Response variability of neurons in primary visual cortex (V1) of alert monkeys M Gur, A Beylin, DM Snodderly Journal of Neuroscience 17 (8), 2914-2920, 1997 | 319 | 1997 |
Selective activation of visual cortex neurons by fixational eye movements: implications for neural coding DM Snodderly, I Kagan, M Gur Visual neuroscience 18 (2), 259-277, 2001 | 186 | 2001 |
A dissociation between brain activity and perception: chromatically opponent cortical neurons signal chromatic flicker that is not perceived M Gur, DM Snodderly Vision research 37 (4), 377-382, 1997 | 178 | 1997 |
Organization of striate cortex of alert, trained monkeys (Macaca fascicularis): ongoing activity, stimulus selectivity, and widths of receptive field activating regions DM Snodderly, M Gur Journal of Neurophysiology 74 (5), 2100-2125, 1995 | 175 | 1995 |
Saccades and drifts differentially modulate neuronal activity in V1: effects of retinal image motion, position, and extraretinal influences I Kagan, M Gur, DM Snodderly Journal of vision 8 (14), 19-19, 2008 | 162 | 2008 |
Orientation and direction selectivity of neurons in V1 of alert monkeys: functional relationships and laminar distributions M Gur, I Kagan, DM Snodderly Cerebral Cortex 15 (8), 1207-1221, 2005 | 159 | 2005 |
Spatial organization of receptive fields of V1 neurons of alert monkeys: comparison with responses to gratings I Kagan, M Gur, DM Snodderly Journal of neurophysiology 88 (5), 2557-2574, 2002 | 99 | 2002 |
High response reliability of neurons in primary visual cortex (V1) of alert, trained monkeys M Gur, DM Snodderly Cerebral cortex 16 (6), 888-895, 2006 | 94 | 2006 |
Visual stability and space perception in monocular vision: Mathematical model I Hadani, G Ishai, M Gur JOSA 70 (1), 60-65, 1980 | 93 | 1980 |
Visual receptive fields of neurons in primary visual cortex (V1) move in space with the eye movements of fixation M Gur, DMAX NODDERLY Vision research 37 (3), 257-265, 1997 | 91 | 1997 |
Isoluminant stimuli may not expose the full contribution of color to visual functioning: spatial contrast sensitivity measurements indicate interaction between color and … M Gur, V Akri Vision Research 32 (7), 1253-1262, 1992 | 79 | 1992 |
Changes in the oscillatory potentials of the electroretinogram in glaucoma M Gur, YY Zeevi, M Bielik, E Neumann Current eye research 6 (3), 457-466, 1987 | 69 | 1987 |
Studying striate cortex neurons in behaving monkeys: benefits of image stabilization M Gur, DM Snodderly Vision research 27 (12), 2081-2087, 1987 | 61 | 1987 |
Physiological properties of macaque V1 neurons are correlated with extracellular spike amplitude, duration, and polarity M Gur, A Beylin, DM Snodderly Journal of neurophysiology 82 (3), 1451-1464, 1999 | 59 | 1999 |
Space reconstruction by primary visual cortex activity: a parallel, non-computational mechanism of object representation M Gur Trends in neurosciences 38 (4), 207-216, 2015 | 55 | 2015 |
Direction selectivity in V1 of alert monkeys: evidence for parallel pathways for motion processing M Gur, DM Snodderly The Journal of physiology 585 (2), 383-400, 2007 | 50 | 2007 |
Frequency-domain analysis of the human electroretinogram M Gur, Y Zeevi JOSA 70 (1), 53-59, 1980 | 42 | 1980 |
Physiological differences between neurons in layer 2 and layer 3 of primary visual cortex (V1) of alert macaque monkeys M Gur, DM Snodderly The Journal of physiology 586 (9), 2293-2306, 2008 | 41 | 2008 |
Retinal ganglion cell activity in the ground squirrel under halothane anesthesia M Gur, RL Purple Vision Research 18 (1), 1-14, 1978 | 31 | 1978 |
Refractive state of the eye of a small diurnal mammal: the ground squirrel M Gur, JG Sivak Optometry and Vision Science 56 (11), 689-695, 1979 | 28 | 1979 |