Spatial summation and center-surround antagonism in the receptive field of single units in the dorsal lateral geniculate nucleus of cat: Comparison with retinal input
暂无分享,去创建一个
[1] J. Hirsch,et al. Modulation of postsynaptic activities of thalamic lateral geniculate neurons by spontaneous changes in number of retinal inputs in chronic cats. 1. Input-output relations , 1984, Neuroscience.
[2] Earl L. Smith,et al. Transfer characteristics of lateral geniculate nucleus X neurons in the cat: effects of spatial frequency and contrast. , 1995, Journal of neurophysiology.
[3] B. B. Lee,et al. A comparison of visual responses of cat lateral geniculate nucleus neurones with those of ganglion cells afferent to them. , 1985, The Journal of physiology.
[4] W. Freygang,et al. AN ANALYSIS OF EXTRACELLULAR POTENTIALS FROM SINGLE NEURONS IN THE LATERAL GENICULATE NUCLEUS OF THE CAT , 1958, The Journal of general physiology.
[5] U. Eysel,et al. Inhibitory periphery effect in geniculate neurons after elimination of specific retinogeniculate excitation , 1985, Neuroscience Letters.
[6] V. Glezer,et al. Investigations of receptive fields of cat's corpus geniculatum lateralis. Structural and functional model of the field. , 1972, Vision research.
[7] D. Hubel,et al. Effects of sleep and arousal on the processing of visual information in the cat , 1981, Nature.
[8] W Singer,et al. Cholinergic mechanisms in the reticular control of transmission in the cat lateral geniculate nucleus. , 1988, Journal of neurophysiology.
[9] D N Mastronarde,et al. Two classes of single-input X-cells in cat lateral geniculate nucleus. II. Retinal inputs and the generation of receptive-field properties. , 1987, Journal of neurophysiology.
[10] A. Sillito,et al. The cholinergic influence on the function of the cat dorsal lateral geniculate nucleus (dLGN) , 1983, Brain Research.
[11] J. Bullier,et al. X and Y relay cells in cat lateral geniculate nucleus: quantitative analysis of receptive-field properties and classification. , 1979, Journal of neurophysiology.
[12] R. Guillery,et al. Functional organization of thalamocortical relays. , 1996, Journal of neurophysiology.
[13] P. Hammond. Chromatic sensitivity and spatial organization of LGN neurone receptive fields in cat: cone‐rod interaction , 1972, The Journal of physiology.
[14] H C Pape,et al. Excitatory and differential disinhibitory actions of acetylcholine in the lateral geniculate nucleus of the cat. , 1986, The Journal of physiology.
[15] P. C. Murphy,et al. Feedback connections to the lateral geniculate nucleus and cortical response properties. , 1999, Science.
[16] Y. Fukuda,et al. Effects of EEG synchronization on visual responses of the cat's geniculate relay cells: a comparison among Y,X and W cells , 1988, Brain Research.
[17] R. W. Rodieck. Quantitative analysis of cat retinal ganglion cell response to visual stimuli. , 1965, Vision research.
[18] R. Shapley,et al. The receptive field organization of X-cells in the cat: Spatiotemporal coupling and asymmetry , 1984, Vision Research.
[19] P Heggelund,et al. Neurotransmitter receptors mediating excitatory input to cells in the cat lateral geniculate nucleus. II. Nonlagged cells. , 1990, Journal of neurophysiology.
[20] P Heggelund,et al. Response variability of single cells in the dorsal lateral geniculate nucleus of the cat. Comparison with retinal input and effect of brain stem stimulation. , 1994, Journal of neurophysiology.
[21] D. Hubel,et al. Integrative action in the cat's lateral geniculate body , 1961, The Journal of physiology.
[22] P. Heggelund,et al. Brain-stem influence on visual response of lagged and nonlagged cells in the cat lateral geniculate nucleus , 1993, Visual Neuroscience.
[23] E. Kaplan,et al. Dynamics of neurons in the cat lateral geniculate nucleus: in vivo electrophysiology and computational modeling. , 1995, Journal of neurophysiology.
[24] U. Eysel,et al. Inverse correlation of firing patterns of single topographically matched perigeniculate neurons and cat dorsal lateral geniculate relay cells , 1998, Visual Neuroscience.
[25] P. O. BISHOP,et al. Synapse Discharge by Single Fibre in Mammalian Visual System , 1958, Nature.
