PURPOSE: Diffusion coefficients of various retinoids have not been measured previously. It is important to know the diffusion coefficients of the retinoids because this property might be rate-limiting in dark adaptation. Also, retinoid diffusion is important to explore given that rhodopsin regeneration is not impaired in IRBP knockout mice. METHODS: Measurements of lateral diffusion coefficients (D) of 9-cis-retinal, all-trans-retinal, and all-trans-retinol were made by Fourier transform pulsed-gradient spin-echo NMR measurements (FT-PGSE NMR) in several solvents. Also,(3)H-all-trans-retinoic acid was used to measure diffusion from an aqueous agarose matrix and absorption into a toluene based scintillation fluid in a biphase assay. RESULTS: In a 1:1 mixture of CD(3)OD:D(2)O the D's of the retinoids were, 2.4 to 3.0 x 10(-6)cm( 2)/s. In the biphase assay,(3)H-all trans-retinoic acid exhibited a diffusion coefficient of 2.3 x 10(-6)cm(2)/s. CONCLUSIONS: The lower than expected D for retinoids and our calculations suggest that mechanisms in addition to pure aqueous diffusion may be needed to account for normal rhodopsin regeneration rates in the mammalian retina.
PURPOSE: Diffusion coefficients of various retinoids have not been measured previously. It is important to know the diffusion coefficients of the retinoids because this property might be rate-limiting in dark adaptation. Also, retinoid diffusion is important to explore given that rhodopsin regeneration is not impaired in IRBP knockout mice. METHODS: Measurements of lateral diffusion coefficients (D) of 9-cis-retinal, all-trans-retinal, and all-trans-retinol were made by Fourier transform pulsed-gradient spin-echo NMR measurements (FT-PGSE NMR) in several solvents. Also,(3)H-all-trans-retinoic acid was used to measure diffusion from an aqueous agarose matrix and absorption into a toluene based scintillation fluid in a biphase assay. RESULTS: In a 1:1 mixture of CD(3)OD:D(2)O the D's of the retinoids were, 2.4 to 3.0 x 10(-6)cm( 2)/s. In the biphase assay,(3)H-all trans-retinoic acid exhibited a diffusion coefficient of 2.3 x 10(-6)cm(2)/s. CONCLUSIONS: The lower than expected D for retinoids and our calculations suggest that mechanisms in addition to pure aqueous diffusion may be needed to account for normal rhodopsin regeneration rates in the mammalian retina.
Authors: Sebastien G M Uzel; Ovid C Amadi; Taylor M Pearl; Richard T Lee; Peter T C So; Roger D Kamm Journal: Small Date: 2015-11-30 Impact factor: 13.281
Authors: Brian O'Grady; Daniel A Balikov; Jason X Wang; Emma K Neal; Yu-Chuan Ou; Rizia Bardhan; Ethan S Lippmann; Leon M Bellan Journal: Biomater Sci Date: 2019-03-26 Impact factor: 6.843
Authors: Christopher J Demers; Prabakaran Soundararajan; Phaneendra Chennampally; Gregory A Cox; James Briscoe; Scott D Collins; Rosemary L Smith Journal: Development Date: 2016-06-01 Impact factor: 6.868