Article: Protein Crowding within the Postsynaptic Density Can Impede the Escape of Membrane Proteins.
Full Text (publisher's website) ; Article Metadata ; Article Data (extracted) Li TP; Song Y; MacGillavry HD; Blanpied TA; Raghavachari S J. Neurosci., 2016
Inferred neuron-electrophysiology data values
Neuron Type | Neuron Description | Ephys Prop | Extracted Value | Standardized Value | Content Source |
---|
Metadata values
Experimental condition | Value |
---|---|
PrepType | cell culture |
ExternalSolution | 4.0 |
external_0_pH | 7.35 |
external_0_Mg | 2.0 |
external_0_Na | 120.0 |
external_0_K | 3.0 |
external_0_HEPES | 10.0 |
external_0_Cl | 131.0 |
external_0_Ca | 2.0 |
external_0_glucose | 10.0 |
Data table listing
Data Table | Article Title | Authors | Journal | Year | Table needs expert? | Ephys table mentions | Curated by | Times validated |
---|---|---|---|---|---|---|---|---|
50008 | Protein Crowding within the Postsynaptic Density Can Impede the Escape of Membrane Proteins. | Li TP; Song Y; MacGillavry HD; Blanpied TA; Raghavachari S | J. Neurosci. | 2016 | False | 2 | 0 | |
50007 | Protein Crowding within the Postsynaptic Density Can Impede the Escape of Membrane Proteins. | Li TP; Song Y; MacGillavry HD; Blanpied TA; Raghavachari S | J. Neurosci. | 2016 | False | 0 | None |