Visual input evokes transient and strong shunting inhibition in visual cortical neurons
暂无分享,去创建一个
[1] L. W. Mapson,et al. Quantitative estimation of ascorbic acid and related substances in biological extracts by separation on a paper chromatogram. , 1953, The Biochemical journal.
[2] D. Hubel,et al. Receptive fields, binocular interaction and functional architecture in the cat's visual cortex , 1962, The Journal of physiology.
[3] B. L. Ginsborg. THE PHYSIOLOGY OF SYNAPSES , 1964 .
[4] J. Eccles. The Physiology of Synapses , 1964, Springer Berlin Heidelberg.
[5] K. Krnjević,et al. Cortical inhibition and gamma-aminobutyric acid. , 1969, Experimental brain research.
[6] 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.
[7] L. Palmer,et al. Receptive-field structure in cat striate cortex. , 1981, Journal of neurophysiology.
[8] Professor Dr. Guy A. Orban. Neuronal Operations in the Visual Cortex , 1983, Studies of Brain Function.
[9] Non-Visual Influences on Cat Visual Cortex , 1984 .
[10] D. Rose,et al. Models of the visual cortex , 1985 .
[11] G. Ludwig,et al. Mannose metabolism in corn and its impact on leaf metabolites, photosynthetic gas exchange, and chlorophyll fluorescence. , 1986, Plant physiology.
[12] J. Barker,et al. Outward rectification of inhibitory postsynaptic currents in cultured rat hippocampal neurones. , 1988, The Journal of physiology.
[13] D. Whitteridge,et al. Selective responses of visual cortical cells do not depend on shunting inhibition , 1988, Nature.
[14] 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.
[15] 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.
[17] C. Koch,et al. Visibility of synaptically induced conductance changes: theory and simulations of anatomically characterized cortical pyramidal cells , 1990, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[18] O D Creutzfeldt,et al. Whole cell recording and conductance measurements in cat visual cortex in-vivo. , 1991, Neuroreport.
[19] D. Whitteridge,et al. Mechanisms of inhibition in cat visual cortex. , 1991, The Journal of physiology.
[20] 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.
[21] D. Ferster,et al. Linearity of summation of synaptic potentials underlying direction selectivity in simple cells of the cat visual cortex. , 1993, Science.
[22] N. Spruston,et al. Voltage- and space-clamp errors associated with the measurement of electrotonically remote synaptic events. , 1993, Journal of neurophysiology.
[23] Trichur Raman Vidyasagar,et al. Excitation and inhibition in orientation selectivity of cat visual cortex neurons revealed by whole-cell recordings in vivo , 1993, Visual Neuroscience.
[24] T. Sejnowski,et al. Effects of inhibition and dendritic saturation in simulated neocortical pyramidal cells. , 1994, Journal of neurophysiology.
[25] S. Nelson,et al. Orientation selectivity of cortical neurons during intracellular blockade of inhibition. , 1994, Science.
[26] J. C. Anderson,et al. Map of the synapses formed with the dendrites of spiny stellate neurons of cat visual cortex , 1994, The Journal of comparative neurology.
[27] M. Carandini,et al. Summation and division by neurons in primate visual cortex. , 1994, Science.
[28] R. Last,et al. Environmental stress sensitivity of an ascorbic acid-deficient Arabidopsis mutant. , 1996, Proceedings of the National Academy of Sciences of the United States of America.
[29] M. Carandini,et al. A tonic hyperpolarization underlying contrast adaptation in cat visual cortex. , 1997, Science.
[30] R. Dennis,et al. Sarcomere dynamics and contraction‐induced injury to maximally activated single muscle fibres from soleus muscles of rats. , 1997, The Journal of physiology.
[31] V. Bringuier,et al. Synaptic origin and stimulus dependency of neuronal oscillatory activity in the primary visual cortex of the cat. , 1997, The Journal of physiology.
[32] Y. Frégnac,et al. Activity‐dependent regulation of ‘on’ and ‘off’ responses in cat visual cortical receptive fields , 1998, The Journal of physiology.