| Visual space is represented by nonmatching topographies of distinct mouse retinal ganglion cell types A Bleckert, GW Schwartz, MH Turner, F Rieke, ROL Wong Current Biology 24 (3), 310-315, 2014 | 247 | 2014 |
| The spatial structure of a nonlinear receptive field GW Schwartz, H Okawa, FA Dunn, JL Morgan, D Kerschensteiner, ... Nature neuroscience 15 (11), 1572-1580, 2012 | 212 | 2012 |
| Synchronized firing among retinal ganglion cells signals motion reversal G Schwartz, S Taylor, C Fisher, R Harris, MJ Berry Neuron 55 (6), 958-969, 2007 | 130 | 2007 |
| The synaptic and circuit mechanisms underlying a change in spatial encoding in the retina WN Grimes, GW Schwartz, F Rieke Neuron 82 (2), 460-473, 2014 | 128 | 2014 |
| Detection and prediction of periodic patterns by the retina G Schwartz, R Harris, D Shrom, MJ Berry Nature neuroscience 10 (5), 552-554, 2007 | 122 | 2007 |
| Shadows of the past: Temporal retrieval effects in recognition memory G Schwartz, MW Howard, B Jing, MJ Kahana Psychological Science 16 (11), 898-904, 2005 | 120 | 2005 |
| Unified classification of mouse retinal ganglion cells using function, morphology, and gene expression J Goetz, ZF Jessen, A Jacobi, A Mani, S Cooler, D Greer, S Kadri, J Segal, ... Cell reports 40 (2), 2022 | 113 | 2022 |
| Nonlinear spatiotemporal integration by electrical and chemical synapses in the retina SP Kuo, GW Schwartz, F Rieke Neuron 90 (2), 320-332, 2016 | 101 | 2016 |
| Cardinal orientation selectivity is represented by two distinct ganglion cell types in mouse retina A Nath, GW Schwartz Journal of Neuroscience 36 (11), 3208-3221, 2016 | 88 | 2016 |
| Three small-receptive-field ganglion cells in the mouse retina are distinctly tuned to size, speed, and object motion J Jacoby, GW Schwartz Journal of Neuroscience 37 (3), 610-625, 2017 | 86 | 2017 |
| The dynamic receptive fields of retinal ganglion cells S Wienbar, GW Schwartz Progress in retinal and eye research 67, 102-117, 2018 | 75 | 2018 |
| Sophisticated temporal pattern recognition in retinal ganglion cells G Schwartz, MJ Berry 2nd Journal of neurophysiology 99 (4), 1787-1798, 2008 | 74 | 2008 |
| Electrical synapses convey orientation selectivity in the mouse retina A Nath, GW Schwartz Nature communications 8 (1), 2025, 2017 | 73 | 2017 |
| Receptive field center-surround interactions mediate context-dependent spatial contrast encoding in the retina MH Turner, GW Schwartz, F Rieke Elife 7, e38841, 2018 | 70 | 2018 |
| Nonlinear spatial encoding by retinal ganglion cells: when 1+ 1≠ 2 G Schwartz, F Rieke Journal of General Physiology 138 (3), 283-290, 2011 | 70 | 2011 |
| An amacrine cell circuit for signaling steady illumination in the retina J Jacoby, Y Zhu, SH DeVries, GW Schwartz Cell reports 13 (12), 2663-2670, 2015 | 67 | 2015 |
| Circuit mechanisms of a retinal ganglion cell with stimulus-dependent response latency and activation beyond its dendrites A Mani, GW Schwartz Current Biology 27 (4), 471-482, 2017 | 61 | 2017 |
| Molecular signatures of retinal ganglion cells revealed through single cell profiling LA Laboissonniere, JJ Goetz, GM Martin, R Bi, TJS Lund, L Ellson, ... Scientific reports 9 (1), 15778, 2019 | 59 | 2019 |
| Alert response to motion onset in the retina EY Chen, O Marre, C Fisher, G Schwartz, J Levy, RA da Silveira, MJ Berry Journal of Neuroscience 33 (1), 120-132, 2013 | 58 | 2013 |
| Hemodynamic response of the three macular capillary plexuses in dark adaptation and flicker stimulation using optical coherence tomography angiography PL Nesper, HE Lee, AE Fayed, GW Schwartz, F Yu, AA Fawzi Investigative Ophthalmology & Visual Science 60 (2), 694-703, 2019 | 50 | 2019 |