[26] S. Lindström,et al. Private inhibitory systems for the X and Y pathways in the dorsal lateral geniculate nucleus of the cat. , 1990, The Journal of physiology.
[27] E Kaplan,et al. Effects of dark adaptation on spatial and temporal properties of receptive fields in cat lateral geniculate nucleus. , 1979, The Journal of physiology.
[28] A. Wróbel,et al. Visual classification of X and Y perigeniculate neurons of the cat , 1994, Experimental Brain Research.
[29] L. Maffei,et al. The visual cortex as a spatial frequency analyser. , 1973, Vision research.
[30] V Virsu,et al. Phase of responses to moving sinusoidal gratings in cells of cat retina and lateral geniculate nucleus. , 1981, Journal of neurophysiology.
[31] W. Levick,et al. Lateral geniculate neurons of cat: retinal inputs and physiology. , 1972, Investigative ophthalmology.
[32] M. Morrone,et al. The role of gamma‐aminobutyric acid mediated inhibition in the response properties of cat lateral geniculate nucleus neurones. , 1984, The Journal of physiology.
[33] P. Hammond. Contrasts in spatial organization of receptive fields at geniculate and retinal levels: centre surround and outer surround , 1973, The Journal of physiology.
[34] Brain stem modulation of spatial receptive field properties of single cells in the dorsal lateral geniculate nucleus of the cat. , 1993, Journal of neurophysiology.
[35] Jonathan Stone,et al. Evidence of differential inhibitory influences on X- and Y-type relay cells in the cat's lateral geniculate nucleus , 1976, Brain Research.
[36] H. Pape,et al. Contributions of inhibitory mechanisms to the shift responses of X and Y cells in the cat lateral geniculate nucleus. , 1987, The Journal of physiology.
[37] B. Cleland,et al. Organization of visual inputs to interneurons of lateral geniculate nucleus of the cat. , 1977, Journal of neurophysiology.
[38] P. C. Murphy,et al. Effects of brain stem parabrachial activation on receptive field properties of cells in the cat's lateral geniculate nucleus. , 1995, Journal of neurophysiology.
[39] S. Sherman,et al. Effects of membrane voltage on receptive field properties of lateral geniculate neurons in the cat: contributions of the low-threshold Ca2+ conductance. , 1992, Journal of neurophysiology.
[40] Adam M. Sillito,et al. The influence of GABAergic inhibitory processes on the receptive field structure of X and Y cells in cat dorsal lateral geniculate nucleus (dLGN) , 1983, Brain Research.
[41] P. O. Bishop,et al. Residual eye movements in receptive-field studies of paralyzed cats. , 1967, Vision research.
[42] D. McCormick. Neurotransmitter actions in the thalamus and cerebral cortex and their role in neuromodulation of thalamocortical activity , 1992, Progress in Neurobiology.
[43] P Heggelund,et al. Mathematical models for the spatial receptive-field organization of nonlagged X-cells in dorsal lateral geniculate nucleus of cat , 2000, Visual Neuroscience.
[44] W. Levick,et al. Sustained and transient neurones in the cat's retina and lateral geniculate nucleus , 1971, The Journal of physiology.
[45] D N Mastronarde,et al. Two classes of single-input X-cells in cat lateral geniculate nucleus. I. Receptive-field properties and classification of cells. , 1987, Journal of neurophysiology.
[46] A L Humphrey,et al. Action of brain stem reticular afferents on lagged and nonlagged cells in the cat lateral geniculate nucleus. , 1992, Journal of neurophysiology.
[47] C. Koch,et al. Encoding of visual information by LGN bursts. , 1999, Journal of neurophysiology.
[48] D. Godwin,et al. Inhibitory GABAergic control of visual signals at the lateral geniculate nucleus. , 1992, Progress in brain research.
[49] L Maffei,et al. Retinogeniculate convergence and analysis of contrast. , 1972, Journal of neurophysiology.
[50] R. Shapley,et al. Spatial tuning of cells in and around lateral geniculate nucleus of the cat: X and Y relay cells and perigeniculate interneurons. , 1981, Journal of neurophysiology.
[51] E Kaplan,et al. Contrast affects the transmission of visual information through the mammalian lateral geniculate nucleus. , 1987, The Journal of physiology.
[52] D N Mastronarde,et al. Nonlagged relay cells and interneurons in the cat lateral geniculate nucleus: Receptive-field properties and retinal inputs , 1992, Visual Neuroscience.