, Yoav Noam, Lise Phan, and Tallie Z. Baram Department of Anatomy & Neurobiology

DocID: 1pwBe - View Document

Neurophysiology / Neuroscience / Cellular neuroscience / Memory / Neurobiology / Synaptic tagging / Long-term potentiation / Synaptic plasticity / Long-term depression / Schaffer collateral / Ca2+/calmodulin-dependent protein kinase II / AMPA receptor

Tag-Trigger-Consolidation: A Model of Early and Late Long-Term-Potentiation and Depression Claudia Clopath., Lorric Ziegler., Eleni Vasilaki, Lars Bu¨sing¤, Wulfram Gerstner* Laboratory of Computational Neuroscience, B

DocID: 1oD7S - View Document

A NMDA receptor glycine site partial agonist, GLYX-13, simultaneously enhances LTP and reduces LTD at Schaffer collateral–CA1 synapses in hippocampus

DocID: 1lOBC - View Document

Neurophysiology / Cerebrum / Neuroanatomy / Cell signaling / Schaffer collateral / Long-term potentiation / Apical dendrite / Ca2+/calmodulin-dependent protein kinase / Synaptic plasticity / Biology / Neuroscience / Nervous system

Regional differences in hippocampal calcium handling provide a cellular mechanism for limiting plasticity Stephen B. Simonsa, Yasmin Escobedob, Ryohei Yasudab, and Serena M. Dudeka,1 aLaboratory of Neurobiology, Departm

DocID: 1fOBq - View Document