BIOMAT Database Logo BIOMAT Database Logo

Visual receptive fields of cat cortical neurons lack the distinctive geniculate Y cell signature. 1987

H Spitzer, and S Hochstein

Retinal ganglion and lateral geniculate cells of the primary visual pathway may be categorized as X or Y according to their spatial linearity summation properties. In particular, Y cell spatial-frequency transfer functions have a distinctive spatial--linearity signature. Their receptive fields comprise a temporally and spatially linear mechanism (center plus antagonistic surround) that responds to relatively low spatial frequency stimuli, and a temporally nonlinear mechanism, coextensive with the linear mechanism, that--though broad in extent--responds best to high spatial-frequency stimuli. This component exhibits spatially nonlinear properties. We looked for this Y cell signature in cat visual cortical cells. If the predominant excitatory input to a certain type of cortical cell were from lateral geniculate nucleus (LGN) Y cells, we would expect to find the Y cell signature underlying the cortical cell transfer function. However, we have not found this Y cell signature in any of the cortical cell studied, and in particular not in the nonlinear complex cells. This would suggest that cortical spatial summation nonlinearities are not functionally derived from input Y cell nonlinearities.

UI MeSH Term Description Entries
D009474 Neurons The basic cellular units of nervous tissue. Each neuron consists of a body, an axon, and dendrites. Their purpose is to receive, conduct, and transmit impulses in the NERVOUS SYSTEM. Nerve Cells,Cell, Nerve,Cells, Nerve,Nerve Cell,Neuron
D012160 Retina The ten-layered nervous tissue membrane of the eye. It is continuous with the OPTIC NERVE and receives images of external objects and transmits visual impulses to the brain. Its outer surface is in contact with the CHOROID and the inner surface with the VITREOUS BODY. The outer-most layer is pigmented, whereas the inner nine layers are transparent. Ora Serrata
D002415 Cats The domestic cat, Felis catus, of the carnivore family FELIDAE, comprising over 30 different breeds. The domestic cat is descended primarily from the wild cat of Africa and extreme southwestern Asia. Though probably present in towns in Palestine as long ago as 7000 years, actual domestication occurred in Egypt about 4000 years ago. (From Walker's Mammals of the World, 6th ed, p801) Felis catus,Felis domesticus,Domestic Cats,Felis domestica,Felis sylvestris catus,Cat,Cat, Domestic,Cats, Domestic,Domestic Cat
D005154 Facial Nerve The 7th cranial nerve. The facial nerve has two parts, the larger motor root which may be called the facial nerve proper, and the smaller intermediate or sensory root. Together they provide efferent innervation to the muscles of facial expression and to the lacrimal and SALIVARY GLANDS, and convey afferent information for TASTE from the anterior two-thirds of the TONGUE and for TOUCH from the EXTERNAL EAR. Cranial Nerve VII,Marginal Mandibular Branch,Marginal Mandibular Nerve,Seventh Cranial Nerve,Nerve VII,Nerve of Wrisberg,Nervus Facialis,Nervus Intermedius,Nervus Intermedius of Wrisberg,Cranial Nerve VIIs,Cranial Nerve, Seventh,Facial Nerves,Mandibular Nerve, Marginal,Mandibular Nerves, Marginal,Marginal Mandibular Nerves,Nerve VIIs,Nerve, Facial,Nerve, Marginal Mandibular,Nerve, Seventh Cranial,Nerves, Marginal Mandibular,Nervus Faciali,Seventh Cranial Nerves,Wrisberg Nerve,Wrisberg Nervus Intermedius
D005830 Geniculate Ganglion The sensory ganglion of the facial (7th cranial) nerve. The geniculate ganglion cells send central processes to the brain stem and peripheral processes to the taste buds in the anterior tongue, the soft palate, and the skin of the external auditory meatus and the mastoid process. Large Superficial Petrosal Nerve,Superficial Petrosal Nerve,External Petrosal Nerve,Geniculate Ganglia,Greater Petrosal Nerve,Greater Superficial Petrosal Nerve,Lesser Petrosal Nerve,Nerve of the Pterygoid Canal,Vidian Nerve,External Petrosal Nerves,Ganglia, Geniculate,Ganglion, Geniculate,Greater Petrosal Nerves,Lesser Petrosal Nerves,Nerve, External Petrosal,Nerve, Greater Petrosal,Nerve, Lesser Petrosal,Nerve, Superficial Petrosal,Nerve, Vidian,Petrosal Nerve, External,Petrosal Nerve, Greater,Petrosal Nerve, Lesser,Petrosal Nerve, Superficial,Superficial Petrosal Nerves
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D012165 Retinal Ganglion Cells Neurons of the innermost layer of the retina, the internal plexiform layer. They are of variable sizes and shapes, and their axons project via the OPTIC NERVE to the brain. A small subset of these cells act as photoreceptors with projections to the SUPRACHIASMATIC NUCLEUS, the center for regulating CIRCADIAN RHYTHM. Cell, Retinal Ganglion,Cells, Retinal Ganglion,Ganglion Cell, Retinal,Ganglion Cells, Retinal,Retinal Ganglion Cell
D014785 Vision, Ocular The process in which light signals are transformed by the PHOTORECEPTOR CELLS into electrical signals which can then be transmitted to the brain. Vision,Light Signal Transduction, Visual,Ocular Vision,Visual Light Signal Transduction,Visual Phototransduction,Visual Transduction,Phototransduction, Visual,Transduction, Visual
D014793 Visual Cortex Area of the OCCIPITAL LOBE concerned with the processing of visual information relayed via VISUAL PATHWAYS. Area V2,Area V3,Area V4,Area V5,Associative Visual Cortex,Brodmann Area 18,Brodmann Area 19,Brodmann's Area 18,Brodmann's Area 19,Cortical Area V2,Cortical Area V3,Cortical Area V4,Cortical Area V5,Secondary Visual Cortex,Visual Cortex Secondary,Visual Cortex V2,Visual Cortex V3,Visual Cortex V3, V4, V5,Visual Cortex V4,Visual Cortex V5,Visual Cortex, Associative,Visual Motion Area,Extrastriate Cortex,Area 18, Brodmann,Area 18, Brodmann's,Area 19, Brodmann,Area 19, Brodmann's,Area V2, Cortical,Area V3, Cortical,Area V4, Cortical,Area V5, Cortical,Area, Visual Motion,Associative Visual Cortices,Brodmanns Area 18,Brodmanns Area 19,Cortex Secondary, Visual,Cortex V2, Visual,Cortex V3, Visual,Cortex, Associative Visual,Cortex, Extrastriate,Cortex, Secondary Visual,Cortex, Visual,Cortical Area V3s,Extrastriate Cortices,Secondary Visual Cortices,V3, Cortical Area,V3, Visual Cortex,V4, Area,V4, Cortical Area,V5, Area,V5, Cortical Area,V5, Visual Cortex,Visual Cortex Secondaries,Visual Cortex, Secondary,Visual Motion Areas
D014796 Visual Perception The selecting and organizing of visual stimuli based on the individual's past experience. Visual Processing,Perception, Visual,Processing, Visual

