An Inducible Expression System to Measure Rhodopsin Transport in Transgenic Xenopus Rod Outer Segments |
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Authors: | Xinming Zhuo Mohammad Haeri Eduardo Solessio Barry E. Knox |
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Affiliation: | Departments of Neuroscience and Physiology, Biochemistry and Molecular Biology and Ophthalmology, SUNY Upstate Medical University, Syracuse, New York, United States of America.; Muséum National d''Histoire Naturelle, France, |
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Abstract: | We developed an inducible transgene expression system in Xenopus rod photoreceptors. Using a transgene containing mCherry fused to the carboxyl terminus of rhodopsin (Rho-mCherry), we characterized the displacement of rhodopsin (Rho) from the base to the tip of rod outer segment (OS) membranes. Quantitative confocal imaging of live rods showed very tight regulation of Rho-mCherry expression, with undetectable expression in the absence of dexamethasone (Dex) and an average of 16.5 µM of Rho-mCherry peak concentration after induction for several days (equivalent to >150-fold increase). Using repetitive inductions, we found the axial rate of disk displacement to be 1.0 µm/day for tadpoles at 20 °C in a 12 h dark /12 h light lighting cycle. The average distance to peak following Dex addition was 3.2 µm, which is equivalent to ~3 days. Rods treated for longer times showed more variable expression patterns, with most showing a reduction in Rho-mCherry concentration after 3 days. Using a simple model, we find that stochastic variation in transgene expression can account for the shape of the induction response. |
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