Strength and Orientation Tuning of the Thalamic Input to Simple Cells Revealed by Electrically Evoked Cortical Suppression

[1]  D. Ferster,et al.  Direction selectivity of synaptic potentials in simple cells of the cat visual cortex. , 1997, Journal of neurophysiology.

[2]  R. Shapley,et al.  Dynamics of orientation tuning in macaque primary visual cortex , 1997, Nature.

[3]  Y. Frégnac,et al.  Voltage-clamp measurement of visually-evoked conductances with whole-cell patch recordings in primary visual cortex , 1996, Journal of Physiology-Paris.

[4]  R. Reid,et al.  Precisely correlated firing in cells of the lateral geniculate nucleus , 1996, Nature.

[5]  K. Martin,et al.  Excitatory synaptic inputs to spiny stellate cells in cat visual cortex , 1996, Nature.

[6]  G. Orban,et al.  Model circuit of spiking neurons generating directional selectivity in simple cells. , 1996, Journal of neurophysiology.

[7]  D. Ferster,et al.  Orientation selectivity of thalamic input to simple cells of cat visual cortex , 1996, Nature.

[8]  R. Reid,et al.  Specificity of monosynaptic connections from thalamus to visual cortex , 1995, Nature.

[9]  D. Fitzpatrick,et al.  Patterns of excitation and inhibition evoked by horizontal connections in visual cortex share a common relationship to orientation columns , 1995, Neuron.

[10]  C. Koch,et al.  Recurrent excitation in neocortical circuits , 1995, Science.

[11]  S. Nelson,et al.  An emergent model of orientation selectivity in cat visual cortical simple cells , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[12]  H. Sompolinsky,et al.  Theory of orientation tuning in visual cortex. , 1995, Proceedings of the National Academy of Sciences of the United States of America.

[13]  Trichur Raman Vidyasagar,et al.  Receptive field analysis and orientation selectivity of postsynaptic potentials of simple cells in cat visual cortex , 1994, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[14]  S. Nelson,et al.  Orientation selectivity of cortical neurons during intracellular blockade of inhibition. , 1994, Science.

[15]  M. Carandini,et al.  Summation and division by neurons in primate visual cortex. , 1994, Science.

[16]  J. C. Anderson,et al.  Polyneuronal innervation of spiny stellate neurons in cat visual cortex , 1994, The Journal of comparative neurology.

[17]  D. Ferster,et al.  Linearity of summation of synaptic potentials underlying direction selectivity in simple cells of the cat visual cortex. , 1993, Science.

[18]  I. Ohzawa,et al.  Organization of suppression in receptive fields of neurons in cat visual cortex. , 1992, Journal of neurophysiology.

[19]  D. Ferster,et al.  EPSP-IPSP interactions in cat visual cortex studied with in vivo whole- cell patch recording , 1992, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[20]  R. Douglas,et al.  A functional microcircuit for cat visual cortex. , 1991, The Journal of physiology.

[21]  D. Whitteridge,et al.  Mechanisms of inhibition in cat visual cortex. , 1991, The Journal of physiology.

[22]  M. Stryker,et al.  Relation of cortical cell orientation selectivity to alignment of receptive fields of the geniculocortical afferents that arborize within a single orientation column in ferret visual cortex , 1991, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[23]  F. Wörgötter,et al.  Quantification and Comparison of Cell Properties in Cat's Striate Cortex Determined by Different Types of Stimuli , 1990, The European journal of neuroscience.

[24]  J. Movshon,et al.  Selectivity for orientation and direction of motion of single neurons in cat striate and extrastriate visual cortex. , 1990, Journal of neurophysiology.

[25]  T. Wiesel,et al.  Columnar specificity of intrinsic horizontal and corticocortical connections in cat visual cortex , 1989, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[26]  A. B. Bonds Role of Inhibition in the Specification of Orientation Selectivity of Cells in the Cat Striate Cortex , 1989, Visual Neuroscience.

[27]  B. Connors,et al.  Two inhibitory postsynaptic potentials, and GABAA and GABAB receptor‐mediated responses in neocortex of rat and cat. , 1988, The Journal of physiology.

[28]  H. Tamura,et al.  Inhibition contributes to orientation selectivity in visual cortex of cat , 1988, Nature.

