arrow

From NeuroLex

Jump to: navigation, search
Category:Colliculus superior deep vertical fusiform cell
Authors Langer TP  +, Lund RD.  +
CurationStatus uncurated  +
Curator Mihail Bota +
DefiningCitation Langer and Lund 1974  +
Definition Deep vertical fusiform cells have cell bod Deep vertical fusiform cells have cell bodies about 20 micrometers wide and their dendrites extend from the upper margin of the zone of vertical cells to the depth of the zone of optic fibers perhaps even deeper. The superficial and deep fields are usually notably different in the manner in which the dendrites branch and spread, the over to all size of the fields, the shapes of the fields, the type and density of spines, and the caliber of the dendrites. spines, and the caliber of the dendrites.
EditorialNote Appended Superior colliculus to name given by contributor to conform to Neurolex NIF naming conventions
Has default formThis property is a special property in this wiki. Petilla neuron  +
Id BAMSC1122  +
JournalNumber 4 +
JournalVolume 158 +
Label Colliculus superior deep vertical fusiform cell  +
Located in Superior colliculus +
Modification dateThis property is a special property in this wiki. 9 March 2012 01:16:33  +
ModifiedDate 9 March 2012  +
PMID 4615112  +
Page has default formThis property is a special property in this wiki. Petilla neuron  +
Pages 418-35
PublicationDate 1974 +
PublicationName J Comp Neurol. +
Species Vertebrata +
SuperCategory Neuron  +
Synonym deep vertical fusiform cell  +
Title The upper layers of the superior colliculus of the rat: a Golgi study.  +
Categories Neuron
hide properties that link here 
  No properties link to this page.
 

 

Enter the name of the page to start browsing from.

*Note: Neurolex imports many terms and their ids from existing community ontologies, e.g., the Gene Ontology. Neurolex, however, is a dynamic site and any content beyond the identifier should not be presumed to reflect the content or views of the source ontology. Users should consult with the authoritative source for each ontology for current information.