Onkar S. Dhande
Affiliations: | 2016- | Neurobiology | Stanford University, Palo Alto, CA |
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"Onkar Dhande"Mean distance: 14.03 (cluster 6) | S | N | B | C | P |
Cross-listing: BCM Tree
Parents
Sign in to add mentor| Michael C. Crair | grad student | 2005-2011 | Baylor College of Medicine |
| Andrew D. Huberman | post-doc | 2011- | UCSD |
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Publications
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| Varadarajan SG, Wang F, Dhande OS, et al. (2023) Postsynaptic neuronal activity promotes regeneration of retinal axons. Cell Reports. 42: 112476 |
| Kowal TJ, Dhande OS, Wang B, et al. (2022) Distribution of prototypical primary cilia markers in subtypes of retinal ganglion cells. The Journal of Comparative Neurology |
| Alvarado JA, Dhande OS, Prosseda PP, et al. (2020) Developmental Distribution of Primary Cilia in the Retinofugal Visual Pathway. The Journal of Comparative Neurology |
| Dhande OS, Stafford BK, Franke K, et al. (2018) Molecular fingerprinting of On-Off direction selective retinal ganglion cells across species and relevance to primate visual circuits. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience |
| Seabrook TA, Dhande OS, Ishiko N, et al. (2017) Strict Independence of Parallel and Poly-synaptic Axon-Target Matching during Visual Reflex Circuit Assembly. Cell Reports. 21: 3049-3064 |
| Dhande OS, Stafford BK, Lim JA, et al. (2015) Contributions of Retinal Ganglion Cells to Subcortical Visual Processing and Behaviors. Annual Review of Vision Science. 1: 291-328 |
| Tang JC, Rudolph S, Dhande OS, et al. (2015) Cell type-specific manipulation with GFP-dependent Cre recombinase. Nature Neuroscience |
| Sun LO, Brady CM, Cahill H, et al. (2015) Functional assembly of accessory optic system circuitry critical for compensatory eye movements. Neuron. 86: 971-84 |
| Sun LO, Brady CM, Cahill H, et al. (2015) Functional Assembly of Accessory Optic System Circuitry Critical for Compensatory Eye Movements Neuron. 86: 971-984 |
| Cruz-MartÃn A, El-Danaf RN, Osakada F, et al. (2014) A dedicated circuit links direction-selective retinal ganglion cells to the primary visual cortex. Nature. 507: 358-61 |