[29]  D. Whitteridge,et al.  Selective responses of visual cortical cells do not depend on shunting inhibition , 1988, Nature.

[30]  D. Ferster Spatially opponent excitation and inhibition in simple cells of the cat visual cortex , 1988, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[31]  I. Ohzawa,et al.  The effects of contrast on visual orientation and spatial frequency discrimination: a comparison of single cells and behavior. , 1987, Journal of neurophysiology.

[32]  S. Levay,et al.  Synaptic organization of claustral and geniculate afferents to the visual cortex of the cat , 1986, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[33]  R. Freeman,et al.  A comparison of inhibition in orientation and spatial frequency selectivity of cat visual cortex , 1986, Nature.

[34]  D. Ferster Orientation selectivity of synaptic potentials in neurons of cat primary visual cortex , 1986, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[35]  Massimo Avoli,et al.  Inhibitory potentials in neurons of the deep layers of the in vitro neocortical slice , 1986, Brain Research.

[36]  T. Wiesel,et al.  Relationships between horizontal interactions and functional architecture in cat striate cortex as revealed by cross-correlation analysis , 1986, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[37]  D Ferster,et al.  Augmenting responses evoked in area 17 of the cat by intracortical axon collaterals of cortico‐geniculate cells. , 1985, The Journal of physiology.

[38]  T. P. S. Powell,et al.  Laminar cell counts and geniculo-cortical boutons in area 17 of cat and monkey , 1983, Brain Research.

[39]  D. Ferster,et al.  An intracellular analysis of geniculo‐cortical connectivity in area 17 of the cat. , 1983, The Journal of physiology.

[40]  K. Tanaka Cross-correlation analysis of geniculostriate neuronal relationships in cats. , 1983, Journal of neurophysiology.

[41]  T. Wiesel,et al.  Clustered intrinsic connections in cat visual cortex , 1983, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[42]  D. Burr,et al.  Functional implications of cross-orientation inhibition of cortical visual cells. I. Neurophysiological evidence , 1982, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[43]  A. Sillito,et al.  A re-evaluation of the mechanisms underlying simple cell orientation selectivity , 1980, Brain Research.

[44]  T. Wiesel,et al.  Morphology and intracortical projections of functionally characterised neurones in the cat visual cortex , 1979, Nature.

[45]  J. Movshon,et al.  Spatial summation in the receptive fields of simple cells in the cat's striate cortex. , 1978, The Journal of physiology.

[46]  D. Rose Responses of single units in cat visual cortex to moving bars of light as a function of bar length , 1977, The Journal of physiology.

[47]  C. Gilbert Laminar differences in receptive field properties of cells in cat primary visual cortex , 1977, The Journal of physiology.

[48]  C. Gilbert,et al.  Laminar patterns of geniculocortical projection in the cat , 1976, Brain Research.

[49]  A. Sillito The contribution of inhibitory mechanisms to the receptive field properties of neurones in the striate cortex of the cat. , 1975, The Journal of physiology.

[50]  J. Pettigrew,et al.  A study of inhibitory antagonism in cat visual cortex , 1975, Brain Research.

[51]  P. O. Bishop,et al.  Orientation, axis and direction as stimulus parameters for striate cells. , 1974, Vision research.

[52]  T. Powell,et al.  An experimental study of the termination of the lateral geniculo–cortical pathway in the cat and monkey , 1971, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[53]  G. F. Cooper,et al.  The angular selectivity of visual cortical cells to moving gratings , 1968, The Journal of physiology.

[54]  K. Krnjević,et al.  An inhibitory process in the cerebral cortex , 1966, The Journal of physiology.

[55]  C. Li,et al.  Cortical intracellular potentials in response to stimulation to lateral geniculate body. , 1960, Journal of neurophysiology.

[56]  D. Hubel Tungsten Microelectrode for Recording from Single Units. , 1957, Science.

[57]  A. Peters,et al.  Numerical relationships between geniculocortical afferents and pyramidal cell modules in cat primary visual cortex. , 1993, Cerebral cortex.

[58]  A. B. Bonds selectivity of cells in the cat striate cortex , 1989 .

[59]  O D Creutzfeldt,et al.  Relations between EEG phenomena and potentials of single cortical cells. I. Evoked responses after thalamic and erpicortical stimulation. , 1966, Electroencephalography and clinical neurophysiology.