Tim Gollisch
Affiliations: | Georg-August-Universität Göttingen, Göttingen, Niedersachsen, Germany |
Area:
RetinaGoogle:
"Tim Gollisch"Mean distance: 13.7 (cluster 17) | S | N | B | C | P |
Parents
Sign in to add mentor| Andreas V. Herz | grad student | 2000-2004 | HU Berlin |
| Markus Meister | post-doc | 2004-2007 | Harvard |
Children
Sign in to add trainee| Helene M Schreyer | grad student | Universität Göttingen | |
| Dimokratis Karamanlis | grad student | 2017-2022 | University Medical Center Göttingen |
| Jian K. Liu | post-doc |
BETA: Related publications
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Publications
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| Karamanlis D, Khani MH, Schreyer HM, et al. (2024) Nonlinear receptive fields evoke redundant retinal coding of natural scenes. Nature |
| Krüppel S, Khani MH, Schreyer HM, et al. (2024) Applying Super-Resolution and Tomography Concepts to Identify Receptive Field Subunits in the Retina. Plos Computational Biology. 20: e1012370 |
| Burg MF, Zenkel T, Vystrčilová M, et al. (2024) Most discriminative stimuli for functional cell type clustering. Arxiv |
| Krüppel S, Khani MH, Karamanlis D, et al. (2023) Diversity of Ganglion Cell Responses to Saccade-like Image Shifts in the Primate Retina. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience |
| Karamanlis D, Schreyer HM, Gollisch T. (2022) Retinal Encoding of Natural Scenes. Annual Review of Vision Science |
| Zapp SJ, Nitsche S, Gollisch T. (2022) Retinal receptive-field substructure: scaffolding for coding and computation. Trends in Neurosciences |
| Liu JK, Karamanlis D, Gollisch T. (2022) Simple model for encoding natural images by retinal ganglion cells with nonlinear spatial integration. Plos Computational Biology. 18: e1009925 |
| Schreyer HM, Gollisch T. (2021) Nonlinear spatial integration in retinal bipolar cells shapes the encoding of artificial and natural stimuli. Neuron |
| Khani MH, Gollisch T. (2021) Linear and nonlinear chromatic integration in the mouse retina. Nature Communications. 12: 1900 |
| Karamanlis D, Gollisch T. (2021) Nonlinear spatial integration underlies the diversity of retinal ganglion cell responses to natural images. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience |