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Visual neuroscience

Showing results (61-70 of 2,286) with videos related to

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Visual Neuroscience|March 1, 2005
Effects of light intensity and pattern contrast on the ability of the land crab, Cardisoma guanhumi, to separate optic flow-field componentsAaron P Johnson, W Jon P Barnes, Martin W S Macauley
Visual Neuroscience|March 1, 2005
Visual pigment composition in zebrafish: Evidence for a rhodopsin-porphyropsin interchange systemW Ted Allison, Theodore J Haimberger, Craig W Hawryshyn, et al.
Visual Neuroscience|December 8, 2004
How much feedback from visual cortex to lateral geniculate nucleus in cat: a perspectiveJulian M L Budd
Visual Neuroscience|December 8, 2004
Retinal glucose metabolism in mice lacking the L-glutamate/aspartate transporterVijay P Sarthy, V Joseph Dudley, Kohichi Tanaka
Visual Neuroscience|December 8, 2004
Experience-dependent changes in NMDAR1 expression in the visual cortex of an animal model for amblyopiaKathryn M Murphy, Kevin R Duffy, David G Jones
Visual Neuroscience|October 11, 2005
Wide-field ganglion cells in macaque retinasElizabeth S Yamada, Andrea S Bordt, David W Marshak
Visual Neuroscience|October 11, 2005
Spatial coding and response redundancy in parallel visual pathways of the marmoset Callithrix jacchusJason D Forte, Maziar Hashemi-Nezhad, William J Dobbie, et al.
Visual Neuroscience|October 11, 2005
Spatiotemporal integration of light by the cat X-cell center under photopic and scotopic conditionsJ B Troy, D L Bohnsack, J Chen, et al.
Visual Neuroscience|October 11, 2005
Photoreceptors in the rat retina are specifically vulnerable to both hypoxia and hyperoxiaJohn Wellard, Donald Lee, Krisztina Valter, et al.
Visual Neuroscience|October 11, 2005
"Small-tufted" ganglion cells and two visual systems for the detection of object motion in rabbit retinaE V Famiglietti
Pageof 229

Showing results (61-70 of 2,286) with videos related to

Sort By:
Pageof 229
Visual Neuroscience|March 1, 2005
Effects of light intensity and pattern contrast on the ability of the land crab, Cardisoma guanhumi, to separate optic flow-field componentsAaron P Johnson, W Jon P Barnes, Martin W S Macauley
Visual Neuroscience|March 1, 2005
Visual pigment composition in zebrafish: Evidence for a rhodopsin-porphyropsin interchange systemW Ted Allison, Theodore J Haimberger, Craig W Hawryshyn, et al.
Visual Neuroscience|December 8, 2004
How much feedback from visual cortex to lateral geniculate nucleus in cat: a perspectiveJulian M L Budd
Visual Neuroscience|December 8, 2004
Retinal glucose metabolism in mice lacking the L-glutamate/aspartate transporterVijay P Sarthy, V Joseph Dudley, Kohichi Tanaka
Visual Neuroscience|December 8, 2004
Experience-dependent changes in NMDAR1 expression in the visual cortex of an animal model for amblyopiaKathryn M Murphy, Kevin R Duffy, David G Jones
Visual Neuroscience|October 11, 2005
Wide-field ganglion cells in macaque retinasElizabeth S Yamada, Andrea S Bordt, David W Marshak
Visual Neuroscience|October 11, 2005
Spatial coding and response redundancy in parallel visual pathways of the marmoset Callithrix jacchusJason D Forte, Maziar Hashemi-Nezhad, William J Dobbie, et al.
Visual Neuroscience|October 11, 2005
Spatiotemporal integration of light by the cat X-cell center under photopic and scotopic conditionsJ B Troy, D L Bohnsack, J Chen, et al.
Visual Neuroscience|October 11, 2005
Photoreceptors in the rat retina are specifically vulnerable to both hypoxia and hyperoxiaJohn Wellard, Donald Lee, Krisztina Valter, et al.
Visual Neuroscience|October 11, 2005
"Small-tufted" ganglion cells and two visual systems for the detection of object motion in rabbit retinaE V Famiglietti
Pageof 229