Kinetics of human cone photopigments explained with a Rushton-Henry model
- 1 January 1988
- journal article
- research article
- Published by Springer Nature in Biological Cybernetics
- Vol. 58 (2), 123-128
- https://doi.org/10.1007/bf00364158
Abstract
Densitrometric measurements of the regeneration of cone visual photopigments have shown effects that cannot be explained by the existing quantitative models. Regeneration from a fully bleached state seems to depend on how this state has been reached and the shape of the regeneration curve cannot be produced by a first order reaction. Rushton and Henry (1968) proposed a store of 11-cis-retinal to explain rapid regeneration after a short bleach. We elaborated this idea into a quantitative model. Regeneration after three different bleach histories and steady state behaviour of the pigments was measured using the Utrecht densitometer. The Rushton-Henry model gives a good fit to the data and is clearly superior to the classical Rushton model in describing densitometric measurements.This publication has 13 references indexed in Scilit:
- Intensity and polarization of light scattered at small angles from the human foveaVision Research, 1986
- Densitometric measurement of human cone photopigment kineticsVision Research, 1982
- A continuously recording retinal densitometerVision Research, 1981
- Rhodopsin kinetics in the cat retina.The Journal of general physiology, 1981
- Bleaching of visual pigment in steady illuminationBiological Cybernetics, 1975
- Dark Adaptation and Visual Pigment Regeneration in Human ConesThe Journal of general physiology, 1973
- Retinol Transport and Regeneration of Human Cone PhotopigmentNature New Biology, 1972
- Gravitational Separation of X and Y SpermatozoaNature, 1972
- The kinetics of cone visual pigments in manVision Research, 1971
- Bleaching and regeneration of cone pigments in manVision Research, 1968