Literature DB >> 7262213

Visual response characteristics of neurons in nucleus of basal optic root of pigeons.

B Morgan, B J Frost.   

Abstract

This study investigated the response characteristics of single cells in the nucleus of the basal optic root (nBOR) of the accessory optic system of pigeons. One hundred and twenty-one nBOR cells were studied and quantitative data from 87 units indicated that they preferred very large random patterned stimuli, and did not respond to stimuli less than 30 degrees in diameter. In many cases the receptive field encompassed the entire monocular visual field. nBOR cells were directionally sensitive with approximately 70% preferring motion with an upward vector. They responded to very slow velocities in the range of 0.5 degrees to 5.0 degrees s-1, and did not adapt to continuous stimulation. Maximal responses occurred to very large randomly patterned stimuli moving slowly in an upward direction. These response characteristics together with the anatomical connections of the nBOR suggest that this nucleus may be involved in processing self-induced visual motion information required for vertical optokinetic stabilization.

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Year:  1981        PMID: 7262213     DOI: 10.1007/BF00236904

Source DB:  PubMed          Journal:  Exp Brain Res        ISSN: 0014-4819            Impact factor:   1.972


  19 in total

1.  Single-cell responses of the nucleus of the transpeduncular tract in rabbit to monochromatic light on the retina.

Authors:  R M HILL; E MARG
Journal:  J Neurophysiol       Date:  1963-03       Impact factor: 2.714

2.  Direct accessory optic projections to the vestibulo-cerebellum: a possible channel for oculomotor control systems.

Authors:  S E Brauth
Journal:  Exp Brain Res       Date:  1977-05-23       Impact factor: 1.972

3.  Specific projection of displaced retinal ganglion cells upon the accessory optic system in the pigeon (Columbia livia).

Authors:  J H Karten; K V Fite; N Brecha
Journal:  Proc Natl Acad Sci U S A       Date:  1977-04       Impact factor: 11.205

4.  Role of the accessory optic system in the optokinetic nystagmus of the frog.

Authors:  G Lázár
Journal:  Brain Behav Evol       Date:  1972       Impact factor: 1.808

5.  Receptive fields in the accessory optic system of the rabbit.

Authors:  R E Walley
Journal:  Exp Neurol       Date:  1967-01       Impact factor: 5.330

6.  Accessory optic projections upon oculomotor nuclei and vestibulocerebellum.

Authors:  N Brecha; H J Karten
Journal:  Science       Date:  1979-03-02       Impact factor: 47.728

7.  Unit activity in accessory optic system in alert monkeys.

Authors:  G Westheimer; S M Blair
Journal:  Invest Ophthalmol       Date:  1974-07

8.  Relation of single unit properties to the oculomotor function of the nucleus of the basal optic root (accessory optic system) in chickens.

Authors:  S Burns; J Wallman
Journal:  Exp Brain Res       Date:  1981       Impact factor: 1.972

9.  Optokinetic nystagmus and the accessory optic system of pigeon and turtle.

Authors:  K V Fite; A Reiner; S P Hunt
Journal:  Brain Behav Evol       Date:  1979       Impact factor: 1.808

10.  Moving background patterns alter directionally specific responses of pigeon tectal neurons.

Authors:  B J Frost
Journal:  Brain Res       Date:  1978-08-11       Impact factor: 3.252
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  21 in total

1.  Purkinje cells in the vestibulocerebellum of the pigeon respond best to either translational or rotational wholefield visual motion.

Authors:  D R Wylie; B J Frost
Journal:  Exp Brain Res       Date:  1991       Impact factor: 1.972

2.  Role of the nucleus geniculatus lateralis ventralis (GLv) in the optokinetic reflex: a lesion study in the pigeon.

Authors:  H Gioanni; A Palacios; A Sansonetti; F Varela
Journal:  Exp Brain Res       Date:  1991       Impact factor: 1.972

3.  Temporal frequency dependence in motion-sensitive neurons of the accessory optic system of the pigeon.

Authors:  F Wolf-Oberhollenzer; K Kirschfeld
Journal:  Naturwissenschaften       Date:  1990-06

4.  The visual response properties of neurons in the nucleus of the basal optic root of the pigeon: a quantitative analysis.

Authors:  D R Wylie; B J Frost
Journal:  Exp Brain Res       Date:  1990       Impact factor: 1.972

5.  A faithful internal representation of walking movements in the Drosophila visual system.

Authors:  Terufumi Fujiwara; Tomás L Cruz; James P Bohnslav; M Eugenia Chiappe
Journal:  Nat Neurosci       Date:  2016-10-31       Impact factor: 24.884

6.  Neurophysiological properties of magnetic cells in the pigeon's visual system.

Authors:  P Semm; C Demaine
Journal:  J Comp Physiol A       Date:  1986-11       Impact factor: 1.836

7.  Direction-selective single units in the nucleus lentiformis mesencephali of the pigeon (Columba livia).

Authors:  B J Winterson; S E Brauth
Journal:  Exp Brain Res       Date:  1985       Impact factor: 1.972

8.  Stabilizing gaze reflexes in the pigeon (Columba livia). I. Horizontal and vertical optokinetic eye (OKN) and head (OCR) reflexes.

Authors:  H Gioanni
Journal:  Exp Brain Res       Date:  1988       Impact factor: 1.972

9.  Optokinetic nystagmus in the pigeon (Columba livia). III. Role of the nucleus ectomamillaris (nEM): interactions in the accessory optic system (AOS).

Authors:  H Gioanni; J Villalobos; J Rey; A Dalbera
Journal:  Exp Brain Res       Date:  1983       Impact factor: 1.972

10.  Selective depression of synaptic transmission of spinal neurones in the cat by a new centrally acting muscle relaxant, 5-chloro-4-(2-imidazolin-2-yl-amino)-2, 1, 3-benzothiodazole (DS103-282).

Authors:  J Davies
Journal:  Br J Pharmacol       Date:  1982-07       Impact factor: 8.739
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