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Orson L Moritz

Showing results (21-30 of 51) with videos related to

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Investigative Ophthalmology & Visual Science|September 11, 2009
Fourier domain optical coherence tomography as a noninvasive means for in vivo detection of retinal degeneration in Xenopus laevis tadpolesDamian C Lee, Jing Xu, Marinko V Sarunic, et al.
Experimental Eye Research|October 24, 2025
RPE65 knockout Xenopus laevis have a compromised but detectable electroretinogram and altered visual responses, without retinal degeneration or altered melanophore dispersionColette N Chiu, Beatrice M Tam, Paloma Burns, et al.
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience|August 1, 2024
Synchronized Photoactivation of T4K Rhodopsin Causes a Chromophore-Dependent Retinal Degeneration That Is Moderated by Interaction with Phototransduction Cascade ComponentsBeatrice M Tam, Paloma Burns, Colette N Chiu, et al.
Methods in Molecular Biology (Clifton, N.J.)|November 15, 2012
Generation of transgenic X. laevis models of retinal degenerationBeatrice M Tam, Christine C-L Lai, Zusheng Zong, et al.
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience|October 3, 2014
Photoactivation-induced instability of rhodopsin mutants T4K and T17M in rod outer segments underlies retinal degeneration in X. laevis transgenic models of retinitis pigmentosaBeatrice M Tam, Syed M Noorwez, Shalesh Kaushal, et al.
Investigative Ophthalmology & Visual Science|March 7, 2019
Electrophysiological Changes During Early Steps of Retinitis PigmentosaUlisse Bocchero, Beatrice M Tam, Colette N Chiu, et al.
Methods in Molecular Biology (Clifton, N.J.)|October 17, 2018
Generation and Analysis of Xenopus laevis Models of Retinal Degeneration Using CRISPR/Cas9Joanna M Feehan, Paloma Stanar, Beatrice M Tam, et al.
Advances in Experimental Medicine and Biology|December 30, 2019
Autophagy Induction by HDAC Inhibitors Is Unlikely to be the Mechanism of Efficacy in Prevention of Retinal Degeneration Caused by P23H RhodopsinRunxia H Wen, Aaron D Loewen, Ruanne Y J Vent-Schmidt, et al.
Biorxiv : the Preprint Server for Biology|June 19, 2024
Prominin-1 null Xenopus laevis develop subretinal drusenoid-like deposits, cone-rod dystrophy, and RPE atrophyBrittany J Carr, Dominic Skitsko, Jun Song, et al.
Investigative Ophthalmology & Visual Science|December 2, 2025
A Survey of Opsin Localization, Glycosylation, and Light/Chromophore Influence on Degeneration in 26 Rhodopsin-Associated RP ModelsAaron D Loewen, Beatrice M Tam, Colette N Chiu, et al.
Pageof 6

Showing results (21-30 of 51) with videos related to

Sort By:
Pageof 6
Investigative Ophthalmology & Visual Science|September 11, 2009
Fourier domain optical coherence tomography as a noninvasive means for in vivo detection of retinal degeneration in Xenopus laevis tadpolesDamian C Lee, Jing Xu, Marinko V Sarunic, et al.
Experimental Eye Research|October 24, 2025
RPE65 knockout Xenopus laevis have a compromised but detectable electroretinogram and altered visual responses, without retinal degeneration or altered melanophore dispersionColette N Chiu, Beatrice M Tam, Paloma Burns, et al.
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience|August 1, 2024
Synchronized Photoactivation of T4K Rhodopsin Causes a Chromophore-Dependent Retinal Degeneration That Is Moderated by Interaction with Phototransduction Cascade ComponentsBeatrice M Tam, Paloma Burns, Colette N Chiu, et al.
Methods in Molecular Biology (Clifton, N.J.)|November 15, 2012
Generation of transgenic X. laevis models of retinal degenerationBeatrice M Tam, Christine C-L Lai, Zusheng Zong, et al.
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience|October 3, 2014
Photoactivation-induced instability of rhodopsin mutants T4K and T17M in rod outer segments underlies retinal degeneration in X. laevis transgenic models of retinitis pigmentosaBeatrice M Tam, Syed M Noorwez, Shalesh Kaushal, et al.
Investigative Ophthalmology & Visual Science|March 7, 2019
Electrophysiological Changes During Early Steps of Retinitis PigmentosaUlisse Bocchero, Beatrice M Tam, Colette N Chiu, et al.
Methods in Molecular Biology (Clifton, N.J.)|October 17, 2018
Generation and Analysis of Xenopus laevis Models of Retinal Degeneration Using CRISPR/Cas9Joanna M Feehan, Paloma Stanar, Beatrice M Tam, et al.
Advances in Experimental Medicine and Biology|December 30, 2019
Autophagy Induction by HDAC Inhibitors Is Unlikely to be the Mechanism of Efficacy in Prevention of Retinal Degeneration Caused by P23H RhodopsinRunxia H Wen, Aaron D Loewen, Ruanne Y J Vent-Schmidt, et al.
Biorxiv : the Preprint Server for Biology|June 19, 2024
Prominin-1 null Xenopus laevis develop subretinal drusenoid-like deposits, cone-rod dystrophy, and RPE atrophyBrittany J Carr, Dominic Skitsko, Jun Song, et al.
Investigative Ophthalmology & Visual Science|December 2, 2025
A Survey of Opsin Localization, Glycosylation, and Light/Chromophore Influence on Degeneration in 26 Rhodopsin-Associated RP ModelsAaron D Loewen, Beatrice M Tam, Colette N Chiu, et al.
Pageof 6