Related Publications

H Spitzer, and S Hochstein
Lack of homogeneity of receptive fields of visual neurons in the cortical area 18 of the cat.
January 1988, Biological cybernetics,
H Spitzer, and S Hochstein
[Dynamics of the receptive fields of visual cortex and lateral geniculate body neurons in the cat].
January 1982, Neirofiziologiia = Neurophysiology,
H Spitzer, and S Hochstein
[The receptive fields of the cat lateral geniculate body].
January 1971, Neirofiziologiia = Neurophysiology,
H Spitzer, and S Hochstein
Spatiotemporal organization of cat lateral geniculate receptive fields.
March 1976, Journal of neurophysiology,
H Spitzer, and S Hochstein
[Inhibitory zones of the receptive fields of the cat lateral geniculate body and visual cortex].
January 1973, Neirofiziologiia = Neurophysiology,
H Spitzer, and S Hochstein
[Influence of the somato-sensory stimulation on the visual receptive fields of suprageniculate and geniculate neurons in the chloralose anesthetized cat].
January 1969, Experimental brain research,
H Spitzer, and S Hochstein
[Organization of the receptive fields of the cat lateral geniculate body].
April 1973, Fiziologicheskii zhurnal SSSR imeni I. M. Sechenova,
H Spitzer, and S Hochstein
The organization of visual receptive fields or neurons in the cat colliculus superior.
January 1973, Acta neurobiologiae experimentalis,
H Spitzer, and S Hochstein
Organization of suppression in receptive fields of neurons in cat visual cortex.
July 1992, Journal of neurophysiology,
H Spitzer, and S Hochstein
[Changes in the receptive fields of cat lateral geniculate body neurons following removal of corticofugal influence].
January 1975, Neirofiziologiia = Neurophysiology,
Copied contents to your clipboard!