Mechanism for Selective Synaptic Wiring of Rod Photoreceptors into the Retinal Circuitry and Its Role in Vision
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- Collaboration types
- Domestic collaboration
- Citation topics
- 1 Clinical & Life Sciences
- 1.36 Ophthalmology
- 1.36.212 Genetic Retinopathies
- Web Of Science research areas
- Neurosciences
- ESI research areas
- Neuroscience & Behavior
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Source: InCites
Details
- Title
- Mechanism for Selective Synaptic Wiring of Rod Photoreceptors into the Retinal Circuitry and Its Role in Vision
- Creators
- Y. Cao - Scripps Research InstituteI. Sarria - Scripps Research InstituteK.E. Fehlhaber - University of California, Los AngelesN. Kamasawa - Max Planck Florida Institute for NeuroscienceC. Orlandi - Scripps Research InstituteK.N. James - Scripps Research InstituteJ.L. Hazen - Scripps Research InstituteM.R. Gardner - Scripps Research InstituteM. Farzan - Scripps Research InstituteA. Lee - University of IowaS. Baker - University of IowaK. Baldwin - Scripps Research InstituteA.P. Sampath - University of California, Los AngelesK.A. Martemyanov - Scripps Research Institute
- Publication Details
- Neuron, Vol.87(6), pp.1248-1260
- Publisher
- Cell Press
- Grant note
- NIH: EY018139, EY017606, NS084190, DC009433 Carver Research Program of Excellence awardJules Stein Eye Institute Vision Core Grant: EY000331 Research to Prevent Blindness, Inc.National Eye Institute: T32EY007026, P30EY000331
We wish to thank Dr. Lee Ann Higgins (University of Minnesota) for performing mass-spectrometry experiments, Ms. Natalia Martemyanova for producing and maintaining mice examined in this study, and Ms. Montina Van Meter in Histology Core, Scripps Florida for toluidine blue staining. This work was supported by NIH grants: EY018139 (K.A.M.), EY017606 (A.P.S.), NS084190 (A.L.), DC009433 (A.L.), a Carver Research Program of Excellence award (A.L.), and the Jules Stein Eye Institute Vision Core Grant EY000331 (A.P.S.). This work is also supported by an Unrestricted Grant from Research to Prevent Blindness, Inc. to the Department of Ophthalmology at UCLA. The R26floxstop-TeNT mouse strain was provided generously by Martin Goulding and mGluR6-tdTomato line was a gift from Rachel Wong.
- Comment
- Export Date: 24 October 2025; Cited By: 105; CODEN: NERNE
- Academic Unit
- Physiology and Biophysics Research; Miller School of Medicine
- Resource Type
- Journal article
- PMID
- 26402607
- Record Identifier
- 991032828756002976